netX 50/51/52
Transcription
netX 50/51/52
Design-In Guide netX 50/51/52 Hilscher Gesellschaft für Systemautomation mbH www.hilscher.com DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public Introduction 2/334 Table of Contents 1 Introduction.............................................................................................................................................5 1.1 About this Document......................................................................................................................5 1.2 List of Revisions .............................................................................................................................6 1.3 References to Documents..............................................................................................................6 1.4 Legal Notes ....................................................................................................................................7 1.4.1 1.4.2 1.4.3 1.4.4 1.4.5 2 Copyright ........................................................................................................................................... 7 Important Notes................................................................................................................................. 7 Exclusion of Liability .......................................................................................................................... 8 Warranty............................................................................................................................................ 8 Export Regulation .............................................................................................................................. 8 Quick Start ..............................................................................................................................................9 2.1 netX 50 ...........................................................................................................................................9 2.1.1 2.1.2 2.1.3 2.1.4 2.1.5 2.1.6 2.1.7 2.1.8 2.1.9 2.1.10 2.2 netX 51 .........................................................................................................................................83 2.2.1 2.2.2 2.2.3 2.2.4 2.2.5 2.2.6 2.2.7 2.2.8 2.2.9 2.2.10 2.2.11 2.3 Ethernet/Real Time Ethernet with 3. External PHY ......................................................................... 83 Ethernet/Real Time Ethernet ........................................................................................................... 92 PROFINET Fast Startup (FSU) ....................................................................................................... 99 PROFINET Fiber Optic (FO) ......................................................................................................... 106 PROFINET Fiber Optic (FO) Fast Startup (FSU) .......................................................................... 115 AS-Interface .................................................................................................................................. 124 CANopen....................................................................................................................................... 131 CC-Link ......................................................................................................................................... 138 CompoNet ..................................................................................................................................... 145 DeviceNet...................................................................................................................................... 152 PROFIBUS .................................................................................................................................... 159 netX 52 .......................................................................................................................................166 2.3.1 2.3.2 2.3.3 2.3.4 2.3.5 2.3.6 2.3.7 2.3.8 2.3.9 2.3.10 2.4 Ethernet/Real Time Ethernet ............................................................................................................. 9 PROFINET Fast Startup (FSU) ....................................................................................................... 16 PROFINET Fiber Optic (FO) ........................................................................................................... 23 PROFINET Fiber Optic (FO) Fast Startup (FSU) ............................................................................ 32 AS-Interface .................................................................................................................................... 41 CANopen......................................................................................................................................... 48 CC-Link ........................................................................................................................................... 55 CompoNet ....................................................................................................................................... 62 DeviceNet........................................................................................................................................ 69 PROFIBUS ...................................................................................................................................... 76 Ethernet/Real Time Ethernet ......................................................................................................... 166 Ethernet/Real Time Ethernet with 3. External PHY ....................................................................... 173 PROFINET Fast Startup (FSU) ..................................................................................................... 181 PROFINET Fiber Optic (FO) Fast Startup (FSU) .......................................................................... 188 AS-Interface .................................................................................................................................. 197 CANopen....................................................................................................................................... 204 CC-Link ......................................................................................................................................... 211 CompoNet ..................................................................................................................................... 218 DeviceNet...................................................................................................................................... 225 PROFIBUS .................................................................................................................................... 232 Miscellaneous Circuits ...............................................................................................................239 2.4.1 2.4.2 2.4.3 2.4.4 2.4.5 2.4.6 RS232 ........................................................................................................................................... 239 RS422 ........................................................................................................................................... 241 RS485 ........................................................................................................................................... 243 RS232, RS422 and RS485 in one Circuit...................................................................................... 245 MMC/SD-Card und SPI-FLASH .................................................................................................... 247 ETM netX 50/51 ............................................................................................................................ 249 3 Resource Overview ............................................................................................................................251 3.1 rcX Operating System ................................................................................................................251 3.2 Memory Requirements of Hilscher Stacks.................................................................................252 4 Standard Circuits ...............................................................................................................................253 4.1 netX 51/52 Chip Mode Selection ...............................................................................................253 4.1.1 Chip Mode Selection netX 51 ........................................................................................................ 253 4.1.2 Chip Mode Selection netX 52 ........................................................................................................ 253 4.2 4.3 Booting and System LEDs .........................................................................................................254 Secure EEPROM .......................................................................................................................258 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Introduction 4.4 3/334 Crystals, Clock Generators ........................................................................................................261 4.4.1 System Clock ................................................................................................................................ 261 4.5 4.6 Power On Reset and Reset In ...................................................................................................262 Debug and Test Interfaces.........................................................................................................263 4.6.1 4.6.2 4.6.3 4.6.4 4.7 JTAG Interface .............................................................................................................................. 263 Hilscher “mini-JTAG” Connector.................................................................................................... 265 ETM Interface................................................................................................................................ 266 Boundary Scan.............................................................................................................................. 267 External Memory ........................................................................................................................269 4.7.1 FLASH Memory............................................................................................................................. 269 4.7.1.1 SPI FLASH ................................................................................................................... 269 4.7.1.2 QSPI FLASH ................................................................................................................ 270 4.7.1.3 MMC/SD Card .............................................................................................................. 273 4.7.1.4 Parallel FLASH ............................................................................................................. 274 4.7.2 SDRAM ......................................................................................................................................... 277 4.8 Host Interface.............................................................................................................................279 4.8.1 DPM Mode .................................................................................................................................... 279 4.8.1.1 DPM Control Lines ....................................................................................................... 279 4.8.1.2 Address Bus ................................................................................................................. 279 4.8.1.3 Non-multiplexed Mode.................................................................................................. 280 4.8.1.4 Multiplexed Mode ......................................................................................................... 282 4.8.1.5 RDY / WAIT Signal ....................................................................................................... 283 4.8.2 Extension Bus Mode ..................................................................................................................... 284 4.8.2.1 Non-multiplex Mode...................................................................................................... 284 4.8.2.2 Multiplex Mode ............................................................................................................. 286 4.8.3 External pull-ups/pull-downs, unused signals................................................................................ 287 4.9 UARTs........................................................................................................................................288 4.10 USB ............................................................................................................................................289 4.10.1 Device Mode ................................................................................................................................. 289 4.10.2 Host Mode (only netX 50).............................................................................................................. 290 4.11 Ethernet Interface.......................................................................................................................292 4.11.1 Twisted Pair................................................................................................................................... 292 4.11.2 Fiber Optic..................................................................................................................................... 295 4.11.2.1 Transceivers with internal AC-termination .................................................................... 295 4.11.2.2 PCB Layout considerations .......................................................................................... 298 4.11.2.3 Diagnostic Monitoring Interface .................................................................................... 299 4.11.3 Ethernet PHYs unused .................................................................................................................. 301 4.11.4 Ethernet Status LEDs .................................................................................................................... 302 4.11.5 Real Time Ethernet ....................................................................................................................... 303 4.11.5.1 Sync signals ................................................................................................................. 303 4.11.5.2 RTE Status LEDs ......................................................................................................... 305 4.11.5.3 Fast Start Up feature (PROFINET)............................................................................... 306 4.12 Fieldbus Interface.......................................................................................................................307 4.12.1 4.12.2 4.12.3 4.12.4 4.12.5 4.12.6 4.12.7 AS-Interface Master....................................................................................................................... 308 CANopen Interface ........................................................................................................................ 309 CC-Link Interface .......................................................................................................................... 310 CompoNet Interface ...................................................................................................................... 311 DeviceNet Interface ....................................................................................................................... 312 PROFIBUS Interface ..................................................................................................................... 313 Fieldbus Status LEDs .................................................................................................................... 314 4.13 Power Supply .............................................................................................................................315 4.13.1 4.13.2 4.13.3 4.13.4 5 Core Voltage Regulator ................................................................................................................. 315 Alternative Core Voltage Regulator ............................................................................................... 316 Common Supply Voltage Regulator 3.3V ...................................................................................... 316 Voltage Regulator 5V .................................................................................................................... 317 General Design Considerations........................................................................................................318 5.1 Thermal Behavior.......................................................................................................................318 5.1.1 5.1.2 5.1.3 5.1.4 5.2 Basics............................................................................................................................................ 318 Estimates....................................................................................................................................... 318 Recommendations ........................................................................................................................ 319 Rules of thumb .............................................................................................................................. 320 EMC Behavior ............................................................................................................................321 5.2.1 5.2.2 5.2.3 5.2.4 5.2.5 Layer Stack ................................................................................................................................... 321 Decoupling Capacitors .................................................................................................................. 322 Power Supply Input Filter .............................................................................................................. 323 Reset Lines ................................................................................................................................... 324 Clock Circuits ................................................................................................................................ 324 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Introduction 5.2.6 5.2.7 5.2.8 5.2.9 4/334 Ethernet Interface .......................................................................................................................... 325 Memory Bus .................................................................................................................................. 326 Planes ........................................................................................................................................... 327 VIAs and Signal Fan Out under netX 50/51/52.............................................................................. 328 6 Reference Section ..............................................................................................................................329 6.1 Crystals ......................................................................................................................................329 6.2 Memory Components.................................................................................................................329 7 Appendix .............................................................................................................................................332 7.1 List of Tables..............................................................................................................................332 7.2 List of Figures.............................................................................................................................332 8 Contacts ..............................................................................................................................................334 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Introduction 1 1.1 5/334 Introduction About this Document This document is directed to hardware developers creating a hardware design with a communication controller of the Hilscher netX family. It does not explain netX technology and features, which is covered by the corresponding Technical Data Reference Guides. It describes the standard circuitry around all netX interfaces like memory interface (SDRAM, FLASH) USB, UARTs, XMACs (Ethernet and field bus), LCD, as well as power supply, reset and clock circuits along with the standard netX I/O resources (PIOs, GPIOs) that have been assigned a default functionality at Hilscher. This includes Status LEDs, control signals and sync signals for RTE applications Although the system designer is basically completely free to select any available I/Os for I/O purposes, it is important that he complies with the standard port definitions, whenever loadable Firmware from Hilscher is to be used, as this kind of firmware necessarily assumes compliance with Hilscher standard assignments. Note: Designers should be aware, that not all components supported by netX hardware (e.g. parallel FLASH) are necessarily also supported by existing software / firmware or tools from Hilscher! Hence it is strongly recommended, to consult the feature table in the following chapter, to make sure that all desired hardware features of the planned design are eventually supported by the firmware that will run on the design. This applies not only, but particularly to customers planning to use loadable firmware from Hilscher instead of doing own firmware development. Resources that are currently not supported by loadable Firmware or where no drivers / code are yet available may still already be supported by existing Hilscher devices (e.g. Gateways). It is hence recommended to check with Hilscher Sales, if there is already an existing solution for your problem. Further, Hilscher offers several custom design services for netX hard- and software, as well as manufacturing services, providing an easy way to your custom product. For detailed information and quotes, please contact Hilscher Sales. Hilscher also offers a schematic review service, allowing your hardware design to be checked by netX experienced hardware engineers. Hilscher Sales will be happy to provide an individual quote for this service, after receiving your schematics (PDF format). Note: Before starting a design, it is strongly recommended, to consult the latest Errata Sheets (available on the Hilscher website www.hilscher.com) of the netX controllers! netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Introduction 1.2 6/334 List of Revisions Rev Date Name Chapter Revision 1 2012-10-18 JL, MM All Created 2 2013-03-19 MM All netX 52 added 2 Section Quick Start: Correction in all schematics named ‘core’: 1. R110 and R111 as pull-up to 3.3 V, 2. C107 (Pin 8 of Secure EEPROM) and C108 (Capacity) connected to 3.3 V, 3. C105 and C106 have a capacity of 22 pF. Table 1: List of Revisions 1.3 References to Documents This document refers to the following documents: [1] Hilscher Gesellschaft für Systemautomation mbH: Technical Data Reference Guide, netX 51/52, english, 2013. Table 2: References to Documents netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Introduction 1.4 1.4.1 7/334 Legal Notes Copyright © Hilscher, 2008-2013, Hilscher Gesellschaft für Systemautomation mbH All rights reserved. The images, photographs and texts in the accompanying material (user manual, accompanying texts, documentation, etc.) are protected by German and international copyright law as well as international trade and protection provisions. You are not authorized to duplicate these in whole or in part using technical or mechanical methods (printing, photocopying or other methods), to manipulate or transfer using electronic systems without prior written consent. You are not permitted to make changes to copyright notices, markings, trademarks or ownership declarations. The included diagrams do not take the patent situation into account. The company names and product descriptions included in this document may be trademarks or brands of the respective owners and may be trademarked or patented. Any form of further use requires the explicit consent of the respective rights owner. 1.4.2 Important Notes The user manual, accompanying texts and the documentation were created for the use of the products by qualified experts, however, errors cannot be ruled out. For this reason, no guarantee can be made and neither juristic responsibility for erroneous information nor any liability can be assumed. Descriptions, accompanying texts and documentation included in the user manual do not present a guarantee nor any information about proper use as stipulated in the contract or a warranted feature. It cannot be ruled out that the user manual, the accompanying texts and the documentation do not correspond exactly to the described features, standards or other data of the delivered product. No warranty or guarantee regarding the correctness or accuracy of the information is assumed. We reserve the right to change our products and their specification as well as related user manuals, accompanying texts and documentation at all times and without advance notice, without obligation to report the change. Changes will be included in future manuals and do not constitute any obligations. There is no entitlement to revisions of delivered documents. The manual delivered with the product applies. Hilscher Gesellschaft für Systemautomation mbH is not liable under any circumstances for direct, indirect, incidental or follow-on damage or loss of earnings resulting from the use of the information contained in this publication. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Introduction 1.4.3 8/334 Exclusion of Liability The software was produced and tested with utmost care by Hilscher Gesellschaft für Systemautomation mbH and is made available as is. No warranty can be assumed for the performance and flawlessness of the software for all usage conditions and cases and for the results produced when utilized by the user. Liability for any damages that may result from the use of the hardware or software or related documents, is limited to cases of intent or grossly negligent violation of significant contractual obligations. Indemnity claims for the violation of significant contractual obligations are limited to damages that are foreseeable and typical for this type of contract. It is strictly prohibited to use the software in the following areas: • for military purposes or in weapon systems; • for the design, construction, maintenance or operation of nuclear facilities; • in air traffic control systems, air traffic or air traffic communication systems; • in life support systems; • in systems in which failures in the software could lead to personal injury or injuries leading to death. We inform you that the software was not developed for use in dangerous environments requiring fail-proof control mechanisms. Use of the software in such an environment occurs at your own risk. No liability is assumed for damages or losses due to unauthorized use. 1.4.4 Warranty Although the hardware and software was developed with utmost care and tested intensively, Hilscher Gesellschaft für Systemautomation mbH does not guarantee its suitability for any purpose not confirmed in writing. It cannot be guaranteed that the hardware and software will meet your requirements, that the use of the software operates without interruption and that the software is free of errors. No guarantee is made regarding infringements, violations of patents, rights of ownership or the freedom from interference by third parties. No additional guarantees or assurances are made regarding marketability, freedom of defect of title, integration or usability for certain purposes unless they are required in accordance with the law and cannot be limited. Warranty claims are limited to the right to claim rectification. 1.4.5 Export Regulation The delivered product (including the technical data) is subject to export or import laws as well as the associated regulations of different counters, in particular those of Germany and the USA. The software may not be exported to countries where this is prohibited by the United States Export Administration Act and its additional provisions. You are obligated to comply with the regulations at your personal responsibility. We wish to inform you that you may require permission from state authorities to export, re-export or import the product. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 2 22pF 2 1 22pF 2 C106 1 C105 GND 4 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 +1V5 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 3 0603 0603 2 OSC_XTO TEST TMC1 TMC2 TACT_TRST MEM_IF_OM OSC_XTI T8 L6 L5 K6 K5 J5 RSTOUT# GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 USB_DNEG USB_DPOS MICRO-NETX50-2230.000 6 CORE 7 1 8 2 1 RDY RUN 10k R105 USB_DNEG V8 8 USB_DPOS SPI_MISO SPI_MOSI SPI_CLK SPI_CS0# GND 2 1.5k +3V3 R110 U8 U2 V2 V3 T6 V6 U6 T7 V7 U15 V16 V15 U14 T14 C1 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX50-2230.000 USB_VDDIO K101-H MICRO-NETX50-2230.000 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# K101-E MICRO-NETX50-2230.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 K101-N MICRO-NETX50-2230.000 SPI_MISO SPI_MOSI SPI_CLK SPI_CS0# SPI_CS1# K101-G MICRO-NETX50-2230.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A Real Time Ethernet +3V3 GND B1 D2 7 netX50 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 0603 1nF 1 GND POR# 6 0603 0603 1 1.5k 2 GND GND 2 5 1.5k 3 0603 C101 9 4 3 22 22 0603 GND 7 10 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 ROM 32Mbit 1 MOSI 2 SCK 4 CS# R1022 DSN65220DBVT R103 8 C108 GND 2 390 GND GND 2 12 11 PE DD+ 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 12 USB Device C102 GND RDY/RUN LED 0603 100nF 1 +3V3 390 0603 R1092 1 0603 R1082 1 3 4 yellow LEDSYG 2 P101 1 green SEC. MEM 11 0603 100nF 1 +3V3 SPI FLASH RDY RUN X102 2 1 560 0603 560 0603 R1072 RUN 1 R1062 RDY 1 R1012 D+ USB_DPOS 1 USB_DNEG 1 VCC ROM 1k C107 10 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU POR# R111 R104 A B 6 4 2 1 9 13 13 4 Page of 14 1 Page 14 J I H G F E D C B A 2.1.1 0603 2.1 0603 2 SPI_MISO A 1 Quick Start 9/334 Quick Start netX 50 Ethernet/Real Time Ethernet © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B A 1 Checked Edited 1 DPM Interface Date Name Date Name 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 TCLK PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX50-2230.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_INT DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# 28.02.2012 2 K101-C netX50 3 DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 5 4 www.hilscher.com 5 6 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 J7 H8 A16 A17 K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 0 A 4M 7 8 A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 9 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE BA0 BA1 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 RAM 512k x 32 C201 D[0:31] SDRAM/HOST_INTERFACE 6 9 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 8MB SDRAM 8 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A[0:17] 7 Real Time Ethernet MICRO-NETX50-2230.000 MEMDR_CS# MEMDR_RAS# MEMDR_CAS# MEMDR_WE# MEMDR_CLK MEMDR_CKE L4 M3 M5 N3 M4 L3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX50 Hilscher Gesellschaft für Systemautomatiom mbH B11 4 C202 2 C204 10 0603 100nF 1 2 0603 100nF 1 10 C203 GND 2 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 11 11 12 12 GPIO00 GPIO01 GPIO02 GPIO03 GPIO04 GPIO05 GPIO06 GPIO07 GPIO08 GPIO09 GPIO10 GPIO11 GPIO24 GPIO25 GPIO26 GPIO27 GPIO32 GPIO33 GPIO34 GPIO35 13 MICRO-NETX50-2230.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX50-2230.000 MMIO32 MMIO33 MMIO34 MMIO35 K101-Q MICRO-NETX50-2230.000 MMIO24 MMIO25 MMIO26 MMIO27 K101-O MICRO-NETX50-2230.000 MMIO08 MMIO09 MMIO10 MMIO11 K101-L MICRO-NETX50-2230.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K MICRO-NETX50-2230.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX50 13 V13 U13 T13 V14 V12 T11 U12 T12 U7 R8 V9 U9 M1 N1 N2 P1 K2 K1 L1 M2 H1 J1 J2 L2 14 Page of Page 14 4 2 J I H G F E D C B A Quick Start 10/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited PHY0_RXN Date Name L18 GPIO12 GPIO13 GPIO14 GPIO15 GPIO28 GPIO29 GPIO30 GPIO31 K101-P 2 28.02.2012 Matthias Melzer T9 U10 T10 U11 R1 U1 T1 V1 K18 PHY_EXTRES L15 PHY_ATP K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN MICRO-NETX50-2230.000 Date M17 L16 +1V5E M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART MICRO-NETX50-2230.000 Name P18 P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 K101-M MMIO28 MMIO29 MMIO30 MMIO31 N17 T18 +1V5E N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART MICRO-NETX50-2230.000 MMIO12 MMIO13 MMIO14 MMIO15 M15 +1V5E R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3E PHY_VDDIOAT M16 +3V3E PHY_VDDIOAC K101-B 0603 3 12.4k R3092 1 2 0603 100nF 2 0805 1 10uF C302 1 1 2 0603 50 4 www.hilscher.com 5 +1V5 50 50 6 7 ETHERNET Real Time Ethernet 8 Real Time Ethernet Status LEDs GND 2 0603 1 2 50 5 50 6 50 7 50 8 1 R306-D 4 R306-C 3 2 0603 1 2 1 R303-D 9 9 R306-B +3V3E GND 50 5 4 +3V3E R303-C 8 2 6 3 GND 1206 Z=600 Ohm @100MHz 2 R302 1 R303-B 10uF C304 +3V3 2 1206 Z=600 Ohm @100MHz R301 1 7 R306-A 7 2 2 6 1 8 1 0805 R303-A 100nF C303 Hilscher Gesellschaft für Systemautomatiom mbH C301 X4 X4 1 5 X4 X4 4 X4 X4 netX50 3 X4 X4 2 0603 0603 10nF C307 10 R307 10nF C305 10 R304 1 1 2 0603 1 2 0603 2 0603 1 2 0603 A 1 10 10nF C308 10 R308 10nF C306 10 R305 10 GND 11 COM1 COM0 11 7A 19 8A 20 1A 13 4A 16 2A 14 3A 15 5A 17 6A 18 1 green 1210 1 green 1210 12 3 red LEDSRG 4 2 P302 3 red LEDSRG 4 2 470 0603 13 R3172 1 270 0603 R3162 1 470 0603 R3152 1 270 0603 R3142 1 270 0603 270 0603 R3132 2311A 1 AA_YELLOW 12A 24 CA_YELLOW R3122 1 X301-B 21 9A AA_GREEN P301 270 0603 X301-A 10A 22 CA_GREEN X301-D PE PE 7A 7 8A 8 1111A 1 AA_YELLOW 12A 12 CA_YELLOW 270 R3112 9 9A AA_GREEN 1 4 2 3 5 6 0603 13 R3102 1 10A 10 CA_GREEN 1A 4A 2A 3A 5A 6A X301-C 12 14 Page of Page RXN1 TXN1 RXP1 TXP1 RXN0 TXN0 RXP0 TXP0 +3V3 6 4 5 7 8 2 3 1 6 4 5 7 8 2 3 1 +3V3 14 4 3 J I H G F E D C B A Quick Start 11/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 28.02.2012 2 2 GND1 9 C402 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C407 1 2 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 6 7 POWER_SUPPLY Real Time Ethernet R410 1.8k R409 GND GND 2 G C405 3 FDC5612 6 K401 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 COMP Matthias Melzer 2 1 1210 10uF C410 0805 22uF 1 +3V3 2.2k R407 1 C401 C409 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF C414 10uF C412 9 9 2 0603 1 2 0603 1 100nF C415 100nF C413 A5 B5 C5 D4 D6 D14 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 E14 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N6 N7 N14 P5 P6 P15 R9 R16 T17 U18 10 GND +1V5 10 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 11 MICRO-NETX50-2230.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 K101-I netX50 11 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C421 100nF C419 100nF C417 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C420 10uF C418 10uF C416 13 14 Page of Page 14 4 4 J I H G F E D C B A Quick Start 12/334 © Hilscher, 2008-2013 Quick Start 13/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 50 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin PART TYPE PART NAME Page 2 REF DES C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 14/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 10µF 10V 0805 C305 Ceramic Capacitor 10nF 50V 0603 C306 Ceramic Capacitor 10nF 50V 0603 C307 Ceramic Capacitor 10nF 50V 0603 C308 Ceramic Capacitor 10nF 50V 0603 P301 LED red / green HSMF-C155 P302 LED red / green HSMF-C155 R301 Ferrite 100MHz 600Ω 1A 1206 R302 Ferrite 100MHz 600Ω 1A 1206 R303 Resistor 4x 50Ω 62mW 1206 R304 Resistor 10Ω 63mW 0603 R305 Resistor 10Ω 63mW 0603 R306 Resistor 4x 50Ω 62mW 1206 R307 Resistor 10Ω 63mW 0603 R308 Resistor 10Ω 63mW 0603 R309 Resistor 12.4kV 63mW 0603 R310 Resistor 270Ω 63mW 0603 R311 Resistor 270Ω 63mW 0603 R312 Resistor 270Ω 63mW 0603 R313 Resistor 270Ω 63mW 0603 R314 Resistor 270Ω 63mW 0603 R315 Resistor 470Ω 63mW 0603 R316 Resistor 270Ω 63mW 0603 R317 Resistor 470Ω 63mW 0603 X301 RJ45 ERNI-203313 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 15/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 22pF 2 1 22pF 2 C106 1 C105 GND 4 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 +1V5 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 3 0603 0603 OSC_XTO T8 RSTOUT# GPIO24 GPIO25 GPIO26 GPIO27 USB_DNEG USB_DPOS 1 GND 2 10k USB_DPOS USB_DNEG V8 MICRO-NETX50-2230.000 SPI_MOSI SPI_MISO IO2 IO3 SPI_CLK SPI_CS0# 1 1.5k GND 2 5 GND A B 6 4 2 6 CORE 7 8 1 2 1.5k 9 9 SN65220DBVT R103 8 1 3 4 X102 2 C101 ROM 32Mbit 22 22 0603 10 W25Q32VSSIG HOLD#(IO3) 4 WP#(IO2) GND 0603 7 3 2 DI(IO0) DO(IO1) 8 VCC 6 CLK 1 CS# 5 C108 GND 2 2 GND 390 0603 390 0603 GND C102 11 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI DD+ X101 12 USB Device PE GND 2 0603 100nF 1 12 RDY/RUN LED +3V3 R1092 1 R1082 1 3 4 yellow LEDSYG 1 green SEC. MEM 11 0603 100nF 1 +3V3 P101 SPI FLASH RDY RUN 560 0603 560 0603 R1072 RUN 1 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU VCC ROM 1k R1022 DUSB_DNEG 1 10 C107 R1012 D+ USB_DPOS 1 IO3 IO2 R111 R104 R105 U8 U7 R8 V9 U9 U2 V2 V3 T6 V6 U6 T7 V7 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX50-2230.000 USB_VDDIO K101-H MICRO-NETX50-2230.000 MMIO24 MMIO25 MMIO26 MMIO27 K101-O MICRO-NETX50-2230.000 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 K101-N MICRO-NETX50-2230.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 C1 2 RDY RUN 1.5k +3V3 R110 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G MICRO-NETX50-2230.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A TEST TMC1 TMC2 TACT_TRST MEM_IF_OM OSC_XTI 1 8 PROFINET FAST STARTUP +3V3 GND 2 B1 D2 7 netX50 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 0603 1nF 1 GND POR# 6 0603 0603 B 2 0603 0603 13 13 4 Page of 14 1 Page 14 J I H G F E D C B A 2.1.2 SPI_MISO A 1 Quick Start 16/334 PROFINET Fast Startup (FSU) © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B A 1 Checked Edited 1 DPM Interface Date Name Date Name 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 TCLK PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX50-2230.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_INT DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# 24.01.2013 2 K101-C netX50 3 DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 5 4 www.hilscher.com 5 6 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 J7 H8 A16 A17 K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 0 A 4M 7 8 A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 9 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE BA0 BA1 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 RAM 512k x 32 C201 D[0:31] SDRAM/HOST_INTERFACE 6 9 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 8MB SDRAM 8 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A[0:17] 7 PROFINET FAST STARTUP MICRO-NETX50-2230.000 MEMDR_CS# MEMDR_RAS# MEMDR_CAS# MEMDR_WE# MEMDR_CLK MEMDR_CKE L4 M3 M5 N3 M4 L3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX50 Hilscher Gesellschaft für Systemautomatiom mbH B11 4 C202 2 C204 10 0603 100nF 1 2 0603 100nF 1 10 C203 GND 2 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 11 11 12 12 GPIO00 GPIO01 GPIO02 GPIO03 GPIO04 GPIO05 GPIO06 GPIO07 GPIO08 GPIO09 GPIO10 GPIO11 GPIO32 GPIO33 GPIO34 GPIO35 13 MICRO-NETX50-2230.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX50-2230.000 MMIO32 MMIO33 MMIO34 MMIO35 K101-Q MICRO-NETX50-2230.000 MMIO08 MMIO09 MMIO10 MMIO11 K101-L MICRO-NETX50-2230.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K MICRO-NETX50-2230.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J MICRO-NETX50-2230.000 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# K101-E netX50 13 V13 U13 T13 V14 V12 T11 U12 T12 M1 N1 N2 P1 K2 K1 L1 M2 H1 J1 J2 L2 L6 L5 K6 K5 J5 14 Page of Page 14 4 2 J I H G F E D C B A Quick Start 17/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited PHY0_RXN Date Name L18 GPIO12 GPIO13 GPIO14 GPIO15 GPIO28 GPIO29 GPIO30 GPIO31 K101-P 2 24.01.2013 Matthias Melzer T9 U10 T10 U11 R1 U1 T1 V1 K18 PHY_EXTRES L15 PHY_ATP K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN MICRO-NETX50-2230.000 Date M17 L16 +1V5E M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART MICRO-NETX50-2230.000 Name P18 P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 K101-M MMIO28 MMIO29 MMIO30 MMIO31 N17 T18 +1V5E N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART MICRO-NETX50-2230.000 MMIO12 MMIO13 MMIO14 MMIO15 M15 +1V5E R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3E PHY_VDDIOAT M16 +3V3E PHY_VDDIOAC K101-B 0603 3 12.4k R3092 1 2 0603 100nF 2 0805 1 10uF C302 1 1 2 0603 50 4 www.hilscher.com 5 +1V5 50 50 6 7 ETHERNET 8 PROFINET FAST STARTUP GND 2 0603 1 2 50 5 50 6 50 7 50 8 1 R306-D 4 R306-C 3 2 0603 1 2 1 R303-D 9 9 R306-B +3V3E GND 50 5 4 +3V3E R303-C 8 2 6 3 GND 1206 Z=600 Ohm @100MHz 2 R302 1 R303-B 10uF C304 +3V3 2 1206 Z=600 Ohm @100MHz R301 1 7 R306-A 7 2 2 6 1 8 1 0805 R303-A 100nF C303 Hilscher Gesellschaft für Systemautomatiom mbH C301 X4 X4 1 5 X4 X4 4 X4 X4 netX50 3 X4 X4 2 0603 0603 10nF C307 10 R307 10nF C305 10 R304 1 1 2 0603 1 2 0603 2 0603 1 2 0603 A 1 10 10nF C308 10 R308 10nF C306 10 R305 10 GND 11 COM1 COM0 11 7A 19 8A 20 1A 13 4A 16 2A 14 3A 15 5A 17 6A 18 1 green 1210 1 green 1210 12 3 red LEDSRG 4 2 P302 3 red LEDSRG 4 2 470 0603 13 R3172 1 270 0603 R3162 1 470 0603 R3152 1 270 0603 R3142 1 270 0603 270 0603 R3132 2311A 1 AA_YELLOW 12A 24 CA_YELLOW R3122 1 X301-B 21 9A AA_GREEN P301 270 0603 X301-A 10A 22 CA_GREEN X301-D PE PE 7A 7 8A 8 1111A 1 AA_YELLOW 12A 12 CA_YELLOW 270 R3112 9 9A AA_GREEN 1 4 2 3 5 6 0603 13 R3102 1 10A 10 CA_GREEN 1A 4A 2A 3A 5A 6A X301-C 12 14 Page of Page RXN1 TXN1 RXP1 TXP1 RXN0 TXN0 RXP0 TXP0 +3V3 6 4 5 7 8 2 3 1 6 4 5 7 8 2 3 1 +3V3 14 4 3 J I H G F E D C B A Quick Start 18/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 24.01.2013 2 2 GND1 9 C402 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C407 1 2 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 8 GND 2 0805 1 GND 2 0805 1 10uF C414 10uF C412 6 7 POWER_SUPPLY 8 PROFINET FAST STARTUP R410 1.8k R409 GND GND 2 G C405 3 FDC5612 6 K401 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 COMP Matthias Melzer 2 1 1210 10uF C410 0805 22uF 1 +3V3 2.2k R407 1 C401 C409 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 9 9 2 0603 1 2 0603 1 100nF C415 100nF C413 A5 B5 C5 D4 D6 D14 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 E14 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N6 N7 N14 P5 P6 P15 R9 R16 T17 U18 10 GND +1V5 10 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 11 MICRO-NETX50-2230.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 K101-I netX50 11 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C421 100nF C419 100nF C417 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C420 10uF C418 10uF C416 13 14 Page of Page 14 4 4 J I H G F E D C B A Quick Start 19/334 © Hilscher, 2008-2013 Quick Start 20/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory W25Q32VSSIG C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 50 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin PART TYPE PART NAME Page 2 REF DES C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 21/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 10µF 10V 0805 C305 Ceramic Capacitor 10nF 50V 0603 C306 Ceramic Capacitor 10nF 50V 0603 C307 Ceramic Capacitor 10nF 50V 0603 C308 Ceramic Capacitor 10nF 50V 0603 P301 LED red / green HSMF-C155 P302 LED red / green HSMF-C155 R301 Ferrite 100MHz 600Ω 1A 1206 R302 Ferrite 100MHz 600Ω 1A 1206 R303 Resistor 4x 50Ω 62mW 1206 R304 Resistor 10Ω 63mW 0603 R305 Resistor 10Ω 63mW 0603 R306 Resistor 4x 50Ω 62mW 1206 R307 Resistor 10Ω 63mW 0603 R308 Resistor 10Ω 63mW 0603 R309 Resistor 12.4kV 63mW 0603 R310 Resistor 270Ω 63mW 0603 R311 Resistor 270Ω 63mW 0603 R312 Resistor 270Ω 63mW 0603 R313 Resistor 270Ω 63mW 0603 R314 Resistor 270Ω 63mW 0603 R315 Resistor 470Ω 63mW 0603 R316 Resistor 270Ω 63mW 0603 R317 Resistor 470Ω 63mW 0603 X301 RJ45 ERNI-203313 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 22/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B Edited 1 Date Name RESETIN# 2 24.01.2013 Matthias Melzer 2 3 3 2 1 22pF 2 GND 4 1 4 3 MR GND VCC 1 4 1 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH GND 2 GND C103 2 3 5 0603 100nF 2 POR# RESET MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 22pF C106 1 C105 0603 0603 B1 D2 T8 L6 L5 K6 K5 J5 C104 +3V3 GND 2 0603 1nF 1 GND POR# OSC_XTO 6 CORE RSTOUT# K101-E MICRO-NETX50-2230.000 2 1 GND 2 1.5k 10k R105 R110 +3V3 9 1 USB_DNEG USB_DPOS MICRO-NETX50-2230.000 7 USB_DNEG V8 8 USB_DPOS U8 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX50-2230.000 USB_VDDIO GND GND 2 5 POR# 1.5k VCC ROM 1k C107 10 8 1 3 4 X102 2 C101 GND 7 0603 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 SN65220DBVT R103 10 22 0603 R1022 DUSB_DNEG 1 22 2 GND 2 C102 11 GND GND 13 PE 12 DD+ 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 13 USB Device RDY/RUN LED 0603 100nF 1 +3V3 390 0603 390 0603 R1092 1 R1082 1 3 4 yellow LEDSYG 1 green R1012 D+ USB_DPOS 1 3 1 MOSI 2 SCK 4 CS# ROM 32Mbit C108 P101 GND 2 12 SEC. MEM 11 0603 100nF 1 +3V3 SPI FLASH RDY RUN 560 0603 560 R1072 RUN 1 0603 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU R104 A B 6 4 2 2 1.5k R111 K101-H [3] USB_DETECT 1 9 MICRO-NETX50-2230.000 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# C1 1 RDY RUN 8 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G MICRO-NETX50-2230.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A TEST TMC1 TMC2 TACT_TRST MEM_IF_OM OSC_XTI R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 netX50 7 Fiber Optric +1V5 6 0603 0603 0603 0603 5 Page of 14 1 Page 14 J I H G F E D C B A 2.1.3 SPI_MISO A 1 Quick Start 23/334 PROFINET Fiber Optic (FO) © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B A 1 Checked Edited 1 DPM Interface Date Name Date Name 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 TCLK PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX50-2230.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_INT DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# 17.10.2012 2 K101-C netX50 3 DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 5 4 www.hilscher.com 5 6 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 J7 H8 A16 A17 K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 0 A 4M 7 8 A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 9 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE BA0 BA1 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 RAM 512k x 32 C201 D[0:31] SDRAM/HOST_INTERFACE 6 9 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 8MB SDRAM 8 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A[0:17] 7 Fiber Optric MICRO-NETX50-2230.000 MEMDR_CS# MEMDR_RAS# MEMDR_CAS# MEMDR_WE# MEMDR_CLK MEMDR_CKE L4 M3 M5 N3 M4 L3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX50 Hilscher Gesellschaft für Systemautomatiom mbH B11 4 C202 2 C204 10 0603 100nF 1 2 0603 100nF 1 10 C203 GND 2 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 11 11 12 12 GPIO04 GPIO05 GPIO06 GPIO07 GPIO08 GPIO09 GPIO10 GPIO11 GPIO24 GPIO25 GPIO26 GPIO27 13 MICRO-NETX50-2230.000 MMIO24 MMIO25 MMIO26 MMIO27 K101-O MICRO-NETX50-2230.000 MMIO08 MMIO09 MMIO10 MMIO11 K101-L MICRO-NETX50-2230.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K netX50 13 U7 R8 V9 U9 M1 N1 N2 P1 K2 K1 L1 M2 14 Page of Page 14 5 2 J I H G F E D C B A Quick Start 24/334 © Hilscher, 2008-2013 J I H G F E D C B A PHY1_RXN GPIO12 GPIO13 GPIO14 GPIO15 GPIO28 GPIO29 GPIO30 GPIO31 K101-P R3032 1 Date Name Date Name U2 V2 V3 T6 V6 U6 T7 V7 I2C_SCL 12.4k 0603 2 17.10.2012 Matthias Melzer GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 K101-N T9 U10 T10 U11 R1 U1 T1 V1 K18 PHY_EXTRES L15 PHY_ATP MICRO-NETX50-2230.000 1 L18 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 MICRO-NETX50-2230.000 Checked Edited M17 L16 +1V5E M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART MICRO-NETX50-2230.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 P18 P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 PHY0_RXN K101-M MMIO28 MMIO29 MMIO30 MMIO31 N17 T18 +1V5E N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART MICRO-NETX50-2230.000 MMIO12 MMIO13 MMIO14 MMIO15 M15 +1V5E R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3E PHY_VDDIOAT M16 +3V3E PHY_VDDIOAC K101-B netX50 GND 2 0603 1 3 100nF C301 3 2 0805 1 10uF 2 0603 1 100nF C303 GPIO00 GPIO01 GPIO02 GPIO03 2 4 www.hilscher.com +3V3 +1V5 GPIO32 GPIO33 GPIO34 GPIO35 K101-Q MICRO-NETX50-2230.000 V13 U13 T13 V14 7 1 2 4.7k R306 GND GND GND 1 Regard thermal considerations (see datasheet) 6 7 8 2 9 0603 1 +3V3 2 0603 1 +3V3 2 0603 +3V3 9 place close to netX 8 ETHERNET_FIBER_OPTIC_1 Fiber Optric MMIO36 MMIO37 MMIO38 MMIO39 K101-R V12 T11 U12 T12 1206 Z=600 Ohm @100MHz 2 R302 1 MICRO-NETX50-2230.000 5 6 2 1206 Z=600 Ohm @100MHz R301 1 netX50 MMIO32 MMIO33 MMIO34 MMIO35 10uF C304 H1 J1 J2 I2C_SDA0 L2 I2C_SDA1 0805 1 5 Hilscher Gesellschaft für Systemautomatiom mbH MICRO-NETX50-2230.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX50 C302 4 0603 1 2 4.7k 1 2 10 ETH1_TX ETH0_TX 10nF 1 C310 ETH1_SD ETH1_RX 10nF C308 ETH0_SD 0603 1 2 10nF C306 ETH0_RX 0603 1 2 0603 R307 +1V5 100nF C309 100nF C307 100nF C305 2 IN1 IN0 GND VCC Q1 Q0 GND VCC Q1 Q0 GND 12 FX0_SD-P FX_SD-N 4 3 2 R308 11 SY89322VMGTR FX1_TX+ FX1_TX- 3 Q1 Q1# 4 12 FX0_TX+ FX0_TX- 1 2 Q0 Q0# GND 2 K305 FX1_SD-P FX_SD-N 4 IN1 IN1# 3 1 130 R305 82 R304 +3V3 1 FX1_RX+ FX1_RX- 1 2 IN0 IN0# IN1 IN1# FX0_RX+ FX0_RX- 1 IN0 IN0# 2 FX1_TX-DISABLE +3V3 FX0_TX-DISABLE +3V3 SY89323LMGTR K304 SY89323LMGTR K303 NC7SZ14P5 2 A 3 GND 5 VCC Y 4 K302 NC7SZ14P5 5 VCC Y 4 11 K301 2 A 3 GND VCC 4.7k 6 7 5 8 6 7 5 8 6 7 5 8 GND TX1_DISABLE_INV GND TX0_DISABLE_INV 10 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1 13 13 [4] [4] [4] FX1_RX+ FX1_RXFX1_SD-P [4] [4] [4] [4] [4] [4] 14 Page of Page USB_DETECT [1] I2C_SCL [4] I2C_SDA0[4] I2C_SDA1 [4] FX0_COM-G [4] FX0_COM-R [4] FX1_COM-G [4] FX1_COM-R [4] FX0_LNK FX0_ACT FX1_LNK FX1_ACT FX1_TX+ FX1_TX- [4] [4] [4] FX0_SD-P FX0_TX+ FX0_TX- [4] [4] FX0_RX+ FX0_RX- FX1_TX-DISABLE[4] FX0_TX-DISABLE[4] 14 5 3 J I H G F E D C B A Quick Start 25/334 © Hilscher, 2008-2013 J I H G F E D C B A 1 Checked Edited Date Name Date Name [3] FX1_ACT [3] FX1_LNK [3] FX1_COM-R [3] FX1_COM-G [3] FX1_RX+ [3] FX1_RX[3] FX1_SD-P [3] FX1_TX+ [3] FX1_TX[3] FX1_TX-DISABLE [3]I2C_SDA1 [3,4] I2C_SCL [3] FX0_ACT [3] FX0_LNK [3] FX0_COM-R [3] FX0_COM-G [3] FX0_RX+ [3] FX0_RX[3] FX0_SD-P [3] FX0_TX+ [3] FX0_TX[3] FX0_TX-DISABLE [3]I2C_SDA0 [3,4] I2C_SCL 2 17.10.2012 Matthias Melzer 2 3 270 1 green 1 green 4 www.hilscher.com 1 1 2 1 2 1 2 2 82 R418 130 R415 82 R404 130 R401 1 1 2 1 1 2 1 8 1 2 1 GND 2 1 2 GND 2 82 R420 130 R417 82 R406 130 R403 6 7 8 ETHERNET_FIBER_OPTIC_2 2 82 R419 130 R416 +3V3 2 82 R405 130 R402 +3V3 place close to K103, K104, K105 7 Fiber Optric FX1 ACT LED FX1 LINK LED +3V3 FX1 COM LED +3V3 FX0 ACT LED FX0 LINK LED +3V3 5 6 FX0 COM LED +3V3 5 Hilscher Gesellschaft für Systemautomatiom mbH 3 yellow LEDSYG 1 green P404 3 red LEDSRG 4 2 P403 3 yellow LEDSYG 4 2 4 270 0603 green P402 R4282 1 0603 1 3 red LEDSRG 4 2 2 1 4 P401 R4272 470 0603 R4262 1 270 0603 270 0603 R4252 1 1 R4142 270 0603 470 0603 R4132 1 1 R4122 270 0603 R4112 1 3 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 9 9 10 1 1 2 2 195 R421 195 R407 1 1 2 195 10 2 R422 195 R408 place close to X401, X402 0603 0603 0603 0603 2 0805 1 2 0805 1 11 10uF C406 10uF C401 11 GND 2 0603 1 +3V3 GND 2 0603 1 +3V3 100nF C407 100nF C402 1 12 2 10uF 2 1μH 2 10uF 2 2 X401 100nF X402 100nF C409 13 AFBR-5978Z 6 RDATA+ 5 RDATA4 SD 10 TDATA+ 11 TDATA9 TXDIS 1 SDA 12 SCL 2 0603 AFBR-5978Z 6 RDATA+ 5 RDATA4 SD 1 13 C404 10 TDATA+ 11 TDATA9 TXDIS C408 1μH 1 0603 1 SDA 12 SCL C403 1μH R424 1 0805 1 2 2 R423 1 0805 1 1μH R410 1 R409 12 3 RXVCC RXGND 2 7 TXVCC TXGND GND 8 7 RXVCC 3 TXVCC TXGND RXGND 8 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 2 1 1 100nF C410 100nF C405 14 Page of Page GND 2 0603 1 GND 2 0603 14 5 4 J I H G F E D C B A Quick Start 26/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 17.10.2012 2 2 GND1 9 C502 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C507 1 2 1 2 GND 2 1.5k R504 4.7k R503 0603 100nF 1 S D4 100nF C506 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R508 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C508 0.018 R506 C511 2 +3V3 R505 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 6 7 POWER_SUPPLY Fiber Optric R510 1.8k R509 GND GND 2 G C505 3 FDC5612 6 K501 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T502 1 2 1 6 5 R502 1 PMEG4005 2 5 6 R501 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K502 D2 D3 11 10 C504 0805 100nF 1 C503 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T501 COMP Matthias Melzer 2 1 1210 10uF C510 0805 22uF 1 +3V3 2.2k R507 1 C501 C509 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF C514 10uF C512 9 9 2 0603 1 2 0603 1 100nF C515 100nF C513 A5 B5 C5 D4 D6 D14 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 E14 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N6 N7 N14 P5 P6 P15 R9 R16 T17 U18 10 GND +1V5 10 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 11 MICRO-NETX50-2230.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 K101-I netX50 11 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C521 100nF C519 100nF C517 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C520 10uF C518 10uF C516 13 14 Page of Page 14 5 5 J I H G F E D C B A Quick Start 27/334 © Hilscher, 2008-2013 Quick Start 28/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 50 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin PART TYPE PART NAME Page 2 REF DES C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 29/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 10µF 10V 0805 C305 Ceramic Capacitor 100nF 25V 0603 C306 Ceramic Capacitor 10µF 10V 0805 C307 Ceramic Capacitor 100nF 25V 0603 C308 Ceramic Capacitor 10µF 10V 0805 C309 Ceramic Capacitor 100nF 25V 0603 C310 Ceramic Capacitor 10µF 10V 0805 K301 Schmitt Trigger NC7SZ14P5 K302 Schmitt Trigger NC7SZ14P5 K303 Driver SY89323LMGTR K304 Driver SY89323LMGTR K305 Driver SY89322VMGTR R301 Ferrite 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R302 Ferrite 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R303 Resistor 12.4kΩ 63mW 0603 R304 Resistor 82Ω 63mW 0603 R305 Resistor 130Ω 63mW 0603 R306 Resistor 4.7kΩ 63mW 0603 R307 Resistor 4.7kΩ 63mW 0603 R308 Resistor 4.7kΩ 63mW 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 30/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µF 10V 0805 C402 Ceramic Capacitor 100nF 25V 0603 C403 Ceramic Capacitor 10µF 10V 0805 C404 Ceramic Capacitor 100nF 25V 0603 C405 Ceramic Capacitor 100nF 25V 0603 C406 Ceramic Capacitor 10µF 10V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 10µF 10V 0805 C409 Ceramic Capacitor 100nF 25V 0603 C410 Ceramic Capacitor 100nF 25V 0603 P401 LED red / green HSMF-C155 P402 LED red / green HSMF-C155 P403 LED red / green HSMF-C155 P404 LED red / green HSMF-C155 R401 Resistor 130Ω 63mW 0603 R402 Resistor 130Ω 63mW 0603 R403 Resistor 130Ω 63mW 0603 R404 Resistor 82Ω 63mW 0603 R405 Resistor 82Ω 63mW 0603 R406 Resistor 82Ω 63mW 0603 R407 Resistor 82Ω 63mW 0603 R408 Resistor 82Ω 63mW 0603 R409 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R410 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R411 Resistor 270Ω 63mW 0603 R412 Resistor 470Ω 63mW 0603 R413 Resistor 270Ω 63mW 0603 R414 Resistor 270Ω 63mW 0603 R415 Resistor 130Ω 63mW 0603 R416 Resistor 130Ω 63mW 0603 R417 Resistor 130Ω 63mW 0603 R418 Resistor 82Ω 63mW 0603 R419 Resistor 82Ω 63mW 0603 R420 Resistor 82Ω 63mW 0603 R421 Resistor 82Ω 63mW 0603 R422 Resistor 82Ω 63mW 0603 R423 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R424 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R425 Resistor 270Ω 63mW 0603 R426 Resistor 470Ω 63mW 0603 R427 Resistor 270Ω 63mW 0603 R428 Resistor 270Ω 63mW 0603 X401 Transceiver Avago QFBR-5978AZ X402 Transceiver Avago QFBR-5978AZ netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 31/334 Page 5 REF DES PART TYPE PART NAME C501 Ceramic Capacitor 10µ 50V 1210 C502 Ceramic Capacitor 10µ 50V 1210 C503 Ceramic Capacitor 10µ 50V 1210 C504 Ceramic Capacitor 100nF 50V 0805 C505 Ceramic Capacitor 10µF 10V 0805 C506 Ceramic Capacitor 100nF 50V 0805 C507 Ceramic Capacitor 100nF 25V 0603 C508 Ceramic Capacitor 22µF 6.3V 0805 C509 Ceramic Capacitor 2.2nF 50V 0603 C510 Ceramic Capacitor 22µF 6.3V 0805 C511 Ceramic Capacitor 22µF 6.3V 0805 C512 Ceramic Capacitor 10µF 10V 0805 C513 Ceramic Capacitor 100nF 25V 0603 C514 Ceramic Capacitor 10µF 10V 0805 C515 Ceramic Capacitor 100nF 25V 0603 C516 Ceramic Capacitor 10µF 10V 0805 C517 Ceramic Capacitor 100nF 25V 0603 C518 Ceramic Capacitor 10µF 10V 0805 C519 Ceramic Capacitor 100nF 25V 0603 C520 Ceramic Capacitor 10µF 10V 0805 C521 Ceramic Capacitor 100nF 25V 0603 K501 Transistor FDC5612 K502 Transistor FDC5612 R501 Diode PMEG4005AEV R502 Diode PMEG4005AEV R503 Resistor 4.7kΩ 63mW 0603 R504 Resistor 1.5kΩ 63mW 0603 R505 Inductor sumida CDRH8D43-100 R506 Resistor 0.018Ω 250mW 1206 R507 Resistor 2.2kΩ 63mW 0603 R508 Inductor sumida CR32NP-3R3M R509 Resistor 1.8kΩ 63mW 0603 R510 Resistor 1.96kΩ63mW 0603 T501 Step-Down Micrel MIC2198YML T502 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B A Edited SPI_CLK SPI_CS0# 1 Date Name [3] USB_DETECT [3] [3] RESETIN# 2 24.01.2013 Matthias Melzer 2 3 3 2 1 22pF 2 GND 4 1 4 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 22pF C106 1 C105 0603 0603 B1 D2 T8 C104 +3V3 GND 2 0603 1nF 1 GND POR# OSC_XTO RSTOUT# USB_DNEG USB_DPOS 2 1 GND 2 1.5k MICRO-NETX50-2230.000 +3V3 10k R105 R110 USB_DPOS USB_DNEG U8 V8 U7 R8 V9 U9 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX50-2230.000 USB_VDDIO K101-H MICRO-NETX50-2230.000 GPIO24 GPIO25 GPIO26 GPIO27 K101-O MICRO-NETX50-2230.000 MMIO24 MMIO25 MMIO26 MMIO27 C1 1 RDY RUN 8 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G MICRO-NETX50-2230.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A TEST TMC1 TMC2 TACT_TRST MEM_IF_OM OSC_XTI R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 netX50 7 1 2 1 1.5k GND 2 5 GND A B 6 4 2 6 CORE 7 8 9 VCC ROM 1k C107 10 8 1 3 4 X102 2 7 3 SN65220DBVT R103 22 0603 10 22 0603 R1022 DUSB_DNEG 1 USB_DPOS 1 C108 2 390 0603 390 0603 11 GND 2 GND C102 GND 13 PE 12 DD+ 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 13 USB Device RDY/RUN LED 0603 100nF 1 +3V3 R1092 1 R1082 1 3 4 yellow LEDSYG 1 green R1012 D+ W25Q32VSSIG HOLD#(IO3) 4 WP#(IO2) GND 2 DI(IO0) DO(IO1) 8 VCC 6 CLK 1 CS# 5 C101 ROM 32Mbit GND 2 12 SEC. MEM 0603 100nF 1 +3V3 11 P101 SPI FLASH RDY RUN 560 0603 560 R1072 RUN 1 0603 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU R104 1.5k R111 9 PROFINET FIBER OPTIC FAST STARTUP +1V5 6 0603 0603 0603 5 Page of 14 1 Page 14 J I H G F E D C B A 2.1.4 0603 1 Quick Start 32/334 PROFINET Fiber Optic (FO) Fast Startup (FSU) © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B A 1 Checked Edited 1 DPM Interface Date Name Date Name 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 TCLK PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX50-2230.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_INT DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# 24.01.2013 2 K101-C netX50 3 DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 5 4 www.hilscher.com 5 6 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 9 J7 H8 A16 A17 K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 0 A 4M A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE BA0 BA1 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 RAM 512k x 32 C201 D[0:31] R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 8MB SDRAM 8 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A[0:17] 7 C202 2 C204 0603 100nF 1 2 0603 100nF 1 10 6 7 8 SDRAM/HOST_INTERFACE 9 10 PROFINET FIBER OPTIC FAST STARTUP MICRO-NETX50-2230.000 MEMDR_CS# MEMDR_RAS# MEMDR_CAS# MEMDR_WE# MEMDR_CLK MEMDR_CKE L4 M3 M5 N3 M4 L3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX50 Hilscher Gesellschaft für Systemautomatiom mbH B11 4 C203 GND 2 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 11 11 12 12 GPIO04 GPIO05 GPIO06 GPIO07 GPIO08 GPIO09 GPIO10 GPIO11 13 MICRO-NETX50-2230.000 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# K101-E MICRO-NETX50-2230.000 MMIO08 MMIO09 MMIO10 MMIO11 K101-L MICRO-NETX50-2230.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K netX50 13 L6 L5 K6 K5 J5 M1 N1 N2 P1 K2 K1 L1 M2 14 Page of Page 14 5 2 J I H G F E D C B A Quick Start 33/334 © Hilscher, 2008-2013 J I H G F E D C B A PHY1_RXN GPIO12 GPIO13 GPIO14 GPIO15 GPIO28 GPIO29 GPIO30 GPIO31 K101-P R3032 1 Date Name Date Name U2 V2 V3 T6 V6 U6 T7 V7 I2C_SCL 12.4k 0603 2 24.01.2013 Matthias Melzer GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 K101-N T9 U10 T10 U11 R1 U1 T1 V1 K18 PHY_EXTRES L15 PHY_ATP MICRO-NETX50-2230.000 1 L18 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 MICRO-NETX50-2230.000 Checked Edited M17 L16 +1V5E M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART MICRO-NETX50-2230.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 P18 P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 PHY0_RXN K101-M MMIO28 MMIO29 MMIO30 MMIO31 N17 T18 +1V5E N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART MICRO-NETX50-2230.000 MMIO12 MMIO13 MMIO14 MMIO15 M15 +1V5E R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3E PHY_VDDIOAT M16 +3V3E PHY_VDDIOAC K101-B netX50 GND 2 0603 1 3 100nF C301 3 2 0805 1 10uF 2 0603 1 100nF C303 GPIO00 GPIO01 GPIO02 GPIO03 2 4 www.hilscher.com +3V3 +1V5 GPIO32 GPIO33 GPIO34 GPIO35 K101-Q MICRO-NETX50-2230.000 V13 U13 T13 V14 7 1 2 4.7k R306 GND GND GND 1 Regard thermal considerations (see datasheet) 2 0603 1 +3V3 2 0603 1 +3V3 2 0603 +3V3 9 place close to netX 8 1 2 4.7k 1 2 ETH1_TX ETH0_TX 10nF 6 7 8 ETHERNET_FIBER_OPTIC_1 9 10 1 C310 ETH1_SD ETH1_RX 10nF C308 ETH0_SD 0603 1 2 10nF C306 ETH0_RX 0603 1 2 0603 R307 +1V5 100nF C309 100nF C307 100nF C305 2 IN1 IN0 GND VCC Q1 Q0 GND VCC Q1 Q0 GND 12 FX0_SD-P FX_SD-N 4 3 2 R308 11 SY89322VMGTR FX1_TX+ FX1_TX- 3 Q1 Q1# 4 12 FX0_TX+ FX0_TX- 1 2 Q0 Q0# GND 2 K305 FX1_SD-P FX_SD-N 4 IN1 IN1# 3 1 130 R305 82 R304 +3V3 1 FX1_RX+ FX1_RX- 1 2 IN0 IN0# IN1 IN1# FX0_RX+ FX0_RX- 1 IN0 IN0# 2 FX1_TX-DISABLE +3V3 FX0_TX-DISABLE +3V3 SY89323LMGTR K304 SY89323LMGTR K303 NC7SZ14P5 2 A 3 GND 5 VCC Y 4 K302 NC7SZ14P5 5 VCC Y 4 11 K301 2 A 3 GND VCC 4.7k 6 7 5 8 6 7 5 8 6 7 5 8 GND TX1_DISABLE_INV GND TX0_DISABLE_INV 10 PROFINET FIBER OPTIC FAST STARTUP MMIO36 MMIO37 MMIO38 MMIO39 K101-R V12 T11 U12 T12 1206 Z=600 Ohm @100MHz 2 R302 1 MICRO-NETX50-2230.000 5 6 2 1206 Z=600 Ohm @100MHz R301 1 netX50 MMIO32 MMIO33 MMIO34 MMIO35 10uF C304 H1 J1 J2 I2C_SDA0 L2 I2C_SDA1 0805 1 5 Hilscher Gesellschaft für Systemautomatiom mbH MICRO-NETX50-2230.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX50 C302 4 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1 13 13 [4] [4] [4] FX1_RX+ FX1_RXFX1_SD-P [4] [4] [4] [4] [4] [4] 14 Page of Page USB_DETECT [1] I2C_SCL [4] SPI_CLK [1] SPI_CS0# [1] I2C_SDA0[4] I2C_SDA1 [4] FX0_COM-G [4] FX0_COM-R [4] FX1_COM-G [4] FX1_COM-R [4] FX0_LNK FX0_ACT FX1_LNK FX1_ACT FX1_TX+ FX1_TX- [4] [4] [4] FX0_SD-P FX0_TX+ FX0_TX- [4] [4] FX0_RX+ FX0_RX- FX1_TX-DISABLE[4] FX0_TX-DISABLE[4] 14 5 3 J I H G F E D C B A Quick Start 34/334 © Hilscher, 2008-2013 J I H G F E D C B A 1 Checked Edited Date Name Date Name [3] FX1_ACT [3] FX1_LNK [3] FX1_COM-R [3] FX1_COM-G [3] FX1_RX+ [3] FX1_RX[3] FX1_SD-P [3] FX1_TX+ [3] FX1_TX[3] FX1_TX-DISABLE [3]I2C_SDA1 [3,4] I2C_SCL [3] FX0_ACT [3] FX0_LNK [3] FX0_COM-R [3] FX0_COM-G [3] FX0_RX+ [3] FX0_RX[3] FX0_SD-P [3] FX0_TX+ [3] FX0_TX[3] FX0_TX-DISABLE [3]I2C_SDA0 [3,4] I2C_SCL 2 24.01.2013 Matthias Melzer 2 3 270 1 green 1 green 4 www.hilscher.com 1 1 2 1 2 1 2 2 82 R418 130 R415 82 R404 130 R401 1 1 2 1 1 2 2 82 R419 130 R416 +3V3 2 82 R405 130 R402 +3V3 1 place close to K103, K104, K105 7 8 1 2 1 GND 2 1 2 GND 2 82 R420 130 R417 82 R406 130 R403 9 1 1 2 2 195 R421 195 R407 1 1 2 2 6 7 8 ETHERNET_FIBER_OPTIC_2 9 10 195 R422 195 R408 place close to X401, X402 10 PROFINET FIBER OPTIC FAST STARTUP FX1 ACT LED FX1 LINK LED +3V3 FX1 COM1 LED +3V3 FX0 ACT LED FX0 LINK LED +3V3 5 6 FX0 COM0 LED +3V3 5 Hilscher Gesellschaft für Systemautomatiom mbH 3 yellow LEDSYG 1 green P404 3 red LEDSRG 4 2 P403 3 yellow LEDSYG 4 2 4 270 0603 green P402 R4282 1 0603 1 3 red LEDSRG 4 2 2 1 4 P401 R4272 470 0603 R4262 1 270 0603 270 0603 R4252 1 1 R4142 270 0603 470 0603 R4132 1 1 R4122 270 0603 R4112 1 3 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 2 0805 1 2 0805 1 11 10uF C406 10uF C401 11 GND 2 0603 1 +3V3 GND 2 0603 1 +3V3 100nF C407 100nF C402 1 12 2 10uF 2 1μH 2 10uF 2 2 X401 100nF X402 100nF C409 13 AFBR-5978Z 6 RDATA+ 5 RDATA4 SD 10 TDATA+ 11 TDATA9 TXDIS 1 SDA 12 SCL 2 0603 AFBR-5978Z 6 RDATA+ 5 RDATA4 SD 1 13 C404 10 TDATA+ 11 TDATA9 TXDIS C408 1μH 1 0603 1 SDA 12 SCL C403 1μH R424 1 0805 1 2 2 R423 1 0805 1 1μH R410 1 R409 12 3 RXVCC RXGND 2 7 TXVCC TXGND GND 8 7 RXVCC 3 TXVCC TXGND RXGND 8 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 2 1 1 100nF C410 100nF C405 14 Page of Page GND 2 0603 1 GND 2 0603 14 5 4 J I H G F E D C B A Quick Start 35/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 24.01.2013 2 2 GND1 9 C502 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C507 1 2 1 2 GND 2 1.5k R504 4.7k R503 0603 100nF 1 S D4 100nF C506 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R508 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C508 0.018 R506 C511 2 +3V3 R505 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 8 GND 2 0805 1 GND 2 0805 1 10uF C514 10uF C512 9 2 0603 1 2 0603 1 100nF C515 100nF C513 GND +1V5 6 7 POWER_SUPPLY 8 9 10 A5 B5 C5 D4 D6 D14 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 E14 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N6 N7 N14 P5 P6 P15 R9 R16 T17 U18 10 PROFINET FIBER OPTIC FAST STARTUP R510 1.8k R509 GND GND 2 G C505 3 FDC5612 6 K501 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T502 1 2 1 6 5 R502 1 PMEG4005 2 5 6 R501 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K502 D2 D3 11 10 C504 0805 100nF 1 C503 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T501 COMP Matthias Melzer 2 1 1210 10uF C510 0805 22uF 1 +3V3 2.2k R507 1 C501 C509 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 11 MICRO-NETX50-2230.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 K101-I netX50 11 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C521 100nF C519 100nF C517 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C520 10uF C518 10uF C516 13 14 Page of Page 14 5 5 J I H G F E D C B A Quick Start 36/334 © Hilscher, 2008-2013 Quick Start 37/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory W25Q32VSSIG C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 50 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 38/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 10µF 10V 0805 C305 Ceramic Capacitor 100nF 25V 0603 C306 Ceramic Capacitor 10µF 10V 0805 C307 Ceramic Capacitor 100nF 25V 0603 C308 Ceramic Capacitor 10µF 10V 0805 C309 Ceramic Capacitor 100nF 25V 0603 C310 Ceramic Capacitor 10µF 10V 0805 K301 Schmitt Trigger NC7SZ14P5 K302 Schmitt Trigger NC7SZ14P5 K303 Driver SY89323LMGTR K304 Driver SY89323LMGTR K305 Driver SY89322VMGTR R301 Ferrite 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R302 Ferrite 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R303 Resistor 12.4kΩ 63mW 0603 R304 Resistor 82Ω 63mW 0603 R305 Resistor 130Ω 63mW 0603 R306 Resistor 4.7kΩ 63mW 0603 R307 Resistor 4.7kΩ 63mW 0603 R308 Resistor 4.7kΩ 63mW 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 39/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µF 10V 0805 C402 Ceramic Capacitor 100nF 25V 0603 C403 Ceramic Capacitor 10µF 10V 0805 C404 Ceramic Capacitor 100nF 25V 0603 C405 Ceramic Capacitor 100nF 25V 0603 C406 Ceramic Capacitor 10µF 10V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 10µF 10V 0805 C409 Ceramic Capacitor 100nF 25V 0603 C410 Ceramic Capacitor 100nF 25V 0603 P401 LED red / green HSMF-C155 P402 LED red / green HSMF-C155 P403 LED red / green HSMF-C155 P404 LED red / green HSMF-C155 R401 Resistor 130Ω 63mW 0603 R402 Resistor 130Ω 63mW 0603 R403 Resistor 130Ω 63mW 0603 R404 Resistor 82Ω 63mW 0603 R405 Resistor 82Ω 63mW 0603 R406 Resistor 82Ω 63mW 0603 R407 Resistor 82Ω 63mW 0603 R408 Resistor 82Ω 63mW 0603 R409 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R410 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R411 Resistor 270Ω 63mW 0603 R412 Resistor 470Ω 63mW 0603 R413 Resistor 270Ω 63mW 0603 R414 Resistor 270Ω 63mW 0603 R415 Resistor 130Ω 63mW 0603 R416 Resistor 130Ω 63mW 0603 R417 Resistor 130Ω 63mW 0603 R418 Resistor 82Ω 63mW 0603 R419 Resistor 82Ω 63mW 0603 R420 Resistor 82Ω 63mW 0603 R421 Resistor 82Ω 63mW 0603 R422 Resistor 82Ω 63mW 0603 R423 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R424 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R425 Resistor 270Ω 63mW 0603 R426 Resistor 470Ω 63mW 0603 R427 Resistor 270Ω 63mW 0603 R428 Resistor 270Ω 63mW 0603 X401 Transceiver Avago QFBR-5978AZ X402 Transceiver Avago QFBR-5978AZ netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 40/334 Page 5 REF DES PART TYPE PART NAME C501 Ceramic Capacitor 10µ 50V 1210 C502 Ceramic Capacitor 10µ 50V 1210 C503 Ceramic Capacitor 10µ 50V 1210 C504 Ceramic Capacitor 100nF 50V 0805 C505 Ceramic Capacitor 10µF 10V 0805 C506 Ceramic Capacitor 100nF 50V 0805 C507 Ceramic Capacitor 100nF 25V 0603 C508 Ceramic Capacitor 22µF 6.3V 0805 C509 Ceramic Capacitor 2.2nF 50V 0603 C510 Ceramic Capacitor 22µF 6.3V 0805 C511 Ceramic Capacitor 22µF 6.3V 0805 C512 Ceramic Capacitor 10µF 10V 0805 C513 Ceramic Capacitor 100nF 25V 0603 C514 Ceramic Capacitor 10µF 10V 0805 C515 Ceramic Capacitor 100nF 25V 0603 C516 Ceramic Capacitor 10µF 10V 0805 C517 Ceramic Capacitor 100nF 25V 0603 C518 Ceramic Capacitor 10µF 10V 0805 C519 Ceramic Capacitor 100nF 25V 0603 C520 Ceramic Capacitor 10µF 10V 0805 C521 Ceramic Capacitor 100nF 25V 0603 K501 Transistor FDC5612 K502 Transistor FDC5612 R501 Diode PMEG4005AEV R502 Diode PMEG4005AEV R503 Resistor 4.7kΩ 63mW 0603 R504 Resistor 1.5kΩ 63mW 0603 R505 Inductor sumida CDRH8D43-100 R506 Resistor 0.018Ω 250mW 1206 R507 Resistor 2.2kΩ 63mW 0603 R508 Inductor sumida CR32NP-3R3M R509 Resistor 1.8kΩ 63mW 0603 R510 Resistor 1.96kΩ63mW 0603 T501 Step-Down Micrel MIC2198YML T502 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 22pF 2 1 22pF 2 C106 1 C105 GND 4 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 +1V5 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 3 0603 0603 2 OSC_XTO T8 L6 L5 K6 K5 J5 K101-E MICRO-NETX50-2230.000 6 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 K101-N MICRO-NETX50-2230.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 MICRO-NETX50-2230.000 7 2 1 RDY RUN GND 2 1.5k 10k R105 USB_DPOS USB_DNEG V8 8 +3V3 R110 U8 U2 V2 V3 T6 V6 U6 T7 V7 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX50-2230.000 USB_DNEG USB_DPOS K101-H MICRO-NETX50-2230.000 USB_VDDIO C1 1 8 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# CORE RSTOUT# MICRO-NETX50-2230.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A TEST TMC1 TMC2 TACT_TRST MEM_IF_OM OSC_XTI AS-Interface +3V3 GND B1 D2 7 netX50 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 0603 1nF 1 GND POR# 6 0603 0603 1 1.5k 2 GND GND 2 5 1.5k 9 9 SN65220DBVT R103 1 3 4 X102 2 0603 C101 3 22 22 0603 GND 7 10 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 ROM 32Mbit 1 MOSI 2 SCK 4 CS# R1022 DUSB_DNEG 1 8 C108 GND 2 GND GND 2 12 11 PE DD+ 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 12 USB Device C102 GND RDY/RUN LED 0603 100nF 1 +3V3 390 0603 390 0603 R1092 1 R1082 1 3 4 yellow LEDSYG 2 P101 1 green SEC. MEM 11 0603 100nF 1 +3V3 SPI FLASH RDY RUN 560 0603 560 0603 R1072 RUN 1 R1062 RDY 1 R1012 D+ USB_DPOS 1 VCC ROM 1k C107 10 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU POR# R111 R104 A B 6 4 2 1 0603 B 2 0603 13 13 4 Page of 14 1 Page 14 J I H G F E D C B A 2.1.5 SPI_MISO A 1 Quick Start 41/334 AS-Interface © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B A 1 Checked Edited 1 DPM Interface Date Name Date Name 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 TCLK PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX50-2230.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_INT DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# 28.02.2012 2 K101-C netX50 3 DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE MICRO-NETX50-2230.000 4 www.hilscher.com 5 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX50 5 Hilscher Gesellschaft für Systemautomatiom mbH B11 4 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 8 J7 H8 A16 A17 C201 BA0 BA1 0 4M A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE A VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 RAM 512k x 32 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 9 1 C202 C204 2 0603 100nF 1 2 0603 100nF 6 7 8 9 C203 10 GND 2 10 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 SDRAM/HOST_INTERFACE/ETHERNET K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 D[0:31] 8MB SDRAM A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A[0:17] 7 AS-Interface D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 6 11 11 M15 +1V5 N17 T18 +1V5 P18 M17 L18 12 MICRO-NETX50-2230.000 K18 PHY_EXTRES L15 PHY_ATP 1 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN 0603 12.4k R2012 L16 +1V5 M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 PHY0_RXN N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3 PHY_VDDIOAT M16 +3V3 PHY_VDDIOAC K101-B netX50 12 13 GND 2 0603 1 +3V3 13 100nF C206 100nF C207 14 Page of Page 2 0603 1 +1V5 14 4 2 J I H G F E D C B A Quick Start 42/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B GPIO00 GPIO01 GPIO02 GPIO03 GPIO28 GPIO29 GPIO30 GPIO31 1 Checked Edited Date Name Date Name MICRO-NETX50-2230.000 MMIO28 MMIO29 MMIO30 MMIO31 K101-P MICRO-NETX50-2230.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX50 ASI_PF ASI_RX ASI_TX 2 28.02.2012 470 0603 3 VDD2 green 1210 4 4 www.hilscher.com 5 C302 6 1 2 2 C303 1 2 2 10k R302 0603 100nF 1 7 C304 1 2 2 10k R303 0805 100nF 1 6 7 AS-INTERFACE AS-Interface 100k R301 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH +3V3_ASI ADUM1301CRW ISOLATOR-ADUM1301CRW VIC VIB 3 7 VE1 5 VOC 13 VOB 10 VE2 12 1 2 GND1-1 8 GND1-2 VDD1 VIA K301 VOA 14 9 GND2-1 15 GND2-2 16 3 red 1 LEDSRG 4 R3152 1 270 2 0603 P301 R3142 1 2 GND Matthias Melzer T9 ASI_STA U10 ASI_ERR T10 U11 H1 J1 J2 L2 C301 0603 100nF 1 +3V3_ASI ISO-AREA 5 0603 4 0603 3 0603 A 2 8 ISOTX1 ISORX1 10k 0603 R3041 2 2 VOUTC1 C305 Tantal 22uF 1 V5AC1 8 FID1 9 22 21 16 15 14 13 5 4 24 K302 VOUTC1 2 1 6 7 28 25 CAP 3 0V 12 GND ASIN ASIP OSC2 OSC1 UIN 10 10 ASI4CU-E-M DRIVER-ASI4CU-E-M DSR PST P0 P1 P2 P3 FID TXD/IRD RXD/LED 11 DO0 10 DO1 9 DO2 8 DO3 17 DI0 18 DI1 19 DI2 20 DI3 23 U5RD 26 U5R 27 UOUT 9 8MHz ASI-C_1 ASI+IN_1 3 1 1 ASI+IN1 11 2 12 R308 BZG03C39 1 1 2 1 2 1 2 2 12.4k ASI+ ASI- X301 1 2 14 2 C306 13 0603 10nF 1 14 Page of Page Ref.-Spg = 2.0V Schaltschwelle: 22.5V (+/-1V) ASI2+ < 21.5V Bus-Off Mode Kommunikations Mode R313 1k 1 4 0.470mH 2 3 R309 13 R312ASI2+ > 23.5V 22k R311 LL4148L R310 1N4004-SMD 2 1 LL4148L 2 1 SOD 80 R307 2 12 R306 RS-CM7050-8 4.7μH G301 1 R305 11 SOD 80 0603 0603 0603 1 4 3 J I H G F E D C B A Quick Start 43/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name C409 1 2 2 2 28.02.2012 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 1 2 C407 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 2 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 6 7 POWER_SUPPLY AS-Interface R410 1.8k R409 GND GND G C405 3 FDC5612 6 K401 D2 D3 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 1 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 GND1 Matthias Melzer 2 2 COMP 9 C402 1210 10uF 1 C410 0805 22uF 1 +3V3 2.2k R407 0603 2.2nF 1 GND 2 1 C401 1210 10uF 1 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF 2 0603 1 2 0603 1 100nF GPIO08 GPIO09 GPIO10 GPIO11 9 MICRO-NETX50-2230.000 MMIO08 MMIO09 MMIO10 MMIO11 GPIO24 GPIO25 GPIO26 GPIO27 11 MICRO-NETX50-2230.000 MMIO24 MMIO25 MMIO26 MMIO27 K101-O GPIO12 GPIO13 GPIO14 GPIO15 K101-L MMIO12 MMIO13 MMIO14 MMIO15 K101-M netX50 MICRO-NETX50-2230.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 K101-I VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 MICRO-NETX50-2230.000 10 GND A5 B5 C5 D4 D6 D14 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 E14 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N6 N7 N14 P5 P6 P15 R9 R16 T17 U18 netX50 11 MICRO-NETX50-2230.000 M1 N1 N2 P1 K2 K1 L1 M2 100nF C415 +1V5 10 C413 GPIO04 GPIO05 GPIO06 GPIO07 K101-K MMIO04 MMIO05 MMIO06 MMIO07 10uF C414 C412 9 U7 R8 V9 U9 R1 U1 T1 V1 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 12 GND +3V3 12 1 2 0603 1 2 0603 1 2 0603 100nF 1 2 0805 1 2 0805 1 2 0805 10uF 13 MICRO-NETX50-2230.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX50-2230.000 GPIO32 GPIO33 GPIO34 GPIO35 14 14 Page of Page V13 U13 T13 V14 V12 T11 U12 T12 GND C420 10uF C418 10uF C416 K101-Q MMIO32 MMIO33 MMIO34 MMIO35 C421 100nF C419 100nF C417 13 4 4 J I H G F E D C B A Quick Start 44/334 © Hilscher, 2008-2013 Quick Start 45/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 50 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 C206 Ceramic Capacitor 100nF 25V 0603 C207 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 12.4kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 46/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 100nF 50V0805 C305 Tantalum Capacitor Epcos B45197A6226+509 C306 Ceramic Capacitor 10nF 50V 0603 G301 Crystal RSG Electronic Components GmbH RS-CM7050-8 K301 Triple-Channel Digital Isolator Analog Devices ADUM1301CRW K302 Driver Zentrum Mikroelektronik Dresden ZMD ASI4UC-E-M P301 LED red / green HSMF-C155 R301 Resistor 100kΩ 63mW 0603 R302 Resistor 10kΩ 63mW 0603 R303 Resistor 10kΩ 63mW 0603 R304 Resistor 10kΩ 63mW 0603 R305 AS-Interface Choke Würth Elektronik Part-No. 744775347 R306 Diode Vishay Part-No. LL4148L R307 Diode 1N4004 R308 Zener Diode Vishay Part-No. BZG03C39 R309 Double Chokes Epcos Part-No. B82790C0474N215 R310 Diode Vishay Part-No. LL4148L R311 Resistor 22kΩ 63mW 0603 R312 Resistor 1kΩ 63mW 0603 R313 Resistor 12.4kΩ 63mW 0603 R314 Resistor 270Ω 63mW 0603 R315 Resistor 470Ω 63mW 0603 X301 Connector Phoenix Contact MC 1,5/ 2-G-3,81 part no 1803277 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 47/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.02.2013 Matthias Melzer RESETIN# 22pF 2 1 22pF 2 C106 1 C105 GND 4 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 +1V5 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 3 0603 0603 2 OSC_XTO T8 L6 L5 K6 K5 J5 K101-E MICRO-NETX50-2230.000 6 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 K101-N MICRO-NETX50-2230.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 MICRO-NETX50-2230.000 7 2 1 RDY RUN GND 2 1.5k 10k R105 USB_DPOS USB_DNEG V8 8 +3V3 R110 U8 U2 V2 V3 T6 V6 U6 T7 V7 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX50-2230.000 USB_DNEG USB_DPOS K101-H MICRO-NETX50-2230.000 USB_VDDIO C1 1 8 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# CORE RSTOUT# MICRO-NETX50-2230.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A TEST TMC1 TMC2 TACT_TRST MEM_IF_OM OSC_XTI CANopen +3V3 GND B1 D2 7 netX50 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 0603 1nF 1 GND POR# 6 0603 0603 1 1.5k 2 GND GND 2 5 1.5k 9 9 SN65220DBVT R103 1 3 4 X102 2 0603 C101 3 22 22 0603 GND 7 10 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 ROM 32Mbit 1 MOSI 2 SCK 4 CS# R1022 DUSB_DNEG 1 8 C108 GND 2 GND GND 2 12 11 PE DD+ 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 12 USB Device C102 GND RDY/RUN LED 0603 100nF 1 +3V3 390 0603 390 0603 R1092 1 R1082 1 3 4 yellow LEDSYG 2 P101 1 green SEC. MEM 11 0603 100nF 1 +3V3 SPI FLASH RDY RUN 560 0603 560 0603 R1072 RUN 1 R1062 RDY 1 R1012 D+ USB_DPOS 1 VCC ROM 1k C107 10 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU POR# R111 R104 A B 6 4 2 1 0603 B 2 0603 13 13 4 Page of 14 1 Page 14 J I H G F E D C B A 2.1.6 SPI_MISO A 1 Quick Start 48/334 CANopen © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B A 1 Checked Edited 1 DPM Interface Date Name Date Name 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 TCLK PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX50-2230.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_INT DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# 28.02.2012 2 K101-C netX50 3 DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE MICRO-NETX50-2230.000 4 www.hilscher.com 5 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX50 5 Hilscher Gesellschaft für Systemautomatiom mbH B11 4 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 8 J7 H8 BA0 BA1 0 4M A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE A VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 9 1 C202 C204 2 0603 100nF 1 2 0603 100nF 6 7 8 9 C203 10 GND 2 10 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 SDRAM/HOST_INTERFACE/ETHERNET K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 RAM 512k x 32 C201 D[0:31] 8MB SDRAM G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A[0:17] CANopen D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 6 11 11 M15 +1V5 N17 T18 +1V5 P18 M17 L18 12 MICRO-NETX50-2230.000 K18 PHY_EXTRES L15 PHY_ATP 1 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN 0603 12.4k R2012 L16 +1V5 M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 PHY0_RXN N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3 PHY_VDDIOAT M16 +3V3 PHY_VDDIOAC K101-B netX50 12 13 GND 2 0603 1 +3V3 13 100nF C206 100nF C207 14 Page of Page 2 0603 1 +1V5 14 4 2 J I H G F E D C B A Quick Start 49/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C 1 Date Name Date Name MICRO-NETX50-2230.000 GND +3V3 2 28.02.2012 1 470 3 470 0603 1 green 1210 6 7 5 8 3 2 1 2 +3V3 VO VE GND VCC CAT ANO T301 HCPL060L & K302 HCPL0601 & K301 5V DC 0 OUT PSD-3R305S 0 IN 4 5 CAT ANO 4 www.hilscher.com 5 VO VE GND VCC 1 2 C301 2 6 CAN 7 C306 0805 22uF 1 470 0603 R3042 ISOGND_CAN 1 7 ISO+5V_CAN 0603 100nF ISO+5V_CAN 6 CANopen 3 2 6 7 5 8 ISO-AREA + 3,3V DC + 5 Hilscher Gesellschaft für Systemautomatiom mbH 3 red LEDSRG DIODE-LED-LEDSRG-1210 4 R3102 1 270 2 0603 C305 P301 2 0805 22uF 1 C302 270 R301 0603 100nF 1 2 2 GND R3092 1 1 2 0805 Z=1000 Ohm @100MHz R308 1 R307 2 R303 +3V3 2 0805 Z=1000 Ohm @100MHz CO_RX CO_TX T9 CO_STA U10 CO_ERR T10 U11 H1 J1 J2 L2 Matthias Melzer GPIO28 GPIO29 GPIO30 GPIO31 K101-P MMIO28 MMIO29 MMIO30 MMIO31 Checked Edited GPIO00 GPIO01 GPIO02 GPIO03 MICRO-NETX50-2230.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX50 1 +3V3 4 0603 B 3 0603 1 3 8 1 EN VIN 2 GND 1 TXD 4 RXD 5 V_REF 8 RS 8 NCP500SN50T1 VOUT 5 ISOGND_CAN 470 T302 2 R302 ISO+5V_CAN 0603 A 2 2 9 GND VCC 2 3 10 2 ISOGND_CAN ISOGND_CAN 10 C303 0603 100nF 1 ISO+5V_CAN ISO+5V_CAN 7 CANH 6 CANL C307 0805 10uF 1 PCA82C251T K303 9 11 1 11 3 2 ISOGND_CAN 1 12 2 1M R306 PESD1CAN R305 12 2010 1 1 2 13 C304 1808 15nF PE 14 Page of Page CAN-L X301 14 1 1 2 2 3 3 4 4 5 5 6 ISOGND_CAN 6 7 CAN-H 7 8 8 9 9 10 SHIELD1 11 SHIELD2 XDCP9SW-6MM 13 4 3 J I H G F E D C B A Quick Start 50/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name C409 1 2 2 2 28.02.2012 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 1 2 C407 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 2 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 6 7 POWER_SUPPLY +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 CANopen R410 1.8k R409 GND GND G C405 3 FDC5612 6 K401 D2 D3 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 1 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 GND1 Matthias Melzer 2 2 COMP 9 C402 1210 10uF 1 C410 0805 22uF 1 +3V3 2.2k R407 0603 2.2nF 1 GND 2 1 C401 1210 10uF 1 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF 2 0603 1 2 0603 1 100nF GPIO08 GPIO09 GPIO10 GPIO11 9 MICRO-NETX50-2230.000 MMIO08 MMIO09 MMIO10 MMIO11 GPIO24 GPIO25 GPIO26 GPIO27 11 MICRO-NETX50-2230.000 MMIO24 MMIO25 MMIO26 MMIO27 K101-O GPIO12 GPIO13 GPIO14 GPIO15 K101-L MMIO12 MMIO13 MMIO14 MMIO15 K101-M netX50 MICRO-NETX50-2230.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 K101-I VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 MICRO-NETX50-2230.000 10 GND A5 B5 C5 D4 D6 D14 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 E14 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N6 N7 N14 P5 P6 P15 R9 R16 T17 U18 netX50 11 MICRO-NETX50-2230.000 M1 N1 N2 P1 K2 K1 L1 M2 100nF C415 +1V5 10 C413 GPIO04 GPIO05 GPIO06 GPIO07 K101-K MMIO04 MMIO05 MMIO06 MMIO07 10uF C414 C412 9 U7 R8 V9 U9 R1 U1 T1 V1 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 12 GND +3V3 12 1 2 0603 1 2 0603 1 2 0603 100nF 1 2 0805 1 2 0805 1 2 0805 10uF 13 MICRO-NETX50-2230.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX50-2230.000 GPIO32 GPIO33 GPIO34 GPIO35 14 14 Page of Page V13 U13 T13 V14 V12 T11 U12 T12 GND C420 10uF C418 10uF C416 K101-Q MMIO32 MMIO33 MMIO34 MMIO35 C421 100nF C419 100nF C417 13 4 4 J I H G F E D C B A Quick Start 51/334 © Hilscher, 2008-2013 Quick Start 52/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 50 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 C206 Ceramic Capacitor 100nF 25V 0603 C207 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 12.4kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 53/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 100nF 25V 0603 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 15nF 1000V 1808 C305 Ceramic Capacitor 22µF 6.3V 0805 C306 Ceramic Capacitor 22µF 6.3V 0805 C307 Ceramic Capacitor 10µF 10V 0805 K301 Optocoupler HCPL0601 K302 Optocoupler HCPL060L K303 CAN transceiver PCA82C251T P301 LED red / green HSMF-C155 R301 Resistor 270Ω 63mW 0603 R302 Resistor 470Ω 63mW 0603 R303 Resistor 470Ω 63mW 0603 R304 Resistor 470Ω 63mW 0603 R305 EDS protection diode PESD1CAN R306 Resistor RKRS1MW500M-2010 R307 Ferrite Würth Elektronik part no. 74279207 R308 Ferrite Würth Elektronik part no. 74279207 R309 Resistor 270Ω 63mW 0603 R310 Resistor 470Ω 63mW 0603 T301 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T302 Voltage Regulator NCP500SN50T1 X301 D-Sub9 Male SUYIN USA part no. 070211MR009G200ZU netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 54/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 22pF 2 1 22pF 2 C106 1 C105 GND 4 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 +1V5 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 3 0603 0603 2 OSC_XTO T8 L6 L5 K6 K5 J5 6 K101-E MICRO-NETX50-2230.000 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 K101-N MICRO-NETX50-2230.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 MICRO-NETX50-2230.000 7 2 1 RDY RUN GND 2 1.5k 10k R105 USB_DPOS USB_DNEG V8 8 +3V3 R110 U8 U2 V2 V3 T6 V6 U6 T7 V7 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX50-2230.000 USB_DNEG USB_DPOS K101-H MICRO-NETX50-2230.000 USB_VDDIO C1 1 8 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# CORE RSTOUT# MICRO-NETX50-2230.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A TEST TMC1 TMC2 TACT_TRST MEM_IF_OM OSC_XTI CC-Link +3V3 GND B1 D2 7 netX50 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 0603 1nF 1 GND POR# 6 0603 0603 1 1.5k 2 GND GND 2 5 1.5k 9 9 SN65220DBVT R103 1 3 4 X102 2 0603 C101 3 22 22 0603 GND 7 10 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 ROM 32Mbit 1 MOSI 2 SCK 4 CS# R1022 DUSB_DNEG 1 8 C108 GND 2 GND GND 2 12 11 PE DD+ 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 12 USB Device C102 GND RDY/RUN LED 0603 100nF 1 +3V3 390 0603 390 0603 R1092 1 R1082 1 3 4 yellow LEDSYG 2 P101 1 green SEC. MEM 11 0603 100nF 1 +3V3 SPI FLASH RDY RUN 560 0603 560 0603 R1072 RUN 1 R1062 RDY 1 R1012 D+ USB_DPOS 1 VCC ROM 1k C107 10 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU POR# R111 R104 A B 6 4 2 1 0603 B 2 0603 13 13 4 Page of 14 1 Page 14 J I H G F E D C B A 2.1.7 SPI_MISO A 1 Quick Start 55/334 CC-Link © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B A 1 Checked Edited 1 DPM Interface Date Name Date Name 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 TCLK PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX50-2230.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_INT DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# 28.02.2012 2 K101-C netX50 3 DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE MICRO-NETX50-2230.000 4 www.hilscher.com 5 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX50 5 Hilscher Gesellschaft für Systemautomatiom mbH B11 4 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 8 J7 H8 BA0 BA1 0 4M A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE A VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 9 1 C202 C204 2 0603 100nF 1 2 0603 100nF 6 7 8 9 C203 10 GND 2 10 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 SDRAM/HOST_INTERFACE/ETHERNET K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 RAM 512k x 32 C201 D[0:31] 8MB SDRAM G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A[0:17] CC-Link D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 6 11 11 M15 +1V5 N17 T18 +1V5 P18 M17 L18 12 MICRO-NETX50-2230.000 K18 PHY_EXTRES L15 PHY_ATP 1 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN 0603 12.4k R2012 L16 +1V5 M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 PHY0_RXN N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3 PHY_VDDIOAT M16 +3V3 PHY_VDDIOAC K101-B netX50 12 13 GND 2 0603 1 +3V3 13 100nF C206 100nF C207 14 Page of Page 2 0603 1 +1V5 14 4 2 J I H G F E D C B A Quick Start 56/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited Date Name Date Name MICRO-NETX50-2230.000 R311 T9 PIO0 U10 PIO1 T10 U11 1 2 28.02.2012 470 0603 C304 C309 4 2 1 green 1210 P301 2 0805 22uF 1 2 GND 0603 100nF 1 +3V3 2 GND 3 6 5 8 2 4 1 3 2 VO 1 2 GND2 VDD2 VI GND1 VCC CAT ANO 5V DC 0 OUT +3V3 PSD-3R305S 0 IN + 3,3V DC + T301 ACPL072L OPTO-ACPL072L K303 ACPL072L OPTO-ACPL072L K302 HCPL0601 OPTO-HCPL0601 & K301 4 5 VI GND1 VCC VO GND2 VDD2 VO VE GND VCC 2 4 1 6 5 8 6 7 5 8 4 www.hilscher.com 5 C301 ISOGND_CCL C303 ISOGND_CCL C305 2 2 1 2 1k 6 CC-LINK CC-Link 1 3 7 EN VIN 2 GND 5 NCP500SN50T1 VOUT T302 NC7SZ14P5 INV-NC7SZ14P5 ISO+5V_CCL ISOGND_CCL 5 VCC Y 4 K304 2 A 3 GND R302 ISOGND_CCL C310 0805 22uF 1 ISOGND_CCL 0603 100nF 1 ISO+5V_CCL 2 0603 100nF 1 ISO+5V_CCL 2 0603 100nF 1 ISO+5V_CCL ISOLATED AREA 7 8 2 3 5 4 2 R 2 B A Z Y C311 9 2 ISOGND_CCL 11 12 10 9 9 ISOGND_CCL ISO+5V_CCL B A Z Y 7 GND2 6 GND1 1 1 2 10 ISOGND_CCL 2 0603 2 R306 680 1 680 0603 R3052 1 R307 47k 47k R304 ISO+5V_CCL 10 C307 0603 100nF 1 ISO+5V_CCL 14 VCC2 13 VCC1 75ALS181D DRIVER-75ALS181D R RE D DE K305 ISOGND_CCL 0805 22uF 1 RE# D DE 10k 0603 100nF R3032 1 1 C306 8 11 2 11 ISOGND_CCL 1 6 3 5 0603 4 Hilscher Gesellschaft für Systemautomatiom mbH 3 red LEDSRG DIODE-LED-LEDSRG-1210 R3142 270 0603 R3132 1 1 2 0805 Z=1000 Ohm @100MHz R312 C302 GND 0603 100nF 1 +3V3 220 0603 R3012 1 1 2 0805 Z=1000 Ohm @100MHz XM0_IO0 XM0_RX XM0_TX Matthias Melzer GPIO28 GPIO29 GPIO30 GPIO31 K101-P MMIO28 MMIO29 MMIO30 MMIO31 H1 J1 J2 L2 +3V3 GPIO00 GPIO01 GPIO02 GPIO03 MICRO-NETX50-2230.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX50 3 0603 A 2 0603 0603 1 12 R310 L1_1 L1_2 1 6 L2_1 L2_2 2 5 L3_1 L3_2 3 4 ZCYS51R5-M3PAT ISOGND_CCL RD6.2Z R308 12 1 13 2 5 4 3 2 1 14 4 3 X301 14 Page of Page PE C308 0805 3.3nF 13 J I H G F E D C B A Quick Start 57/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name C409 1 2 2 2 28.02.2012 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 1 2 C407 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 2 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 6 7 POWER_SUPPLY +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 CC-Link R410 1.8k R409 GND GND G C405 3 FDC5612 6 K401 D2 D3 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 1 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 GND1 Matthias Melzer 2 2 COMP 9 C402 1210 10uF 1 C410 0805 22uF 1 +3V3 2.2k R407 0603 2.2nF 1 GND 2 1 C401 1210 10uF 1 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF 2 0603 1 2 0603 1 100nF GPIO08 GPIO09 GPIO10 GPIO11 9 MICRO-NETX50-2230.000 MMIO08 MMIO09 MMIO10 MMIO11 GPIO24 GPIO25 GPIO26 GPIO27 11 MICRO-NETX50-2230.000 MMIO24 MMIO25 MMIO26 MMIO27 K101-O GPIO12 GPIO13 GPIO14 GPIO15 K101-L MMIO12 MMIO13 MMIO14 MMIO15 K101-M netX50 MICRO-NETX50-2230.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 K101-I VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 MICRO-NETX50-2230.000 10 GND A5 B5 C5 D4 D6 D14 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 E14 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N6 N7 N14 P5 P6 P15 R9 R16 T17 U18 netX50 11 MICRO-NETX50-2230.000 M1 N1 N2 P1 K2 K1 L1 M2 100nF C415 +1V5 10 C413 GPIO04 GPIO05 GPIO06 GPIO07 K101-K MMIO04 MMIO05 MMIO06 MMIO07 10uF C414 C412 9 U7 R8 V9 U9 R1 U1 T1 V1 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 12 GND +3V3 12 1 2 0603 1 2 0603 1 2 0603 100nF 1 2 0805 1 2 0805 1 2 0805 10uF 13 MICRO-NETX50-2230.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX50-2230.000 GPIO32 GPIO33 GPIO34 GPIO35 14 14 Page of Page V13 U13 T13 V14 V12 T11 U12 T12 GND C420 10uF C418 10uF C416 K101-Q MMIO32 MMIO33 MMIO34 MMIO35 C421 100nF C419 100nF C417 13 4 4 J I H G F E D C B A Quick Start 58/334 © Hilscher, 2008-2013 Quick Start 59/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 50 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 C206 Ceramic Capacitor 100nF 25V 0603 C207 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 12.4kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 60/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 100nF 25V 0603 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 100nF 25V 0603 C305 Ceramic Capacitor 100nF 25V 0603 C306 Ceramic Capacitor 100nF 25V 0603 C307 Ceramic Capacitor 100nF 25V 0603 C308 Ceramic Capacitor 3.3nF 63V 0805 C309 Ceramic Capacitor 22µF 6.3V 0805 C310 Ceramic Capacitor 22µF 6.3V 0805 C311 Ceramic Capacitor 22µF 6.3V 0805 K301 Optocoupler HCPL0601 K302 Optocoupler ACPL072L K303 Optocoupler ACPL072L K304 Schmitt Trigger NC7SZ14P5 K305 Driver 75ALS181D P301 LED red / green HSMF-C155 R301 Resistor 220Ω 63mW 0603 R302 Resistor 1kΩ 63mW 0603 R303 Resistor 10kΩ 63mW 0603 R304 Resistor 47kΩ 63mW 0603 R305 Resistor 680Ω 63mW 0603 R306 Resistor 680Ω 63mW 0603 R307 Resistor 47kΩ 63mW 0603 R308 Zener Diode RD6.2Z R310 Choke EMC Components part no. ZCYS51R5-M3PAT R311 Ferrite Würth Elektronik part no. 74279207 R312 Ferrite Würth Elektronik part no. 74279207 R313 Resistor 270Ω 63mW 0603 R314 Resistor 470Ω 63mW 0603 T301 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T302 Voltage Regulator NCP500SN50T1 X301 Connector Phoenix Contact MC1,5/5-G-3,81 part no. 1803303 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 61/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 22pF 2 1 22pF 2 C106 1 C105 GND 4 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 +1V5 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 3 0603 0603 2 OSC_XTO T8 L6 L5 K6 K5 J5 K101-E MICRO-NETX50-2230.000 6 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 K101-N MICRO-NETX50-2230.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 MICRO-NETX50-2230.000 7 2 1 RDY RUN GND 2 1.5k 10k R105 USB_DPOS USB_DNEG V8 8 +3V3 R110 U8 U2 V2 V3 T6 V6 U6 T7 V7 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX50-2230.000 USB_DNEG USB_DPOS K101-H MICRO-NETX50-2230.000 USB_VDDIO C1 1 8 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# CORE RSTOUT# MICRO-NETX50-2230.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A TEST TMC1 TMC2 TACT_TRST MEM_IF_OM OSC_XTI CompoNet +3V3 GND B1 D2 7 netX50 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 0603 1nF 1 GND POR# 6 0603 0603 1 1.5k 2 GND GND 2 5 1.5k 9 9 SN65220DBVT R103 1 3 4 X102 2 0603 C101 3 22 22 0603 GND 7 10 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 ROM 32Mbit 1 MOSI 2 SCK 4 CS# R1022 DUSB_DNEG 1 8 C108 GND 2 GND GND 2 12 11 PE DD+ 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 12 USB Device C102 GND RDY/RUN LED 0603 100nF 1 +3V3 390 0603 390 0603 R1092 1 R1082 1 3 4 yellow LEDSYG 2 P101 1 green SEC. MEM 11 0603 100nF 1 +3V3 SPI FLASH RDY RUN 560 0603 560 0603 R1072 RUN 1 R1062 RDY 1 R1012 D+ USB_DPOS 1 VCC ROM 1k C107 10 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU POR# R111 R104 A B 6 4 2 1 0603 B 2 0603 13 13 4 Page of 14 1 Page 14 J I H G F E D C B A 2.1.8 SPI_MISO A 1 Quick Start 62/334 CompoNet © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B A 1 Checked Edited 1 DPM Interface Date Name Date Name 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 TCLK PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX50-2230.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_INT DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# 28.02.2012 2 K101-C netX50 3 DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE MICRO-NETX50-2230.000 4 www.hilscher.com 5 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX50 5 Hilscher Gesellschaft für Systemautomatiom mbH B11 4 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 8 J7 H8 BA0 BA1 0 4M A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE A VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 9 1 C202 C204 2 0603 100nF 1 2 0603 100nF 6 7 8 9 C203 10 GND 2 10 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 SDRAM/HOST_INTERFACE/ETHERNET K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 RAM 512k x 32 C201 D[0:31] 8MB SDRAM G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A[0:17] CompoNet D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 6 11 11 M15 +1V5 N17 T18 +1V5 P18 M17 L18 12 MICRO-NETX50-2230.000 K18 PHY_EXTRES L15 PHY_ATP 1 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN 0603 12.4k R2012 L16 +1V5 M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 PHY0_RXN N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3 PHY_VDDIOAT M16 +3V3 PHY_VDDIOAC K101-B netX50 12 13 GND 2 0603 1 +3V3 13 100nF C206 100nF C207 14 Page of Page 2 0603 1 +1V5 14 4 2 J I H G F E D C B A Quick Start 63/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited GPIO00 GPIO01 GPIO02 GPIO03 GPIO28 GPIO29 GPIO30 GPIO31 Date Name Date Name T9 U10 T10 U11 H1 J1 J2 L2 CN_MS_G CN_MS_R CN_NS_G CN_NS_R CN_EN CN_RX CN_TX 2 28.02.2012 Matthias Melzer MICRO-NETX50-2230.000 MMIO28 MMIO29 MMIO30 MMIO31 K101-P MICRO-NETX50-2230.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX50 GND +3V3 3 3 & B A NC7SZ08P5 5 VCC 4 Y 3 GND K301 1 GND 2 1k 1 470 0603 R3212 270 0603 R3202 1 470 0603 7 6 5 8 1 green 1210 green 1210 3 red 1 LEDSRG 4 2 P302 3 red LEDSRG 4 270 B A GND VCC P301 2 AD51/025 D R3192 1 0603 DI R R3182 1 R301 4 1 RO 2 RE 3 DE K302 5 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH 2 1 RX 5V to 3V3 4 0603 +3V3_CN +3V3_CN 2 7 COMPONET 6 C302 10 0603 R3062 1 2 RD6.2SB1 R311 2 GND 2 1 1 8 1 2 0805 Z=1000 Ohm @100MHz R317 9 R314 RD6.2SB1 1 2 0805 Z=1000 Ohm @100MHz R316 R312 RD6.2SB1 +3V3 2 1 1 RD6.2SB1 R313 10 0603 R3082 1 10 0603 R3072 1 9 10 0603 8 R3052 1 0603 220pF 1 2 200 Ohm LEFS300RA500M-0603 1 R304 1 7 2 200 Ohm LEFS300RA500M-0603 GND R302 C301 CompoNet 2 0603 100nF 1 ISO+5V_CP 6 2 C304 GND 2 10 C303 0603 220pF 1 2 150 10 R309 0805 22uF 1 1 0603 A 2 1 2 0603 1 5 5 1 2 1 4 5V DC 0 4 5 11 OUT PSD-3R305S 0 IN + 3,3V DC + T302 4 2 2 3 3 1 03-7104 R315 15 8 T301 7 7 6 6 8 2 3 BDH 12 C305 1 4 BDL ACM3225-102-2P 0805 22uF 1 2 12 R310 ISO-AREA 11 3 1 EN VIN 2 5 1 2 14 C306 ISO+5V_CP 14 Page of Page ISOGND_CP 0805 10uF NCP500SN50T1 13 GND VOUT T303 BS+ BDH BDL BSXW7D-PB4-R 1 2 3 4 X301 13 4 3 J I H G F E D C B A Quick Start 64/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name C409 1 2 2 2 28.02.2012 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 1 2 C407 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 2 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 6 7 POWER_SUPPLY +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 CompoNet R410 1.8k R409 GND GND G C405 3 FDC5612 6 K401 D2 D3 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 1 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 GND1 Matthias Melzer 2 2 COMP 9 C402 1210 10uF 1 C410 0805 22uF 1 +3V3 2.2k R407 0603 2.2nF 1 GND 2 1 C401 1210 10uF 1 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF 2 0603 1 2 0603 1 100nF GPIO08 GPIO09 GPIO10 GPIO11 9 MICRO-NETX50-2230.000 MMIO08 MMIO09 MMIO10 MMIO11 GPIO24 GPIO25 GPIO26 GPIO27 11 MICRO-NETX50-2230.000 MMIO24 MMIO25 MMIO26 MMIO27 K101-O GPIO12 GPIO13 GPIO14 GPIO15 K101-L MMIO12 MMIO13 MMIO14 MMIO15 K101-M netX50 MICRO-NETX50-2230.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 K101-I VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 MICRO-NETX50-2230.000 10 GND A5 B5 C5 D4 D6 D14 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 E14 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N6 N7 N14 P5 P6 P15 R9 R16 T17 U18 netX50 11 MICRO-NETX50-2230.000 M1 N1 N2 P1 K2 K1 L1 M2 100nF C415 +1V5 10 C413 GPIO04 GPIO05 GPIO06 GPIO07 K101-K MMIO04 MMIO05 MMIO06 MMIO07 10uF C414 C412 9 U7 R8 V9 U9 R1 U1 T1 V1 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 12 GND +3V3 12 1 2 0603 1 2 0603 1 2 0603 100nF 1 2 0805 1 2 0805 1 2 0805 10uF 13 MICRO-NETX50-2230.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX50-2230.000 GPIO32 GPIO33 GPIO34 GPIO35 14 14 Page of Page V13 U13 T13 V14 V12 T11 U12 T12 GND C420 10uF C418 10uF C416 K101-Q MMIO32 MMIO33 MMIO34 MMIO35 C421 100nF C419 100nF C417 13 4 4 J I H G F E D C B A Quick Start 65/334 © Hilscher, 2008-2013 Quick Start 66/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 50 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 C206 Ceramic Capacitor 100nF 25V 0603 C207 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 12.4kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 67/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 220pF 50V 0603 C303 Ceramic Capacitor 220pF 50V 0603 C304 Ceramic Capacitor 22µF 6.3V 0805 C305 Ceramic Capacitor 22µF 6.3V 0805 C306 Ceramic Capacitor 10µF 10V 0805 K301 Logic AND FAIRCHILD part no. NC7SZ08P5 K302 Driver Omron part no. AD51/025 P301 LED red / green HSMF-C155 P302 LED red / green HSMF-C155 R301 Resistor 1kΩ 63mW 0603 R302 Ferrite TDK part no. MMZ1608B301C R304 Ferrite TDK part no. MMZ1608B301C R305 Resistor 10Ω 63mW 0603 R306 Resistor 10Ω 63mW 0603 R307 Resistor 10Ω 63mW 0603 R308 Resistor 10Ω 63mW 0603 R309 Resistor 150Ω 63mW 0603 R310 Filter TDK part no. ACM3225-102-2P R311 Zener Diode NEC part no. RD6.2SB1 R312 Zener Diode NEC part no. RD6.2SB1 R313 Zener Diode NEC part no. RD6.2SB1 R314 Zener Diode NEC part no. RD6.2SB1 R315 Resistor 15Ω 63mW 0603 R316 Ferrite Würth Elektronik part no. 74279207 R317 Ferrite Würth Elektronik part no. 74279207 R318 Resistor 270Ω 63mW 0603 R319 Resistor 470Ω 63mW 0603 R320 Resistor 270Ω 63mW 0603 R321 Resistor 470Ω 63mW 0603 T301 Transformer OMRON part no. 03-7104 T302 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T303 Voltage Regulator NCP500SN50T1 X301 Connector OMRON part no. XW7D-PB4-R netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 68/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 22pF 2 1 22pF 2 C106 1 C105 GND 4 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 +1V5 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 3 0603 0603 2 OSC_XTO T8 L6 L5 K6 K5 J5 K101-E MICRO-NETX50-2230.000 6 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 K101-N MICRO-NETX50-2230.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 MICRO-NETX50-2230.000 7 2 1 RDY RUN GND 2 1.5k 10k R105 USB_DPOS USB_DNEG V8 8 +3V3 R110 U8 U2 V2 V3 T6 V6 U6 T7 V7 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX50-2230.000 USB_DNEG USB_DPOS K101-H MICRO-NETX50-2230.000 USB_VDDIO C1 1 8 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# CORE RSTOUT# MICRO-NETX50-2230.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A TEST TMC1 TMC2 TACT_TRST MEM_IF_OM OSC_XTI DeviceNet +3V3 GND B1 D2 7 netX50 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 0603 1nF 1 GND POR# 6 0603 0603 1 1.5k 2 GND GND 2 5 1.5k 9 9 SN65220DBVT R103 1 3 4 X102 2 0603 C101 3 22 22 0603 GND 7 10 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 ROM 32Mbit 1 MOSI 2 SCK 4 CS# R1022 DUSB_DNEG 1 8 C108 GND 2 GND GND 2 12 11 PE DD+ 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 12 USB Device C102 GND RDY/RUN LED 0603 100nF 1 +3V3 390 0603 390 0603 R1092 1 R1082 1 3 4 yellow LEDSYG 2 P101 1 green SEC. MEM 11 0603 100nF 1 +3V3 SPI FLASH RDY RUN 560 0603 560 0603 R1072 RUN 1 R1062 RDY 1 R1012 D+ USB_DPOS 1 VCC ROM 1k C107 10 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU POR# R111 R104 A B 6 4 2 1 0603 B 2 0603 13 13 4 Page of 14 1 Page 14 J I H G F E D C B A 2.1.9 SPI_MISO A 1 Quick Start 69/334 DeviceNet © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B A 1 Checked Edited 1 DPM Interface Date Name Date Name 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 TCLK PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX50-2230.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_INT DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# 28.02.2012 2 K101-C netX50 3 DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE MICRO-NETX50-2230.000 4 www.hilscher.com 5 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX50 5 Hilscher Gesellschaft für Systemautomatiom mbH B11 4 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 8 J7 H8 BA0 BA1 0 4M A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE A VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 9 1 C202 C204 2 0603 100nF 1 2 0603 100nF 6 7 8 9 C203 10 GND 2 10 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 SDRAM/HOST_INTERFACE/ETHERNET K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 RAM 512k x 32 C201 D[0:31] 8MB SDRAM G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A[0:17] DeviceNet D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 6 11 11 M15 +1V5 N17 T18 +1V5 P18 M17 L18 12 MICRO-NETX50-2230.000 K18 PHY_EXTRES L15 PHY_ATP 1 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN 0603 12.4k R2012 L16 +1V5 M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 PHY0_RXN N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3 PHY_VDDIOAT M16 +3V3 PHY_VDDIOAC K101-B netX50 12 13 GND 2 0603 1 +3V3 13 100nF C206 100nF C207 14 Page of Page 2 0603 1 +1V5 14 4 2 J I H G F E D C B A Quick Start 70/334 © Hilscher, 2008-2013 J I H G F E D C B 1 Date Name Date Name MICRO-NETX50-2230.000 XM0_IO0 XM0_RX XM0_TX T9 PIO0 U10 PIO1 T10 U11 GND +3V3 H1 J1 J2 L2 2 28.02.2012 100nF 3 470 1 4.02k C311 GND 2 R306 +3V3 2 GND 1 green 1210 3 4 6 7 5 8 3 2 1 2 +3V3 EMI COL VO VE GND VCC CAT ANO 5 K302 HCPL0601 & K301 5V DC 0 OUT PSD-3R305S 0 IN + 3,3V DC + T301 TLP281 K303 HCPL060L & 4 www.hilscher.com 5 6 7 4 5 2 1 3 2 6 7 5 8 1 C301 2 2 C312 0805 22uF 1 1 470 0603 6 7 DEVICENET 4.02k 3 1 1 EN 8 2 2 5 8 9 C313 ISOGND_DN 2 ISOGND_DN 4.3k 0805 2 3 7 CANH 6 CANL GND VCC R3092 1 PCA82C251T 0805 22uF 1 9 K304 ISO+5V_DN NCP500SN50T1 VOUT GND C308 1 TXD 4 RXD 5 V_REF 8 RS 0603 100nF 1 ISOGND_DN 470 T302 VIN 2 R302 ISO+5V_DN R307 R3042 1 ISOGND_DN ISO+5V_DN 2 0603 100nF DeviceNet CAT ANO CAT ANO VO VE GND VCC ISOLATED-AREA Hilscher Gesellschaft für Systemautomatiom mbH 3 red LEDSRG DIODE-LED-LEDSRG-1210 4 0603 270 R3162 1 2 0603 2 C302 0603 100nF 1 2 270 R301 0805 22uF R3152 1 1 2 0805 Z=1000 Ohm @100MHz R314 1 1 +3V3 P301 2 A 3 GND K305 1.3k 5 VCC 4 Y 2 R303 C304 74LVC1G17GW R313 GND 2 0603 1 +3V3 1 +3V3 1 2 0805 Z=1000 Ohm @100MHz Matthias Melzer GPIO28 GPIO29 GPIO30 GPIO31 K101-P MMIO28 MMIO29 MMIO30 MMIO31 Checked Edited GPIO00 GPIO01 GPIO02 GPIO03 MICRO-NETX50-2230.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX50 4 0603 A 0603 0603 0603 3 0603 10 2 C303 ISOGND_DN 0603 100nF 1 ISO+5V_DN 10 2 1 2 1M PESD1CAN R305 11 11 R311 ISOGND_DN 1 2 1 2 2 12 C309 1 2 1M 13 13 R312 ISOGND_DN RVA30VA800-1812 12 R310 1808 15nF U 1 1812 3 2010 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 2010 1 PE 2 C310 14 Page of Page 1808 15nF 1 DN-H ISOGND_DN DN-L 14 4 3 X301 1 2 3 4 5 J I H G F E D C B A Quick Start 71/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name C409 1 2 2 2 28.02.2012 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 1 2 C407 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 2 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 6 7 POWER_SUPPLY +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 DeviceNet R410 1.8k R409 GND GND G C405 3 FDC5612 6 K401 D2 D3 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 1 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 GND1 Matthias Melzer 2 2 COMP 9 C402 1210 10uF 1 C410 0805 22uF 1 +3V3 2.2k R407 0603 2.2nF 1 GND 2 1 C401 1210 10uF 1 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF 2 0603 1 2 0603 1 100nF GPIO08 GPIO09 GPIO10 GPIO11 9 MICRO-NETX50-2230.000 MMIO08 MMIO09 MMIO10 MMIO11 GPIO24 GPIO25 GPIO26 GPIO27 11 MICRO-NETX50-2230.000 MMIO24 MMIO25 MMIO26 MMIO27 K101-O GPIO12 GPIO13 GPIO14 GPIO15 K101-L MMIO12 MMIO13 MMIO14 MMIO15 K101-M netX50 MICRO-NETX50-2230.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 K101-I VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 MICRO-NETX50-2230.000 10 GND A5 B5 C5 D4 D6 D14 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 E14 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N6 N7 N14 P5 P6 P15 R9 R16 T17 U18 netX50 11 MICRO-NETX50-2230.000 M1 N1 N2 P1 K2 K1 L1 M2 100nF C415 +1V5 10 C413 GPIO04 GPIO05 GPIO06 GPIO07 K101-K MMIO04 MMIO05 MMIO06 MMIO07 10uF C414 C412 9 U7 R8 V9 U9 R1 U1 T1 V1 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 12 GND +3V3 12 1 2 0603 1 2 0603 1 2 0603 100nF 1 2 0805 1 2 0805 1 2 0805 10uF 13 MICRO-NETX50-2230.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX50-2230.000 GPIO32 GPIO33 GPIO34 GPIO35 14 14 Page of Page V13 U13 T13 V14 V12 T11 U12 T12 GND C420 10uF C418 10uF C416 K101-Q MMIO32 MMIO33 MMIO34 MMIO35 C421 100nF C419 100nF C417 13 4 4 J I H G F E D C B A Quick Start 72/334 © Hilscher, 2008-2013 Quick Start 73/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 50 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 C206 Ceramic Capacitor 100nF 25V 0603 C207 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 12.4kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 74/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 100nF 25V 0603 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 100nF 25V 0603 C308 Ceramic Capacitor 100nF 25V 0603 C309 Ceramic Capacitor 15nF 1000V 1808 C310 Ceramic Capacitor 15nF 1000V 1808 C311 Ceramic Capacitor 22µF 6.3V 0805 C312 Ceramic Capacitor 22µF 6.3V 0805 C313 Ceramic Capacitor 22µF 6.3V 0805 K301 Optocoupler HCPL0601 K302 Optocoupler HCPL060L K303 Optocoupler TLP281 K304 CAN transceiver PCA82C251T K305 Schmitt-trigger 74LVC1G17GW P301 LED red / green HSMF-C155 R301 Resistor 270Ω 63mW 0603 R302 Resistor 470Ω 63mW 0603 R303 Resistor 1.3kΩ 63mW 0603 R304 Resistor 470Ω 63mW 0603 R305 EDS protection diode PESD1CAN R306 Resistor 4.02kΩ 63mW 0603 R307 Resistor 4.02kΩ 63mW 0603 R309 Resistor 4.3kΩ 125mW 0805 R310 Varistor B72580-V300-K62 R311 Resistor 1MΩ 500mW 2010 R312 Resistor 1MΩ 500mW 2010 R313 Ferrite Würth Elektronik part no. 74279207 R314 Ferrite Würth Elektronik part no. 74279207 R315 Resistor 270Ω 63mW 0603 R316 Resistor 470Ω 63mW 0603 T301 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T302 Voltage Regulator NCP500SN50T1 X301 Connector Phoenix Contact MC1,5/5-G-3,81 part no. 1803303 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 75/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 22pF 2 1 22pF 2 C106 1 C105 GND 4 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 +1V5 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 3 0603 0603 2 OSC_XTO T8 L6 L5 K6 K5 J5 K101-E MICRO-NETX50-2230.000 6 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 K101-N MICRO-NETX50-2230.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 MICRO-NETX50-2230.000 7 2 1 RDY RUN GND 2 1.5k 10k R105 USB_DPOS USB_DNEG V8 8 +3V3 R110 U8 U2 V2 V3 T6 V6 U6 T7 V7 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX50-2230.000 USB_DNEG USB_DPOS K101-H MICRO-NETX50-2230.000 USB_VDDIO C1 1 8 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# CORE RSTOUT# MICRO-NETX50-2230.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A TEST TMC1 TMC2 TACT_TRST MEM_IF_OM OSC_XTI PROFIBUS +3V3 GND B1 D2 7 netX50 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 0603 1nF 1 GND POR# 6 0603 0603 1 1.5k 2 GND GND 2 5 1.5k 9 9 SN65220DBVT R103 1 3 4 X102 2 0603 C101 3 22 22 0603 GND 7 10 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 ROM 32Mbit 1 MOSI 2 SCK 4 CS# R1022 DUSB_DNEG 1 8 C108 GND 2 GND GND 2 12 11 PE DD+ 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 12 USB Device C102 GND RDY/RUN LED 0603 100nF 1 +3V3 390 0603 390 0603 R1092 1 R1082 1 3 4 yellow LEDSYG 2 P101 1 green SEC. MEM 11 0603 100nF 1 +3V3 SPI FLASH RDY RUN 560 0603 560 0603 R1072 RUN 1 R1062 RDY 1 R1012 D+ USB_DPOS 1 VCC ROM 1k C107 10 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU POR# R111 R104 A B 6 4 2 1 0603 B 2 0603 13 13 4 Page of 14 1 Page 14 J I H G F E D C B A 2.1.10 SPI_MISO A 1 Quick Start 76/334 PROFIBUS © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B A 1 Checked Edited 1 DPM Interface Date Name Date Name 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 TCLK PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX50-2230.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_INT DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# 28.02.2012 2 K101-C netX50 3 DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE MICRO-NETX50-2230.000 4 www.hilscher.com 5 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX50 5 Hilscher Gesellschaft für Systemautomatiom mbH B11 4 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 8 J7 H8 BA0 BA1 0 4M A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE A VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 9 1 C202 C204 2 0603 100nF 1 2 0603 100nF 6 7 8 9 C203 10 GND 2 10 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 SDRAM/HOST_INTERFACE/ETHERNET K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 RAM 512k x 32 C201 D[0:31] 8MB SDRAM G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A[0:17] PROFIBUS D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 6 11 11 M15 +1V5 N17 T18 +1V5 P18 M17 L18 12 MICRO-NETX50-2230.000 K18 PHY_EXTRES L15 PHY_ATP 1 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN 0603 12.4k R2012 L16 +1V5 M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 PHY0_RXN N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3 PHY_VDDIOAT M16 +3V3 PHY_VDDIOAC K101-B netX50 12 13 GND 2 0603 1 +3V3 13 100nF C206 100nF C207 14 Page of Page 2 0603 1 +1V5 14 4 2 J I H G F E D C B A Quick Start 77/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited GPIO28 GPIO29 GPIO30 GPIO31 Date Name Date Name T9 PIO0 U10 PIO1 T10 U11 GND XM_IO0 XM0_RX XM0_TX 2 28.02.2012 Matthias Melzer MICRO-NETX50-2230.000 MMIO28 MMIO29 MMIO30 MMIO31 K101-P H1 J1 J2 L2 +3V3 GPIO00 GPIO01 GPIO02 GPIO03 MICRO-NETX50-2230.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX50 2 3 1 470 0603 R3062 270 0603 R3052 1 0805 Z=1000 Ohm @100MHz 1 R308 2 0805 Z=1000 Ohm @100MHz R307 1 3 C301 6 3 XM0_RX 4 2 1 green 1210 P301 2 1 2 +3V3 RE R D DE T301 IL3585E 4 www.hilscher.com 5 0 OUT 5V DC 16 4 5 A B ISODE 12 13 10 7 2 6 PROFIBUS 7 C302 C305 ISOGND_DP 2 0603 100nF 1 ISO+5V_DP 0805 22uF 1 PB_RXTX_P PB_RXTX_N PROFIBUS PSD-3R305S 0 VDD2 9 GND2-1 15 GND2-2 + 3,3V DC + IN 6 ISOLATED-AREA K301 Hilscher Gesellschaft für Systemautomatiom mbH 4 5 C304 VDD1 8 GND1-2 2 GND1-1 1 XM_IO0 5 XM0_TX 0805 22uF 1 GND 2 0603 100nF 1 +3V3 3 red LEDSRG DIODE-LED-LEDSRG-1210 4 8 8 1 3 EN 2 GND 5 9 NCP500SN50T1 VOUT T302 VIN 9 1 330 0603 1 2 2 2 10 10 C306 0805 22uF 1 100k R303 100k R302 R3012 1 0603 0603 2 ISOGND_DP ISO+5V_DP 11 11 1 2 2010 A 1 1M R304 12 12 1 2 C303 1808 2.2nF PE 13 13 PB_RXTX_P PB_CNTR ISOGND_DP ISO+5V_DP 14 Page of Page 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 PB_RXTX_N 8 9 9 10 SHIELD1 11 SHIELD2 XDCP9BW-6MM X301 14 4 3 J I H G F E D C B A Quick Start 78/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name C409 1 2 2 2 28.02.2012 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 1 2 C407 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 2 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 6 7 POWER_SUPPLY PROFIBUS R410 1.8k R409 GND GND G C405 3 FDC5612 6 K401 D2 D3 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 1 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 GND1 Matthias Melzer 2 2 COMP 9 C402 1210 10uF 1 C410 0805 22uF 1 +3V3 2.2k R407 0603 2.2nF 1 GND 2 1 C401 1210 10uF 1 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF 2 0603 1 2 0603 1 100nF GPIO08 GPIO09 GPIO10 GPIO11 9 MICRO-NETX50-2230.000 MMIO08 MMIO09 MMIO10 MMIO11 GPIO24 GPIO25 GPIO26 GPIO27 11 MICRO-NETX50-2230.000 MMIO24 MMIO25 MMIO26 MMIO27 K101-O GPIO12 GPIO13 GPIO14 GPIO15 K101-L MMIO12 MMIO13 MMIO14 MMIO15 K101-M netX50 MICRO-NETX50-2230.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 K101-I VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 MICRO-NETX50-2230.000 10 GND A5 B5 C5 D4 D6 D14 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 E14 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N6 N7 N14 P5 P6 P15 R9 R16 T17 U18 netX50 11 MICRO-NETX50-2230.000 M1 N1 N2 P1 K2 K1 L1 M2 100nF C415 +1V5 10 C413 GPIO04 GPIO05 GPIO06 GPIO07 K101-K MMIO04 MMIO05 MMIO06 MMIO07 10uF C414 C412 9 U7 R8 V9 U9 R1 U1 T1 V1 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 12 GND +3V3 12 1 2 0603 1 2 0603 1 2 0603 100nF 1 2 0805 1 2 0805 1 2 0805 10uF 13 MICRO-NETX50-2230.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX50-2230.000 GPIO32 GPIO33 GPIO34 GPIO35 14 14 Page of Page V13 U13 T13 V14 V12 T11 U12 T12 GND C420 10uF C418 10uF C416 K101-Q MMIO32 MMIO33 MMIO34 MMIO35 C421 100nF C419 100nF C417 13 4 4 J I H G F E D C B A Quick Start 79/334 © Hilscher, 2008-2013 Quick Start 80/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 50 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 C206 Ceramic Capacitor 100nF 25V 0603 C207 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 12.4kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 81/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 100nF 25V 0603 C303 Ceramic Capacitor 2.2nF 1000V 1808 C304 Ceramic Capacitor 22µF 6.3V 0805 C305 Ceramic Capacitor 22µF 6.3V 0805 C306 Ceramic Capacitor 22µF 6.3V 0805 K301 Driver IL3585E P301 LED red / green HSMF-C155 R301 Resistor 330Ω 63mW 0603 R302 Resistor 100kΩ 63mW 0603 R303 Resistor 100kΩ 63mW 0603 R304 Resistor 1MΩ 500mW 2010 R305 Resistor 270Ω 63mW 0603 R306 Resistor 470Ω 63mW 0603 R307 Ferrite Würth Elektronik part no. 74279207 R308 Ferrite Würth Elektronik part no. 74279207 T301 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T302 Voltage Regulator NCP500SN50T1 X301 D-Sub9 Female SUYIN USA part no. 070212FR009G200ZU netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 82/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 1 22pF 2 GND 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 4 www.hilscher.com 5 2 GND B1 D2 OSC_XTO BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI T8 N6 RSTOUT# GPIO24 GPIO25 GPIO26 GPIO27 K101-E MICRO-NETX51-2231.000 USB_DNEG USB_DPOS V8 U8 MICRO-NETX51-2231.000 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX51-2231.000 USB_VDDC USB_VDDIO K101-H MICRO-NETX51-2231.000 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# V13 U13 T13 V14 U7 R8 V9 U9 C1 6 CORE 7 1 2 +3V3 10k 0603 1.5k GND USB_DNEG USB_DPOS 8 +3V3 1 2 1.5k [4] R111 9 10 8 RDY RUN 1 3 4 X102 2 GND 2 0603 390 390 0603 R1092 1 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 C108 13 GND 2 5 GND A B 6 4 2 0603 9 SN65220DBVT R103 22 22 0603 R1022 DUSB_DNEG 1 R1012 D+ USB_DPOS 1 2 10k R113 10 2 10k R114 GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 DD+ 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 pull up 10k DPM, 8 bit data bus, 16 address lines pull up pull up open R112 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up pull up pull up 1 serial DPM pull up open open 1 SDRAM on HIF, 16 bit data bus, up to 4M byte address range pull up open pull up 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up pull up open 5 Page of 14 1 14 Page no HIF configuration HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open open open pull up RDY/RUN LED 12 open Description R114 R113 R112 GND +3V3 SEC. MEM 11 0603 100nF 1 +3V3 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU VCC ROM 1k C107 Host Interace boot configuration RSTOUT# R110 R1052 RDY RUN 1 8 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G MICRO-NETX51-2231.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX51-2231.000 MMIO24 MMIO25 MMIO26 MMIO27 K101-O MICRO-NETX51-2231.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A Real Time Ethernet +3V3 L6 L5 K6 K5 J5 7 0603 netX51 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 GND POR# 6 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 22pF 2 C106 1 C105 4 0603 B 0603 0603 3 0603 2 0603 J I H G F E D C B A 2.2.1 0603 2.2 SPI_MISO A 1 Quick Start 83/334 netX 51 Ethernet/Real Time Ethernet with 3. External PHY © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited Date Name Date Name 2 09.08.2012 Matthias Melzer 2 3 3 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 D[0:31] H14 G14 J12 J13 K12 A16 A17 A18 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH MICRO-NETX51-2231.000 MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 J7 H8 A16 A17 BA0 BA1 0 4M A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE A VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 RAM 512k x 32 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 C202 2 C204 0603 100nF 1 2 0603 100nF 1 8 C203 GND 2 6 7 8 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 SDRAM/HOST_INTERFACE Real Time Ethernet K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 C201 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 7 8MB SDRAM K101-F 6 A[0:18] 5 netX51 4 9 9 A18 1 2 10k 10 10 R201 +3V3 0603 A 1 12 none A18 Mode GPIO04 GPIO05 GPIO06 GPIO07 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 GPIO32 GPIO33 GPIO34 GPIO35 11 MICRO-NETX51-2231.000 MMIO32 MMIO33 MMIO34 MMIO35 K101-Q MICRO-NETX51-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 K101-N MICRO-NETX51-2231.000 GPIO08 GPIO09 GPIO10 GPIO11 K101-L MMIO08 MMIO09 MMIO10 MMIO11 V12 T11 U12 T12 U2 V2 V3 T6 V6 U6 T7 V7 M1 N1 N2 P1 K2 K1 L1 M2 12 netX50 compatibility mode netX51 native mode MICRO-NETX51-2231.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K netX51 10k Resistor A18 Line Chip Mode Selectrion 11 13 13 14 Page of Page 14 5 2 J I H G F E D C B A Quick Start 84/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited PHY0_RXN Date Name L18 GPIO12 GPIO13 GPIO14 GPIO15 GPIO28 GPIO29 GPIO30 GPIO31 K101-P 2 09.08.2012 Matthias Melzer T9 U10 T10 U11 R1 U1 T1 V1 K18 PHY_EXTRES L15 PHY_ATP K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN MICRO-NETX51-2231.000 Date M17 L16 +1V5E M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART MICRO-NETX51-2231.000 Name P18 P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 K101-M MMIO28 MMIO29 MMIO30 MMIO31 N17 T18 +1V5E N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART MICRO-NETX51-2231.000 MMIO12 MMIO13 MMIO14 MMIO15 M15 +1V5E R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3E PHY_VDDIOAT M16 +3V3E PHY_VDDIOAC K101-B 0603 3 12.4k R3092 1 2 0603 100nF 2 0805 1 10uF C302 1 1 2 0603 50 4 www.hilscher.com 5 +1V5 50 50 6 7 8 ETHERNET-INTERNAL_PHYS Real Time Ethernet Real Time Ethernet Status LEDs GND 2 0603 1 2 50 5 50 6 50 7 50 8 1 R306-D 4 R306-C 3 2 0603 1 2 1 R303-D 9 9 R306-B +3V3E GND 50 5 4 +3V3E R303-C 8 2 6 3 GND 1206 Z=600 Ohm @100MHz 2 R302 1 R303-B 10uF C304 +3V3 2 1206 Z=600 Ohm @100MHz R301 1 7 R306-A 7 2 2 6 1 8 1 0805 R303-A 100nF C303 Hilscher Gesellschaft für Systemautomatiom mbH C301 X4 X4 1 5 X4 X4 4 X4 X4 netX51 3 X4 X4 2 0603 0603 10nF C307 10 R307 10nF C305 10 R304 1 1 2 0603 1 2 0603 2 0603 1 2 0603 A 1 10 10nF C308 10 R308 10nF C306 10 R305 10 GND 11 COM1 COM0 11 7A 19 8A 20 1A 13 4A 16 2A 14 3A 15 5A 17 6A 18 1 green 1210 1 green 1210 12 3 red LEDSRG 4 2 P302 3 red LEDSRG 4 2 470 0603 13 R3172 1 270 0603 R3162 1 470 0603 R3152 1 270 0603 R3142 1 270 0603 270 0603 R3132 2311A 1 AA_YELLOW 12A 24 CA_YELLOW R3122 1 X301-B 21 9A AA_GREEN P301 270 0603 X301-A 10A 22 CA_GREEN X301-D PE PE 7A 7 8A 8 1111A 1 AA_YELLOW 12A 12 CA_YELLOW 270 R3112 9 9A AA_GREEN 1 4 2 3 5 6 0603 13 R3102 1 10A 10 CA_GREEN 1A 4A 2A 3A 5A 6A X301-C 12 14 Page of Page RXN1 TXN1 RXP1 TXP1 RXN0 TXN0 RXP0 TXP0 +3V3 6 4 5 7 8 2 3 1 6 4 5 7 8 2 3 1 +3V3 14 5 3 J I H G F E D C B A Quick Start 85/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C DPM_D0 DPM_D1 DPM_D2 DPM_D3 DPM_D4 DPM_D5 DPM_D6 DPM_D7 SPM_MISO/SIO1/DPM_D8 SPM_MOSI/SIO0/DPM_D9 SPM_CS#/DPM_D10 SPM_CLK/DPM_D11 SPM_DIRQ#/DPM_D12 SPM_SIRQ#/DPM_D13 SPM_SIO2/DPM_D14 SPM_SIO3/DPM_D15 DPM_ALE16 DPM_BHE# DPM_WRH# DPM_WRL# DPM_RDY DPM_DIRQ WDGACT DPM_SIRQ DPM_CS# DPM_RD# PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 PIO35 PIO43 PIO44 PIO45 PIO46 PIO47 1 Checked Edited RSTOUT# [1] GPIO00 GPIO01 GPIO02 GPIO03 Date Name Date Name GND 5 2 3 22pF 6 4.7k 2 7 2 4 www.hilscher.com 4.7k 1 8 5 XCLK1 XCLK0 P0RXD0 P0RXD1 P0RXD2 P0RXD3 P0RXDV P0RXCLK P0RXERR P0TXD0 P0TXD1 P0TXD2 P0TXD3 P0TXEN P0TXERR P0TXCLK P0COLSD P0CRS MDIO MDC 4.7k P0RXN 7 GNDAREF GNDAPLL P0AGND2 P0AGND1 GNDIO1 GNDIO2 EXTRES 1 50 0603 12.4k 2 0603 1 100nF C403 100nF 50 2 0603 1 2 0603 1 6 7 8 3 10uF 9 2 0603 1 2 0603 1 +3V3 50 100nF C405 1 2 0603 1 2 0603 50 10 5 100nF C406 100nF C411 R401-D 10 4 C410 10uF R401-C C404 GND 100nF 6 C409 R401-B C408 7 9 ETHERNET-EXTERNAL_3._PHY GND R4052 1 2 0603 1 R401-A LED_LINK LED_ACT 8 2 1 2 1206 Z=600 Ohm @100MHz R402 8 X4 +3V3 X4 Real Time Ethernet 43 48 8 5 20 36 1 37 DVOUT15 11 VDD15 45 AVOUT15 47 VDDAPLL 9 VDDA15 19 VDDIO1 31 VDDIO2 38 VDDIO3 10 VDD33ESD 46 VDD33REG DRIVER-PHY-UPD60610 44 REGOFF 2 ATP 41 TEST 3 4 P0TXN 6 P0RXP P0TXP 34 GPIO14 12 P0LINKLED K401 7 X4 PHY 15 INT 40 RESETB 33 ABM7-25M 32 G401 RSTOUT# 2 1 MDIO MDC 6 22 21 18 17 23 16 24 26 27 28 29 25 35 30 42 39 14 13 R406-D R406-C R406-B R406-A 4.7k 1 Hilscher Gesellschaft für Systemautomatiom mbH 3 4 GND 22pF 2 C414 1 C413 © Copyright MDIO MDC parallel DPM 8 / 16 Bit or serial DPM (QSPI / SPI) 09.08.2012 H1 J1 J2 L2 H17 A18 C15 C16 B18 C17 G17 B11 B16 B17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 A9 C9 A2 J17 H18 B6 A7 A14 A13 C12 B10 J18 B13 E14 D14 A11 25MHz Matthias Melzer MICRO-NETX51-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J MICRO-NETX51-2231.000 DPM_A0 DPM_A1 DPM_A2 DPM_A3 DPM_A4 DPM_A5 DPM_A6 DPM_A7 DPM_A8 DPM_A9 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO51 PIO52 MII_RXD0 MII_RXD1 MII_RXD2 MII_RXD3 MII_RXDV MII_RXCLK MII_RXER MII_TXD0 MII_TXD1 MII_TXD2 MII_TXD3 MII_TXER MII_TCLK MII_COL MII_CRS MII_TXEN PIO71 PIO72 PIO84 PIO85 PIO40 PIO79 PIO80 PIO59 PIO62 PIO63 PIO67 PIO36 PIO58 DPM_A16 DPM_A17 PIO68 K101-C 5 X4 netX51 0603 0603 B X4 1 2 0603 1 2 0603 11 10uF C407 10uF C412 11 1 GND 2 0603 1 2 0603 A 4 X4 3 X4 10 1 2 2 P1 P4 P2 P3 P5 P6 0603 270 0603 R4082 270 1 4 2 3 5 6 X401-A 6 4 5 7 8 2 3 1 MODULAR-JACKS-ERNI-203199 13 +3V3 11 AY AA_YELLOW 14 Page of Page MODULAR-JACKS-ERNI-203199 CY 12 CA_YELLOW 9 AG AA_GREEN X401-B MODULAR-JACKS-ERNI-203199 15 PE1 16 PE2 X401-C CG 10 CA_GREEN PE 14 5 4 RXN0 TXN0 RXP0 TXP0 Ethernet Host Interface 13 P7 7 P8 8 C402 10nF 10 R404 R4072 LED_ACT 1 12 1 0603 LED_LINK 1 10nF C401 R403 12 0603 2 X4 1 J I H G F E D C B A Quick Start 86/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 09.08.2012 2 2 GND1 9 C502 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C507 1 2 1 2 GND 2 1.5k R504 4.7k R503 0603 100nF 1 S D4 100nF C506 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R508 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C508 0.018 R506 C511 2 +3V3 R505 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 6 7 POWER_SUPPLY Real Time Ethernet R510 1.8k R509 GND GND 2 G C505 3 FDC5612 6 K501 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T502 1 2 1 6 5 R502 1 PMEG4005 2 5 6 R501 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K502 D2 D3 11 10 C504 0805 100nF 1 C503 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T501 COMP Matthias Melzer 2 1 1210 10uF C510 0805 22uF 1 +3V3 2.2k R507 1 C501 C509 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF C514 10uF C512 9 9 2 0603 1 2 0603 1 100nF C515 100nF C513 A5 B5 C5 D4 D6 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N7 N14 P5 P6 P15 R9 R16 T17 U18 10 GND +1V5 10 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 11 MICRO-NETX51-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 K101-I netX51 11 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C521 100nF C519 100nF C517 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C520 10uF C518 10uF C516 13 14 Page of Page 14 5 5 J I H G F E D C B A Quick Start 87/334 © Hilscher, 2008-2013 Quick Start 88/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 51 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R112 Resistor 10kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 10kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 89/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 10µF 10V 0805 C305 Ceramic Capacitor 10nF 50V 0603 C306 Ceramic Capacitor 10nF 50V 0603 C307 Ceramic Capacitor 10nF 50V 0603 C308 Ceramic Capacitor 10nF 50V 0603 P301 LED red / green HSMF-C155 P302 LED red / green HSMF-C155 R301 Ferrite 100MHz 600Ω 1A 1206 R302 Ferrite 100MHz 600Ω 1A 1206 R303 Resistor 4x 50Ω 62mW 1206 R304 Resistor 10Ω 63mW 0603 R305 Resistor 10Ω 63mW 0603 R306 Resistor 4x 50Ω 62mW 1206 R307 Resistor 10Ω 63mW 0603 R308 Resistor 10Ω 63mW 0603 R309 Resistor 12.4kV 63mW 0603 R310 Resistor 270Ω 63mW 0603 R311 Resistor 270Ω 63mW 0603 R312 Resistor 270Ω 63mW 0603 R313 Resistor 270Ω 63mW 0603 R314 Resistor 270Ω 63mW 0603 R315 Resistor 470Ω 63mW 0603 R316 Resistor 270Ω 63mW 0603 R317 Resistor 470Ω 63mW 0603 X301 RJ45 ERNI-203313 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 90/334 Page 4 REF DES Part Type PART NAME C401 Ceramic Capacitor 10nF 50V 0603 C402 Ceramic Capacitor 10nF 50V 0603 C403 Ceramic Capacitor 100nF 25V 0603 C404 Ceramic Capacitor 10µF 10V 0603 C405 Ceramic Capacitor 100nF 25V 0603 C406 Ceramic Capacitor 100nF 25V 0603 C407 Ceramic Capacitor 10µF 10V 0603 C408 Ceramic Capacitor 100nF 25V 0603 C409 Ceramic Capacitor 100nF 25V 0603 C410 Ceramic Capacitor 10µF 10V 0603 C411 Ceramic Capacitor 100nF 25V 0603 C412 Ceramic Capacitor 10µF 10V 0603 C413 Ceramic Capacitor 22pF 50V 0603 C414 Ceramic Capacitor 22pF 50V 0603 G401 Crystal ABM7-25.000MHZ-D2Y-T K401 Driver UPD60610GA-GAM-AX R401 Resistor 4x 50Ω 62mW 1206 R402 Ferrite 100MHz 600Ω 1A 1206 R403 Resistor 10Ω 63mW 0603 R404 Resistor 10Ω 63mW 0603 R405 Resistor 12.4kV 63mW 0603 R406 Resistor 4x 4.7kΩ 62mW 1206 R407 Resistor 270Ω 63mW 0603 R408 Resistor 270Ω 63mW 0603 X401 RJ45 ERNI-203199 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 91/334 Page 5 REF DES PART TYPE PART NAME C501 Ceramic Capacitor 10µ 50V 1210 C502 Ceramic Capacitor 10µ 50V 1210 C503 Ceramic Capacitor 10µ 50V 1210 C504 Ceramic Capacitor 100nF 50V 0805 C505 Ceramic Capacitor 10µF 10V 0805 C506 Ceramic Capacitor 100nF 50V 0805 C507 Ceramic Capacitor 100nF 25V 0603 C508 Ceramic Capacitor 22µF 6.3V 0805 C509 Ceramic Capacitor 2.2nF 50V 0603 C510 Ceramic Capacitor 22µF 6.3V 0805 C511 Ceramic Capacitor 22µF 6.3V 0805 C512 Ceramic Capacitor 10µF 10V 0805 C513 Ceramic Capacitor 100nF 25V 0603 C514 Ceramic Capacitor 10µF 10V 0805 C515 Ceramic Capacitor 100nF 25V 0603 C516 Ceramic Capacitor 10µF 10V 0805 C517 Ceramic Capacitor 100nF 25V 0603 C518 Ceramic Capacitor 10µF 10V 0805 C519 Ceramic Capacitor 100nF 25V 0603 C520 Ceramic Capacitor 10µF 10V 0805 C521 Ceramic Capacitor 100nF 25V 0603 K501 Transistor FDC5612 K502 Transistor FDC5612 R501 Diode PMEG4005AEV R502 Diode PMEG4005AEV R503 Resistor 4.7kΩ 63mW 0603 R504 Resistor 1.5kΩ 63mW 0603 R505 Inductor sumida CDRH8D43-100 R506 Resistor 0.018Ω 250mW 1206 R507 Resistor 2.2kΩ 63mW 0603 R508 Inductor sumida CR32NP-3R3M R509 Resistor 1.8kΩ 63mW 0603 R510 Resistor 1.96kΩ63mW 0603 T501 Step-Down Micrel MIC2198YML T502 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.02.2013 Matthias Melzer RESETIN# 1 22pF 2 GND 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 4 www.hilscher.com 5 1 GND 2 B1 D2 OSC_XTO T8 N6 RSTOUT# GPIO24 GPIO25 GPIO26 GPIO27 K101-E MICRO-NETX51-2231.000 USB_DNEG USB_DPOS V8 U8 MICRO-NETX51-2231.000 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX51-2231.000 USB_VDDC USB_VDDIO K101-H MICRO-NETX51-2231.000 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# V13 U13 T13 V14 U7 R8 V9 U9 C1 6 CORE 7 1 8 2 1 RDY RUN 10k 8 USB_DNEG USB_DPOS 1 2 1.5k R111 9 10 8 RDY RUN 1 3 4 X102 2 GND 2 0603 390 0603 R1092 1 390 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 C108 13 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10 2 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 DD3 D+ D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R114 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R113 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R112 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R114 R113 open RDY/RUN LED 12 R112 GND +3V3 SEC. MEM 11 0603 100nF 1 +3V3 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU VCC ROM 1k C107 Host Interace boot configuration R105 +3V3 GND 2 1.5k +3V3 R110 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G MICRO-NETX51-2231.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX51-2231.000 MMIO24 MMIO25 MMIO26 MMIO27 K101-O MICRO-NETX51-2231.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI Real Time Ethernet +3V3 L6 L5 K6 K5 J5 7 netX51 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 GND POR# 6 0603 1nF +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 22pF 2 C106 1 C105 0603 0603 0603 0603 0603 B 4 0603 3 0603 2 0603 J I H G F E D C B A 2.2.2 SPI_MISO A 1 Quick Start 92/334 Ethernet/Real Time Ethernet © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited DPM Interface Date Name Date Name 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX51-2231.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 DPM_SIRQ DPM_DIRQ DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# 28.02.2012 2 K101-C netX51 3 DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 E14 D14 B11 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 5 4 www.hilscher.com 5 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 D[0:31] H14 G14 J12 J13 K12 A16 A17 A18 BA0 BA1 6 7 8 A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 9 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE 0 A 4M VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 RAM 512k x 32 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 SDRAM/HOST_INTERFACE Real Time Ethernet MICRO-NETX51-2231.000 MEMDR_CS# MEMDR_RAS# MEMDR_CAS# MEMDR_WE# MEMDR_CLK MEMDR_CKE L4 M3 M5 N3 M4 L3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 J7 H8 A16 A17 K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A[0:18] MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 9 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 8MB SDRAM 8 C201 7 K101-F 6 netX51 Hilscher Gesellschaft für Systemautomatiom mbH 4 C202 2 C204 10 0603 100nF 1 2 0603 100nF 1 10 C203 GND 2 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 11 11 A18 1 2 10k 12 12 R201 +3V3 0603 A 1 14 none A18 Mode GPIO00 GPIO01 GPIO02 GPIO03 GPIO08 GPIO09 GPIO10 GPIO11 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 GPIO32 GPIO33 GPIO34 GPIO35 13 MICRO-NETX51-2231.000 MMIO32 MMIO33 MMIO34 MMIO35 K101-Q MICRO-NETX51-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 K101-N MICRO-NETX51-2231.000 MMIO08 MMIO09 MMIO10 MMIO11 K101-L MICRO-NETX51-2231.000 GPIO04 GPIO05 GPIO06 GPIO07 K101-K MMIO04 MMIO05 MMIO06 MMIO07 V12 T11 U12 T12 U2 V2 V3 T6 V6 U6 T7 V7 M1 N1 N2 P1 K2 K1 L1 M2 H1 J1 J2 L2 14 Page of Page netX50 compatibility mode netX51 native mode MICRO-NETX51-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX51 10k Resistor A18 Line Chip Mode Selectrion 13 4 2 J I H G F E D C B A Quick Start 93/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited PHY0_RXN Date Name L18 GPIO12 GPIO13 GPIO14 GPIO15 GPIO28 GPIO29 GPIO30 GPIO31 K101-P 2 28.02.2012 Matthias Melzer T9 U10 T10 U11 R1 U1 T1 V1 K18 PHY_EXTRES L15 PHY_ATP K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN MICRO-NETX51-2231.000 Date M17 L16 +1V5E M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART MICRO-NETX51-2231.000 Name P18 P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 K101-M MMIO28 MMIO29 MMIO30 MMIO31 N17 T18 +1V5E N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART MICRO-NETX51-2231.000 MMIO12 MMIO13 MMIO14 MMIO15 M15 +1V5E R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3E PHY_VDDIOAT M16 +3V3E PHY_VDDIOAC K101-B 0603 3 12.4k R3092 1 2 0603 100nF 2 0805 1 10uF C302 1 1 2 0603 50 4 www.hilscher.com 5 +1V5 50 50 6 7 ETHERNET Real Time Ethernet 8 Real Time Ethernet Status LEDs GND 2 0603 1 2 50 5 50 6 50 7 50 8 1 R306-D 4 R306-C 3 2 0603 1 2 1 R303-D 9 9 R306-B +3V3E GND 50 5 4 +3V3E R303-C 8 2 6 3 GND 1206 Z=600 Ohm @100MHz 2 R302 1 R303-B 10uF C304 +3V3 2 1206 Z=600 Ohm @100MHz R301 1 7 R306-A 7 2 2 6 1 8 1 0805 R303-A 100nF C303 Hilscher Gesellschaft für Systemautomatiom mbH C301 X4 X4 1 5 X4 X4 4 X4 X4 netX51 3 X4 X4 2 0603 0603 10nF C307 10 R307 10nF C305 10 R304 1 1 2 0603 1 2 0603 2 0603 1 2 0603 A 1 10 10nF C308 10 R308 10nF C306 10 R305 10 GND 11 COM1 COM0 11 7A 19 8A 20 1A 13 4A 16 2A 14 3A 15 5A 17 6A 18 1 green 1210 1 green 1210 12 3 red LEDSRG 4 2 P302 3 red LEDSRG 4 2 470 0603 13 R3172 1 270 0603 R3162 1 470 0603 R3152 1 270 0603 R3142 1 270 0603 270 0603 R3132 2311A 1 AA_YELLOW 12A 24 CA_YELLOW R3122 1 X301-B 21 9A AA_GREEN P301 270 0603 X301-A 10A 22 CA_GREEN X301-D PE PE 7A 7 8A 8 1111A 1 AA_YELLOW 12A 12 CA_YELLOW 270 R3112 9 9A AA_GREEN 1 4 2 3 5 6 0603 13 R3102 1 10A 10 CA_GREEN 1A 4A 2A 3A 5A 6A X301-C 12 14 Page of Page RXN1 TXN1 RXP1 TXP1 RXN0 TXN0 RXP0 TXP0 +3V3 6 4 5 7 8 2 3 1 6 4 5 7 8 2 3 1 +3V3 14 4 3 J I H G F E D C B A Quick Start 94/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 28.02.2012 2 2 GND1 9 C402 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C407 1 2 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 6 7 POWER_SUPPLY Real Time Ethernet R410 1.8k R409 GND GND 2 G C405 3 FDC5612 6 K401 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 COMP Matthias Melzer 2 1 1210 10uF C410 0805 22uF 1 +3V3 2.2k R407 1 C401 C409 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF C414 10uF C412 9 9 2 0603 1 2 0603 1 100nF C415 100nF C413 A5 B5 C5 D4 D6 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N7 N14 P5 P6 P15 R9 R16 T17 U18 10 GND +1V5 10 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 11 MICRO-NETX51-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 K101-I netX51 11 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C421 100nF C419 100nF C417 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C420 10uF C418 10uF C416 13 14 Page of Page 14 4 4 J I H G F E D C B A Quick Start 95/334 © Hilscher, 2008-2013 Quick Start 96/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 51 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R112 Resistor 10kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 10kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 97/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 10µF 10V 0805 C305 Ceramic Capacitor 10nF 50V 0603 C306 Ceramic Capacitor 10nF 50V 0603 C307 Ceramic Capacitor 10nF 50V 0603 C308 Ceramic Capacitor 10nF 50V 0603 P301 LED red / green HSMF-C155 P302 LED red / green HSMF-C155 R301 Ferrite 100MHz 600Ω 1A 1206 R302 Ferrite 100MHz 600Ω 1A 1206 R303 Resistor 4x 50Ω 62mW 1206 R304 Resistor 10Ω 63mW 0603 R305 Resistor 10Ω 63mW 0603 R306 Resistor 4x 50Ω 62mW 1206 R307 Resistor 10Ω 63mW 0603 R308 Resistor 10Ω 63mW 0603 R309 Resistor 12.4kV 63mW 0603 R310 Resistor 270Ω 63mW 0603 R311 Resistor 270Ω 63mW 0603 R312 Resistor 270Ω 63mW 0603 R313 Resistor 270Ω 63mW 0603 R314 Resistor 270Ω 63mW 0603 R315 Resistor 470Ω 63mW 0603 R316 Resistor 270Ω 63mW 0603 R317 Resistor 470Ω 63mW 0603 X301 RJ45 ERNI-203313 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 98/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 1 22pF 2 GND 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 4 www.hilscher.com 5 GND 2 B1 D2 OSC_XTO T8 N6 RSTOUT# GPIO24 GPIO25 GPIO26 GPIO27 K101-E MICRO-NETX51-2231.000 USB_DNEG USB_DPOS V8 U8 MICRO-NETX51-2231.000 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX51-2231.000 USB_VDDC USB_VDDIO K101-H MICRO-NETX51-2231.000 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# V13 U13 T13 V14 U7 R8 V9 U9 C1 2 1 RDY RUN 10k USB_DNEG USB_DPOS 6 CORE 7 8 1 2 1.5k R111 9 10 8 RDY RUN 3 4 X102 2 1 GND 2 0603 390 390 0603 R1092 1 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 C108 13 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10 A18 A19 A[0:19] [2] 2 10k GND SPI_CLK SPI_CS0# SPI_MOSI ROM 32Mbit W25Q32VSSIG HOLD#(IO3) 4 WP#(IO2) GND GND 11 PE 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 DD+ 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device 7 3 2 DI(IO0) DO(IO1) 8 VCC 6 CLK 1 CS# 5 C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R114 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R113 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R112 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R114 R113 open RDY/RUN LED 12 R112 GND +3V3 SEC. MEM 11 0603 100nF 1 +3V3 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU VCC ROM 1k C107 Host Interace boot configuration R105 +3V3 GND 2 1.5k +3V3 R110 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G MICRO-NETX51-2231.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX51-2231.000 MMIO24 MMIO25 MMIO26 MMIO27 K101-O MICRO-NETX51-2231.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI 1 8 PROFINET FAST STARTUP +3V3 L6 L5 K6 K5 J5 7 netX51 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 GND POR# 6 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 22pF 2 C106 1 C105 0603 0603 0603 0603 0603 B 4 0603 3 0603 2 0603 J I H G F E D C B A 2.2.3 SPI_MISO A 1 Quick Start 99/334 PROFINET Fast Startup (FSU) © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited DPM Interface Date Name Date Name 2 24.01.2013 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX51-2231.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 DPM_SIRQ DPM_DIRQ DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 netX51 3 K101-C Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 E14 D14 B11 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 5 4 www.hilscher.com 5 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 D[0:31] H14 G14 J12 J13 K12 A16 A17 A18 A19 BA0 BA1 7 8 SDRAM/HOST_INTERFACE 6 A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 9 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE 0 A 4M VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 RAM 512k x 32 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 PROFINET FAST STARTUP MICRO-NETX51-2231.000 MEMDR_CS# MEMDR_RAS# MEMDR_CAS# MEMDR_WE# MEMDR_CLK MEMDR_CKE L4 M3 M5 N3 M4 L3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 J7 H8 A16 A17 K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A[0:19] [1] MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 9 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 8MB SDRAM 8 C201 7 K101-F 6 netX51 Hilscher Gesellschaft für Systemautomatiom mbH 4 C202 2 C204 10 0603 100nF 1 2 0603 100nF 1 10 C203 GND 2 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 11 11 A18 1 2 10k 12 12 R201 +3V3 0603 A 1 14 none A18 Mode GPIO00 GPIO01 GPIO02 GPIO03 GPIO08 GPIO09 GPIO10 GPIO11 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 GPIO32 GPIO33 GPIO34 GPIO35 13 MICRO-NETX51-2231.000 MMIO32 MMIO33 MMIO34 MMIO35 K101-Q MICRO-NETX51-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 K101-N MICRO-NETX51-2231.000 MMIO08 MMIO09 MMIO10 MMIO11 K101-L MICRO-NETX51-2231.000 GPIO04 GPIO05 GPIO06 GPIO07 K101-K MMIO04 MMIO05 MMIO06 MMIO07 V12 T11 U12 T12 U2 V2 V3 T6 V6 U6 T7 V7 M1 N1 N2 P1 K2 K1 L1 M2 H1 J1 J2 L2 14 Page of Page netX50 compatibility mode netX51 native mode MICRO-NETX51-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX51 10k Resistor A18 Line Chip Mode Selectrion 13 4 2 J I H G F E D C B A Quick Start 100/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited PHY0_RXN Date Name L18 GPIO12 GPIO13 GPIO14 GPIO15 GPIO28 GPIO29 GPIO30 GPIO31 K101-P 2 24.01.2013 Matthias Melzer T9 U10 T10 U11 R1 U1 T1 V1 K18 PHY_EXTRES L15 PHY_ATP K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN MICRO-NETX51-2231.000 Date M17 L16 +1V5E M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART MICRO-NETX51-2231.000 Name P18 P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 K101-M MMIO28 MMIO29 MMIO30 MMIO31 N17 T18 +1V5E N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART MICRO-NETX51-2231.000 MMIO12 MMIO13 MMIO14 MMIO15 M15 +1V5E R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3E PHY_VDDIOAT M16 +3V3E PHY_VDDIOAC K101-B 0603 3 12.4k R3092 1 2 0603 100nF 2 0805 1 10uF C302 1 1 2 0603 50 4 www.hilscher.com 5 +1V5 50 50 6 7 ETHERNET 8 PROFINET FAST STARTUP GND 2 0603 1 2 50 5 50 6 50 7 50 8 1 R306-D 4 R306-C 3 2 0603 1 2 1 R303-D 9 9 R306-B +3V3E GND 50 5 4 +3V3E R303-C 8 2 6 3 GND 1206 Z=600 Ohm @100MHz 2 R302 1 R303-B 10uF C304 +3V3 2 1206 Z=600 Ohm @100MHz R301 1 7 R306-A 7 2 2 6 1 8 1 0805 R303-A 100nF C303 Hilscher Gesellschaft für Systemautomatiom mbH C301 X4 X4 1 5 X4 X4 4 X4 X4 netX51 3 X4 X4 2 0603 0603 10nF C307 10 R307 10nF C305 10 R304 1 1 2 0603 1 2 0603 2 0603 1 2 0603 A 1 10 10nF C308 10 R308 10nF C306 10 R305 10 GND 11 COM1 COM0 11 7A 19 8A 20 1A 13 4A 16 2A 14 3A 15 5A 17 6A 18 1 green 1210 1 green 1210 12 3 red LEDSRG 4 2 P302 3 red LEDSRG 4 2 470 0603 13 R3172 1 270 0603 R3162 1 470 0603 R3152 1 270 0603 R3142 1 270 0603 270 0603 R3132 2311A 1 AA_YELLOW 12A 24 CA_YELLOW R3122 1 X301-B 21 9A AA_GREEN P301 270 0603 X301-A 10A 22 CA_GREEN X301-D PE PE 7A 7 8A 8 1111A 1 AA_YELLOW 12A 12 CA_YELLOW 270 R3112 9 9A AA_GREEN 1 4 2 3 5 6 0603 13 R3102 1 10A 10 CA_GREEN 1A 4A 2A 3A 5A 6A X301-C 12 14 Page of Page RXN1 TXN1 RXP1 TXP1 RXN0 TXN0 RXP0 TXP0 +3V3 6 4 5 7 8 2 3 1 6 4 5 7 8 2 3 1 +3V3 14 4 3 J I H G F E D C B A Quick Start 101/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 24.01.2013 2 2 GND1 9 C402 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C407 1 2 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 8 GND 2 0805 1 GND 2 0805 1 10uF C414 10uF C412 6 7 POWER_SUPPLY 8 PROFINET FAST STARTUP R410 1.8k R409 GND GND 2 G C405 3 FDC5612 6 K401 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 COMP Matthias Melzer 2 1 1210 10uF C410 0805 22uF 1 +3V3 2.2k R407 1 C401 C409 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 9 9 2 0603 1 2 0603 1 100nF C415 100nF C413 A5 B5 C5 D4 D6 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N7 N14 P5 P6 P15 R9 R16 T17 U18 10 GND +1V5 10 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 11 MICRO-NETX51-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 K101-I netX51 11 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C421 100nF C419 100nF C417 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C420 10uF C418 10uF C416 13 14 Page of Page 14 4 4 J I H G F E D C B A Quick Start 102/334 © Hilscher, 2008-2013 Quick Start 103/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory W25Q32VSSIG C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 51 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R112 Resistor 10kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 10kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 104/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 10µF 10V 0805 C305 Ceramic Capacitor 10nF 50V 0603 C306 Ceramic Capacitor 10nF 50V 0603 C307 Ceramic Capacitor 10nF 50V 0603 C308 Ceramic Capacitor 10nF 50V 0603 P301 LED red / green HSMF-C155 P302 LED red / green HSMF-C155 R301 Ferrite 100MHz 600Ω 1A 1206 R302 Ferrite 100MHz 600Ω 1A 1206 R303 Resistor 4x 50Ω 62mW 1206 R304 Resistor 10Ω 63mW 0603 R305 Resistor 10Ω 63mW 0603 R306 Resistor 4x 50Ω 62mW 1206 R307 Resistor 10Ω 63mW 0603 R308 Resistor 10Ω 63mW 0603 R309 Resistor 12.4kV 63mW 0603 R310 Resistor 270Ω 63mW 0603 R311 Resistor 270Ω 63mW 0603 R312 Resistor 270Ω 63mW 0603 R313 Resistor 270Ω 63mW 0603 R314 Resistor 270Ω 63mW 0603 R315 Resistor 470Ω 63mW 0603 R316 Resistor 270Ω 63mW 0603 R317 Resistor 470Ω 63mW 0603 X301 RJ45 ERNI-203313 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 105/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 1 22pF 2 GND 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 +1V5 +1V5 4 www.hilscher.com 5 B1 D2 OSC_XTO K101-E USB_DNEG USB_DPOS MICRO-NETX51-2231.000 7 V8 U8 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX51-2231.000 USB_VDDC USB_VDDIO K101-H MICRO-NETX51-2231.000 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# C1 1 2 1 RDY RUN 10k 8 USB_DNEG USB_DPOS 1 2 1.5k R111 9 10 8 RDY RUN 3 4 X102 2 1 GND 2 0603 390 390 0603 R1092 1 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 13 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 2 10 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND PE 11 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 DD+ 2 C102 0603 100nF 1 +3V3 12 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 5 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R114 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R113 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R112 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R114 R113 open RDY/RUN LED 12 R112 GND +3V3 SEC. MEM 11 C108 0603 100nF 1 +3V3 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU VCC ROM 1k C107 Host Interace boot configuration R105 +3V3 GND 2 +3V3 R110 1.5k 8 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G MICRO-NETX51-2231.000 CORE 6 RSTOUT# MICRO-NETX51-2231.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI Fiber Optric N6 T8 L6 L5 K6 K5 J5 7 netX51 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 +3V3 GND 2 6 GND POR# 0603 1nF 1 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 22pF 2 C106 1 C105 0603 0603 0603 0603 0603 4 0603 3 0603 2 0603 J I H G F E D C B A 2.2.4 SPI_MISO A 1 Quick Start 106/334 PROFINET Fiber Optic (FO) © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited DPM Interface Date Name Date Name C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 E14 D14 B11 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 K101-C netX51 2 17.10.2012 Matthias Melzer PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 3 3 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX51-2231.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 DPM_SIRQ DPM_DIRQ DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 2 4 www.hilscher.com D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 D[0:31] A16 A17 A18 BA0 BA1 0 4M A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE A 6 7 VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 RAM 512k x 32 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 8 SDRAM/HOST_INTERFACE Fiber Optric MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE MICRO-NETX51-2231.000 5 H14 G14 J12 J13 K12 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 J7 H8 A16 A17 K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 C201 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 9 9 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 8MB SDRAM 8 K101-F 7 A[0:18] N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 6 netX51 5 Hilscher Gesellschaft für Systemautomatiom mbH 4 1 C202 2 C204 0603 100nF 1 2 0603 100nF C203 10 GND 2 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 10 11 A18 11 1 2 10k R201 +3V3 0603 A 1 13 12 none A18 Mode GPIO24 GPIO25 GPIO26 GPIO27 GPIO04 GPIO05 GPIO06 GPIO07 13 MICRO-NETX51-2231.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K MICRO-NETX51-2231.000 MMIO24 MMIO25 MMIO26 MMIO27 K101-O MICRO-NETX51-2231.000 GPIO08 GPIO09 GPIO10 GPIO11 K101-L MMIO08 MMIO09 MMIO10 MMIO11 K2 K1 L1 M2 U7 R8 V9 U9 M1 N1 N2 P1 14 14 Page of Page netX50 compatibility mode netX51 native mode netX51 10k Resistor A18 Line Chip Mode Selectrion 12 5 2 J I H G F E D C B A Quick Start 107/334 © Hilscher, 2008-2013 J I H G F E D C B A PHY1_RXN GPIO12 GPIO13 GPIO14 GPIO15 GPIO28 GPIO29 GPIO30 GPIO31 K101-P R3032 1 Date Name Date Name U2 V2 V3 T6 V6 U6 T7 V7 I2C_SCL 12.4k 0603 2 17.10.2012 Matthias Melzer GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 K101-N T9 U10 T10 U11 R1 U1 T1 V1 K18 PHY_EXTRES L15 PHY_ATP MICRO-NETX51-2231.000 1 L18 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 MICRO-NETX51-2231.000 Checked Edited M17 L16 +1V5E M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART MICRO-NETX51-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 P18 P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 PHY0_RXN K101-M MMIO28 MMIO29 MMIO30 MMIO31 N17 T18 +1V5E N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART MICRO-NETX51-2231.000 MMIO12 MMIO13 MMIO14 MMIO15 M15 +1V5E R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3E PHY_VDDIOAT M16 +3V3E PHY_VDDIOAC K101-B netX51 GND 2 0603 1 3 100nF C301 3 2 0805 1 10uF 2 0603 1 100nF C303 GPIO00 GPIO01 GPIO02 GPIO03 2 4 www.hilscher.com +3V3 +1V5 GPIO32 GPIO33 GPIO34 GPIO35 K101-Q MICRO-NETX51-2231.000 V13 U13 T13 V14 7 1 2 4.7k R306 GND GND GND 1 Regard thermal considerations (see datasheet) 6 7 8 2 9 0603 1 +3V3 2 0603 1 +3V3 2 0603 +3V3 9 place close to netX 8 ETHERNET_FIBER_OPTIC_1 Fiber Optric MMIO36 MMIO37 MMIO38 MMIO39 K101-R V12 T11 U12 T12 1206 Z=600 Ohm @100MHz 2 R302 1 MICRO-NETX51-2231.000 5 6 2 1206 Z=600 Ohm @100MHz R301 1 netX51 MMIO32 MMIO33 MMIO34 MMIO35 10uF C304 H1 J1 J2 I2C_SDA0 L2 I2C_SDA1 0805 1 5 Hilscher Gesellschaft für Systemautomatiom mbH MICRO-NETX51-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX51 C302 4 0603 1 2 4.7k 1 2 10 ETH1_TX ETH0_TX 10nF 1 C310 ETH1_SD ETH1_RX 10nF C308 ETH0_SD 0603 1 2 10nF C306 ETH0_RX 0603 1 2 0603 R307 +1V5 100nF C309 100nF C307 100nF C305 2 IN1 IN0 GND VCC Q1 Q0 GND VCC Q1 Q0 GND 12 FX0_SD-P FX_SD-N 4 3 2 R308 11 SY89322VMGTR FX1_TX+ FX1_TX- 3 Q1 Q1# 4 12 FX0_TX+ FX0_TX- 1 2 Q0 Q0# GND 2 K305 FX1_SD-P FX_SD-N 4 IN1 IN1# 3 1 130 R305 82 R304 +3V3 1 FX1_RX+ FX1_RX- 1 2 IN0 IN0# IN1 IN1# FX0_RX+ FX0_RX- 1 IN0 IN0# 2 FX1_TX-DISABLE +3V3 FX0_TX-DISABLE +3V3 SY89323LMGTR K304 SY89323LMGTR K303 NC7SZ14P5 2 A 3 GND 5 VCC Y 4 K302 NC7SZ14P5 5 VCC Y 4 11 K301 2 A 3 GND VCC 4.7k 6 7 5 8 6 7 5 8 6 7 5 8 GND TX1_DISABLE_INV GND TX0_DISABLE_INV 10 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1 13 13 [4] [4] [4] FX1_RX+ FX1_RXFX1_SD-P [4] [4] [4] [4] [4] [4] 14 Page of Page USB_DETECT I2C_SCL [4] I2C_SDA0[4] I2C_SDA1 [4] FX0_COM-G [4] FX0_COM-R [4] FX1_COM-G [4] FX1_COM-R [4] FX0_LNK FX0_ACT FX1_LNK FX1_ACT FX1_TX+ FX1_TX- [4] [4] [4] FX0_SD-P FX0_TX+ FX0_TX- [4] [4] FX0_RX+ FX0_RX- FX1_TX-DISABLE[4] FX0_TX-DISABLE[4] 14 5 3 J I H G F E D C B A Quick Start 108/334 © Hilscher, 2008-2013 J I H G F E D C B A 1 Checked Edited Date Name Date Name [3] FX1_ACT [3] FX1_LNK [3] FX1_COM-R [3] FX1_COM-G [3] FX1_RX+ [3] FX1_RX[3] FX1_SD-P [3] FX1_TX+ [3] FX1_TX[3] FX1_TX-DISABLE [3]I2C_SDA1 [3,4] I2C_SCL [3] FX0_ACT [3] FX0_LNK [3] FX0_COM-R [3] FX0_COM-G [3] FX0_RX+ [3] FX0_RX[3] FX0_SD-P [3] FX0_TX+ [3] FX0_TX[3] FX0_TX-DISABLE [3]I2C_SDA0 [3,4] I2C_SCL 2 17.10.2012 Matthias Melzer 2 3 270 1 green 1 green 4 www.hilscher.com 1 1 2 1 2 1 2 2 82 R418 130 R415 82 R404 130 R401 1 1 2 1 1 2 1 8 1 2 1 GND 2 1 2 GND 2 82 R420 130 R417 82 R406 130 R403 6 7 8 ETHERNET_FIBER_OPTIC_2 2 82 R419 130 R416 +3V3 2 82 R405 130 R402 +3V3 place close to K103, K104, K105 7 Fiber Optric FX1 ACT LED FX1 LINK LED +3V3 FX1 COM1 LED +3V3 FX0 ACT LED FX0 LINK LED +3V3 5 6 FX0 COM0 LED +3V3 5 Hilscher Gesellschaft für Systemautomatiom mbH 3 yellow LEDSYG 1 green P404 3 red LEDSRG 4 2 P403 3 yellow LEDSYG 4 2 4 270 0603 green P402 R4282 1 0603 1 3 red LEDSRG 4 2 2 1 4 P401 R4272 470 0603 R4262 1 270 0603 270 0603 R4252 1 1 R4142 270 0603 470 0603 R4132 1 1 R4122 270 0603 R4112 1 3 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 9 9 10 1 1 2 2 195 R421 195 R407 1 1 2 195 10 2 R422 195 R408 place close to X401, X402 0603 0603 0603 0603 2 0805 1 2 0805 1 11 10uF C406 10uF C401 11 GND 2 0603 1 +3V3 GND 2 0603 1 +3V3 100nF C407 100nF C402 1 12 2 10uF 2 1μH 2 10uF 2 2 X401 100nF X402 100nF C409 13 AFBR-5978Z 6 RDATA+ 5 RDATA4 SD 10 TDATA+ 11 TDATA9 TXDIS 1 SDA 12 SCL 2 0603 AFBR-5978Z 6 RDATA+ 5 RDATA4 SD 1 13 C404 10 TDATA+ 11 TDATA9 TXDIS C408 1μH 1 0603 1 SDA 12 SCL C403 1μH R424 1 0805 1 2 2 R423 1 0805 1 1μH R410 1 R409 12 3 RXVCC RXGND 2 7 TXVCC TXGND GND 8 7 RXVCC 3 TXVCC TXGND RXGND 8 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 2 1 1 100nF C410 100nF C405 14 Page of Page GND 2 0603 1 GND 2 0603 14 5 4 J I H G F E D C B A Quick Start 109/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 17.10.2012 2 2 GND1 9 C502 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C507 1 2 1 2 GND 2 1.5k R504 4.7k R503 0603 100nF 1 S D4 100nF C506 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R508 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C508 0.018 R506 C511 2 +3V3 R505 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 6 7 POWER_SUPPLY Fiber Optric R510 1.8k R509 GND GND 2 G C505 3 FDC5612 6 K501 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T502 1 2 1 6 5 R502 1 PMEG4005 2 5 6 R501 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K502 D2 D3 11 10 C504 0805 100nF 1 C503 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T501 COMP Matthias Melzer 2 1 1210 10uF C510 0805 22uF 1 +3V3 2.2k R507 1 C501 C509 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF C514 10uF C512 9 9 2 0603 1 2 0603 1 100nF C515 100nF C513 A5 B5 C5 D4 D6 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N7 N14 P5 P6 P15 R9 R16 T17 U18 10 GND +1V5 10 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 11 MICRO-NETX51-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 K101-I netX51 11 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C521 100nF C519 100nF C517 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C520 10uF C518 10uF C516 13 14 Page of Page 14 5 5 J I H G F E D C B A Quick Start 110/334 © Hilscher, 2008-2013 Quick Start 111/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 51 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 10kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 112/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 10µF 10V 0805 C305 Ceramic Capacitor 100nF 25V 0603 C306 Ceramic Capacitor 10µF 10V 0805 C307 Ceramic Capacitor 100nF 25V 0603 C308 Ceramic Capacitor 10µF 10V 0805 C309 Ceramic Capacitor 100nF 25V 0603 C310 Ceramic Capacitor 10µF 10V 0805 K301 Schmitt Trigger NC7SZ14P5 K302 Schmitt Trigger NC7SZ14P5 K303 Driver SY89323LMGTR K304 Driver SY89323LMGTR K305 Driver SY89322VMGTR R301 Ferrite 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R302 Ferrite 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R303 Resistor 12.4kΩ 63mW 0603 R304 Resistor 82Ω 63mW 0603 R305 Resistor 130Ω 63mW 0603 R306 Resistor 4.7kΩ 63mW 0603 R307 Resistor 4.7kΩ 63mW 0603 R308 Resistor 4.7kΩ 63mW 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 113/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µF 10V 0805 C402 Ceramic Capacitor 100nF 25V 0603 C403 Ceramic Capacitor 10µF 10V 0805 C404 Ceramic Capacitor 100nF 25V 0603 C405 Ceramic Capacitor 100nF 25V 0603 C406 Ceramic Capacitor 10µF 10V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 10µF 10V 0805 C409 Ceramic Capacitor 100nF 25V 0603 C410 Ceramic Capacitor 100nF 25V 0603 P401 LED red / green HSMF-C155 P402 LED red / green HSMF-C155 P403 LED red / green HSMF-C155 P404 LED red / green HSMF-C155 R401 Resistor 130Ω 63mW 0603 R402 Resistor 130Ω 63mW 0603 R403 Resistor 130Ω 63mW 0603 R404 Resistor 82Ω 63mW 0603 R405 Resistor 82Ω 63mW 0603 R406 Resistor 82Ω 63mW 0603 R407 Resistor 82Ω 63mW 0603 R408 Resistor 82Ω 63mW 0603 R409 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R410 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R411 Resistor 270Ω 63mW 0603 R412 Resistor 470Ω 63mW 0603 R413 Resistor 270Ω 63mW 0603 R414 Resistor 270Ω 63mW 0603 R415 Resistor 130Ω 63mW 0603 R416 Resistor 130Ω 63mW 0603 R417 Resistor 130Ω 63mW 0603 R418 Resistor 82Ω 63mW 0603 R419 Resistor 82Ω 63mW 0603 R420 Resistor 82Ω 63mW 0603 R421 Resistor 82Ω 63mW 0603 R422 Resistor 82Ω 63mW 0603 R423 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R424 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R425 Resistor 270Ω 63mW 0603 R426 Resistor 470Ω 63mW 0603 R427 Resistor 270Ω 63mW 0603 R428 Resistor 270Ω 63mW 0603 X401 Transceiver Avago QFBR-5978AZ X402 Transceiver Avago QFBR-5978AZ netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 114/334 Page 5 REF DES PART TYPE PART NAME C501 Ceramic Capacitor 10µ 50V 1210 C502 Ceramic Capacitor 10µ 50V 1210 C503 Ceramic Capacitor 10µ 50V 1210 C504 Ceramic Capacitor 100nF 50V 0805 C505 Ceramic Capacitor 10µF 10V 0805 C506 Ceramic Capacitor 100nF 50V 0805 C507 Ceramic Capacitor 100nF 25V 0603 C508 Ceramic Capacitor 22µF 6.3V 0805 C509 Ceramic Capacitor 2.2nF 50V 0603 C510 Ceramic Capacitor 22µF 6.3V 0805 C511 Ceramic Capacitor 22µF 6.3V 0805 C512 Ceramic Capacitor 10µF 10V 0805 C513 Ceramic Capacitor 100nF 25V 0603 C514 Ceramic Capacitor 10µF 10V 0805 C515 Ceramic Capacitor 100nF 25V 0603 C516 Ceramic Capacitor 10µF 10V 0805 C517 Ceramic Capacitor 100nF 25V 0603 C518 Ceramic Capacitor 10µF 10V 0805 C519 Ceramic Capacitor 100nF 25V 0603 C520 Ceramic Capacitor 10µF 10V 0805 C521 Ceramic Capacitor 100nF 25V 0603 K501 Transistor FDC5612 K502 Transistor FDC5612 R501 Diode PMEG4005AEV R502 Diode PMEG4005AEV R503 Resistor 4.7kΩ 63mW 0603 R504 Resistor 1.5kΩ 63mW 0603 R505 Inductor sumida CDRH8D43-100 R506 Resistor 0.018Ω 250mW 1206 R507 Resistor 2.2kΩ 63mW 0603 R508 Inductor sumida CR32NP-3R3M R509 Resistor 1.8kΩ 63mW 0603 R510 Resistor 1.96kΩ63mW 0603 T501 Step-Down Micrel MIC2198YML T502 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 1 22pF 2 GND 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 +1V5 +1V5 4 www.hilscher.com 5 B1 D2 OSC_XTO RSTOUT# K101-E MICRO-NETX51-2231.000 USB_DNEG USB_DPOS V8 U8 MICRO-NETX51-2231.000 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX51-2231.000 USB_VDDC USB_VDDIO K101-H MICRO-NETX51-2231.000 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# C1 2 1 RDY RUN 10k USB_DNEG USB_DPOS 1 2 1.5k R111 9 10 6 CORE 7 8 8 RDY RUN 3 4 X102 2 1 GND 2 0603 390 390 0603 R1092 1 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 13 GND 2 5 GND A B 6 4 2 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 A[0:19] [2] 2 9 10 10k A18 A19 GND ROM 32Mbit W25Q32VSSIG HOLD#(IO3) 4 WP#(IO2) GND GND PE 11 1 VBUS 2 DD3 D+ D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 2 C102 0603 100nF 1 +3V3 12 13 SPI FLASH USB Device 7 3 2 DI(IO0) DO(IO1) 8 VCC 6 CLK 1 CS# 5 C101 5 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R114 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R113 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R112 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R114 R113 open RDY/RUN LED 12 R112 GND +3V3 SEC. MEM 11 C108 0603 100nF 1 +3V3 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU VCC ROM 1k C107 Host Interace boot configuration R105 +3V3 GND 2 1.5k +3V3 R110 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G MICRO-NETX51-2231.000 POR# RSTIN# E1 RDY E2 RUN CLKOUT D1 K101-A BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI 1 8 PROFINET FIBER OPTIC FAST STARTUP N6 T8 L6 L5 K6 K5 J5 7 netX51 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 +3V3 GND 2 6 GND POR# 0603 1nF 1 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 22pF 2 C106 1 C105 4 0603 B 0603 0603 0603 0603 3 0603 2 0603 J I H G F E D C B A 2.2.5 0603 A 1 Quick Start 115/334 PROFINET Fiber Optic (FO) Fast Startup (FSU) © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited DPM Interface Date Name Date Name C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 E14 D14 B11 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 K101-C netX51 2 24.01.2013 Matthias Melzer PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 3 3 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX51-2231.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 DPM_SIRQ DPM_DIRQ DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 2 4 www.hilscher.com D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 D[0:31] A16 A17 A18 A19 BA0 BA1 0 4M A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE A VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 RAM 512k x 32 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 1 C202 2 C204 0603 100nF 1 2 0603 100nF 6 7 8 SDRAM/HOST_INTERFACE 9 C203 GND 2 10 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 10 PROFINET FIBER OPTIC FAST STARTUP MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE MICRO-NETX51-2231.000 5 H14 G14 J12 J13 K12 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 J7 H8 A16 A17 K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 C201 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 9 8MB SDRAM 8 K101-F 7 A[0:19] [1] N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 6 netX51 5 Hilscher Gesellschaft für Systemautomatiom mbH 4 11 A18 11 1 2 10k R201 +3V3 0603 A 1 13 none A18 Mode GPIO24 GPIO25 GPIO26 GPIO27 GPIO04 GPIO05 GPIO06 GPIO07 12 13 MICRO-NETX51-2231.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K MICRO-NETX51-2231.000 MMIO24 MMIO25 MMIO26 MMIO27 K101-O MICRO-NETX51-2231.000 GPIO08 GPIO09 GPIO10 GPIO11 K101-L MMIO08 MMIO09 MMIO10 MMIO11 K2 K1 L1 M2 U7 R8 V9 U9 M1 N1 N2 P1 14 14 Page of Page netX50 compatibility mode netX51 native mode netX51 10k Resistor A18 Line Chip Mode Selectrion 12 5 2 J I H G F E D C B A Quick Start 116/334 © Hilscher, 2008-2013 J I H G F E D C B A PHY1_RXN GPIO12 GPIO13 GPIO14 GPIO15 GPIO28 GPIO29 GPIO30 GPIO31 K101-P R3032 1 Date Name Date Name U2 V2 V3 T6 V6 U6 T7 V7 I2C_SCL 12.4k 0603 2 24.01.2013 Matthias Melzer GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 K101-N T9 U10 T10 U11 R1 U1 T1 V1 K18 PHY_EXTRES L15 PHY_ATP MICRO-NETX51-2231.000 1 L18 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 MICRO-NETX51-2231.000 Checked Edited M17 L16 +1V5E M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART MICRO-NETX51-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 P18 P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 PHY0_RXN K101-M MMIO28 MMIO29 MMIO30 MMIO31 N17 T18 +1V5E N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART MICRO-NETX51-2231.000 MMIO12 MMIO13 MMIO14 MMIO15 M15 +1V5E R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP R18 +3V3E PHY_VDDIOAT M16 +3V3E PHY_VDDIOAC K101-B netX51 GND 2 0603 1 3 100nF C301 3 2 0805 1 10uF 2 0603 1 100nF C303 GPIO00 GPIO01 GPIO02 GPIO03 2 4 www.hilscher.com +3V3 +1V5 GPIO32 GPIO33 GPIO34 GPIO35 K101-Q MICRO-NETX51-2231.000 V13 U13 T13 V14 7 1 2 4.7k R306 GND GND GND 1 Regard thermal considerations (see datasheet) 2 0603 1 +3V3 2 0603 1 +3V3 2 0603 +3V3 9 place close to netX 8 1 2 4.7k 1 2 ETH1_TX ETH0_TX 10nF 6 7 8 ETHERNET_FIBER_OPTIC_1 9 10 1 C310 ETH1_SD ETH1_RX 10nF C308 ETH0_SD 0603 1 2 10nF C306 ETH0_RX 0603 1 2 0603 R307 +1V5 100nF C309 100nF C307 100nF C305 2 IN1 IN0 GND VCC Q1 Q0 GND VCC Q1 Q0 GND 12 FX0_SD-P FX_SD-N 4 3 2 R308 11 SY89322VMGTR FX1_TX+ FX1_TX- 3 Q1 Q1# 4 12 FX0_TX+ FX0_TX- 1 2 Q0 Q0# GND 2 K305 FX1_SD-P FX_SD-N 4 IN1 IN1# 3 1 130 R305 82 R304 +3V3 1 FX1_RX+ FX1_RX- 1 2 IN0 IN0# IN1 IN1# FX0_RX+ FX0_RX- 1 IN0 IN0# 2 FX1_TX-DISABLE +3V3 FX0_TX-DISABLE +3V3 SY89323LMGTR K304 SY89323LMGTR K303 NC7SZ14P5 2 A 3 GND 5 VCC Y 4 K302 NC7SZ14P5 5 VCC Y 4 11 K301 2 A 3 GND VCC 4.7k 6 7 5 8 6 7 5 8 6 7 5 8 GND TX1_DISABLE_INV GND TX0_DISABLE_INV 10 PROFINET FIBER OPTIC FAST STARTUP MMIO36 MMIO37 MMIO38 MMIO39 K101-R V12 T11 U12 T12 1206 Z=600 Ohm @100MHz 2 R302 1 MICRO-NETX51-2231.000 5 6 2 1206 Z=600 Ohm @100MHz R301 1 netX51 MMIO32 MMIO33 MMIO34 MMIO35 10uF C304 H1 J1 J2 I2C_SDA0 L2 I2C_SDA1 0805 1 5 Hilscher Gesellschaft für Systemautomatiom mbH MICRO-NETX51-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX51 C302 4 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1 13 13 [4] [4] [4] FX1_RX+ FX1_RXFX1_SD-P [4] [4] [4] [4] [4] [4] 14 Page of Page USB_DETECT I2C_SCL [4] I2C_SDA0[4] I2C_SDA1 [4] FX0_COM-G [4] FX0_COM-R [4] FX1_COM-G [4] FX1_COM-R [4] FX0_LNK FX0_ACT FX1_LNK FX1_ACT FX1_TX+ FX1_TX- [4] [4] [4] FX0_SD-P FX0_TX+ FX0_TX- [4] [4] FX0_RX+ FX0_RX- FX1_TX-DISABLE[4] FX0_TX-DISABLE[4] 14 5 3 J I H G F E D C B A Quick Start 117/334 © Hilscher, 2008-2013 J I H G F E D C B A 1 Checked Edited Date Name Date Name [3] FX1_ACT [3] FX1_LNK [3] FX1_COM-R [3] FX1_COM-G [3] FX1_RX+ [3] FX1_RX[3] FX1_SD-P [3] FX1_TX+ [3] FX1_TX[3] FX1_TX-DISABLE [3]I2C_SDA1 [3,4] I2C_SCL [3] FX0_ACT [3] FX0_LNK [3] FX0_COM-R [3] FX0_COM-G [3] FX0_RX+ [3] FX0_RX[3] FX0_SD-P [3] FX0_TX+ [3] FX0_TX[3] FX0_TX-DISABLE [3]I2C_SDA0 [3,4] I2C_SCL 2 24.01.2013 Matthias Melzer 2 3 270 1 green 1 green 4 www.hilscher.com 1 1 2 1 2 1 2 2 82 R418 130 R415 82 R404 130 R401 1 1 2 1 1 2 2 82 R419 130 R416 +3V3 2 82 R405 130 R402 +3V3 1 place close to K103, K104, K105 7 8 1 2 1 GND 2 1 2 GND 2 82 R420 130 R417 82 R406 130 R403 9 1 1 2 2 195 R421 195 R407 1 1 2 2 6 7 8 ETHERNET_FIBER_OPTIC_2 9 10 195 R422 195 R408 place close to X401, X402 10 PROFINET FIBER OPTIC FAST STARTUP FX1 ACT LED FX1 LINK LED +3V3 FX1 COM1 LED +3V3 FX0 ACT LED FX0 LINK LED +3V3 5 6 FX0 COM0 LED +3V3 5 Hilscher Gesellschaft für Systemautomatiom mbH 3 yellow LEDSYG 1 green P404 3 red LEDSRG 4 2 P403 3 yellow LEDSYG 4 2 4 270 0603 green P402 R4282 1 0603 1 3 red LEDSRG 4 2 2 1 4 P401 R4272 470 0603 R4262 1 270 0603 270 0603 R4252 1 1 R4142 270 0603 470 0603 R4132 1 1 R4122 270 0603 R4112 1 3 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 2 0805 1 2 0805 1 11 10uF C406 10uF C401 11 GND 2 0603 1 +3V3 GND 2 0603 1 +3V3 100nF C407 100nF C402 1 12 2 10uF 2 1μH 2 10uF 2 2 X401 100nF X402 100nF C409 13 AFBR-5978Z 6 RDATA+ 5 RDATA4 SD 10 TDATA+ 11 TDATA9 TXDIS 1 SDA 12 SCL 2 0603 AFBR-5978Z 6 RDATA+ 5 RDATA4 SD 1 13 C404 10 TDATA+ 11 TDATA9 TXDIS C408 1μH 1 0603 1 SDA 12 SCL C403 1μH R424 1 0805 1 2 2 R423 1 0805 1 1μH R410 1 R409 12 3 RXVCC RXGND 2 7 TXVCC TXGND GND 8 7 RXVCC 3 TXVCC TXGND RXGND 8 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 2 1 1 100nF C410 100nF C405 14 Page of Page GND 2 0603 1 GND 2 0603 14 5 4 J I H G F E D C B A Quick Start 118/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 24.01.2013 2 2 GND1 9 C502 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C507 1 2 1 2 GND 2 1.5k R504 4.7k R503 0603 100nF 1 S D4 100nF C506 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R508 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C508 0.018 R506 C511 2 +3V3 R505 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 8 GND 2 0805 1 GND 2 0805 1 10uF C514 10uF C512 9 2 0603 1 2 0603 1 100nF C515 100nF C513 GND +1V5 6 7 POWER_SUPPLY 8 9 10 A5 B5 C5 D4 D6 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 E6 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N7 N14 P5 P6 P15 R9 R16 T17 U18 10 PROFINET FIBER OPTIC FAST STARTUP R510 1.8k R509 GND GND 2 G C505 3 FDC5612 6 K501 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T502 1 2 1 6 5 R502 1 PMEG4005 2 5 6 R501 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K502 D2 D3 11 10 C504 0805 100nF 1 C503 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T501 COMP Matthias Melzer 2 1 1210 10uF C510 0805 22uF 1 +3V3 2.2k R507 1 C501 C509 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 11 MICRO-NETX51-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 K101-I netX51 11 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C521 100nF C519 100nF C517 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C520 10uF C518 10uF C516 13 14 Page of Page 14 5 5 J I H G F E D C B A Quick Start 119/334 © Hilscher, 2008-2013 Quick Start 120/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory W25Q32VSSIG C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 51 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 10kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 121/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 10µF 10V 0805 C305 Ceramic Capacitor 100nF 25V 0603 C306 Ceramic Capacitor 10µF 10V 0805 C307 Ceramic Capacitor 100nF 25V 0603 C308 Ceramic Capacitor 10µF 10V 0805 C309 Ceramic Capacitor 100nF 25V 0603 C310 Ceramic Capacitor 10µF 10V 0805 K301 Schmitt Trigger NC7SZ14P5 K302 Schmitt Trigger NC7SZ14P5 K303 Driver SY89323LMGTR K304 Driver SY89323LMGTR K305 Driver SY89322VMGTR R301 Ferrite 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R302 Ferrite 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R303 Resistor 12.4kΩ 63mW 0603 R304 Resistor 82Ω 63mW 0603 R305 Resistor 130Ω 63mW 0603 R306 Resistor 4.7kΩ 63mW 0603 R307 Resistor 4.7kΩ 63mW 0603 R308 Resistor 4.7kΩ 63mW 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 122/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µF 10V 0805 C402 Ceramic Capacitor 100nF 25V 0603 C403 Ceramic Capacitor 10µF 10V 0805 C404 Ceramic Capacitor 100nF 25V 0603 C405 Ceramic Capacitor 100nF 25V 0603 C406 Ceramic Capacitor 10µF 10V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 10µF 10V 0805 C409 Ceramic Capacitor 100nF 25V 0603 C410 Ceramic Capacitor 100nF 25V 0603 P401 LED red / green HSMF-C155 P402 LED red / green HSMF-C155 P403 LED red / green HSMF-C155 P404 LED red / green HSMF-C155 R401 Resistor 130Ω 63mW 0603 R402 Resistor 130Ω 63mW 0603 R403 Resistor 130Ω 63mW 0603 R404 Resistor 82Ω 63mW 0603 R405 Resistor 82Ω 63mW 0603 R406 Resistor 82Ω 63mW 0603 R407 Resistor 82Ω 63mW 0603 R408 Resistor 82Ω 63mW 0603 R409 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R410 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R411 Resistor 270Ω 63mW 0603 R412 Resistor 470Ω 63mW 0603 R413 Resistor 270Ω 63mW 0603 R414 Resistor 270Ω 63mW 0603 R415 Resistor 130Ω 63mW 0603 R416 Resistor 130Ω 63mW 0603 R417 Resistor 130Ω 63mW 0603 R418 Resistor 82Ω 63mW 0603 R419 Resistor 82Ω 63mW 0603 R420 Resistor 82Ω 63mW 0603 R421 Resistor 82Ω 63mW 0603 R422 Resistor 82Ω 63mW 0603 R423 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R424 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R425 Resistor 270Ω 63mW 0603 R426 Resistor 470Ω 63mW 0603 R427 Resistor 270Ω 63mW 0603 R428 Resistor 270Ω 63mW 0603 X401 Transceiver Avago QFBR-5978AZ X402 Transceiver Avago QFBR-5978AZ netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 123/334 Page 5 REF DES PART TYPE PART NAME C501 Ceramic Capacitor 10µ 50V 1210 C502 Ceramic Capacitor 10µ 50V 1210 C503 Ceramic Capacitor 10µ 50V 1210 C504 Ceramic Capacitor 100nF 50V 0805 C505 Ceramic Capacitor 10µF 10V 0805 C506 Ceramic Capacitor 100nF 50V 0805 C507 Ceramic Capacitor 100nF 25V 0603 C508 Ceramic Capacitor 22µF 6.3V 0805 C509 Ceramic Capacitor 2.2nF 50V 0603 C510 Ceramic Capacitor 22µF 6.3V 0805 C511 Ceramic Capacitor 22µF 6.3V 0805 C512 Ceramic Capacitor 10µF 10V 0805 C513 Ceramic Capacitor 100nF 25V 0603 C514 Ceramic Capacitor 10µF 10V 0805 C515 Ceramic Capacitor 100nF 25V 0603 C516 Ceramic Capacitor 10µF 10V 0805 C517 Ceramic Capacitor 100nF 25V 0603 C518 Ceramic Capacitor 10µF 10V 0805 C519 Ceramic Capacitor 100nF 25V 0603 C520 Ceramic Capacitor 10µF 10V 0805 C521 Ceramic Capacitor 100nF 25V 0603 K501 Transistor FDC5612 K502 Transistor FDC5612 R501 Diode PMEG4005AEV R502 Diode PMEG4005AEV R503 Resistor 4.7kΩ 63mW 0603 R504 Resistor 1.5kΩ 63mW 0603 R505 Inductor sumida CDRH8D43-100 R506 Resistor 0.018Ω 250mW 1206 R507 Resistor 2.2kΩ 63mW 0603 R508 Inductor sumida CR32NP-3R3M R509 Resistor 1.8kΩ 63mW 0603 R510 Resistor 1.96kΩ63mW 0603 T501 Step-Down Micrel MIC2198YML T502 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 1 22pF 2 GND 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 4 www.hilscher.com 5 GND 2 B1 D2 V8 U8 L6 L5 K6 K5 J5 RSTIN# K101-E MICRO-NETX51-2231.000 6 USB_VDDC MICRO-NETX51-2231.000 7 N6 T8 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX51-2231.000 USB_DNEG USB_VDDIO K101-H MICRO-NETX51-2231.000 USB_DPOS V13 U13 T13 V14 U7 R8 V9 U9 C1 1 8 2 1 RDY RUN 10k 8 USB_DNEG USB_DPOS 1 2 1.5k R111 9 10 8 RDY RUN 3 4 X102 2 1 560 0603 GND 2 0603 LEDSYG 1green 3yellow 390 390 0603 R1092 1 R1082 1 2 R1072 560 4 RUN 1 C108 13 GND 2 5 GND A B 6 4 2 10k 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10k 10 2 10k R114 GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 DD3 D+ D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 DPM, 8 bit data bus, 16 address lines 1 pull up pull up pull up R113 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up pull up open 1 serial DPM pull up open pull up R112 SDRAM on HIF, 16 bit data bus, up to 4M byte address range pull up open open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up pull up 4 Page of 14 1 14 Page open open pull up pull up no HIF configuration HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open open Description R114 R113 open RDY/RUN LED 12 R112 GND +3V3 SEC. MEM 11 0603 100nF 1 +3V3 P101 R1062 RDY 1 0603 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU VCC ROM 1k C107 Host Interace boot configuration R105 +3V3 GND 2 1.5k +3V3 R110 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G MICRO-NETX51-2231.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX51-2231.000 GPIO24 GPIO25 GPIO26 GPIO27 K101-O MMIO24 MMIO25 MMIO26 MMIO27 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# CORE RSTOUT# MICRO-NETX51-2231.000 AS-Interface +3V3 OSC_XTO E1 RDY E2 RUN CLKOUT D1 K101-A BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI POR# 7 netX51 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 GND POR# 6 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 22pF 2 C106 1 C105 0603 0603 0603 0603 0603 B 4 0603 3 0603 2 0603 J I H G F E D C B A 2.2.6 SPI_MISO A 1 Quick Start 124/334 AS-Interface © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited DPM Interface Date Name Date Name K101-C 2 28.02.2012 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX51-2231.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 DPM_SIRQ DPM_DIRQ DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 3 netX51 Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 E14 D14 B11 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE MICRO-NETX51-2231.000 4 www.hilscher.com 5 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX51 5 Hilscher Gesellschaft für Systemautomatiom mbH 4 A16 A17 A18 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 8 J7 H8 A16 A17 C201 BA0 BA1 A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE 0 A 4M VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 RAM 512k x 32 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 9 1 C202 2 C204 0603 100nF 1 2 0603 100nF 6 7 8 9 C203 10 GND 2 10 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 SDRAM/HOST_INTERFACE/ETHERNET K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 A[0:18] D[0:31] 8MB SDRAM A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 7 AS-Interface D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 6 11 A18 11 1 10k none M15 +1V5 N17 T18 +1V5 PHY0_RXN M17 L18 12 MICRO-NETX51-2231.000 K18 PHY_EXTRES L15 PHY_ATP 1 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN Mode 12.4k 13 GND 2 0603 1 +3V3 100nF 14 2 0603 1 +1V5 100nF 4 2 C207 14 Page of Page C206 netX50 compatibility mode netX51 native mode R2012 L16 +1V5 M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 P18 N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP 0603 10k A18 A18 Resistor Line R18 +3V3 PHY_VDDIOAT M16 +3V3 PHY_VDDIOAC K101-B 13 Chip Mode Selectrion 12 netX51 2 R202 +3V3 0603 A 1 J I H G F E D C B A Quick Start 125/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B GPIO00 GPIO01 GPIO02 GPIO03 GPIO28 GPIO29 GPIO30 GPIO31 1 Checked Edited Date Name Date Name MICRO-NETX51-2231.000 MMIO28 MMIO29 MMIO30 MMIO31 K101-P MICRO-NETX51-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX51 ASI_PF ASI_RX ASI_TX 2 28.02.2012 470 0603 3 VDD2 green 1210 4 4 www.hilscher.com 5 C302 6 1 2 2 C303 1 2 2 10k R302 0603 100nF 1 7 C304 1 2 2 10k R303 0805 100nF 1 6 7 AS-INTERFACE AS-Interface 100k R301 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH +3V3_ASI ADUM1301CRW ISOLATOR-ADUM1301CRW VIC VIB 3 7 VE1 5 VOC 13 VOB 10 VE2 12 1 2 GND1-1 8 GND1-2 VDD1 VIA K301 VOA 14 9 GND2-1 15 GND2-2 16 3 red 1 LEDSRG 4 R3152 1 270 2 0603 P301 R3142 1 2 GND Matthias Melzer T9 ASI_STA U10 ASI_ERR T10 U11 H1 J1 J2 L2 C301 0603 100nF 1 +3V3_ASI ISO-AREA 5 0603 4 0603 3 0603 A 2 8 ISOTX1 ISORX1 10k 0603 R3041 2 2 VOUTC1 C305 Tantal 22uF 1 V5AC1 8 FID1 9 22 21 16 15 14 13 5 4 24 K302 VOUTC1 2 1 6 7 28 25 CAP 3 0V 12 GND ASIN ASIP OSC2 OSC1 UIN 10 10 ASI4CU-E-M DRIVER-ASI4CU-E-M DSR PST P0 P1 P2 P3 FID TXD/IRD RXD/LED 11 DO0 10 DO1 9 DO2 8 DO3 17 DI0 18 DI1 19 DI2 20 DI3 23 U5RD 26 U5R 27 UOUT 9 8MHz ASI-C_1 ASI+IN_1 3 1 1 ASI+IN1 11 2 12 R308 BZG03C39 1 1 2 1 2 1 2 2 12.4k ASI+ ASI- X301 1 2 14 2 C306 13 0603 10nF 1 14 Page of Page Ref.-Spg = 2.0V Schaltschwelle: 22.5V (+/-1V) ASI2+ < 21.5V Bus-Off Mode Kommunikations Mode R313 1k 1 4 0.470mH 2 3 R309 13 R312ASI2+ > 23.5V 22k R311 LL4148L R310 1N4004-SMD 2 1 LL4148L 2 1 SOD 80 R307 2 12 R306 RS-CM7050-8 4.7μH G301 1 R305 11 SOD 80 0603 0603 0603 1 4 3 J I H G F E D C B A Quick Start 126/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name C409 1 2 2 2 28.02.2012 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 1 2 C407 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 2 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 6 7 POWER_SUPPLY AS-Interface R410 1.8k R409 GND GND G C405 3 FDC5612 6 K401 D2 D3 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 1 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 GND1 Matthias Melzer 2 2 COMP 9 C402 1210 10uF 1 C410 0805 22uF 1 +3V3 2.2k R407 0603 2.2nF 1 GND 2 1 C401 1210 10uF 1 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 10uF 100nF MMIO12 MMIO13 MMIO14 MMIO15 GPIO12 GPIO13 GPIO14 GPIO15 K101-M netX51 MICRO-NETX51-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 GPIO08 GPIO09 GPIO10 GPIO11 9 MICRO-NETX51-2231.000 MMIO08 MMIO09 MMIO10 MMIO11 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 11 MICRO-NETX51-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 K101-N 10 GND A5 B5 C5 D4 D6 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 K101-I VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 K101-L M1 N1 N2 P1 K2 K1 L1 M2 100nF C415 C413 E6 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N7 N14 P5 P6 P15 R9 R16 T17 U18 netX51 11 MICRO-NETX51-2231.000 2 0603 1 2 0603 1 +1V5 10 MICRO-NETX51-2231.000 GPIO04 GPIO05 GPIO06 GPIO07 K101-K 10uF C414 C412 MMIO04 MMIO05 MMIO06 MMIO07 GND 2 0805 1 GND 2 0805 1 9 U2 V2 V3 T6 V6 U6 T7 V7 R1 U1 T1 V1 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 12 GND +3V3 12 1 2 0603 1 2 0603 1 2 0603 100nF 1 2 0805 1 2 0805 1 2 0805 10uF 13 MICRO-NETX51-2231.000 V12 T11 U12 T12 14 14 Page of Page GPIO32 GPIO33 GPIO34 GPIO35 GND C420 10uF C418 10uF C416 K101-Q MMIO32 MMIO33 MMIO34 MMIO35 C421 100nF C419 100nF C417 13 4 4 J I H G F E D C B A Quick Start 127/334 © Hilscher, 2008-2013 Quick Start 128/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T T K101 Microcontroller netX 51 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 C206 Ceramic Capacitor 100nF 25V 0603 C207 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 12.4kΩ 63mW 0603 R202 Resistor 10kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 129/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 100nF 50V0805 C305 Tantalum Capacitor Epcos B45197A6226+509 C306 Ceramic Capacitor 10nF 50V 0603 G301 Crystal RSG Electronic Components GmbH RS-CM7050-8 K301 Triple-Channel Digital Isolator Analog Devices ADUM1301CRW K302 Driver Zentrum Mikroelektronik Dresden ZMD ASI4UC-E-M P301 LED red / green HSMF-C155 R301 Resistor 100kΩ 63mW 0603 R302 Resistor 10kΩ 63mW 0603 R303 Resistor 10kΩ 63mW 0603 R304 Resistor 10kΩ 63mW 0603 R305 AS-Interface Choke Würth Elektronik Part-No. 744775347 R306 Diode Vishay Part-No. LL4148L R307 Diode 1N4004 R308 Zener Diode Vishay Part-No. BZG03C39 R309 Double Chokes Epcos Part-No. B82790C0474N215 R310 Diode Vishay Part-No. LL4148L R311 Resistor 22kΩ 63mW 0603 R312 Resistor 1kΩ 63mW 0603 R313 Resistor 12.4kΩ 63mW 0603 R314 Resistor 270Ω 63mW 0603 R315 Resistor 470Ω 63mW 0603 X301 Connector Phoenix Contact MC 1,5/ 2-G-3,81 part no 1803277 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 130/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 1 22pF 2 GND 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 4 www.hilscher.com 5 GND 2 B1 D2 N6 T8 L6 L5 K6 K5 J5 RSTIN# K101-E MICRO-NETX51-2231.000 6 USB_DNEG MICRO-NETX51-2231.000 7 V8 U8 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX51-2231.000 USB_VDDC USB_DPOS K101-H MICRO-NETX51-2231.000 USB_VDDIO V13 U13 T13 V14 U7 R8 V9 U9 C1 1 8 2 1 RDY RUN 10k 8 USB_DNEG USB_DPOS 1 2 1.5k R111 9 10 8 RDY RUN 3 4 X102 2 1 560 0603 GND 2 0603 LEDSYG 1green 3yellow 390 390 0603 R1092 1 R1082 1 2 R1072 560 4 RUN 1 C108 13 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10 2 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 DD3 D+ D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R114 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R113 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R112 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R114 R113 open RDY/RUN LED 12 R112 GND +3V3 SEC. MEM 11 0603 100nF 1 +3V3 P101 R1062 RDY 1 0603 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU VCC ROM 1k C107 Host Interace boot configuration R105 +3V3 GND 2 1.5k +3V3 R110 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G MICRO-NETX51-2231.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX51-2231.000 GPIO24 GPIO25 GPIO26 GPIO27 K101-O MMIO24 MMIO25 MMIO26 MMIO27 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# CORE RSTOUT# MICRO-NETX51-2231.000 CANopen +3V3 OSC_XTO E1 RDY E2 RUN CLKOUT D1 K101-A BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI POR# 7 netX51 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 GND POR# 6 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 22pF 2 C106 1 C105 0603 0603 0603 0603 0603 B 4 0603 3 0603 2 0603 J I H G F E D C B A 2.2.7 SPI_MISO A 1 Quick Start 131/334 CANopen © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited DPM Interface Date Name Date Name 2 28.02.2012 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX51-2231.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 DPM_SIRQ DPM_DIRQ DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 netX51 3 K101-C Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 E14 D14 B11 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE MICRO-NETX51-2231.000 4 www.hilscher.com 5 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX51 5 Hilscher Gesellschaft für Systemautomatiom mbH 4 A16 A17 A18 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 8 J7 H8 BA0 BA1 A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE 0 A 4M VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 9 1 C202 2 C204 0603 100nF 1 2 0603 100nF 6 7 8 9 C203 10 GND 2 10 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 SDRAM/HOST_INTERFACE/ETHERNET K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 RAM 512k x 32 C201 A[0:18] D[0:31] 8MB SDRAM G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 CANopen D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 6 11 A18 11 1 10k none M15 +1V5 N17 T18 +1V5 PHY0_RXN M17 L18 12 MICRO-NETX51-2231.000 K18 PHY_EXTRES L15 PHY_ATP 1 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN Mode 12.4k 13 GND 2 0603 1 +3V3 100nF 14 2 0603 1 +1V5 100nF 4 2 C207 14 Page of Page C206 netX50 compatibility mode netX51 native mode R2012 L16 +1V5 M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 P18 N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP 0603 10k A18 A18 Resistor Line R18 +3V3 PHY_VDDIOAT M16 +3V3 PHY_VDDIOAC K101-B 13 Chip Mode Selectrion 12 netX51 2 R202 +3V3 0603 A 1 J I H G F E D C B A Quick Start 132/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C 1 Date Name Date Name MICRO-NETX51-2231.000 T9 CO_STA U10CO_ERR T10 U11 GND +3V3 H1 CO_RX J1 CO_TX J2 L2 2 28.02.2012 1 3 470 0603 1 green 1210 6 7 5 8 3 2 1 2 +3V3 VO VE GND VCC CAT ANO T301 HCPL060L & K302 HCPL0601 & K301 5V DC 0 OUT PSD-3R305S 0 IN 4 5 CAT ANO 4 www.hilscher.com 5 VO VE GND VCC 1 2 C301 2 6 CAN 7 C306 0805 22uF 1 470 0603 R3042 ISOGND_CAN 1 7 ISO+5V_CAN 0603 100nF ISO+5V_CAN 6 CANopen 3 2 6 7 5 8 ISO-AREA + 3,3V DC + 5 Hilscher Gesellschaft für Systemautomatiom mbH 3 red LEDSRG DIODE-LED-LEDSRG-1210 4 270 R3102 1 C305 P301 2 C302 270 0603 100nF 1 2 R301 0805 22uF 1 2 0603 1 2 GND R3092 1 1 2 0805 Z=1000 Ohm @100MHz R308 1 R307 2 470 R303 +3V3 2 0805 Z=1000 Ohm @100MHz Matthias Melzer GPIO28 GPIO29 GPIO30 GPIO31 K101-P MMIO28 MMIO29 MMIO30 MMIO31 Checked Edited GPIO00 GPIO01 GPIO02 GPIO03 MICRO-NETX51-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX51 +3V3 4 0603 B 3 0603 1 3 8 1 EN VIN 2 GND 1 TXD 4 RXD 5 V_REF 8 RS 8 NCP500SN50T1 VOUT 5 ISOGND_CAN 470 T302 2 R302 ISO+5V_CAN 0603 A 2 2 9 GND VCC 2 3 10 2 ISOGND_CAN ISOGND_CAN 10 C303 0603 100nF 1 ISO+5V_CAN ISO+5V_CAN 7 CANH 6 CANL C307 0805 10uF 1 PCA82C251T K303 9 11 1 11 3 2 ISOGND_CAN 1 1M 12 2 R306 PESD1CAN R305 12 2010 1 1 2 13 C304 1808 15nF PE 14 Page of Page CAN-L X301 14 1 1 2 2 3 3 4 4 5 5 6 ISOGND_CAN 6 7 CAN-H 7 8 8 9 9 10 SHIELD1 11 SHIELD2 XDCP9SW-6MM 13 4 3 J I H G F E D C B A Quick Start 133/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name C409 1 2 2 2 28.02.2012 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 1 2 C407 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 2 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 6 7 POWER_SUPPLY +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 CANopen R410 1.8k R409 GND GND G C405 3 FDC5612 6 K401 D2 D3 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 1 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 GND1 Matthias Melzer 2 2 COMP 9 C402 1210 10uF 1 C410 0805 22uF 1 +3V3 2.2k R407 0603 2.2nF 1 GND 2 1 C401 1210 10uF 1 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 10uF 100nF MMIO12 MMIO13 MMIO14 MMIO15 GPIO12 GPIO13 GPIO14 GPIO15 K101-M netX51 MICRO-NETX51-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 GPIO08 GPIO09 GPIO10 GPIO11 9 MICRO-NETX51-2231.000 MMIO08 MMIO09 MMIO10 MMIO11 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 11 MICRO-NETX51-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 K101-N 10 GND A5 B5 C5 D4 D6 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 K101-I VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 K101-L M1 N1 N2 P1 K2 K1 L1 M2 100nF C415 C413 E6 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N7 N14 P5 P6 P15 R9 R16 T17 U18 netX51 11 MICRO-NETX51-2231.000 2 0603 1 2 0603 1 +1V5 10 MICRO-NETX51-2231.000 GPIO04 GPIO05 GPIO06 GPIO07 K101-K 10uF C414 C412 MMIO04 MMIO05 MMIO06 MMIO07 GND 2 0805 1 GND 2 0805 1 9 U2 V2 V3 T6 V6 U6 T7 V7 R1 U1 T1 V1 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 12 GND +3V3 12 1 2 0603 1 2 0603 1 2 0603 100nF 1 2 0805 1 2 0805 1 2 0805 10uF 13 MICRO-NETX51-2231.000 V12 T11 U12 T12 14 14 Page of Page GPIO32 GPIO33 GPIO34 GPIO35 GND C420 10uF C418 10uF C416 K101-Q MMIO32 MMIO33 MMIO34 MMIO35 C421 100nF C419 100nF C417 13 4 4 J I H G F E D C B A Quick Start 134/334 © Hilscher, 2008-2013 Quick Start 135/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 51 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 C206 Ceramic Capacitor 100nF 25V 0603 C207 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 12.4kΩ 63mW 0603 R202 Resistor 10kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 136/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 100nF 25V 0603 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 15nF 1000V 1808 C305 Ceramic Capacitor 22µF 6.3V 0805 C306 Ceramic Capacitor 22µF 6.3V 0805 C307 Ceramic Capacitor 10µF 10V 0805 K301 Optocoupler HCPL0601 K302 Optocoupler HCPL060L K303 CAN transceiver PCA82C251T P301 LED red / green HSMF-C155 R301 Resistor 270Ω 63mW 0603 R302 Resistor 470Ω 63mW 0603 R303 Resistor 470Ω 63mW 0603 R304 Resistor 470Ω 63mW 0603 R305 EDS protection diode PESD1CAN R306 Resistor RKRS1MW500M-2010 R307 Ferrite Würth Elektronik part no. 74279207 R308 Ferrite Würth Elektronik part no. 74279207 R309 Resistor 270Ω 63mW 0603 R310 Resistor 470Ω 63mW 0603 T301 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T302 Voltage Regulator NCP500SN50T1 X301 D-Sub9 Male SUYIN USA part no. 070211MR009G200ZU netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 137/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 1 22pF 2 GND 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 4 www.hilscher.com 5 GND 2 B1 D2 N6 T8 L6 L5 K6 K5 J5 RSTIN# 6 K101-E MICRO-NETX51-2231.000 USB_DNEG MICRO-NETX51-2231.000 7 V8 U8 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX51-2231.000 USB_VDDC USB_DPOS K101-H MICRO-NETX51-2231.000 USB_VDDIO V13 U13 T13 V14 U7 R8 V9 U9 C1 1 8 2 1 RDY RUN 10k 8 USB_DNEG USB_DPOS 1 2 1.5k R111 9 10 8 RDY RUN 3 4 X102 2 1 560 0603 GND 2 0603 LEDSYG 1green 3yellow 390 390 0603 R1092 1 R1082 1 2 R1072 560 4 RUN 1 C108 13 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10 2 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 DD3 D+ D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R114 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R113 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R112 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R114 R113 open RDY/RUN LED 12 R112 GND +3V3 SEC. MEM 11 0603 100nF 1 +3V3 P101 R1062 RDY 1 0603 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU VCC ROM 1k C107 Host Interace boot configuration R105 +3V3 GND 2 1.5k +3V3 R110 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G MICRO-NETX51-2231.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX51-2231.000 GPIO24 GPIO25 GPIO26 GPIO27 K101-O MMIO24 MMIO25 MMIO26 MMIO27 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# CORE RSTOUT# MICRO-NETX51-2231.000 CC-Link +3V3 OSC_XTO E1 RDY E2 RUN CLKOUT D1 K101-A BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI POR# 7 netX51 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 GND POR# 6 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 22pF 2 C106 1 C105 0603 0603 0603 0603 0603 B 4 0603 3 0603 2 0603 J I H G F E D C B A 2.2.8 SPI_MISO A 1 Quick Start 138/334 CC-Link © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited DPM Interface Date Name Date Name 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX51-2231.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 DPM_SIRQ DPM_DIRQ DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# 28.02.2012 2 K101-C netX51 3 DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 E14 D14 B11 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE MICRO-NETX51-2231.000 4 www.hilscher.com 5 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX51 5 Hilscher Gesellschaft für Systemautomatiom mbH 4 A16 A17 A18 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 8 J7 H8 BA0 BA1 A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE 0 A 4M VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 9 1 C202 2 C204 0603 100nF 1 2 0603 100nF 6 7 8 9 C203 10 GND 2 10 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 SDRAM/HOST_INTERFACE/ETHERNET K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 RAM 512k x 32 C201 A[0:18] D[0:31] 8MB SDRAM G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 CC-Link D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 6 11 A18 11 1 10k none M15 +1V5 N17 T18 +1V5 PHY0_RXN M17 L18 12 MICRO-NETX51-2231.000 K18 PHY_EXTRES L15 PHY_ATP 1 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN Mode 12.4k 13 GND 2 0603 1 +3V3 100nF 14 2 0603 1 +1V5 100nF 4 2 C207 14 Page of Page C206 netX50 compatibility mode netX51 native mode R2012 L16 +1V5 M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 P18 N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP 0603 10k A18 A18 Resistor Line R18 +3V3 PHY_VDDIOAT M16 +3V3 PHY_VDDIOAC K101-B 13 Chip Mode Selectrion 12 netX51 2 R202 +3V3 0603 A 1 J I H G F E D C B A Quick Start 139/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited Date Name Date Name MICRO-NETX51-2231.000 T9 PIO0 U10PIO1 T10 U11 1 2 28.02.2012 470 0603 C304 C309 4 2 1 green 1210 P301 2 0805 22uF 1 2 GND 0603 100nF 1 +3V3 2 GND 3 6 5 8 2 4 1 3 2 VO 1 2 GND2 VDD2 VI GND1 VCC CAT ANO 5V DC 0 OUT +3V3 PSD-3R305S 0 IN + 3,3V DC + T301 ACPL072L OPTO-ACPL072L K303 ACPL072L OPTO-ACPL072L K302 HCPL0601 OPTO-HCPL0601 & K301 4 5 VI GND1 VCC VO GND2 VDD2 VO VE GND VCC 2 4 1 6 5 8 6 7 5 8 4 www.hilscher.com 5 C301 ISOGND_CCL C303 ISOGND_CCL C305 2 2 1 2 1k 6 CC-LINK CC-Link 1 3 7 EN VIN 2 GND 5 NCP500SN50T1 VOUT T302 NC7SZ14P5 INV-NC7SZ14P5 ISO+5V_CCL ISOGND_CCL 5 VCC Y 4 K304 2 A 3 GND R302 ISOGND_CCL C310 0805 22uF 1 ISOGND_CCL 0603 100nF 1 ISO+5V_CCL 2 0603 100nF 1 ISO+5V_CCL 2 0603 100nF 1 ISO+5V_CCL ISOLATED AREA 7 8 2 3 5 4 2 R 2 B A Z Y C311 9 2 ISOGND_CCL 11 12 10 9 9 ISOGND_CCL ISO+5V_CCL B A Z Y 7 GND2 6 GND1 1 1 2 10 ISOGND_CCL 2 0603 2 R306 680 1 680 0603 R3052 1 R307 47k 47k R304 ISO+5V_CCL 10 C307 0603 100nF 1 ISO+5V_CCL 14 VCC2 13 VCC1 75ALS181D DRIVER-75ALS181D R RE D DE K305 ISOGND_CCL 0805 22uF 1 RE# D DE 10k 0603 100nF R3032 1 1 C306 8 11 2 11 ISOGND_CCL 1 6 3 5 0603 4 Hilscher Gesellschaft für Systemautomatiom mbH 3 red LEDSRG DIODE-LED-LEDSRG-1210 R3142 270 0603 R3132 1 1 2 0805 Z=1000 Ohm @100MHz R312 Matthias Melzer GPIO28 GPIO29 GPIO30 GPIO31 K101-P MMIO28 MMIO29 MMIO30 MMIO31 GND R311 C302 GND 0603 100nF 1 +3V3 220 0603 R3012 1 1 2 0805 Z=1000 Ohm @100MHz H1 XM0_RX J1 XM0_TX J2 L2 XM0_IO0 +3V3 GPIO00 GPIO01 GPIO02 GPIO03 MICRO-NETX51-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX51 3 0603 A 2 0603 0603 1 12 R310 L1_1 L1_2 1 6 L2_1 L2_2 2 5 L3_1 L3_2 3 4 ZCYS51R5-M3PAT ISOGND_CCL RD6.2Z R308 12 1 13 2 5 4 3 2 1 14 4 3 X301 14 Page of Page PE C308 0805 3.3nF 13 J I H G F E D C B A Quick Start 140/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name C409 1 2 2 2 28.02.2012 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 1 2 C407 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 2 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 6 7 POWER_SUPPLY +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 CC-Link R410 1.8k R409 GND GND G C405 3 FDC5612 6 K401 D2 D3 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 1 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 GND1 Matthias Melzer 2 2 COMP 9 C402 1210 10uF 1 C410 0805 22uF 1 +3V3 2.2k R407 0603 2.2nF 1 GND 2 1 C401 1210 10uF 1 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 10uF 100nF MMIO12 MMIO13 MMIO14 MMIO15 GPIO12 GPIO13 GPIO14 GPIO15 K101-M netX51 MICRO-NETX51-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 GPIO08 GPIO09 GPIO10 GPIO11 9 MICRO-NETX51-2231.000 MMIO08 MMIO09 MMIO10 MMIO11 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 11 MICRO-NETX51-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 K101-N 10 GND A5 B5 C5 D4 D6 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 K101-I VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 K101-L M1 N1 N2 P1 K2 K1 L1 M2 100nF C415 C413 E6 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N7 N14 P5 P6 P15 R9 R16 T17 U18 netX51 11 MICRO-NETX51-2231.000 2 0603 1 2 0603 1 +1V5 10 MICRO-NETX51-2231.000 GPIO04 GPIO05 GPIO06 GPIO07 K101-K 10uF C414 C412 MMIO04 MMIO05 MMIO06 MMIO07 GND 2 0805 1 GND 2 0805 1 9 U2 V2 V3 T6 V6 U6 T7 V7 R1 U1 T1 V1 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 12 GND +3V3 12 1 2 0603 1 2 0603 1 2 0603 100nF 1 2 0805 1 2 0805 1 2 0805 10uF 13 MICRO-NETX51-2231.000 V12 T11 U12 T12 14 14 Page of Page GPIO32 GPIO33 GPIO34 GPIO35 GND C420 10uF C418 10uF C416 K101-Q MMIO32 MMIO33 MMIO34 MMIO35 C421 100nF C419 100nF C417 13 4 4 J I H G F E D C B A Quick Start 141/334 © Hilscher, 2008-2013 Quick Start 142/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 51 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 C206 Ceramic Capacitor 100nF 25V 0603 C207 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 12.4kΩ 63mW 0603 R202 Resistor 10kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 143/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 100nF 25V 0603 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 100nF 25V 0603 C305 Ceramic Capacitor 100nF 25V 0603 C306 Ceramic Capacitor 100nF 25V 0603 C307 Ceramic Capacitor 100nF 25V 0603 C308 Ceramic Capacitor 3.3nF 63V 0805 C309 Ceramic Capacitor 22µF 6.3V 0805 C310 Ceramic Capacitor 22µF 6.3V 0805 C311 Ceramic Capacitor 22µF 6.3V 0805 K301 Optocoupler HCPL0601 K302 Optocoupler ACPL072L K303 Optocoupler ACPL072L K304 Schmitt Trigger NC7SZ14P5 K305 Driver 75ALS181D P301 LED red / green HSMF-C155 R301 Resistor 220Ω 63mW 0603 R302 Resistor 1kΩ 63mW 0603 R303 Resistor 10kΩ 63mW 0603 R304 Resistor 47kΩ 63mW 0603 R305 Resistor 680Ω 63mW 0603 R306 Resistor 680Ω 63mW 0603 R307 Resistor 47kΩ 63mW 0603 R308 Zener Diode RD6.2Z R310 Choke EMC Components part no. ZCYS51R5-M3PAT R311 Ferrite Würth Elektronik part no. 74279207 R312 Ferrite Würth Elektronik part no. 74279207 R313 Resistor 270Ω 63mW 0603 R314 Resistor 470Ω 63mW 0603 T301 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T302 Voltage Regulator NCP500SN50T1 X301 Connector Phoenix Contact MC1,5/5-G-3,81 part no. 1803303 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 144/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 1 22pF 2 GND 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 4 www.hilscher.com 5 GND 2 B1 D2 N6 T8 L6 L5 K6 K5 J5 RSTIN# K101-E MICRO-NETX51-2231.000 6 USB_DNEG MICRO-NETX51-2231.000 7 V8 U8 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX51-2231.000 USB_VDDC USB_DPOS K101-H MICRO-NETX51-2231.000 USB_VDDIO V13 U13 T13 V14 U7 R8 V9 U9 C1 1 8 2 1 RDY RUN 10k 8 USB_DNEG USB_DPOS 1 2 1.5k R111 9 10 8 RDY RUN 3 4 X102 2 1 560 0603 GND 2 0603 LEDSYG 1green 3yellow 390 390 0603 R1092 1 R1082 1 2 R1072 560 4 RUN 1 C108 13 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10 2 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 DD3 D+ D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R114 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R113 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R112 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R114 R113 open RDY/RUN LED 12 R112 GND +3V3 SEC. MEM 11 0603 100nF 1 +3V3 P101 R1062 RDY 1 0603 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU VCC ROM 1k C107 Host Interace boot configuration R105 +3V3 GND 2 1.5k +3V3 R110 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G MICRO-NETX51-2231.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX51-2231.000 GPIO24 GPIO25 GPIO26 GPIO27 K101-O MMIO24 MMIO25 MMIO26 MMIO27 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# CORE RSTOUT# MICRO-NETX51-2231.000 CompoNet +3V3 OSC_XTO E1 RDY E2 RUN CLKOUT D1 K101-A BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI POR# 7 netX51 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 GND POR# 6 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 22pF 2 C106 1 C105 0603 0603 0603 0603 0603 B 4 0603 3 0603 2 0603 J I H G F E D C B A 2.2.9 SPI_MISO A 1 Quick Start 145/334 CompoNet © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited DPM Interface Date Name Date Name 2 28.02.2012 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX51-2231.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 DPM_SIRQ DPM_DIRQ DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 netX51 3 K101-C Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 E14 D14 B11 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE MICRO-NETX51-2231.000 4 www.hilscher.com 5 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX51 5 Hilscher Gesellschaft für Systemautomatiom mbH 4 A16 A17 A18 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 8 J7 H8 BA0 BA1 A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE 0 A 4M VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 9 1 C202 2 C204 0603 100nF 1 2 0603 100nF 6 7 8 9 C203 10 GND 2 10 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 SDRAM/HOST_INTERFACE/ETHERNET K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 RAM 512k x 32 C201 A[0:18] D[0:31] 8MB SDRAM G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 CompoNet D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 6 11 A18 11 1 10k none M15 +1V5 N17 T18 +1V5 PHY0_RXN M17 L18 12 MICRO-NETX51-2231.000 K18 PHY_EXTRES L15 PHY_ATP 1 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN Mode 12.4k 13 GND 2 0603 1 +3V3 100nF 14 2 0603 1 +1V5 100nF 4 2 C207 14 Page of Page C206 netX50 compatibility mode netX51 native mode R2012 L16 +1V5 M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 P18 N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP 0603 10k A18 A18 Resistor Line R18 +3V3 PHY_VDDIOAT M16 +3V3 PHY_VDDIOAC K101-B 13 Chip Mode Selectrion 12 netX51 2 R202 +3V3 0603 A 1 J I H G F E D C B A Quick Start 146/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited GPIO00 GPIO01 GPIO02 GPIO03 GPIO28 GPIO29 GPIO30 GPIO31 Date Name Date Name T9 CN_MS_G U10CN_MS_R T10CN_NS_G U11CN_NS_R H1 CN_RX J1 CN_TX J2 L2 CN_EN 2 28.02.2012 Matthias Melzer MICRO-NETX51-2231.000 MMIO28 MMIO29 MMIO30 MMIO31 K101-P MICRO-NETX51-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX51 GND +3V3 3 3 & B A NC7SZ08P5 5 VCC 4 Y 3 GND K301 1 GND 2 1k 1 470 0603 R3212 270 0603 R3202 1 470 0603 7 6 5 8 1 green 1210 green 1210 3 red 1 LEDSRG 4 2 P302 3 red LEDSRG 4 270 B A GND VCC P301 2 AD51/025 D R3192 1 0603 DI R R3182 1 R301 4 1 RO 2 RE 3 DE K302 5 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH 2 1 RX 5V to 3V3 4 0603 +3V3_CN +3V3_CN 2 7 COMPONET 6 C302 10 0603 R3062 1 2 RD6.2SB1 R311 2 GND 2 1 1 8 1 2 0805 Z=1000 Ohm @100MHz R317 9 R314 RD6.2SB1 1 2 0805 Z=1000 Ohm @100MHz R316 R312 RD6.2SB1 +3V3 2 1 1 RD6.2SB1 R313 10 0603 R3082 1 10 0603 R3072 1 9 10 0603 8 R3052 1 0603 220pF 1 2 200 Ohm LEFS300RA500M-0603 1 R304 1 7 2 200 Ohm LEFS300RA500M-0603 GND R302 C301 CompoNet 2 0603 100nF 1 ISO+5V_CP 6 2 C304 GND 2 10 C303 0603 220pF 1 2 150 10 R309 0805 22uF 1 1 0603 A 2 1 2 0603 1 5 5 1 2 1 4 5V DC 0 4 5 11 OUT PSD-3R305S 0 IN + 3,3V DC + T302 4 2 2 3 3 1 03-7104 R315 15 8 T301 7 7 6 6 8 2 3 BDH 12 C305 1 4 BDL ACM3225-102-2P 0805 22uF 1 2 12 R310 ISO-AREA 11 3 1 EN VIN 2 5 1 2 14 C306 ISO+5V_CP 14 Page of Page ISOGND_CP 0805 10uF NCP500SN50T1 13 GND VOUT T303 BS+ BDH BDL BSXW7D-PB4-R 1 2 3 4 X301 13 4 3 J I H G F E D C B A Quick Start 147/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name C409 1 2 2 2 28.02.2012 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 1 2 C407 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 2 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 6 7 POWER_SUPPLY +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 CompoNet R410 1.8k R409 GND GND G C405 3 FDC5612 6 K401 D2 D3 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 1 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 GND1 Matthias Melzer 2 2 COMP 9 C402 1210 10uF 1 C410 0805 22uF 1 +3V3 2.2k R407 0603 2.2nF 1 GND 2 1 C401 1210 10uF 1 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 10uF 100nF MMIO12 MMIO13 MMIO14 MMIO15 GPIO12 GPIO13 GPIO14 GPIO15 K101-M netX51 MICRO-NETX51-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 GPIO08 GPIO09 GPIO10 GPIO11 9 MICRO-NETX51-2231.000 MMIO08 MMIO09 MMIO10 MMIO11 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 11 MICRO-NETX51-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 K101-N 10 GND A5 B5 C5 D4 D6 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 K101-I VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 K101-L M1 N1 N2 P1 K2 K1 L1 M2 100nF C415 C413 E6 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N7 N14 P5 P6 P15 R9 R16 T17 U18 netX51 11 MICRO-NETX51-2231.000 2 0603 1 2 0603 1 +1V5 10 MICRO-NETX51-2231.000 GPIO04 GPIO05 GPIO06 GPIO07 K101-K 10uF C414 C412 MMIO04 MMIO05 MMIO06 MMIO07 GND 2 0805 1 GND 2 0805 1 9 U2 V2 V3 T6 V6 U6 T7 V7 R1 U1 T1 V1 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 12 GND +3V3 12 1 2 0603 1 2 0603 1 2 0603 100nF 1 2 0805 1 2 0805 1 2 0805 10uF 13 MICRO-NETX51-2231.000 V12 T11 U12 T12 14 14 Page of Page GPIO32 GPIO33 GPIO34 GPIO35 GND C420 10uF C418 10uF C416 K101-Q MMIO32 MMIO33 MMIO34 MMIO35 C421 100nF C419 100nF C417 13 4 4 J I H G F E D C B A Quick Start 148/334 © Hilscher, 2008-2013 Quick Start 149/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 51 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 C206 Ceramic Capacitor 100nF 25V 0603 C207 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 12.4kΩ 63mW 0603 R202 Resistor 10kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 150/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 220pF 50V 0603 C303 Ceramic Capacitor 220pF 50V 0603 C304 Ceramic Capacitor 22µF 6.3V 0805 C305 Ceramic Capacitor 22µF 6.3V 0805 C306 Ceramic Capacitor 10µF 10V 0805 K301 Logic AND FAIRCHILD part no. NC7SZ08P5 K302 Driver Omron part no. AD51/025 P301 LED red / green HSMF-C155 P302 LED red / green HSMF-C155 R301 Resistor 1kΩ 63mW 0603 R302 Ferrite TDK part no. MMZ1608B301C R304 Ferrite TDK part no. MMZ1608B301C R305 Resistor 10Ω 63mW 0603 R306 Resistor 10Ω 63mW 0603 R307 Resistor 10Ω 63mW 0603 R308 Resistor 10Ω 63mW 0603 R309 Resistor 150Ω 63mW 0603 R310 Filter TDK part no. ACM3225-102-2P R311 Zener Diode NEC part no. RD6.2SB1 R312 Zener Diode NEC part no. RD6.2SB1 R313 Zener Diode NEC part no. RD6.2SB1 R314 Zener Diode NEC part no. RD6.2SB1 R315 Resistor 15Ω 63mW 0603 R316 Ferrite Würth Elektronik part no. 74279207 R317 Ferrite Würth Elektronik part no. 74279207 R318 Resistor 270Ω 63mW 0603 R319 Resistor 470Ω 63mW 0603 R320 Resistor 270Ω 63mW 0603 R321 Resistor 470Ω 63mW 0603 T301 Transformer OMRON part no. 03-7104 T302 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T303 Voltage Regulator NCP500SN50T1 X301 Connector OMRON part no. XW7D-PB4-R netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 151/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 1 22pF 2 GND 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 4 www.hilscher.com 5 GND 2 B1 D2 N6 T8 L6 L5 K6 K5 J5 RSTIN# K101-E MICRO-NETX51-2231.000 6 USB_DNEG MICRO-NETX51-2231.000 7 V8 U8 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX51-2231.000 USB_VDDC USB_DPOS K101-H MICRO-NETX51-2231.000 USB_VDDIO V13 U13 T13 V14 U7 R8 V9 U9 C1 1 8 2 1 RDY RUN 10k 8 USB_DNEG USB_DPOS 1 2 1.5k R111 9 8 RDY RUN 1 3 4 2 X102 2 560 0603 GND 2 0603 LEDSYG 1green 3yellow 390 390 0603 R1092 1 R1082 1 4 R1072 RUN 1 560 C108 13 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10k 10 2 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 DD3 D+ D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 12 2 C102 0603 100nF 1 +3V3 USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 13 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open SPI FLASH DPM, 8 bit data bus, 16 address lines pull up open pull up R114 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R113 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R112 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R114 R113 open RDY/RUN LED 12 R112 GND +3V3 SEC. MEM 11 0603 100nF 1 +3V3 P101 R1062 RDY 1 0603 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU VCC ROM 1k C107 10 Host Interace boot configuration R105 +3V3 GND 2 1.5k +3V3 R110 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G MICRO-NETX51-2231.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX51-2231.000 GPIO24 GPIO25 GPIO26 GPIO27 K101-O MMIO24 MMIO25 MMIO26 MMIO27 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# CORE RSTOUT# MICRO-NETX51-2231.000 DeviceNet +3V3 OSC_XTO E1 RDY E2 RUN CLKOUT D1 K101-A BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI POR# 7 netX51 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 GND POR# 6 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 22pF 2 C106 1 C105 0603 0603 0603 0603 0603 B 4 0603 3 0603 2 0603 J I H G F E D C B A 2.2.10 SPI_MISO A 1 Quick Start 152/334 DeviceNet © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited DPM Interface Date Name Date Name 2 28.02.2012 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX51-2231.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 DPM_SIRQ DPM_DIRQ DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 netX51 3 K101-C Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 E14 D14 B11 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE MICRO-NETX51-2231.000 4 www.hilscher.com 5 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX51 5 Hilscher Gesellschaft für Systemautomatiom mbH 4 A16 A17 A18 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 8 J7 H8 BA0 BA1 A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE 0 A 4M VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 9 1 C202 2 C204 0603 100nF 1 2 0603 100nF 6 7 8 9 C203 10 GND 2 10 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 SDRAM/HOST_INTERFACE/ETHERNET K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 RAM 512k x 32 C201 A[0:18] D[0:31] 8MB SDRAM G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 DeviceNet D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 6 11 A18 11 1 10k none M15 +1V5 N17 T18 +1V5 PHY0_RXN M17 L18 12 MICRO-NETX51-2231.000 K18 PHY_EXTRES L15 PHY_ATP 1 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN Mode 12.4k 13 GND 2 0603 1 +3V3 100nF 14 2 0603 1 +1V5 100nF 4 2 C207 14 Page of Page C206 netX50 compatibility mode netX51 native mode R2012 L16 +1V5 M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 P18 N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP 0603 10k A18 A18 Resistor Line R18 +3V3 PHY_VDDIOAT M16 +3V3 PHY_VDDIOAC K101-B 13 Chip Mode Selectrion 12 netX51 2 R202 +3V3 0603 A 1 J I H G F E D C B A Quick Start 153/334 © Hilscher, 2008-2013 J I H G F E D C B 1 Date Name Date Name MICRO-NETX51-2231.000 T9 PIO0 U10PIO1 T10 U11 GND +3V3 H1 XM0_RX J1 XM0_TX J2 L2 XM0_IO0 2 28.02.2012 100nF 3 470 0603 R3162 1 270 0603 R3152 1 1 2 0805 Z=1000 Ohm @100MHz R314 1 2 1 4.02k C311 GND 2 R306 +3V3 2 GND 1 green 1210 3 4 6 7 5 8 3 2 1 2 +3V3 EMI COL VO VE GND VCC CAT ANO 5 K302 HCPL0601 & K301 5V DC 0 OUT PSD-3R305S 0 IN + 3,3V DC + T301 TLP281 K303 HCPL060L & 4 www.hilscher.com 5 6 7 4 5 2 1 3 2 6 7 5 8 1 C301 2 2 C312 0805 22uF 1 1 470 0603 6 7 DEVICENET 4.02k 3 1 1 EN 8 2 2 5 8 9 C313 ISOGND_DN 2 ISOGND_DN 4.3k 0805 2 3 7 CANH 6 CANL GND VCC R3092 1 PCA82C251T 0805 22uF 1 9 K304 ISO+5V_DN NCP500SN50T1 VOUT GND C308 1 TXD 4 RXD 5 V_REF 8 RS 0603 100nF 1 ISOGND_DN 470 T302 VIN 2 R302 ISO+5V_DN R307 R3042 1 ISOGND_DN ISO+5V_DN 2 0603 100nF DeviceNet CAT ANO CAT ANO VO VE GND VCC ISOLATED-AREA Hilscher Gesellschaft für Systemautomatiom mbH 3 red LEDSRG DIODE-LED-LEDSRG-1210 4 2 C302 0603 100nF 1 2 270 R301 0805 22uF 1 1 +3V3 P301 2 A 3 GND K305 1.3k 5 VCC 4 Y 2 R303 C304 74LVC1G17GW R313 GND 2 0603 1 +3V3 1 +3V3 2 0805 Z=1000 Ohm @100MHz Matthias Melzer GPIO28 GPIO29 GPIO30 GPIO31 K101-P MMIO28 MMIO29 MMIO30 MMIO31 Checked Edited GPIO00 GPIO01 GPIO02 GPIO03 MICRO-NETX51-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX51 4 0603 A 0603 0603 0603 3 0603 10 2 C303 ISOGND_DN 0603 100nF 1 ISO+5V_DN 10 2 1 2 1M PESD1CAN R305 11 11 R311 ISOGND_DN 1 2 1 1 2 2 12 C309 1 2 1M 13 13 R312 ISOGND_DN RVA30VA800-1812 12 R310 1808 15nF U 1812 3 2010 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 2010 1 PE 2 C310 14 Page of Page 1808 15nF 1 DN-H ISOGND_DN DN-L 14 4 3 J I H G F E D X301 C 1 2 3 4 5 B A Quick Start 154/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name C409 1 2 2 2 28.02.2012 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 1 2 C407 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 2 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 6 7 POWER_SUPPLY +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 DeviceNet R410 1.8k R409 GND GND G C405 3 FDC5612 6 K401 D2 D3 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 1 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 GND1 Matthias Melzer 2 2 COMP 9 C402 1210 10uF 1 C410 0805 22uF 1 +3V3 2.2k R407 0603 2.2nF 1 GND 2 1 C401 1210 10uF 1 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 10uF 100nF MMIO12 MMIO13 MMIO14 MMIO15 GPIO12 GPIO13 GPIO14 GPIO15 K101-M netX51 MICRO-NETX51-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 GPIO08 GPIO09 GPIO10 GPIO11 9 MICRO-NETX51-2231.000 MMIO08 MMIO09 MMIO10 MMIO11 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 11 MICRO-NETX51-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 K101-N 10 GND A5 B5 C5 D4 D6 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 K101-I VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 K101-L M1 N1 N2 P1 K2 K1 L1 M2 100nF C415 C413 E6 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N7 N14 P5 P6 P15 R9 R16 T17 U18 netX51 11 MICRO-NETX51-2231.000 2 0603 1 2 0603 1 +1V5 10 MICRO-NETX51-2231.000 GPIO04 GPIO05 GPIO06 GPIO07 K101-K 10uF C414 C412 MMIO04 MMIO05 MMIO06 MMIO07 GND 2 0805 1 GND 2 0805 1 9 U2 V2 V3 T6 V6 U6 T7 V7 R1 U1 T1 V1 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 12 GND +3V3 12 1 2 0603 1 2 0603 1 2 0603 100nF 1 2 0805 1 2 0805 1 2 0805 10uF 13 MICRO-NETX51-2231.000 GPIO32 GPIO33 GPIO34 GPIO35 14 14 Page of Page V12 T11 U12 T12 GND C420 10uF C418 10uF C416 K101-Q MMIO32 MMIO33 MMIO34 MMIO35 C421 100nF C419 100nF C417 13 4 4 J I H G F E D C B A Quick Start 155/334 © Hilscher, 2008-2013 Quick Start 156/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 51 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 C206 Ceramic Capacitor 100nF 25V 0603 C207 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 12.4kΩ 63mW 0603 R202 Resistor 10kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 157/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 100nF 25V 0603 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 100nF 25V 0603 C308 Ceramic Capacitor 100nF 25V 0603 C309 Ceramic Capacitor 15nF 1000V 1808 C310 Ceramic Capacitor 15nF 1000V 1808 C311 Ceramic Capacitor 22µF 6.3V 0805 C312 Ceramic Capacitor 22µF 6.3V 0805 C313 Ceramic Capacitor 22µF 6.3V 0805 K301 Optocoupler HCPL0601 K302 Optocoupler HCPL060L K303 Optocoupler TLP281 K304 CAN transceiver PCA82C251T K305 Schmitt-trigger 74LVC1G17GW P301 LED red / green HSMF-C155 R301 Resistor 270Ω 63mW 0603 R302 Resistor 470Ω 63mW 0603 R303 Resistor 1.3kΩ 63mW 0603 R304 Resistor 470Ω 63mW 0603 R305 EDS protection diode PESD1CAN R306 Resistor 4.02kΩ 63mW 0603 R307 Resistor 4.02kΩ 63mW 0603 R309 Resistor 4.3kΩ 125mW 0805 R310 Varistor B72580-V300-K62 R311 Resistor 1MΩ 500mW 2010 R312 Resistor 1MΩ 500mW 2010 R313 Ferrite Würth Elektronik part no. 74279207 R314 Ferrite Würth Elektronik part no. 74279207 R315 Resistor 270Ω 63mW 0603 R316 Resistor 470Ω 63mW 0603 T301 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T302 Voltage Regulator NCP500SN50T1 X301 Connector Phoenix Contact MC1,5/5-G-3,81 part no. 1803303 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 158/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 24.01.2013 Matthias Melzer RESETIN# 1 22pF 2 GND 1 4 3 3 MR GND VCC RESET 1 GND 2 GND C103 0603 100nF 2 POR# 1 4 2 3 5 4 www.hilscher.com 5 GND 2 B1 D2 N6 T8 L6 L5 K6 K5 J5 RSTIN# K101-E MICRO-NETX51-2231.000 6 USB_DNEG MICRO-NETX51-2231.000 7 V8 U8 L13 I2C_SDA L14 I2C_SCL K101-D MICRO-NETX51-2231.000 USB_VDDC USB_DPOS K101-H MICRO-NETX51-2231.000 USB_VDDIO V13 U13 T13 V14 U7 R8 V9 U9 C1 1 8 2 1 RDY RUN 10k 8 USB_DNEG USB_DPOS 1 2 1.5k R111 9 10 8 RDY RUN 3 4 X102 2 1 560 0603 GND 2 0603 LEDSYG 1green 3yellow 390 390 0603 R1092 1 R1082 1 2 R1072 560 4 RUN 1 C108 13 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10 2 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 DD3 D+ D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R114 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R113 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R112 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R114 R113 open RDY/RUN LED 12 R112 GND +3V3 SEC. MEM 11 0603 100nF 1 +3V3 P101 R1062 RDY 1 0603 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU VCC ROM 1k C107 Host Interace boot configuration R105 +3V3 GND 2 1.5k +3V3 R110 U15 SPI_MISO SPI_MISO V16 SPI_MOSI SPI_MOSI V15 SPI_CLK SPI_CLK SPI_CS0# U14 SPI_CS0# SPI_CS1# T14 K101-G MICRO-NETX51-2231.000 MMIO36 MMIO37 MMIO38 MMIO39 K101-R MICRO-NETX51-2231.000 GPIO24 GPIO25 GPIO26 GPIO27 K101-O MMIO24 MMIO25 MMIO26 MMIO27 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# CORE RSTOUT# MICRO-NETX51-2231.000 PROFIBUS +3V3 OSC_XTO E1 RDY E2 RUN CLKOUT D1 K101-A BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI POR# 7 netX51 R10 OSC_VDDC P9 OSC_VSS V11 G5 H6 H5 J6 A12 V10 C104 GND POR# 6 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH MAX811SEUS-T >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 22pF 2 C106 1 C105 0603 0603 0603 0603 0603 B 4 0603 3 0603 2 0603 J I H G F E D C B A 2.2.11 SPI_MISO A 1 Quick Start 159/334 PROFIBUS © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited DPM Interface Date Name Date Name 2 28.02.2012 3 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 PIO47 PIO52 PIO46 PIO44 PIO45 PIO51 PIO43 PIO36 PIO35 PIO40 WDGACT PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 MICRO-NETX51-2231.000 DPM_BE0#/DPM_A00 DPM_BE2#/DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 DPM_SIRQ DPM_DIRQ DPM_RD DPM_RDY DPM_BE3#/DPM_WRH# DPM_WRL# DPM_CS# DPM_BE1#/DPM_BHE# DPM_D16 DPM_ALE/DPM_D17 DPM_SELA19/DPM_D18 DPM_D19 DPM_A16/DPM_D20 DPM_A17/DPM_D21 DPM_A18/DPM_D22 DPM_A19/DPM_D23 DPM_SELA12/DPM_D24 DPM_SELA13/DPM_D25 DPM_SELA14/DPM_D26 DPM_SELA15/DPM_D27 DPM_SELA16/DPM_D28 DPM_SELA17/DPM_D29 DPM_SELA18/DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 netX51 3 K101-C Matthias Melzer C7 B8 C8 C10 A10 B9 C11 D11 C13 B12 C14 A17 B15 A16 B14 A15 E14 D14 B11 C17 B17 B18 C15 C16 B16 A18 J18 H17 H18 G17 B13 A14 A13 C12 B10 A11 A9 C9 B6 A7 A2 J17 A1 B2 C2 C6 A6 A3 A8 B7 J16 H15 H16 G16 G18 G15 D18 C18 2 MEMDR_CS# L4 MEMDR_RAS# M3 MEMDR_CAS# M5 MEMDR_WE# N3 M4 MEMDR_CLK L3 MEMDR_CKE MICRO-NETX51-2231.000 4 www.hilscher.com 5 H14 G14 J12 J13 K12 G2 G4 F1 F4 F2 G1 H4 G3 J3 K3 H2 J4 H3 K4 E12 D12 D13 E13 P12 R13 K14 K13 J14 J15 N9 N10 R11 P11 N11 R12 R3 P3 R2 T2 R5 R6 P7 R7 N8 P8 E4 C3 E11 F11 D10 E10 F10 F9 D9 E9 E8 D7 D8 F8 B3 D3 P2 MEM_DQM0 N4 MEM_DQM1 F3 MEM_DQM2 E3 MEM_DQM3 MEMSR_CS0# MEMSR_CS1# MEMSR_CS2# MEMSR_OE# MEMSR_WE# MEM_A00 MEM_A01 MEM_A02 MEM_A03 MEM_A04 MEM_A05 MEM_A06 MEM_A07 MEM_A08 MEM_A09 MEM_A10 MEM_A11 MEM_A12 MEM_A13 MEM_A14 MEM_A15 MEM_A16 MEM_A17 MEM_A18 MEM_A19 MEM_A20 MEM_A21 MEM_A22 MEM_A23 MEM_D00 MEM_D01 MEM_D02 MEM_D03 MEM_D04 MEM_D05 MEM_D06 MEM_D07 MEM_D08 MEM_D09 MEM_D10 MEM_D11 MEM_D12 MEM_D13 MEM_D14 MEM_D15 MEM_D16 MEM_D17 MEM_D18 MEM_D19 MEM_D20 MEM_D21 MEM_D22 MEM_D23 MEM_D24 MEM_D25 MEM_D26 MEM_D27 MEM_D28 MEM_D29 MEM_D30 MEM_D31 K101-F netX51 5 Hilscher Gesellschaft für Systemautomatiom mbH 4 A16 A17 A18 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 8 J7 H8 BA0 BA1 A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 SDRAM64M32-3V3C75B DQM0 DQM1 DQM2 DQM3 CS# RAS# CAS# WE# CLK CKE 0 A 4M VDD1 VDD2 VDD3 VDD4 VSS1 VSS2 VSS3 VSS4 R8 N7 R9 N8 P9 M8 M7 L8 L2 M3 M2 P1 N2 R1 N3 R2 E8 D7 D8 B9 C8 A9 C7 A8 A2 C3 A1 C2 B1 D2 D3 E2 B2 B7 C9 D9 E1 L1 M9 N9 P2 P7 B3 B8 C1 D1 E9 L9 M1 N1 P3 P8 A7 F9 L7 R7 A3 F1 L3 R3 9 1 C202 2 C204 0603 100nF 1 2 0603 100nF 6 7 8 9 C203 10 GND 2 10 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 C205 0603 100nF 1 GND +3V3 2 0603 100nF 1 +3V3 SDRAM/HOST_INTERFACE/ETHERNET K9 K1 F8 F2 J8 J9 K7 K8 J1 J2 A16 A17 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 RAM 512k x 32 C201 A[0:18] D[0:31] 8MB SDRAM G8 G9 F7 F3 G1 G2 G3 H1 H2 J3 G7 H9 H3 7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 PROFIBUS D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 6 11 A18 11 1 10k none M15 +1V5 N17 T18 +1V5 PHY0_RXN M17 L18 12 MICRO-NETX51-2231.000 K18 PHY_EXTRES L15 PHY_ATP 1 K17 GND PHY1_VSSAR K15 GND PHY1_VSSAT1 K16 GND PHY1_VSSAT2 PHY1_RXN Mode 12.4k 13 GND 2 0603 1 +3V3 100nF 14 2 0603 1 +1V5 100nF 4 2 C207 14 Page of Page C206 netX50 compatibility mode netX51 native mode R2012 L16 +1V5 M18 PHY1_TXN L17 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR N16 GND PHY0_VSSAT1 N15 GND PHY0_VSSAT2 P18 N18 PHY0_TXN P17 PHY0_RXP PHY0_TXP PHY0_VDDCART R17 GND PHY_VSSAT M14 GND PHY_VSSACP PHY_VDDCAP 0603 10k A18 A18 Resistor Line R18 +3V3 PHY_VDDIOAT M16 +3V3 PHY_VDDIOAC K101-B 13 Chip Mode Selectrion 12 netX51 2 R202 +3V3 0603 A 1 J I H G F E D C B A Quick Start 160/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited GPIO28 GPIO29 GPIO30 GPIO31 Date Name Date Name T9 PIO0 U10PIO1 T10 U11 GND 2 28.02.2012 Matthias Melzer MICRO-NETX51-2231.000 MMIO28 MMIO29 MMIO30 MMIO31 K101-P H1 J1 J2 L2 +3V3 GPIO00 GPIO01 GPIO02 GPIO03 MICRO-NETX51-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX51 2 3 1 470 0603 R3062 270 0603 R3052 1 0805 Z=1000 Ohm @100MHz 1 R308 2 0805 Z=1000 Ohm @100MHz R307 1 3 C301 6 3 XM0_RX 4 2 1 green 1210 P301 2 1 2 +3V3 RE R D DE T301 IL3585E 4 www.hilscher.com 5 0 OUT 5V DC 16 4 5 A B ISODE 12 13 10 7 2 6 PROFIBUS 7 C302 C305 ISOGND_DP 2 0603 100nF 1 ISO+5V_DP 0805 22uF 1 PB_RXTX_P PB_RXTX_N PROFIBUS PSD-3R305S 0 VDD2 9 GND2-1 15 GND2-2 + 3,3V DC + IN 6 ISOLATED-AREA K301 Hilscher Gesellschaft für Systemautomatiom mbH 4 5 C304 VDD1 8 GND1-2 2 GND1-1 1 XM_IO0 5 XM0_TX 0805 22uF 1 GND 2 0603 100nF 1 +3V3 3 red LEDSRG DIODE-LED-LEDSRG-1210 4 8 8 1 3 EN 2 GND 5 9 NCP500SN50T1 VOUT T302 VIN 9 1 330 0603 1 2 2 2 10 10 C306 0805 22uF 1 100k R303 100k R302 R3012 1 0603 0603 2 ISOGND_DP ISO+5V_DP 11 11 1 2 2010 A 1 1M R304 12 12 1 2 C303 1808 2.2nF PE 13 13 PB_RXTX_P PB_CNTR ISOGND_DP ISO+5V_DP 14 Page of Page 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 PB_RXTX_N 8 9 9 10 SHIELD1 11 SHIELD2 XDCP9BW-6MM X301 14 4 3 J I H G F E D C B A Quick Start 161/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name C409 1 2 2 2 28.02.2012 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 1 2 C407 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 2 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 6 7 POWER_SUPPLY PROFIBUS R410 1.8k R409 GND GND G C405 3 FDC5612 6 K401 D2 D3 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 1 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 GND1 Matthias Melzer 2 2 COMP 9 C402 1210 10uF 1 C410 0805 22uF 1 +3V3 2.2k R407 0603 2.2nF 1 GND 2 1 C401 1210 10uF 1 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 10uF 100nF MMIO12 MMIO13 MMIO14 MMIO15 GPIO12 GPIO13 GPIO14 GPIO15 K101-M netX51 MICRO-NETX51-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 GPIO08 GPIO09 GPIO10 GPIO11 9 MICRO-NETX51-2231.000 MMIO08 MMIO09 MMIO10 MMIO11 GPIO16 GPIO17 GPIO18 GPIO19 GPIO20 GPIO21 GPIO22 GPIO23 11 MICRO-NETX51-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 K101-N 10 GND A5 B5 C5 D4 D6 D15 D16 D17 E5 E7 F5 F7 H8 H9 H10 H11 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 VDDIO_17 VDDIO_18 VDDIO_19 VDDIO_20 VDDIO_21 VDDIO_22 VDDIO_23 VDDIO_24 K101-I VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 K101-L M1 N1 N2 P1 K2 K1 L1 M2 100nF C415 C413 E6 F6 F14 F15 F16 F17 F18 G7 G8 G10 G11 G12 G13 H7 J7 K7 M6 M8 M10 M11 M12 M13 N5 N7 N14 P5 P6 P15 R9 R16 T17 U18 netX51 11 MICRO-NETX51-2231.000 2 0603 1 2 0603 1 +1V5 10 MICRO-NETX51-2231.000 GPIO04 GPIO05 GPIO06 GPIO07 K101-K 10uF C414 C412 MMIO04 MMIO05 MMIO06 MMIO07 GND 2 0805 1 GND 2 0805 1 9 U2 V2 V3 T6 V6 U6 T7 V7 R1 U1 T1 V1 H12 H13 J8 J9 J10 J11 K8 K9 K10 K11 L8 L9 L10 L11 N13 P4 P10 P13 P14 R15 T3 T5 T16 U3 U5 U17 V5 V17 V18 A4 B4 C4 D5 E15 E16 E17 E18 F12 F13 G6 G9 L7 L12 M7 M9 N12 R4 R14 T4 T15 U4 U16 V4 12 GND +3V3 12 1 2 0603 1 2 0603 1 2 0603 100nF 1 2 0805 1 2 0805 1 2 0805 10uF 13 MICRO-NETX51-2231.000 V12 T11 U12 T12 14 14 Page of Page GPIO32 GPIO33 GPIO34 GPIO35 GND C420 10uF C418 10uF C416 K101-Q MMIO32 MMIO33 MMIO34 MMIO35 C421 100nF C419 100nF C417 13 4 4 J I H G F E D C B A Quick Start 162/334 © Hilscher, 2008-2013 Quick Start 163/334 Bill of Materials Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM10-25.000MHz-E30-T K101 Microcontroller netX 51 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R104 Resistor 1.5kΩ 63mW 0603 R105 Resistor 10kΩ 63mW 0603 R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S32200E-7BL C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 C206 Ceramic Capacitor 100nF 25V 0603 C207 Ceramic Capacitor 100nF 25V 0603 R201 Resistor 12.4kΩ 63mW 0603 R202 Resistor 10kΩ 63mW 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 164/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 100nF 25V 0603 C303 Ceramic Capacitor 2.2nF 1000V 1808 C304 Ceramic Capacitor 22µF 6.3V 0805 C305 Ceramic Capacitor 22µF 6.3V 0805 C306 Ceramic Capacitor 22µF 6.3V 0805 K301 Driver IL3585E P301 LED red / green HSMF-C155 R301 Resistor 330Ω 63mW 0603 R302 Resistor 100kΩ 63mW 0603 R303 Resistor 100kΩ 63mW 0603 R304 Resistor 1MΩ 500mW 2010 R305 Resistor 270Ω 63mW 0603 R306 Resistor 470Ω 63mW 0603 R307 Ferrite Würth Elektronik part no. 74279207 R308 Ferrite Würth Elektronik part no. 74279207 T301 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T302 Voltage Regulator NCP500SN50T1 X301 D-Sub9 Female SUYIN USA part no. 070212FR009G200ZU netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 165/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name RESETIN# 3 MR 24.01.2013 Matthias Melzer 2 1 22pF 2 GND 1 4 3 GND VCC RESET MAX811SEUS-T >= 2.93V Q101 1 GND 2 +3V3 4 www.hilscher.com 5 OSC_XTO BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI C1 T8 T7 J3 M3 K3 H1 H3 D1 1 2 RDY RUN 1.5k USB_DNEG USB_DPOS U6 V6 V15 T14 USB_DNEG USB_DPOS 6 CORE 7 Real Time Ethernet MICRO-NETX52-2231.000 USB_VDDC USB_VDDIO K101-G MICRO-NETX52-2231.000 QSPI_SIO3 QSPI_SIO2 +3V3 1 2 8 10k 8 1 2 VCC ROM 1k C107 8 RDY RUN 1 3 4 X102 2 0603 390 390 0603 R1092 1 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 GND 2 11 GND +3V3 12 RDY/RUN LED SEC. MEM C108 0603 100nF 1 +3V3 10 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU 9 GND 2 5 GND A B 6 4 2 0603 9 SN65220DBVT R103 22 22 0603 R1022 DUSB_DNEG 1 R1012 D+ USB_DPOS 1 2 10 2 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 DD+ 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R115 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R114 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R113 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R115 R114 open 13 R113 Host Interace boot configuration 1.5k R111 R112 +3V3 R110 T15 SPI_MISO SPI0_MISO/QSPI_SIO1 U16 SPI_MOSI SPI0_MOSI/QSPI_SIO0 V16 SPI_CLK SPI0_CLK/QSPI_CLK U15 SPI_CS0# SPI0_CS0#/QSPI_CS# K101-F MICRO-NETX52-2231.000 H16 I2C_SDA H18 I2C_SCL K101-D MICRO-NETX52-2231.000 JT_TDI JT_TDO JT_TMS JT_TCLK JT_TRSTn K101-E MICRO-NETX52-2231.000 POR# 7 F1 RDY F2 RUN RSTOUT K101-A netX52 6 V7 OSC_VDDC U7 OSC_VSS V8 E3 F3 G3 G2 B10 U8 C104 GND POR# 0603 1nF 1 +1V5 +1V5 5 Hilscher Gesellschaft für Systemautomatiom mbH GND 2 GND C103 2 3 0603 100nF 2 POR# 1 4 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 22pF 2 C106 1 C105 0603 0603 0603 4 0603 0603 3 0603 B 2 0603 J I H G F E D C B A 2.3.1 0603 2.3 SPI_MISO A 1 Quick Start 166/334 netX 52 Ethernet/Real Time Ethernet © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited SD_D08 SD_D09 SD_D10 SD_D11 MII2_TXCLK MII2_TXD0 MII2_TXD1 MII2_TXD2 MII2_TXD3 MII2_TXEN SD_D12 SD_D13 MII2_RXCLK MII2_RXER SD_D14 SD_D15 SD_DQM1 MII2_RXDV SD_CS# SD_WE# SD_CKE MII2_RXD0 SD_CLK SD_D08 SD_D09 SD_D10 SD_D11 SD_DQM1 SD_WE# SD_CKE SD_CLK SD_D08 SD_D09 SD_D10 SD_D11 SD_D20 SD_D21 SD_D22 SD_D23 SD_D24 SD_D25 SD_D12 SD_D13 SD_D28 SD_D29 SD_D14 SD_D15 SD_DQM1 SD_DQM3 SD_CS# SD_DQM2 SD_WE# SD_CKE SD_CLK Date Name Date 2 24.01.2013 Matthias Melzer SD_CS# SD_D14 SD_D15 3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 MII2_COL MII2_CRS MII2_TXER MII2_DIO/MMIO43 MII2_MDC/MMIO44 MII2_RXD1 MII2_RXD2 MII2_RXD3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SD_D16 SD_D17 SD_D18 SD_D19 SD_D26 SD_D27 SD_D30 SD_D31 6 MII1_RXDV MII_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MII1_TXER MII1_RXDV MII1_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 7 4 www.hilscher.com 5 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 8/16 Bit DPM DPM_BE1# DPM_BE3# DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_D16 DPM_D17 DPM_D18 DPM_D19 DPM_D20 DPM_D21 DPM_D22 DPM_D23 DPM_D24 DPM_D25 DPM_D26 DPM_D27 DPM_D28 DPM_D29 DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_BE0# DPM_BE2# DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 32 Bit DPM 8 6 7 8 HOST_INTERFACE/MMIO Real Time Ethernet DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# MII1_TXER SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 MII1_COL MII1_CRS 8/16 Bit DPM + MII DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 MII1_COL MII1_CRS SPI DPM + MII Hilscher Gesellschaft für Systemautomatiom mbH SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# Name MII + 16 Bit SDRAM SD_D12 SD_D13 5 Signals at the different Host Interface Modes 4 SPI DPM + 16 Bit SDRAM 3 32 Bit SDRAM 2 9 A16 B16 A15 B15 B14 C15 D16 C8 G17 F18 E18 E17 C12 C11 A11 C10 A9 A8 A6 B7 A2 A4 D3 H17 A1 C2 D2 B3 B4 B2 A5 B5 G18 G16 F17 D18 C18 B18 C17 B17 A3 B6 C6 C7 B8 A7 B9 C9 C13 A10 B12 A14 B13 A13 A12 B11 A17 A18 9 PIO43 PIO44 PIO51 PIO52 PIO45 PIO46 PIO47 PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 PIO36 PIO35 PIO40 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 10 MICRO-NETX52-2231.000 HIF_BHE1 HIF_BHE3 HIF_CS# HIF_RD# HIF_WR# HIF_RDY HIF_DIRQ HIF_SDCLK HIF_D16 HIF_D17 HIF_D18 HIF_D19 HIF_D20 HIF_D21 HIF_D22 HIF_D23 HIF_D24 HIF_D25 HIF_D26 HIF_D27 HIF_D28 HIF_D29 HIF_D30 HIF_D31 HIF_D00 HIF_D01 HIF_D02 HIF_D03 HIF_D04 HIF_D05 HIF_D06 HIF_D07 HIF_D08 HIF_D09 HIF_D10 HIF_D11 HIF_D12 HIF_D13 HIF_D14 HIF_D15 HIF_A00 HIF_A01 HIF_A02 HIF_A03 HIF_A04 HIF_A05 HIF_A06 HIF_A07 HIF_A08 HIF_A09 HIF_A10 HIF_A11 HIF_A12 HIF_A13 HIF_A14 HIF_A15 HIF_A16 HIF_A17 K101-C netX52 10 11 11 N.C._1 N.C._2 N.C._3 N.C._4 N.C._5 N.C._6 N.C._7 N.C._8 N.C._9 TXD2 RTS2 RXD2 CTS2 12 MICRO-NETX52-2231.000 MMIO21 MMIO23 MMIO20 MMIO22 K101-O MICRO-NETX52-2231.000 MMIO08 MMIO09 MMIO10 MMIO11 K101-L MICRO-NETX52-2231.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K MICRO-NETX52-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J MICRO-NETX52-2231.000 K101-H netX52 12 UART0 A 1 V3 U5 T5 T6 N2 P2 R1 T1 L1 M1 M2 N1 H2 K2 J2 L3 T13 U10 U11 U12 U13 V10 V11 V12 V13 13 13 14 Page of Page 14 4 2 J I H G F E D C B A Quick Start 167/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited PHY0_RXN PHY0_LED0# PHY0_LED1# PHY1_LED0# PHY1_LED1# COM0_G# COM0_R# COM1_G# COM0_R# Date 2 12.11.2012 Matthias Melzer R2 U2 T2 R3 T4 V1 U4 U3 N17 PHY_EXTRES N16 PHY_ATP K101-M Name K17 L12 GND PHY1_VSSAR M18 GND PHY1_VSSAT1 M17 GND PHY1_VSSAT2 PHY1_RXN MICRO-NETX52-2231.000 Date L18 K16 +1V5E L17 PHY1_TXN K18 PHY1_RXP PHY1_TXP PHY1_VDDCART MICRO-NETX52-2231.000 Name R17 P16 GND PHY0_VSSAR L10 GND PHY0_VSSAT1 L11 GND PHY0_VSSAT2 K101-N MMIO12 MMIO13 MMIO14 MMIO15 P18 U18 +1V5E P17 PHY0_TXN R18 PHY0_RXP PHY0_TXP PHY0_VDDCART MICRO-NETX52-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 M16 +1V5E M12 GND PHY_VSSAT L16 GND PHY_VSSACP PHY_VDDCAP T17 +3V3E PHY_VDDIOAT N18 +3V3E PHY_VDDIOAC K101-B 0603 3 12.4k R3092 1 2 0603 100nF 2 0805 1 10uF C302 1 1 2 0603 50 4 www.hilscher.com 5 +1V5 50 50 6 7 ETHERNET Real Time Ethernet 8 Real Time Ethernet Status LEDs GND 2 0603 1 2 50 5 50 6 50 7 50 8 1 R306-D 4 R306-C 3 2 0603 1 2 1 R303-D 9 9 R306-B +3V3E GND 50 5 4 +3V3E R303-C 8 2 6 3 GND 1206 Z=600 Ohm @100MHz 2 R302 1 R303-B 10uF C304 +3V3 2 1206 Z=600 Ohm @100MHz R301 1 7 R306-A 7 2 2 6 1 8 1 0805 R303-A 100nF C303 Hilscher Gesellschaft für Systemautomatiom mbH C301 X4 X4 1 5 X4 X4 4 X4 X4 netX52 3 X4 X4 2 0603 0603 10nF C307 10 R307 10nF C305 10 R304 1 1 2 0603 1 2 0603 2 0603 1 2 0603 A 1 10 10nF C308 10 R308 10nF C306 10 R305 10 GND 11 COM1 COM0 11 7A 19 8A 20 1A 13 4A 16 2A 14 3A 15 5A 17 6A 18 1 green 1210 12 green 1210 3 red 1 LEDSRG 4 2 P302 3 red LEDSRG 4 2 270 0603 470 0603 13 R3172 1 270 0603 R3162 1 470 0603 R3152 1 R3142 1 270 0603 270 0603 R3132 2311A 1 AA_YELLOW 12A 24 CA_YELLOW R3122 1 X301-B 21 9A AA_GREEN P301 270 0603 X301-A 10A 22 CA_GREEN X301-D PE PE 7A 7 8A 8 1111A 1 AA_YELLOW 12A 12 CA_YELLOW 270 R3112 9 9A AA_GREEN 1 4 2 3 5 6 0603 13 R3102 1 10A 10 CA_GREEN 1A 4A 2A 3A 5A 6A X301-C 12 14 Page of Page RXN1 TXN1 RXP1 TXP1 RXN0 TXN0 RXP0 TXP0 +3V3 6 4 5 7 8 2 3 1 6 4 5 7 8 2 3 1 +3V3 14 4 3 J I H G F E D C B A Quick Start 168/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 12.11.2012 2 2 GND1 9 C402 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C407 1 2 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 6 7 POWER_SUPPLY Real Time Ethernet R410 1.8k R409 GND GND 2 G C405 3 FDC5612 6 K401 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 COMP Matthias Melzer 2 1 1210 10uF C410 0805 22uF 1 +3V3 2.2k R407 1 C401 C409 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF C414 10uF C412 9 9 2 0603 1 2 0603 1 100nF C415 100nF C413 C16 G11 G12 G8 H10 J10 J11 K9 L7 M7 M8 P1 T18 V5 V9 H12 H8 K11 G1 H11 H9 J8 K10 K7 L8 F11 F13 F6 G6 J13 J6 L13 L6 M6 N12 F8 F9 H13 K6 N10 F7 M13 N11 N13 N7 N8 F10 F12 G13 N6 N9 H6 K13 T16 R16 J18 J17 T10 T12 10 GND +1V5 10 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VSS_47 VSS_48 VSS_49 VSS_50 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 11 MICRO-NETX52-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 K101-I netX52 11 L9 M9 N3 U1 U9 V14 V17 V2 B1 F16 G10 G7 G9 J1 J12 J7 J9 K8 V18 C5 H7 M10 M11 K12 J16 C14 C3 E2 K1 V4 C4 E1 P3 T3 T9 U17 E16 L2 D17 T11 U14 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C421 100nF C419 100nF C417 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C420 10uF C418 10uF C416 13 14 Page of Page 14 4 4 J I H G F E D C B A Quick Start 169/334 © Hilscher, 2008-2013 Quick Start 170/334 Bill of Material Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM7-25.000MHZ-D2Y-T K101 Microcontroller netX52 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R112 Resistor 10kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 R115 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin Page 2 netX 52 from Page 1 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 171/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 10µF 10V 0805 C305 Ceramic Capacitor 10nF 50V 0603 C306 Ceramic Capacitor 10nF 50V 0603 C307 Ceramic Capacitor 10nF 50V 0603 C308 Ceramic Capacitor 10nF 50V 0603 P301 LED red / green HSMF-C155 P302 LED red / green HSMF-C155 R301 Feritte 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R302 Feritte 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R303 Resistor 4x 50Ω 62mW 1206 R304 Resistor 10Ω 63mW 0603 R305 Resistor 10Ω 63mW 0603 R306 Resistor 4x 50Ω 62mW 1206 R307 Resistor 10Ω 63mW 0603 R308 Resistor 10Ω 63mW 0603 R309 Resistor 12.4kV 63mW 0603 R310 Resistor 270Ω 63mW 0603 R311 Resistor 270Ω 63mW 0603 R312 Resistor 270Ω 63mW 0603 R313 Resistor 270Ω 63mW 0603 R314 Resistor 270Ω 63mW 0603 R315 Resistor 470Ω 63mW 0603 R316 Resistor 270Ω 63mW 0603 R317 Resistor 470Ω 63mW 0603 X301 RJ45 ERNI-203313 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 172/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D Edited 1 Date Name RESETIN# 3 MR 24.01.2013 Matthias Melzer 2 1 22pF 2 GND 1 4 3 GND VCC RESET MAX811SEUS-T >= 2.93V Q101 1 GND 2 +3V3 4 www.hilscher.com 5 OSC_XTO BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI C1 T8 T7 J3 M3 K3 H1 H3 D1 1 2 RDY RUN 1.5k USB_DNEG USB_DPOS U6 V6 V15 T14 USB_DNEG USB_DPOS 6 CORE 7 Real Time Ethernet MICRO-NETX52-2231.000 USB_VDDC USB_VDDIO K101-G MICRO-NETX52-2231.000 QSPI_SIO3 QSPI_SIO2 +3V3 1 2 8 10k 8 1 2 VCC ROM 1k C107 8 RDY RUN 3 4 X102 2 1 0603 390 390 0603 R1092 1 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 GND 2 11 GND +3V3 12 RDY/RUN LED SEC. MEM C108 0603 100nF 1 +3V3 10 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU 9 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10 2 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 DD+ 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R115 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R114 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R113 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R115 R114 open 13 R113 Host Interace boot configuration 1.5k R111 R112 +3V3 R110 T15 SPI_MISO SPI0_MISO/QSPI_SIO1 U16 SPI_MOSI SPI0_MOSI/QSPI_SIO0 V16 SPI_CLK SPI0_CLK/QSPI_CLK U15 SPI_CS0# SPI0_CS0#/QSPI_CS# K101-F MICRO-NETX52-2231.000 H16 I2C_SDA H18 I2C_SCL K101-D MICRO-NETX52-2231.000 JT_TDI JT_TDO JT_TMS JT_TCLK JT_TRSTn K101-E MICRO-NETX52-2231.000 POR# F1 RDY F2 RUN RSTOUT K101-A netX52 7 0603 6 V7 OSC_VDDC U7 OSC_VSS V8 E3 F3 G3 G2 B10 U8 C104 GND POR# 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH GND 2 GND C103 2 3 0603 100nF 2 POR# 1 4 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 2 C106 22pF 0603 C 1 0603 C105 5 0603 0603 4 0603 3 0603 B 2 0603 J I H G F E D C B A 2.3.2 SPI_MISO A 1 Quick Start 173/334 Ethernet/Real Time Ethernet with 3. External PHY © Hilscher, 2008-2013 J I H G F E D C B SD_BA0 SD_BA1 SD_DQM0 SD_DQM1 SD_CS# SD_RAS# SD_CAS# SD_WE# SD_CLK SD_CKE MII2_RXD0 MII2_RXD1 MII2_RDX2 MII2_RXD3 MII2_RXDV MII2_RXCLK MII2_RXER MII2_TXD0 MII2_TXD1 MII2_TXD2 MII2_TXD3 MII2_TXEN MII2_TXER MII2_TCLK MII2_COL MII2_CRS MDIO MDC IRQ# HIF_A14 HIF_A15 HIF_A13 HIF_BHE1 HIF_CS# HIF_A16 HIF_A17 HIF_WR# HIF_SDCLK HIF_RDY HIF_DIRQ HIF_D13 HIF_D14 HIF_D15 HIF_BHE3 HIF_D28 HIF_D29 HIF_D21 HIF_D22 HIF_D23 HIF_D24 HIF_D25 HIF_D10 HIF_D20 HIF_D08 HIF_D09 HIF_D11 HIF_D12 HIF_RD# 1 Checked Edited RSTOUT# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 HIF_A00 HIF_A01 HIF_A02 HIF_A03 HIF_A04 HIF_A05 HIF_A06 HIF_A07 HIF_A08 HIF_A09 HIF_A10 HIF_A11 HIF_A12 Date Name Date Name SD_BA0 SD_BA1 SD_DQM0 SD_DQM1 SD_CD# SD_RAS# SD_CAS# SD_WE# SD_CLK SD_CKE A12 B11 A13 A16 A15 A17 A18 B14 C8 C15 2 14.11.2012 3 SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 A3 B6 C6 C7 B8 A7 B9 C9 C13 A10 B12 A14 B13 D16 B18 C17 B17 B16 A2 A4 C11 A11 C10 A9 A8 F17 C12 G18 G16 D18 C18 B15 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SD_D08 SD_D09 SD_D10 SD_D11 SD_D12 SD_D13 SD_D14 SD_D15 A1 C2 D2 B3 B4 B2 A5 B5 G17 F18 E18 E17 A6 B7 D3 H17 Matthias Melzer MICRO-NETX52-2231.000 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SD_D08 SD_D09 SD_D10 SD_D11 SD_D12 SD_D13 SD_D14 SD_D15 HIF_D00 HIF_D01 HIF_D02 HIF_D03 HIF_D04 HIF_D05 HIF_D06 HIF_D07 HIF_D16 HIF_D17 HIF_D18 HIF_D19 HIF_D26 HIF_D27 HIF_D30 HIF_D31 K101-C netX52 E8 F1 G9 F8 F7 F9 F2 F3 SD_DQM0 SD_DQM1 SD_CD# SD_RAS# SD_CAS# SD_WE# SD_CLK SD_CKE R208-A R208-B R208-C R208-D 4 GND 2 3 22pF 4.7k 1 GND 5 22pF 2 C219 1 C218 A DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 SDRAM64M16-3V3I6B2 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VDDQ1 VDDQ2 VDDQ3 VDDQ4 NC1 NC2 VSS1 VSS2 VSS3 VDD1 VDD2 VDD3 RAM 64 MBit DQML DQMH CS# RAS# CAS# WE# CLK CKE BA0 BA1 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 6 A8 B9 B8 C9 C8 D9 D8 E9 E1 D2 D1 C2 C1 B2 B1 A2 A3 B7 C3 D7 B3 A7 C7 D3 E2 G1 A1 E3 J1 A9 E7 J9 4.7k 2 7 4.7k 4 www.hilscher.com 5 1 8 100nF C205 100nF C203 XCLK1 XCLK0 3 P0RXN 7 4 P0TXN 6 P0RXP P0TXP 7 43 48 8 5 20 36 1 12.4k 0603 2 0603 1 2 0603 1 2 100nF C213 100nF C208 7 50 2 0603 1 2 0603 1 3 10uF C214 GND 100nF 6 50 H2 K2 J2 L3 R201 2 2 0603 1 2 0603 1 +3V3 4 5 100nF C215 C210 10uF R202-C C209 R202-B MICRO-NETX52-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J T13 U10 U11 U12 U13 V10 V11 V12 V13 6 7 8 9 1 10 2 0603 1 2 0603 50 100nF C216 100nF C211 R202-D +3V3 netX52 10 1 1206 Z=600 Ohm @100MHz N.C._1 N.C._2 N.C._3 N.C._4 N.C._5 N.C._6 N.C._7 N.C._8 N.C._9 MICRO-NETX52-2231.000 K101-H 9 HOST_INTERFACE/3.PHY/SDRAM/MMIO GND R2052 1 LED_LINK LED_ACT 8 50 8 R202-A Real Time Ethernet DRIVER-PHY-UPD60610 GNDAREF GNDAPLL P0AGND2 P0AGND1 GNDIO1 GNDIO2 EXTRES 1 37 DVOUT15 11 VDD15 45 AVOUT15 47 VDDAPLL 9 VDDA15 19 VDDIO1 31 VDDIO2 38 VDDIO3 10 VDD33ESD 46 VDD33REG 34 GPIO14 12 P0LINKLED K201 P0RXD0 P0RXD1 P0RXD2 P0RXD3 P0RXDV P0RXCLK P0RXERR P0TXD0 P0TXD1 P0TXD2 P0TXD3 P0TXEN P0TXERR P0TXCLK P0COLSD P0CRS MDIO MDC 44 REGOFF 2 ATP 41 TEST 4.7k GND 2 0603 1 +3V3 GND 2 0603 1 +3V3 3. PHY 15 INT 40 RESETB 33 ABM7-25M 32 22 21 18 17 23 16 24 26 27 28 29 25 35 30 42 39 14 13 100nF C204 100nF C202 G201 RSTOUT# 2 1 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SD_D08 SD_D09 SD_D10 SD_D11 SD_D12 SD_D13 SD_D14 SD_D15 2 0603 1 2 0603 1 SDRAM Hilscher Gesellschaft für Systemautomatiom mbH G7 G8 SD_BA0 SD_BA1 SDRAM H7 H8 J8 J7 J3 J2 H3 H2 H1 G3 H9 G2 SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 25MHz A 6 X4 5 X4 C201 0603 0603 X4 4 X4 X4 1 2 0603 1 2 0603 10uF 10uF 11 C217 C212 11 12 TXD2 RTS2 RXD2 CTS2 1 GND 2 0603 1 2 1 2 2 P1 P4 P2 P3 P5 P6 0603 270 270 0603 R2072 X201-A Ethernet 6 4 5 7 8 2 3 1 14 13 +3V3 11 AY AA_YELLOW 14 Page of Page MODULAR-JACKS-ERNI-203199 CY 12 CA_YELLOW 9 AG AA_GREEN X201-B MODULAR-JACKS-ERNI-203199 15 PE1 16 PE2 X201-C MODULAR-JACKS-ERNI-203199 13 CG 10 CA_GREEN PE 1 4 2 3 5 6 P7 7 P8 8 C207 10nF 10 R204 R2062 LED_ACT 1 12 1 V3 U5 T5 T6 N2 P2 R1 T1 L1 M1 M2 N1 0603 LED_LINK 1 10nF C206 10 R203 MICRO-NETX52-2231.000 MMIO21 MMIO23 MMIO20 MMIO22 K101-O MICRO-NETX52-2231.000 MMIO08 MMIO09 MMIO10 MMIO11 K101-L MICRO-NETX52-2231.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K UART0 3 X4 0603 2 X4 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public X4 0603 1 4 2 RXN0 TXN0 RXP0 TXP0 J I H G F E D C B A Quick Start 174/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited PHY0_RXN PHY0_LED0# PHY0_LED1# PHY1_LED0# PHY1_LED1# COM0_G# COM0_R# COM1_G# COM0_R# Date 2 14.11.2012 Matthias Melzer R2 U2 T2 R3 T4 V1 U4 U3 N17 PHY_EXTRES N16 PHY_ATP K101-M Name K17 L12 GND PHY1_VSSAR M18 GND PHY1_VSSAT1 M17 GND PHY1_VSSAT2 PHY1_RXN MICRO-NETX52-2231.000 Date L18 K16 +1V5E L17 PHY1_TXN K18 PHY1_RXP PHY1_TXP PHY1_VDDCART MICRO-NETX52-2231.000 Name R17 P16 GND PHY0_VSSAR L10 GND PHY0_VSSAT1 L11 GND PHY0_VSSAT2 K101-N MMIO12 MMIO13 MMIO14 MMIO15 P18 U18 +1V5E P17 PHY0_TXN R18 PHY0_RXP PHY0_TXP PHY0_VDDCART MICRO-NETX52-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 M16 +1V5E M12 GND PHY_VSSAT L16 GND PHY_VSSACP PHY_VDDCAP T17 +3V3E PHY_VDDIOAT N18 +3V3E PHY_VDDIOAC K101-B 0603 3 12.4k R3092 1 2 0603 100nF 2 0805 1 10uF C302 1 1 2 0603 50 4 www.hilscher.com 5 +1V5 50 50 6 7 ETHERNET Real Time Ethernet 8 Real Time Ethernet Status LEDs GND 2 0603 1 2 50 5 50 6 50 7 50 8 1 R306-D 4 R306-C 3 2 0603 1 2 1 R303-D 9 9 R306-B +3V3E GND 50 5 4 +3V3E R303-C 8 2 6 3 GND 1206 Z=600 Ohm @100MHz 2 R302 1 R303-B 10uF C304 +3V3 2 1206 Z=600 Ohm @100MHz R301 1 7 R306-A 7 2 2 6 1 8 1 0805 R303-A 100nF C303 Hilscher Gesellschaft für Systemautomatiom mbH C301 X4 X4 1 5 X4 X4 4 X4 X4 netX52 3 X4 X4 2 0603 0603 10nF C307 10 R307 10nF C305 10 R304 1 1 2 0603 1 2 0603 2 0603 1 2 0603 A 1 10 10nF C308 10 R308 10nF C306 10 R305 10 GND 11 COM1 COM0 11 7A 19 8A 20 1A 13 4A 16 2A 14 3A 15 5A 17 6A 18 1 green 1210 12 green 1210 3 red 1 LEDSRG 4 2 P302 3 red LEDSRG 4 2 270 0603 470 0603 13 R3172 1 270 0603 R3162 1 470 0603 R3152 1 R3142 1 270 0603 270 0603 R3132 2311A 1 AA_YELLOW 12A 24 CA_YELLOW R3122 1 X301-B 21 9A AA_GREEN P301 270 0603 X301-A 10A 22 CA_GREEN X301-D PE PE 7A 7 8A 8 1111A 1 AA_YELLOW 12A 12 CA_YELLOW 270 R3112 9 9A AA_GREEN 1 4 2 3 5 6 0603 13 R3102 1 10A 10 CA_GREEN 1A 4A 2A 3A 5A 6A X301-C 12 14 Page of Page RXN1 TXN1 RXP1 TXP1 RXN0 TXN0 RXP0 TXP0 +3V3 6 4 5 7 8 2 3 1 6 4 5 7 8 2 3 1 +3V3 14 4 3 J I H G F E D C B A Quick Start 175/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 14.11.2012 2 2 GND1 9 C402 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C407 1 2 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 6 7 POWER_SUPPLY Real Time Ethernet R410 1.8k R409 GND GND 2 G C405 3 FDC5612 6 K401 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 COMP Matthias Melzer 2 1 1210 10uF C410 0805 22uF 1 +3V3 2.2k R407 1 C401 C409 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF C414 10uF C412 9 9 2 0603 1 2 0603 1 100nF C415 100nF C413 C16 G11 G12 G8 H10 J10 J11 K9 L7 M7 M8 P1 T18 V5 V9 H12 H8 K11 G1 H11 H9 J8 K10 K7 L8 F11 F13 F6 G6 J13 J6 L13 L6 M6 N12 F8 F9 H13 K6 N10 F7 M13 N11 N13 N7 N8 F10 F12 G13 N6 N9 H6 K13 T16 R16 J18 J17 T10 T12 10 GND +1V5 10 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VSS_47 VSS_48 VSS_49 VSS_50 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 11 MICRO-NETX52-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 K101-I netX52 11 L9 M9 N3 U1 U9 V14 V17 V2 B1 F16 G10 G7 G9 J1 J12 J7 J9 K8 V18 C5 H7 M10 M11 K12 J16 C14 C3 E2 K1 V4 C4 E1 P3 T3 T9 U17 E16 L2 D17 T11 U14 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C421 100nF C419 100nF C417 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C420 10uF C418 10uF C416 13 14 Page of Page 14 4 4 J I H G F E D C B A Quick Start 176/334 © Hilscher, 2008-2013 Quick Start 177/334 Bill of Material Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM7-25.000MHZ-D2Y-T K101 Microcontroller netX51 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R112 Resistor 10kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 R115 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 178/334 Page 2 REF DES PART TYPE PART NAME C201 SDRAM ISSI part no. IS42S16400F-7BLI C202 Ceramic Capacitor 100nF 25V 0603 C203 Ceramic Capacitor 100nF 25V 0603 C204 Ceramic Capacitor 100nF 25V 0603 C205 Ceramic Capacitor 100nF 25V 0603 C206 Ceramic Capacitor 10nF 10V 0805 C207 Ceramic Capacitor 10nF 10V 0805 C208 Ceramic Capacitor 100nF 25V 0603 C209 Ceramic Capacitor 100nF 25V 0603 C210 Ceramic Capacitor 10µF 10V 0805 C211 Ceramic Capacitor 100nF 25V 0603 C212 Ceramic Capacitor 10µF 10V 0805 C213 Ceramic Capacitor 100nF 25V 0603 C214 Ceramic Capacitor 10µF 10V 0805 C215 Ceramic Capacitor 100nF 25V 0603 C216 Ceramic Capacitor 100nF 25V 0603 C217 Ceramic Capacitor 10µF 10V 0805 C218 Ceramic Capacitor 22pF 50V 0603 C219 Ceramic Capacitor 22pF 50V 0603 G201 Crystal ABM7-25.000MHZ-D2Y-T K201 Driver UPD60610GA-GAM-AX R201 Ferrite 100MHz 600Ω 1A 1206 R202 Resistor 4x 50Ω 62mW 1206 R203 Resistor 10Ω 63mW 0603 R204 Resistor 10Ω 63mW 0603 R205 Resistor 12.4kV 63mW 0603 R206 Resistor 270Ω 63mW 0603 R207 Resistor 270Ω 63mW 0603 R208 Resistor 4x 4.7kΩ 62mW 1206 X201 RJ45 ERNI-203199 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 179/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 10µF 10V 0805 C305 Ceramic Capacitor 10nF 50V 0603 C306 Ceramic Capacitor 10nF 50V 0603 C307 Ceramic Capacitor 10nF 50V 0603 C308 Ceramic Capacitor 10nF 50V 0603 P301 LED red / green HSMF-C155 P302 LED red / green HSMF-C155 R301 Feritte 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R302 Feritte 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R303 Resistor 4x 50Ω 62mW 1206 R304 Resistor 10Ω 63mW 0603 R305 Resistor 10Ω 63mW 0603 R306 Resistor 4x 50Ω 62mW 1206 R307 Resistor 10Ω 63mW 0603 R308 Resistor 10Ω 63mW 0603 R309 Resistor 12.4kV 63mW 0603 R310 Resistor 270Ω 63mW 0603 R311 Resistor 270Ω 63mW 0603 R312 Resistor 270Ω 63mW 0603 R313 Resistor 270Ω 63mW 0603 R314 Resistor 270Ω 63mW 0603 R315 Resistor 470Ω 63mW 0603 R316 Resistor 270Ω 63mW 0603 R317 Resistor 470Ω 63mW 0603 X301 RJ45 ERNI-203313 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 180/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D Edited 1 Date Name RESETIN# 3 MR 24.01.2013 Matthias Melzer 2 1 22pF 2 GND 1 4 3 GND VCC RESET MAX811SEUS-T >= 2.93V Q101 1 GND 2 +3V3 4 www.hilscher.com 5 OSC_XTO BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI C1 T8 T7 J3 M3 K3 H1 H3 D1 1 2 RDY RUN 1.5k USB_DNEG USB_DPOS U6 V6 USB_DNEG USB_DPOS V15 QSPI_SIO3 T14 QSPI_SIO2 1 2 10k 1 2 6 CORE 7 8 VCC ROM 1k C107 8 RDY RUN 3 4 X102 2 1 0603 390 390 0603 R1092 1 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 GND 2 11 GND +3V3 12 RDY/RUN LED SEC. MEM C108 0603 100nF 1 +3V3 10 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU 9 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10 2 10k GND QSPI_SIO3 QSPI_SIO2 QSPI_CLK QSPI_CS0# QSPI_SIO0 ROM 32Mbit W25Q32VSSIG HOLD#(IO3) 4 WP#(IO2) GND GND 11 PE 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 DD+ 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device 7 3 2 DI(IO0) DO(IO1) 8 VCC 6 CLK 1 CS# 5 C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R115 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R114 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R113 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R115 R114 open 13 R113 Host Interace boot configuration 1.5k R111 R112 +3V3 8 PROFINET FAST STARTUP MICRO-NETX52-2231.000 USB_VDDC USB_VDDIO K101-G MICRO-NETX52-2231.000 QSPI_SIO3 QSPI_SIO2 +3V3 R110 T15 QSPI_SIO1 SPI0_MISO/QSPI_SIO1 U16 QSPI_SIO0 SPI0_MOSI/QSPI_SIO0 V16 QSPI_CLK SPI0_CLK/QSPI_CLK U15 QSPI_CS0# SPI0_CS0#/QSPI_CS# K101-F MICRO-NETX52-2231.000 H16 I2C_SDA H18 I2C_SCL K101-D MICRO-NETX52-2231.000 JT_TDI JT_TDO JT_TMS JT_TCLK JT_TRSTn K101-E MICRO-NETX52-2231.000 POR# F1 RDY F2 RUN RSTOUT K101-A netX52 7 0603 6 V7 OSC_VDDC U7 OSC_VSS V8 E3 F3 G3 G2 B10 U8 C104 GND POR# 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH GND 2 GND C103 2 3 0603 100nF 2 POR# 1 4 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 2 C106 22pF 0603 C 1 0603 C105 5 0603 0603 4 0603 3 0603 B 2 0603 J I H G F E D C B A 2.3.3 QSPI_SIO1 A 1 Quick Start 181/334 PROFINET Fast Startup (FSU) © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited Date Name Date Name SD_D08 SD_D09 SD_D10 SD_D11 MII2_TXCLK MII2_TXD0 MII2_TXD1 MII2_TXD2 MII2_TXD3 MII2_TXEN SD_D12 SD_D13 MII2_RXCLK MII2_RXER SD_D14 SD_D15 SD_DQM1 MII2_RXDV SD_CS# SD_WE# SD_CKE MII2_RXD0 SD_CLK SD_D08 SD_D09 SD_D10 SD_D11 SD_DQM1 SD_WE# SD_CKE SD_CLK SD_D08 SD_D09 SD_D10 SD_D11 SD_D20 SD_D21 SD_D22 SD_D23 SD_D24 SD_D25 SD_D12 SD_D13 SD_D28 SD_D29 SD_D14 SD_D15 SD_DQM1 SD_DQM3 SD_CS# SD_DQM2 SD_WE# SD_CKE SD_CLK 2 24.01.2013 3 SD_CS# SD_D14 SD_D15 6 MII1_RXDV MII_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MII1_TXER MII1_RXDV MII1_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 7 4 www.hilscher.com 5 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 8/16 Bit DPM DPM_BE1# DPM_BE3# DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_D16 DPM_D17 DPM_D18 DPM_D19 DPM_D20 DPM_D21 DPM_D22 DPM_D23 DPM_D24 DPM_D25 DPM_D26 DPM_D27 DPM_D28 DPM_D29 DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_BE0# DPM_BE2# DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 32 Bit DPM 8 6 7 8 HOST_INTERFACE/MMIO PROFINET FAST STARTUP DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# MII1_TXER SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 MII1_COL MII1_CRS 8/16 Bit DPM + MII DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 SPI DPM + MII Hilscher Gesellschaft für Systemautomatiom mbH SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 MII2_COL MII2_CRS MII2_TXER MII2_DIO/MMIO43 MII2_MDC/MMIO44 MII2_RXD1 MII2_RXD2 MII2_RXD3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SD_D16 SD_D17 SD_D18 SD_D19 SD_D26 SD_D27 SD_D30 SD_D31 Matthias Melzer SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_D12 SD_D13 5 Signals at the different Host Interface Modes 4 SPI DPM + 16 Bit SDRAM MII + 16 Bit SDRAM 3 32 Bit SDRAM 2 9 A16 B16 A15 B15 B14 C15 D16 C8 G17 F18 E18 E17 C12 C11 A11 C10 A9 A8 A6 B7 A2 A4 D3 H17 A1 C2 D2 B3 B4 B2 A5 B5 G18 G16 F17 D18 C18 B18 C17 B17 A3 B6 C6 C7 B8 A7 B9 C9 C13 A10 B12 A14 B13 A13 A12 B11 A17 A18 9 PIO43 PIO44 PIO51 PIO52 PIO45 PIO46 PIO47 PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 PIO36 PIO35 PIO40 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 10 MICRO-NETX52-2231.000 HIF_BHE1 HIF_BHE3 HIF_CS# HIF_RD# HIF_WR# HIF_RDY HIF_DIRQ HIF_SDCLK HIF_D16 HIF_D17 HIF_D18 HIF_D19 HIF_D20 HIF_D21 HIF_D22 HIF_D23 HIF_D24 HIF_D25 HIF_D26 HIF_D27 HIF_D28 HIF_D29 HIF_D30 HIF_D31 HIF_D00 HIF_D01 HIF_D02 HIF_D03 HIF_D04 HIF_D05 HIF_D06 HIF_D07 HIF_D08 HIF_D09 HIF_D10 HIF_D11 HIF_D12 HIF_D13 HIF_D14 HIF_D15 HIF_A00 HIF_A01 HIF_A02 HIF_A03 HIF_A04 HIF_A05 HIF_A06 HIF_A07 HIF_A08 HIF_A09 HIF_A10 HIF_A11 HIF_A12 HIF_A13 HIF_A14 HIF_A15 HIF_A16 HIF_A17 K101-C netX52 10 11 11 N.C._1 N.C._2 N.C._3 N.C._4 N.C._5 N.C._6 N.C._7 N.C._8 N.C._9 TXD2 RTS2 RXD2 CTS2 12 MICRO-NETX52-2231.000 MMIO21 MMIO23 MMIO20 MMIO22 K101-O MICRO-NETX52-2231.000 MMIO08 MMIO09 MMIO10 MMIO11 K101-L MICRO-NETX52-2231.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K MICRO-NETX52-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J MICRO-NETX52-2231.000 K101-H netX52 12 UART0 A 1 V3 U5 T5 T6 N2 P2 R1 T1 L1 M1 M2 N1 H2 K2 J2 L3 T13 U10 U11 U12 U13 V10 V11 V12 V13 13 13 14 Page of Page 14 4 2 J I H G F E D C B A Quick Start 182/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited PHY0_RXN PHY0_LED0# PHY0_LED1# PHY1_LED0# PHY1_LED1# COM0_G# COM0_R# COM1_G# COM0_R# Date 2 24.01.2013 Matthias Melzer R2 U2 T2 R3 T4 V1 U4 U3 N17 PHY_EXTRES N16 PHY_ATP K101-M Name K17 L12 GND PHY1_VSSAR M18 GND PHY1_VSSAT1 M17 GND PHY1_VSSAT2 PHY1_RXN MICRO-NETX52-2231.000 Date L18 K16 +1V5E L17 PHY1_TXN K18 PHY1_RXP PHY1_TXP PHY1_VDDCART MICRO-NETX52-2231.000 Name R17 P16 GND PHY0_VSSAR L10 GND PHY0_VSSAT1 L11 GND PHY0_VSSAT2 K101-N MMIO12 MMIO13 MMIO14 MMIO15 P18 U18 +1V5E P17 PHY0_TXN R18 PHY0_RXP PHY0_TXP PHY0_VDDCART MICRO-NETX52-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 M16 +1V5E M12 GND PHY_VSSAT L16 GND PHY_VSSACP PHY_VDDCAP T17 +3V3E PHY_VDDIOAT N18 +3V3E PHY_VDDIOAC K101-B 0603 3 12.4k R3092 1 2 0603 100nF 2 0805 1 10uF C302 1 1 2 0603 50 4 www.hilscher.com 5 +1V5 50 50 6 7 ETHERNET 8 PROFINET FAST STARTUP Real Time Ethernet Status LEDs GND 2 0603 1 2 50 5 50 6 50 7 50 8 1 R306-D 4 R306-C 3 2 0603 1 2 1 R303-D 9 9 R306-B +3V3E GND 50 5 4 +3V3E R303-C 8 2 6 3 GND 1206 Z=600 Ohm @100MHz 2 R302 1 R303-B 10uF C304 +3V3 2 1206 Z=600 Ohm @100MHz R301 1 7 R306-A 7 2 2 6 1 8 1 0805 R303-A 100nF C303 Hilscher Gesellschaft für Systemautomatiom mbH C301 X4 X4 1 5 X4 X4 4 X4 X4 netX52 3 X4 X4 2 0603 0603 10nF C307 10 R307 10nF C305 10 R304 1 1 2 0603 1 2 0603 2 0603 1 2 0603 A 1 10 10nF C308 10 R308 10nF C306 10 R305 10 GND 11 COM1 COM0 11 7A 19 8A 20 1A 13 4A 16 2A 14 3A 15 5A 17 6A 18 1 green 1210 12 green 1210 3 red 1 LEDSRG 4 2 P302 3 red LEDSRG 4 2 270 0603 470 0603 13 R3172 1 270 0603 R3162 1 470 0603 R3152 1 R3142 1 270 0603 270 0603 R3132 2311A 1 AA_YELLOW 12A 24 CA_YELLOW R3122 1 X301-B 21 9A AA_GREEN P301 270 0603 X301-A 10A 22 CA_GREEN X301-D PE PE 7A 7 8A 8 1111A 1 AA_YELLOW 12A 12 CA_YELLOW 270 R3112 9 9A AA_GREEN 1 4 2 3 5 6 0603 13 R3102 1 10A 10 CA_GREEN 1A 4A 2A 3A 5A 6A X301-C 12 14 Page of Page RXN1 TXN1 RXP1 TXP1 RXN0 TXN0 RXP0 TXP0 +3V3 6 4 5 7 8 2 3 1 6 4 5 7 8 2 3 1 +3V3 14 4 3 J I H G F E D C B A Quick Start 183/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 24.01.2013 2 2 GND1 9 C402 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C407 1 2 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 8 GND 2 0805 1 GND 2 0805 1 10uF C414 10uF C412 6 7 POWER_SUPPLY 8 PROFINET FAST STARTUP R410 1.8k R409 GND GND 2 G C405 3 FDC5612 6 K401 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 COMP Matthias Melzer 2 1 1210 10uF C410 0805 22uF 1 +3V3 2.2k R407 1 C401 C409 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 9 9 2 0603 1 2 0603 1 100nF C415 100nF C413 C16 G11 G12 G8 H10 J10 J11 K9 L7 M7 M8 P1 T18 V5 V9 H12 H8 K11 G1 H11 H9 J8 K10 K7 L8 F11 F13 F6 G6 J13 J6 L13 L6 M6 N12 F8 F9 H13 K6 N10 F7 M13 N11 N13 N7 N8 F10 F12 G13 N6 N9 H6 K13 T16 R16 J18 J17 T10 T12 10 GND +1V5 10 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VSS_47 VSS_48 VSS_49 VSS_50 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 11 MICRO-NETX52-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 K101-I netX52 11 L9 M9 N3 U1 U9 V14 V17 V2 B1 F16 G10 G7 G9 J1 J12 J7 J9 K8 V18 C5 H7 M10 M11 K12 J16 C14 C3 E2 K1 V4 C4 E1 P3 T3 T9 U17 E16 L2 D17 T11 U14 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C421 100nF C419 100nF C417 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C420 10uF C418 10uF C416 13 14 Page of Page 14 4 4 J I H G F E D C B A Quick Start 184/334 © Hilscher, 2008-2013 Quick Start 185/334 Bill of Material Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory W25Q32VSSIG C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM7-25.000MHZ-D2Y-T K101 Microcontroller netX52 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R112 Resistor 10kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 R115 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin Page 2 netX 52 from Page 1 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 186/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 10µF 10V 0805 C305 Ceramic Capacitor 10nF 50V 0603 C306 Ceramic Capacitor 10nF 50V 0603 C307 Ceramic Capacitor 10nF 50V 0603 C308 Ceramic Capacitor 10nF 50V 0603 P301 LED red / green HSMF-C155 P302 LED red / green HSMF-C155 R301 Feritte 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R302 Feritte 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R303 Resistor 4x 50Ω 62mW 1206 R304 Resistor 10Ω 63mW 0603 R305 Resistor 10Ω 63mW 0603 R306 Resistor 4x 50Ω 62mW 1206 R307 Resistor 10Ω 63mW 0603 R308 Resistor 10Ω 63mW 0603 R309 Resistor 12.4kV 63mW 0603 R310 Resistor 270Ω 63mW 0603 R311 Resistor 270Ω 63mW 0603 R312 Resistor 270Ω 63mW 0603 R313 Resistor 270Ω 63mW 0603 R314 Resistor 270Ω 63mW 0603 R315 Resistor 470Ω 63mW 0603 R316 Resistor 270Ω 63mW 0603 R317 Resistor 470Ω 63mW 0603 X301 RJ45 ERNI-203313 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 187/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D 1 Checked Edited Date Name Date Name RESETIN# 1 22pF 2 GND 1 4 RESET 1 C103 +1V5 GND 2 2 4 www.hilscher.com 5 +3V3 OSC_XTO BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI C1 T8 T7 J3 M3 K3 H1 H3 USB_DNEG USB_DPOS 2 RDY RUN 1.5k U6 V6 USB_DNEG USB_DPOS V15 QSPI_SIO3 T14 QSPI_SIO2 1 2 10k 1 2 VCC ROM 1k C107 8 RDY RUN 3 4 X102 2 1 6 CORE 7 8 0603 390 390 0603 R1092 1 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 GND 2 11 GND +3V3 12 RDY/RUN LED SEC. MEM C108 0603 100nF 1 +3V3 10 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU 9 GND 2 5 GND A B 6 4 2 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 2 9 10 10k GND QSPI_SIO3 QSPI_SIO2 QSPI_CLK QSPI_CS0# QSPI_SIO0 ROM 32Mbit W25Q32VSSIG HOLD#(IO3) 4 WP#(IO2) GND GND 11 PE 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 DD+ 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device 7 3 2 DI(IO0) DO(IO1) 8 VCC 6 CLK 1 CS# 5 C101 14 14 Page of Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R115 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R114 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R113 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R115 R114 open 13 R113 Host Interace boot configuration 1.5k R111 R112 +3V3 R110 +3V3 8 PROFINET FIBER OPTIC FAST STARTUP MICRO-NETX52-2231.000 USB_VDDC USB_VDDIO K101-G MICRO-NETX52-2231.000 QSPI_SIO3 QSPI_SIO2 K101-F D1 1 T15 QSPI_SIO1 SPI0_MISO/QSPI_SIO1 U16 QSPI_SIO0 SPI0_MOSI/QSPI_SIO0 V16 QSPI_CLK SPI0_CLK/QSPI_CLK U15 QSPI_CS0# SPI0_CS0#/QSPI_CS# MICRO-NETX52-2231.000 JT_TDI JT_TDO JT_TMS JT_TCLK JT_TRSTn K101-E MICRO-NETX52-2231.000 POR# F1 RDY F2 RUN RSTOUT K101-A netX52 7 0603 6 V7 OSC_VDDC U7 OSC_VSS V8 E3 F3 G3 G2 B10 U8 C104 0603 1nF 1 GND POR# Hilscher Gesellschaft für Systemautomatiom mbH GND 2 POR# 2 0603 100nF +1V5 24.01.2013 3 MAX811SEUS-T 1 4 GND © Copyright MR GND VCC 2 3 Matthias Melzer 3 >= 2.93V Q101 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 2 C106 22pF 0603 C 1 0603 C105 5 0603 0603 4 0603 3 0603 B 2 0603 5 1 J I H G F E D C B A 2.3.4 QSPI_SIO1 A 1 Quick Start 188/334 PROFINET Fiber Optic (FO) Fast Startup (FSU) © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited Date Name Date Name SD_D08 SD_D09 SD_D10 SD_D11 MII2_TXCLK MII2_TXD0 MII2_TXD1 MII2_TXD2 MII2_TXD3 MII2_TXEN SD_D12 SD_D13 MII2_RXCLK MII2_RXER SD_D14 SD_D15 SD_DQM1 MII2_RXDV SD_CS# SD_WE# SD_CKE MII2_RXD0 SD_CLK SD_D08 SD_D09 SD_D10 SD_D11 SD_DQM1 SD_WE# SD_CKE SD_CLK SD_D08 SD_D09 SD_D10 SD_D11 SD_D20 SD_D21 SD_D22 SD_D23 SD_D24 SD_D25 SD_D12 SD_D13 SD_D28 SD_D29 SD_D14 SD_D15 SD_DQM1 SD_DQM3 SD_CS# SD_DQM2 SD_WE# SD_CKE SD_CLK 2 24.01.2013 3 SD_CS# SD_D14 SD_D15 6 MII1_RXDV MII_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MII1_TXER MII1_RXDV MII1_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 7 4 www.hilscher.com 5 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 8/16 Bit DPM DPM_BE1# DPM_BE3# DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_D16 DPM_D17 DPM_D18 DPM_D19 DPM_D20 DPM_D21 DPM_D22 DPM_D23 DPM_D24 DPM_D25 DPM_D26 DPM_D27 DPM_D28 DPM_D29 DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_BE0# DPM_BE2# DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 32 Bit DPM 8 A16 B16 A15 B15 B14 C15 D16 C8 G17 F18 E18 E17 C12 C11 A11 C10 A9 A8 A6 B7 A2 A4 D3 H17 A1 C2 D2 B3 B4 B2 A5 B5 G18 G16 F17 D18 C18 B18 C17 B17 A3 B6 C6 C7 B8 A7 B9 C9 C13 A10 B12 A14 B13 A13 A12 B11 A17 A18 9 PIO43 PIO44 PIO51 PIO52 PIO45 PIO46 PIO47 PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 PIO36 PIO35 PIO40 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 MICRO-NETX52-2231.000 HIF_BHE1 HIF_BHE3 HIF_CS# HIF_RD# HIF_WR# HIF_RDY HIF_DIRQ HIF_SDCLK HIF_D16 HIF_D17 HIF_D18 HIF_D19 HIF_D20 HIF_D21 HIF_D22 HIF_D23 HIF_D24 HIF_D25 HIF_D26 HIF_D27 HIF_D28 HIF_D29 HIF_D30 HIF_D31 HIF_D00 HIF_D01 HIF_D02 HIF_D03 HIF_D04 HIF_D05 HIF_D06 HIF_D07 HIF_D08 HIF_D09 HIF_D10 HIF_D11 HIF_D12 HIF_D13 HIF_D14 HIF_D15 HIF_A00 HIF_A01 HIF_A02 HIF_A03 HIF_A04 HIF_A05 HIF_A06 HIF_A07 HIF_A08 HIF_A09 HIF_A10 HIF_A11 HIF_A12 HIF_A13 HIF_A14 HIF_A15 HIF_A16 HIF_A17 K101-C netX52 10 6 7 8 HOST_INTERFACE/MMIO 9 10 PROFINET FIBER OPTIC FAST STARTUP DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# MII1_TXER SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 MII1_COL MII1_CRS 8/16 Bit DPM + MII DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 SPI DPM + MII Hilscher Gesellschaft für Systemautomatiom mbH © Copyright SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 MII2_COL MII2_CRS MII2_TXER MII2_DIO/MMIO43 MII2_MDC/MMIO44 MII2_RXD1 MII2_RXD2 MII2_RXD3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SD_D16 SD_D17 SD_D18 SD_D19 SD_D26 SD_D27 SD_D30 SD_D31 Matthias Melzer SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_D12 SD_D13 5 Signals at the different Host Interface Modes 4 SPI DPM + 16 Bit SDRAM MII + 16 Bit SDRAM 3 32 Bit SDRAM 2 11 11 N.C._1 N.C._2 N.C._3 N.C._4 N.C._5 N.C._6 N.C._7 N.C._8 N.C._9 TXD2 RTS2 RXD2 CTS2 12 MICRO-NETX52-2231.000 MMIO21 MMIO23 MMIO20 MMIO22 K101-O MICRO-NETX52-2231.000 K101-H netX52 12 UART0 A 1 V3 U5 T5 T6 T13 U10 U11 U12 U13 V10 V11 V12 V13 13 13 14 Page of Page 14 5 2 J I H G F E D C B A Quick Start 189/334 © Hilscher, 2008-2013 J I H G F E D C B A PHY1_RXN K17 R3032 1 PHY0_LED0# PHY0_LED1# PHY1_LED0# PHY1_LED1# COM0_G# COM0_R# COM1_G# COM0_R# K101-M MICRO-NETX52-2231.000 Date Name Date N2 P2 R1 T1 I2C_SCL1 I2C_SDA1 2 24.01.2013 Matthias Melzer MMIO08 MMIO09 MMIO10 MMIO11 K101-L MICRO-NETX52-2231.000 Name 12.4k 0603 H16 I2C_SDA0 I2C_SDA H18 I2C_SCL0 I2C_SCL K101-D R2 U2 T2 R3 T4 V1 U4 U3 N17 PHY_EXTRES N16 PHY_ATP L12 GND PHY1_VSSAR M18 GND PHY1_VSSAT1 M17 GND PHY1_VSSAT2 MICRO-NETX52-2231.000 1 L18 K16 +1V5E L17 PHY1_TXN K18 PHY1_RXP PHY1_TXP PHY1_VDDCART MICRO-NETX52-2231.000 Checked Edited R17 P16 GND PHY0_VSSAR L10 GND PHY0_VSSAT1 L11 GND PHY0_VSSAT2 PHY0_RXN K101-N MMIO12 MMIO13 MMIO14 MMIO15 P18 U18 +1V5E P17 PHY0_TXN R18 PHY0_RXP PHY0_TXP PHY0_VDDCART MICRO-NETX52-2231.000 MMIO16 MMIO17 MMIO18 MMIO19 M16 +1V5E M12 GND PHY_VSSAT L16 GND PHY_VSSACP PHY_VDDCAP T17 +3V3E PHY_VDDIOAT N18 +3V3E PHY_VDDIOAC K101-B netX52 GND 2 0603 1 3 100nF C301 2 0805 1 10uF 2 0603 1 100nF C303 2 0805 1 4 www.hilscher.com FO0_RD FO0_TD FO0_EN FO1_RD MICRO-NETX52-2231.000 L1 M1 M2 N1 H2 K2 J2 L3 ETH1_TX TX1_DISABLE_INV ETH0_SD ETH1_SD ETH0_RX ETH0_TX TX0_DISABLE_INV ETH1_RX +1V5 7 1 2 4.7k R306 1 2 4.7k R307 GND GND GND 1 Regard thermal considerations (see datasheet) 2 0603 1 +3V3 2 0603 1 +3V3 2 0603 +3V3 9 place close to netX 8 1 2 4.7k 1 2 ETH1_TX ETH0_TX 10nF 6 7 8 ETHERNET_FIBER_OPTIC_1 9 10 1 C310 ETH1_SD ETH1_RX 10nF C308 ETH0_SD 0603 1 2 10nF C306 ETH0_RX 0603 1 2 0603 R308 +1V5 100nF C309 100nF C307 100nF C305 2 IN1 IN0 GND VCC Q1 Q0 GND VCC Q1 Q0 GND 12 FX0_SD-P FX_SD-N 4 3 2 R309 11 SY89322VMGTR FX1_TX+ FX1_TX- 3 Q1 Q1# 4 12 FX0_TX+ FX0_TX- 1 2 Q0 Q0# GND 2 K305 FX1_SD-P FX_SD-N 4 IN1 IN1# 3 1 130 R305 82 R304 +3V3 1 FX1_RX+ FX1_RX- 1 2 IN0 IN0# IN1 IN1# FX0_RX+ FX0_RX- 1 IN0 IN0# 2 FX1_TX-DISABLE +3V3 FX0_TX-DISABLE +3V3 SY89323LMGTR K304 SY89323LMGTR K303 NC7SZ14P5 2 A 3 GND 5 VCC Y 4 K302 NC7SZ14P5 5 VCC Y 4 11 K301 2 A 3 GND VCC 4.7k 6 7 5 8 6 7 5 8 6 7 5 8 GND TX1_DISABLE_INV GND TX0_DISABLE_INV 10 PROFINET FIBER OPTIC FAST STARTUP FO1_TD FO1_EN FO0_SD FO1_SD K101-K MICRO-NETX52-2231.000 5 +3V3 1206 Z=600 Ohm @100MHz 2 R302 1 K101-J MMIO04 MMIO05 MMIO06 MMIO07 6 2 1206 Z=600 Ohm @100MHz R301 1 netX52 MMIO00 MMIO01 MMIO02 MMIO03 10uF C304 5 Hilscher Gesellschaft für Systemautomatiom mbH © Copyright C302 4 0603 3 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1 13 13 [4] [4] [4] FX1_RX+ FX1_RXFX1_SD-P [4] [4] [4] [4] [4] [4] 14 Page of Page I2C_SCL1 [4] I2C_SDA1[4] I2C_SDA0[4] I2C_SCL0 [4] FX0_COM-G [4] FX0_COM-R [4] FX1_COM-G [4] FX1_COM-R [4] FX0_LNK FX0_ACT FX1_LNK FX1_ACT FX1_TX+ FX1_TX- [4] [4] [4] FX0_SD-P FX0_TX+ FX0_TX- [4] [4] FX0_RX+ FX0_RX- FX1_TX-DISABLE[4] FX0_TX-DISABLE[4] 14 5 3 J I H G F E D C B A Quick Start 190/334 © Hilscher, 2008-2013 J I H G F E D C B 1 Checked Edited Date Name Date Name [3] FX1_ACT [3] FX1_LNK [3] FX1_COM-R [3] FX1_COM-G [3] FX1_RX+ [3] FX1_RX[3] FX1_SD-P [3] FX1_TX+ [3] FX1_TX[3] FX1_TX-DISABLE [3]I2C_SDA1 [3] I2C_SCL1 [3] FX0_ACT [3] FX0_LNK [3] FX0_COM-R [3] FX0_COM-G [3] FX0_RX+ [3] FX0_RX[3] FX0_SD-P [3] FX0_TX+ [3] FX0_TX[3] FX0_TX-DISABLE [3]I2C_SDA0 [3] I2C_SCL0 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH 3 © Copyright 1 1 2 1 2 1 2 2 8 82 R418 130 R415 82 R404 130 R401 1 1 2 1 1 2 2 82 R419 130 R416 +3V3 2 82 R405 130 R402 +3V3 1 place close to K103, K104, K105 7 1 2 1 GND 2 1 2 GND 2 82 R420 130 R417 82 R406 130 R403 9 1 1 2 2 195 R421 195 R407 6 7 8 ETHERNET_FIBER_OPTIC_2 9 1 1 2 10 2 195 R422 195 R408 place close to X401, X402 10 PROFINET FIBER OPTIC FAST STARTUP FX1 ACT LED FX1 LINK LED +3V3 FX1 COM1 LED +3V3 FX0 ACT LED FX0 LINK LED +3V3 24.01.2013 2 6 FX0 COM0 LED +3V3 5 Matthias Melzer 270 0603 1 green 3 yellow LEDSYG 4 R4282 1 270 green P404 2 0603 470 0603 1 3 red LEDSRG 4 2 P403 R4272 1 1 R4262 270 0603 R4252 1 270 1 green 3 yellow LEDSYG 4 0603 270 R4142 1 green P402 2 0603 R4132 1 470 1 3 red LEDSRG 4 0603 270 R4122 1 2 0603 P401 4 R4112 1 3 2 0805 1 2 0805 1 11 10uF C406 10uF C401 11 GND 2 0603 1 +3V3 GND 2 0603 1 +3V3 100nF C407 100nF C402 12 2 10uF 2 1μH 2 1 10uF 2 2 X401 100nF C404 13 1 X402 100nF C409 13 AFBR-5978Z 6 RDATA+ 5 RDATA4 SD 10 TDATA+ 11 TDATA9 TXDIS 1 SDA 12 SCL 2 0603 AFBR-5978Z 6 RDATA+ 5 RDATA4 SD 10 TDATA+ 11 TDATA9 TXDIS C408 1μH R424 1 1 0603 1 SDA 12 SCL C403 1μH R423 1 0805 1 2 2 R410 1μH R409 1 0805 1 12 7 TXVCC A 2 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 3 RXVCC RXGND 2 TXGND GND 8 7 RXVCC 3 TXVCC TXGND RXGND 8 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 2 1 1 100nF C410 100nF C405 14 Page of Page GND 2 0603 1 GND 2 0603 14 5 4 J I H G F E D C B A Quick Start 191/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 24.01.2013 2 2 GND1 9 C502 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C507 1 2 1 2 GND 2 1.5k R504 4.7k R503 0603 100nF 1 S D4 100nF C506 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R508 1 2 2 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH © Copyright PGND AGND EN VIN T502 1 2 1 6 5 R502 1 PMEG4005 2 5 6 R501 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K502 D2 D3 11 10 C504 0805 100nF 1 C503 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T501 COMP Matthias Melzer 2 1 1210 10uF C510 0805 22uF 1 +3V3 2.2k R507 1 C501 C509 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1.96k D1 2 10uH C508 0.018 R506 C511 2 +3V3 R505 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 8 GND 2 0805 1 GND 2 0805 1 10uF C514 10uF C512 9 2 0603 1 2 0603 1 100nF C515 100nF C513 GND +1V5 6 7 POWER_SUPPLY 8 9 10 C16 G11 G12 G8 H10 J10 J11 K9 L7 M7 M8 P1 T18 V5 V9 H12 H8 K11 G1 H11 H9 J8 K10 K7 L8 F11 F13 F6 G6 J13 J6 L13 L6 M6 N12 F8 F9 H13 K6 N10 F7 M13 N11 N13 N7 N8 F10 F12 G13 N6 N9 H6 K13 T16 R16 J18 J17 T10 T12 10 PROFINET FIBER OPTIC FAST STARTUP R510 1.8k R509 GND GND 2 G C505 0805 10uF 1 3 FDC5612 K501 D2 D3 6 1206 A 1 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VSS_47 VSS_48 VSS_49 VSS_50 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 11 MICRO-NETX52-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 K101-I netX52 11 L9 M9 N3 U1 U9 V14 V17 V2 B1 F16 G10 G7 G9 J1 J12 J7 J9 K8 V18 C5 H7 M10 M11 K12 J16 C14 C3 E2 K1 V4 C4 E1 P3 T3 T9 U17 E16 L2 D17 T11 U14 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C521 100nF C519 100nF C517 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C520 10uF C518 10uF C516 13 14 Page of Page 14 5 5 J I H G F E D C B A Quick Start 192/334 © Hilscher, 2008-2013 Quick Start 193/334 Bill of Material Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory W25Q32VSSIG C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM7-25.000MHZ-D2Y-T K101 Microcontroller netX52 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R112 Resistor 10kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 R115 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin Page 2 netX 52 from Page 1 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 194/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 10µF 10V 0805 C305 Ceramic Capacitor 100nF 25V 0603 C306 Ceramic Capacitor 10µF 10V 0805 C307 Ceramic Capacitor 100nF 25V 0603 C308 Ceramic Capacitor 10µF 10V 0805 C309 Ceramic Capacitor 100nF 25V 0603 C310 Ceramic Capacitor 10µF 10V 0805 K301 Schmitt Trigger NC7SZ14P5 K302 Schmitt Trigger NC7SZ14P5 K303 Driver SY89323LMGTR K304 Driver SY89323LMGTR K305 Driver SY89322VMGTR R301 Feritte 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R302 Feritte 100MHz 600Ω 1A 1206 Würth Elektronik part no. 74279218 R303 Resistor 12.4kΩ 63mW 0603 R304 Resistor 82Ω 63mW 0603 R305 Resistor 130Ω 63mW 0603 R306 Resistor 4.7kΩ 63mW 0603 R307 Resistor 4.7kΩ 63mW 0603 R308 Resistor 4.7kΩ 63mW 0603 R308 Resistor 4.7kΩ 63mW 0603 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µF 10V 0805 Page 4 C402 Ceramic Capacitor 100nF 25V 0603 C403 Ceramic Capacitor 10µF 10V 0805 C404 Ceramic Capacitor 100nF 25V 0603 C405 Ceramic Capacitor 100nF 25V 0603 C406 Ceramic Capacitor 10µF 10V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 10µF 10V 0805 C409 Ceramic Capacitor 100nF 25V 0603 C410 Ceramic Capacitor 100nF 25V 0603 P401 LED red / green HSMF-C155 P402 LED red / green HSMF-C155 P403 LED red / green HSMF-C155 P404 LED red / green HSMF-C155 R401 Resistor 130Ω 63mW 0603 R402 Resistor 130Ω 63mW 0603 R403 Resistor 130Ω 63mW 0603 R404 Resistor 82Ω 63mW 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 195/334 REF DES PART TYPE PART NAME R405 Resistor 82Ω 63mW 0603 R406 Resistor 82Ω 63mW 0603 R407 Resistor 82Ω 63mW 0603 R408 Resistor 82Ω 63mW 0603 R409 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R410 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R411 Resistor 270Ω 63mW 0603 R412 Resistor 470Ω 63mW 0603 R413 Resistor 270Ω 63mW 0603 R414 Resistor 270Ω 63mW 0603 R415 Resistor 130Ω 63mW 0603 R416 Resistor 130Ω 63mW 0603 R417 Resistor 130Ω 63mW 0603 R418 Resistor 82Ω 63mW 0603 R419 Resistor 82Ω 63mW 0603 R420 Resistor 82Ω 63mW 0603 R421 Resistor 82Ω 63mW 0603 R422 Resistor 82Ω 63mW 0603 R423 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R424 Inductor 1µH 600mA EPCOS part no. B82432A1102K000 R425 Resistor 270Ω 63mW 0603 R426 Resistor 470Ω 63mW 0603 R427 Resistor 270Ω 63mW 0603 R428 Resistor 270Ω 63mW 0603 X401 Transceiver Avago QFBR-5978AZ X402 Transceiver Avago QFBR-5978AZ Page 5 REF DES PART TYPE PART NAME C501 Ceramic Capacitor 10µ 50V 1210 C502 Ceramic Capacitor 10µ 50V 1210 C503 Ceramic Capacitor 10µ 50V 1210 C504 Ceramic Capacitor 100nF 50V 0805 C505 Ceramic Capacitor 10µF 10V 0805 C506 Ceramic Capacitor 100nF 50V 0805 C507 Ceramic Capacitor 100nF 25V 0603 C508 Ceramic Capacitor 22µF 6.3V 0805 C509 Ceramic Capacitor 2.2nF 50V 0603 C510 Ceramic Capacitor 22µF 6.3V 0805 C511 Ceramic Capacitor 22µF 6.3V 0805 C512 Ceramic Capacitor 10µF 10V 0805 C513 Ceramic Capacitor 100nF 25V 0603 C514 Ceramic Capacitor 10µF 10V 0805 C515 Ceramic Capacitor 100nF 25V 0603 C516 Ceramic Capacitor 10µF 10V 0805 C517 Ceramic Capacitor 100nF 25V 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 196/334 REF DES PART TYPE PART NAME C518 Ceramic Capacitor 10µF 10V 0805 C519 Ceramic Capacitor 100nF 25V 0603 C520 Ceramic Capacitor 10µF 10V 0805 C521 Ceramic Capacitor 100nF 25V 0603 K501 Transistor FDC5612 K502 Transistor FDC5612 R501 Diode PMEG4005AEV R502 Diode PMEG4005AEV R503 Resistor 4.7kΩ 63mW 0603 R504 Resistor 1.5kΩ 63mW 0603 R505 Inductor sumida CDRH8D43-100 R506 Resistor 0.018Ω 250mW 1206 R507 Resistor 2.2kΩ 63mW 0603 R508 Inductor sumida CR32NP-3R3M R509 Resistor 1.8kΩ 63mW 0603 R510 Resistor 1.96kΩ63mW 0603 T501 Step-Down Micrel MIC2198YML T502 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D Edited 1 Date Name RESETIN# 3 MR 24.01.2013 Matthias Melzer 2 1 22pF 2 GND 1 4 3 GND VCC RESET MAX811SEUS-T >= 2.93V Q101 1 GND 2 +3V3 4 www.hilscher.com 5 OSC_XTO BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI C1 T8 T7 J3 M3 K3 H1 H3 1 2 RDY RUN 1.5k USB_DNEG USB_DPOS CORE CANopen MICRO-NETX52-2231.000 USB_VDDC USB_VDDIO K101-G MICRO-NETX52-2231.000 QSPI_SIO3 QSPI_SIO2 7 U6 V6 V15 T14 +3V3 USB_DNEG USB_DPOS 1 2 8 10k 8 1 2 VCC ROM 1k C107 8 RDY RUN 3 4 X102 2 1 0603 390 390 0603 R1092 1 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 GND 2 11 GND +3V3 12 RDY/RUN LED SEC. MEM C108 0603 100nF 1 +3V3 10 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU 9 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10 2 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 DD+ 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R115 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R114 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R113 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R115 R114 open 13 R113 Host Interace boot configuration 1.5k R111 R112 +3V3 R110 T15 SPI_MISO SPI0_MISO/QSPI_SIO1 U16 SPI_MOSI SPI0_MOSI/QSPI_SIO0 V16 SPI_CLK SPI0_CLK/QSPI_CLK U15 SPI_CS0# SPI0_CS0#/QSPI_CS# K101-F MICRO-NETX52-2231.000 6 D1 H16 I2C_SDA H18 I2C_SCL K101-D MICRO-NETX52-2231.000 JT_TDI JT_TDO JT_TMS JT_TCLK JT_TRSTn K101-E MICRO-NETX52-2231.000 POR# F1 RDY F2 RUN RSTOUT K101-A netX52 7 0603 6 V7 OSC_VDDC U7 OSC_VSS V8 E3 F3 G3 G2 B10 U8 C104 GND POR# 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH GND 2 GND C103 2 3 0603 100nF 2 POR# 1 4 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 2 C106 22pF 0603 C 1 0603 C105 5 0603 0603 4 0603 3 0603 B 2 0603 J I H G F E D C B A 2.3.5 SPI_MISO A 1 Quick Start 197/334 AS-Interface © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited SD_CLK SD_CLK Date Name Date Name SD_WE# SD_CKE MII2_RXD0 SD_CLK SD_WE# SD_CKE Matthias Melzer 2 22.11.2012 3 MICRO-NETX52-2231.000 SD_CS# SD_D14 SD_D15 6 MII_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MII1_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MICRO-NETX52-2231.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K MII1_RXDV 7 4 www.hilscher.com 5 MICRO-NETX52-2231.000 MMIO08 MMIO09 MMIO10 MMIO11 K101-L netX52 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 8/16 Bit DPM N2 P2 R1 T1 DPM_BE1# DPM_BE3# DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_D16 DPM_D17 DPM_D18 DPM_D19 DPM_D20 DPM_D21 DPM_D22 DPM_D23 DPM_D24 DPM_D25 DPM_D26 DPM_D27 DPM_D28 DPM_D29 DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_BE0# DPM_BE2# DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 32 Bit DPM 8 PIO43 PIO44 PIO51 PIO52 PIO45 PIO46 PIO47 PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 PIO36 PIO35 PIO40 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 MMIO16 MMIO17 MMIO18 MMIO19 K101-N MICRO-NETX52-2231.000 HIF_BHE1 HIF_BHE3 HIF_CS# HIF_RD# HIF_WR# HIF_RDY HIF_DIRQ HIF_SDCLK HIF_D16 HIF_D17 HIF_D18 HIF_D19 HIF_D20 HIF_D21 HIF_D22 HIF_D23 HIF_D24 HIF_D25 HIF_D26 HIF_D27 HIF_D28 HIF_D29 HIF_D30 HIF_D31 HIF_D00 HIF_D01 HIF_D02 HIF_D03 HIF_D04 HIF_D05 HIF_D06 HIF_D07 HIF_D08 HIF_D09 HIF_D10 HIF_D11 HIF_D12 HIF_D13 HIF_D14 HIF_D15 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 K101-C HIF_A00 HIF_A01 HIF_A02 HIF_A03 HIF_A04 HIF_A05 HIF_A06 HIF_A07 HIF_A08 HIF_A09 HIF_A10 HIF_A11 HIF_A12 HIF_A13 HIF_A14 HIF_A15 HIF_A16 HIF_A17 MICRO-NETX52-2231.000 A16 B16 A15 B15 B14 C15 D16 C8 G17 F18 E18 E17 C12 C11 A11 C10 A9 A8 A6 B7 A2 A4 D3 H17 A1 C2 D2 B3 B4 B2 A5 B5 G18 G16 F17 D18 C18 B18 C17 B17 A3 B6 C6 C7 B8 A7 B9 C9 C13 A10 B12 A14 B13 A13 A12 B11 A17 A18 netX52 9 6 7 8 9 HOST_INTERFACE/ETHERNET/MMIO AS-Interface L1 M1 M2 N1 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# MII1_TXER MII1_RXDV DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 MII1_COL MII1_CRS 8/16 Bit DPM + MII MII1_TXER SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SPI DPM + MII Hilscher Gesellschaft für Systemautomatiom mbH T13 U10 U11 U12 U13 V10 V11 V12 V13 SD_DQM1 MII2_RXDV SD_CS# SD_DQM1 SD_DQM1 SD_DQM3 SD_CS# SD_DQM2 SD_WE# SD_CKE SD_D12 SD_D13 SD_D08 SD_D09 SD_D10 SD_D11 MII2_TXCLK MII2_TXD0 MII2_TXD1 MII2_TXD2 MII2_TXD3 MII2_TXEN SD_D12 SD_D13 MII2_RXCLK MII2_RXER SD_D14 SD_D15 SD_D08 SD_D09 SD_D10 SD_D11 N.C._1 N.C._2 N.C._3 N.C._4 N.C._5 N.C._6 N.C._7 N.C._8 N.C._9 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 MII2_COL MII2_CRS MII2_TXER MII2_DIO/MMIO43 MII2_MDC/MMIO44 MII2_RXD1 MII2_RXD2 MII2_RXD3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SD_D16 SD_D17 SD_D18 SD_D19 SD_D26 SD_D27 SD_D30 SD_D31 K101-H SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_D08 SD_D09 SD_D10 SD_D11 SD_D20 SD_D21 SD_D22 SD_D23 SD_D24 SD_D25 SD_D12 SD_D13 SD_D28 SD_D29 SD_D14 SD_D15 5 Signals at the different Host Interface Modes 4 SPI DPM + 16 Bit SDRAM MII + 16 Bit SDRAM 3 32 Bit SDRAM 2 T4 V1 U4 U3 10 10 P18 U18 +1V5 R17 L18 PHY1_RXN K17 MICRO-NETX52-2231.000 TXD2 RTS2 RXD2 CTS2 V3 U5 T5 T6 12 N17 PHY_EXTRES N16 PHY_ATP 1 L12 GND PHY1_VSSAR M18 GND PHY1_VSSAT1 M17 GND PHY1_VSSAT2 0603 12.4k R3092 K16 +1V5 L17 PHY1_TXN K18 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR L10 GND PHY0_VSSAT1 L11 GND PHY0_VSSAT2 PHY0_RXN P17 PHY0_TXN R18 PHY0_RXP PHY0_TXP PHY0_VDDCART K101-O 11 M16 +1V5 M12 GND PHY_VSSAT L16 GND PHY_VSSACP PHY_VDDCAP MICRO-NETX52-2231.000 MMIO21 MMIO23 MMIO20 MMIO22 12 T17 +3V3 PHY_VDDIOAT N18 +3V3 PHY_VDDIOAC K101-B netX52 11 UART0 A 1 GND 2 0603 1 +3V3 13 100nF C201 13 2 0603 1 100nF C202 14 Page of Page +1V5 14 4 2 J I H G F E D C B A Quick Start 198/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B XM0_RX XM0_TX XM0_ECLK XM0_IO0 COM0_G# COM0_R# COM1_G# COM0_R# 1 Checked Edited Date Name Date Name MICRO-NETX52-2231.000 MMIO12 MMIO13 MMIO14 MMIO15 K101-M MICRO-NETX52-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX52 ASI_STA ASI_ERR ASI_PF ASI_RX ASI_TX 2 22.11.2012 470 0603 3 VDD2 green 1210 4 4 www.hilscher.com 5 C302 6 1 2 2 C303 1 2 2 10k R302 0603 100nF 1 7 C304 1 2 2 10k R303 0805 100nF 1 6 7 AS-INTERFACE AS-Interface 100k R301 0805 10uF 1 Hilscher Gesellschaft für Systemautomatiom mbH +3V3_ASI ADUM1301CRW ISOLATOR-ADUM1301CRW VIC VIB 3 7 VE1 5 VOC 13 VOB 10 VE2 12 1 2 GND1-1 8 GND1-2 VDD1 VIA K301 VOA 14 9 GND2-1 15 GND2-2 16 3 red 1 LEDSRG 4 R3152 1 270 2 0603 P301 R3142 1 2 GND Matthias Melzer R2 U2 T2 R3 H2 K2 J2 L3 C301 0603 100nF 1 +3V3_ASI ISO-AREA 5 0603 4 0603 3 0603 A 2 8 ISOTX1 ISORX1 10k 0603 R3041 2 2 VOUTC1 C305 Tantal 22uF 1 V5AC1 8 FID1 9 22 21 16 15 14 13 5 4 24 K302 VOUTC1 2 1 6 7 28 25 CAP 3 0V 12 GND ASIN ASIP OSC2 OSC1 UIN 10 10 ASI4CU-E-M DRIVER-ASI4CU-E-M DSR PST P0 P1 P2 P3 FID TXD/IRD RXD/LED 11 DO0 10 DO1 9 DO2 8 DO3 17 DI0 18 DI1 19 DI2 20 DI3 23 U5RD 26 U5R 27 UOUT 9 8MHz ASI-C_1 ASI+IN_1 3 1 1 ASI+IN1 11 2 12 R308 BZG03C39 1 1 2 1 2 1 2 2 12.4k X301 1 2 14 2 C306 13 0603 10nF 1 14 Page of Page Ref.-Spg = 2.0V Schaltschwelle: 22.5V (+/-1V) ASI2+ < 21.5V Bus-Off Mode Kommunikations Mode R313 1k 1 4 0.470mH 2 3 R1 13 R312ASI2+ > 23.5V 22k R311 LL4148L R310 1N4004-SMD 2 1 LL4148L 2 1 SOD 80 R307 2 12 R306 RS-CM7050-8 4.7μH G301 1 R305 11 SOD 80 0603 0603 0603 1 4 3 J I H G F E D C B A Quick Start 199/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 22.11.2012 2 2 GND1 9 C402 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C407 1 2 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 7 6 7 POWER_SUPPLY AS-Interface R410 1.8k R409 GND GND 2 G C405 3 FDC5612 6 K401 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 COMP Matthias Melzer 2 1 1210 10uF C410 0805 22uF 1 +3V3 2.2k R407 1 C401 C409 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF C414 10uF C412 9 9 2 0603 1 2 0603 1 100nF C415 100nF C413 C16 G11 G12 G8 H10 J10 J11 K9 L7 M7 M8 P1 T18 V5 V9 H12 H8 K11 G1 H11 H9 J8 K10 K7 L8 F11 F13 F6 G6 J13 J6 L13 L6 M6 N12 F8 F9 H13 K6 N10 F7 M13 N11 N13 N7 N8 F10 F12 G13 N6 N9 H6 K13 T16 R16 J18 J17 T10 T12 10 GND +1V5 10 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VSS_47 VSS_48 VSS_49 VSS_50 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 11 MICRO-NETX52-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 K101-I netX52 11 L9 M9 N3 U1 U9 V14 V17 V2 B1 F16 G10 G7 G9 J1 J12 J7 J9 K8 V18 C5 H7 M10 M11 K12 J16 C14 C3 E2 K1 V4 C4 E1 P3 T3 T9 U17 E16 L2 D17 T11 U14 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C421 100nF C419 100nF C417 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C420 10uF C418 10uF C416 13 14 Page of Page 14 4 4 J I H G F E D C B A Quick Start 200/334 © Hilscher, 2008-2013 Quick Start 201/334 Bill of Material Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM7-25.000MHZ-D2Y-T K101 Microcontroller netX52 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R112 Resistor 10kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 R115 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 Ceramic Capacitor 100nF 25V 0603 C202 Ceramic Capacitor 100nF 25V 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 202/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 10µF 10V 0805 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 100nF 50V0805 C305 Tantal Capacitor Epcos B45197A6226+509 C306 Ceramic Capacitor 10nF 50V 0603 G301 Crystal RSG Electronic Components GmbH RS-CM7050-8 K301 Triple-Channel Digital Idolator Analog Devices ADUM1301CRW K302 Driver Zentrum Mikroelektronik Dresden ZMD ASI4UC-E-M P301 LED red / green HSMF-C155 R301 Resistor 100kΩ 63mW 0603 R302 Resistor 10kΩ 63mW 0603 R303 Resistor 10kΩ 63mW 0603 R304 Resistor 10kΩ 63mW 0603 R305 AS-Interface Choke Würth Elektronik Part-No. 744775347 R306 Diode Vishay Part-No. LL4148L R307 Diode 1N4004 R308 Zener Diode Vishay Part-No. BZG03C39 R309 Double Chokes Epcos Part-No. B82790C0474N215 R310 Diode Vishay Part-No. LL4148L R311 Resistor 22kΩ 63mW 0603 R312 Resistor 1kΩ 63mW 0603 R313 Resistor 12.4kΩ 63mW 0603 R314 Resistor 270Ω 63mW 0603 R315 Resistor 470Ω 63mW 0603 X301 Connector Phoenix Contact MC 1,5/ 2-G-3,81 part no 1803277 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 203/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D Edited 1 Date Name RESETIN# 3 MR 24.01.2013 Matthias Melzer 2 1 22pF 2 GND 1 4 3 GND VCC RESET MAX811SEUS-T >= 2.93V Q101 1 GND 2 +3V3 4 www.hilscher.com 5 OSC_XTO BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI C1 T8 T7 J3 M3 K3 H1 H3 1 2 RDY RUN 1.5k USB_DNEG USB_DPOS CORE CANopen MICRO-NETX52-2231.000 USB_VDDC USB_VDDIO K101-G MICRO-NETX52-2231.000 QSPI_SIO3 QSPI_SIO2 7 U6 V6 V15 T14 +3V3 USB_DNEG USB_DPOS 1 2 8 10k 8 1 2 VCC ROM 1k C107 8 RDY RUN 3 4 X102 2 1 0603 390 390 0603 R1092 1 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 GND 2 11 GND +3V3 12 RDY/RUN LED SEC. MEM C108 0603 100nF 1 +3V3 10 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU 9 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10 2 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 DD+ 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R115 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R114 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R113 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R115 R114 open 13 R113 Host Interace boot configuration 1.5k R111 R112 +3V3 R110 T15 SPI_MISO SPI0_MISO/QSPI_SIO1 U16 SPI_MOSI SPI0_MOSI/QSPI_SIO0 V16 SPI_CLK SPI0_CLK/QSPI_CLK U15 SPI_CS0# SPI0_CS0#/QSPI_CS# K101-F MICRO-NETX52-2231.000 6 D1 H16 I2C_SDA H18 I2C_SCL K101-D MICRO-NETX52-2231.000 JT_TDI JT_TDO JT_TMS JT_TCLK JT_TRSTn K101-E MICRO-NETX52-2231.000 POR# F1 RDY F2 RUN RSTOUT K101-A netX52 7 0603 6 V7 OSC_VDDC U7 OSC_VSS V8 E3 F3 G3 G2 B10 U8 C104 GND POR# 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH GND 2 GND C103 2 3 0603 100nF 2 POR# 1 4 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 2 C106 22pF 0603 C 1 0603 C105 5 0603 0603 4 0603 3 0603 B 2 0603 J I H G F E D C B A 2.3.6 SPI_MISO A 1 Quick Start 204/334 CANopen © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited SD_CLK SD_CLK Date Name Date Name SD_WE# SD_CKE MII2_RXD0 SD_CLK SD_WE# SD_CKE Matthias Melzer 2 22.11.2012 3 MICRO-NETX52-2231.000 SD_CS# SD_D14 SD_D15 6 MII_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MII1_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MICRO-NETX52-2231.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K MII1_RXDV 7 4 www.hilscher.com 5 MMIO08 MMIO09 MMIO10 MMIO11 K101-L netX52 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 8/16 Bit DPM MICRO-NETX52-2231.000 N2 P2 R1 T1 DPM_BE1# DPM_BE3# DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_D16 DPM_D17 DPM_D18 DPM_D19 DPM_D20 DPM_D21 DPM_D22 DPM_D23 DPM_D24 DPM_D25 DPM_D26 DPM_D27 DPM_D28 DPM_D29 DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_BE0# DPM_BE2# DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 32 Bit DPM 8 PIO43 PIO44 PIO51 PIO52 PIO45 PIO46 PIO47 PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 PIO36 PIO35 PIO40 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 MMIO16 MMIO17 MMIO18 MMIO19 K101-N MICRO-NETX52-2231.000 HIF_BHE1 HIF_BHE3 HIF_CS# HIF_RD# HIF_WR# HIF_RDY HIF_DIRQ HIF_SDCLK HIF_D16 HIF_D17 HIF_D18 HIF_D19 HIF_D20 HIF_D21 HIF_D22 HIF_D23 HIF_D24 HIF_D25 HIF_D26 HIF_D27 HIF_D28 HIF_D29 HIF_D30 HIF_D31 HIF_D00 HIF_D01 HIF_D02 HIF_D03 HIF_D04 HIF_D05 HIF_D06 HIF_D07 HIF_D08 HIF_D09 HIF_D10 HIF_D11 HIF_D12 HIF_D13 HIF_D14 HIF_D15 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 K101-C HIF_A00 HIF_A01 HIF_A02 HIF_A03 HIF_A04 HIF_A05 HIF_A06 HIF_A07 HIF_A08 HIF_A09 HIF_A10 HIF_A11 HIF_A12 HIF_A13 HIF_A14 HIF_A15 HIF_A16 HIF_A17 MICRO-NETX52-2231.000 A16 B16 A15 B15 B14 C15 D16 C8 G17 F18 E18 E17 C12 C11 A11 C10 A9 A8 A6 B7 A2 A4 D3 H17 A1 C2 D2 B3 B4 B2 A5 B5 G18 G16 F17 D18 C18 B18 C17 B17 A3 B6 C6 C7 B8 A7 B9 C9 C13 A10 B12 A14 B13 A13 A12 B11 A17 A18 netX52 9 6 7 8 9 HOST_INTERFACE/ETHERNET/MMIO CANopen L1 M1 M2 N1 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# MII1_TXER MII1_RXDV DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 MII1_COL MII1_CRS 8/16 Bit DPM + MII MII1_TXER SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SPI DPM + MII Hilscher Gesellschaft für Systemautomatiom mbH T13 U10 U11 U12 U13 V10 V11 V12 V13 SD_DQM1 MII2_RXDV SD_CS# SD_DQM1 SD_DQM1 SD_DQM3 SD_CS# SD_DQM2 SD_WE# SD_CKE SD_D12 SD_D13 SD_D08 SD_D09 SD_D10 SD_D11 MII2_TXCLK MII2_TXD0 MII2_TXD1 MII2_TXD2 MII2_TXD3 MII2_TXEN SD_D12 SD_D13 MII2_RXCLK MII2_RXER SD_D14 SD_D15 SD_D08 SD_D09 SD_D10 SD_D11 N.C._1 N.C._2 N.C._3 N.C._4 N.C._5 N.C._6 N.C._7 N.C._8 N.C._9 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 MII2_COL MII2_CRS MII2_TXER MII2_DIO/MMIO43 MII2_MDC/MMIO44 MII2_RXD1 MII2_RXD2 MII2_RXD3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SD_D16 SD_D17 SD_D18 SD_D19 SD_D26 SD_D27 SD_D30 SD_D31 K101-H SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_D08 SD_D09 SD_D10 SD_D11 SD_D20 SD_D21 SD_D22 SD_D23 SD_D24 SD_D25 SD_D12 SD_D13 SD_D28 SD_D29 SD_D14 SD_D15 5 Signals at the different Host Interface Modes 4 SPI DPM + 16 Bit SDRAM MII + 16 Bit SDRAM 3 32 Bit SDRAM 2 T4 V1 U4 U3 10 10 P18 U18 +1V5 R17 L18 PHY1_RXN K17 MICRO-NETX52-2231.000 TXD2 RTS2 RXD2 CTS2 V3 U5 T5 T6 12 N17 PHY_EXTRES N16 PHY_ATP 1 L12 GND PHY1_VSSAR M18 GND PHY1_VSSAT1 M17 GND PHY1_VSSAT2 0603 12.4k R3092 K16 +1V5 L17 PHY1_TXN K18 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR L10 GND PHY0_VSSAT1 L11 GND PHY0_VSSAT2 PHY0_RXN P17 PHY0_TXN R18 PHY0_RXP PHY0_TXP PHY0_VDDCART K101-O 11 M16 +1V5 M12 GND PHY_VSSAT L16 GND PHY_VSSACP PHY_VDDCAP MICRO-NETX52-2231.000 MMIO21 MMIO23 MMIO20 MMIO22 12 T17 +3V3 PHY_VDDIOAT N18 +3V3 PHY_VDDIOAC K101-B netX52 11 UART0 A 1 GND 2 0603 1 +3V3 13 100nF C201 13 2 0603 1 100nF C202 14 Page of Page +1V5 14 4 2 J I H G F E D C B A Quick Start 205/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C 1 Date Name Date Name MICRO-NETX52-2231.000 R2 CO_STA U2 CO_ERR T2 R3 GND +3V3 H2 CO_RX K2 CO_TX J2 L3 2 22.11.2012 1 470 3 270 470 0603 1 green 1210 6 7 5 8 3 2 1 2 +3V3 VO VE GND VCC CAT ANO T301 HCPL060L & K302 HCPL0601 & K301 5V DC 0 OUT PSD-3R305S 0 IN 4 5 CAT ANO 4 www.hilscher.com 5 VO VE GND VCC 1 2 C301 2 6 CAN 7 C306 0805 22uF 1 470 0603 R3042 ISOGND_CAN 1 7 ISO+5V_CAN 0603 100nF ISO+5V_CAN 6 CANopen 3 2 6 7 5 8 ISO-AREA + 3,3V DC + 5 Hilscher Gesellschaft für Systemautomatiom mbH 3 red LEDSRG DIODE-LED-LEDSRG-1210 4 R3102 1 0603 C305 P301 2 C302 270 0603 100nF 1 2 R301 0805 22uF 1 2 R1 1 2 GND 2 1 1 2 0805 Z=1000 Ohm @100MHz R308 1 R307 2 R303 +3V3 2 0805 Z=1000 Ohm @100MHz Matthias Melzer COM0_G# COM0_R# COM1_G# COM0_R# K101-M MMIO12 MMIO13 MMIO14 MMIO15 Checked Edited XM0_RX XM0_TX XM0_ECLK XM0_IO0 MICRO-NETX52-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX52 +3V3 4 0603 B 3 0603 1 3 8 1 EN VIN 2 GND 1 TXD 4 RXD 5 V_REF 8 RS 8 NCP500SN50T1 VOUT 5 ISOGND_CAN 470 T302 2 R302 ISO+5V_CAN 0603 A 2 2 9 GND VCC 2 3 10 2 ISOGND_CAN ISOGND_CAN 10 C303 0603 100nF 1 ISO+5V_CAN ISO+5V_CAN 7 CANH 6 CANL C307 0805 10uF 1 PCA82C251T K303 9 11 1 11 3 2 ISOGND_CAN 1 12 2 1M R306 PESD1CAN R305 12 2010 1 1 2 13 C304 1808 15nF PE 14 Page of Page CAN-L X301 14 1 1 2 2 3 3 4 4 5 5 6 ISOGND_CAN 6 7 CAN-H 7 8 8 9 9 10 SHIELD1 11 SHIELD2 XDCP9SW-6MM 13 4 3 J I H G F E D C B A Quick Start 206/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 22.11.2012 2 2 GND1 9 C402 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C407 1 2 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 6 7 POWER_SUPPLY +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 CANopen R410 1.8k R409 GND GND 2 G C405 3 FDC5612 6 K401 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 COMP Matthias Melzer 2 1 1210 10uF C410 0805 22uF 1 +3V3 2.2k R407 1 C401 C409 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF C414 10uF C412 9 9 2 0603 1 2 0603 1 100nF C415 100nF C413 C16 G11 G12 G8 H10 J10 J11 K9 L7 M7 M8 P1 T18 V5 V9 H12 H8 K11 G1 H11 H9 J8 K10 K7 L8 F11 F13 F6 G6 J13 J6 L13 L6 M6 N12 F8 F9 H13 K6 N10 F7 M13 N11 N13 N7 N8 F10 F12 G13 N6 N9 H6 K13 T16 R16 J18 J17 T10 T12 10 GND +1V5 10 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VSS_47 VSS_48 VSS_49 VSS_50 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 11 MICRO-NETX52-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 K101-I netX52 11 L9 M9 N3 U1 U9 V14 V17 V2 B1 F16 G10 G7 G9 J1 J12 J7 J9 K8 V18 C5 H7 M10 M11 K12 J16 C14 C3 E2 K1 V4 C4 E1 P3 T3 T9 U17 E16 L2 D17 T11 U14 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C421 100nF C419 100nF C417 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C420 10uF C418 10uF C416 13 14 Page of Page 14 4 4 J I H G F E D C B A Quick Start 207/334 © Hilscher, 2008-2013 Quick Start 208/334 Bill of Material Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM7-25.000MHZ-D2Y-T K101 Microcontroller netX52 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R106 Resistor 560Ω 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 390Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 1.5kΩ 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R112 Resistor 10kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 R115 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 Ceramic Capacitor 100nF 25V 0603 C202 Ceramic Capacitor 100nF 25V 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 209/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 100nF 25V 0603 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 15nF 1000V 1808 C305 Ceramic Capacitor 22µF 6.3V 0805 C306 Ceramic Capacitor 22µF 6.3V 0805 C307 Ceramic Capacitor 10µF 10V 0805 K301 Optocoupler HCPL0601 K302 Optocoupler HCPL060L K303 CAN transceiver PCA82C251T P301 LED red / green HSMF-C155 R301 Resistor 270Ω 63mW 0603 R302 Resistor 470Ω 63mW 0603 R303 Resistor 470Ω 63mW 0603 R304 Resistor 470Ω 63mW 0603 R305 EDS protection diode PESD1CAN R306 Resistor RKRS1MW500M-2010 R307 Ferrite Würth Elektronik part no. 74279207 R308 Ferrite Würth Elektronik part no. 74279207 R309 Resistor 270Ω 63mW 0603 R310 Resistor 470Ω 63mW 0603 T301 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T302 Voltage Regulator NCP500SN50T1 X301 D-Sub9 Male SUYIN USA part no. 070211MR009G200ZU netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 210/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D Edited 1 Date Name RESETIN# 3 MR 24.01.2013 Matthias Melzer 2 1 22pF 2 GND 1 4 3 GND VCC RESET MAX811SEUS-T >= 2.93V Q101 1 GND 2 +3V3 4 www.hilscher.com 5 OSC_XTO BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI C1 T8 T7 J3 M3 K3 H1 H3 1 2 RDY RUN 1.5k USB_DNEG USB_DPOS CORE CC-Link MICRO-NETX52-2231.000 USB_VDDC USB_VDDIO K101-G MICRO-NETX52-2231.000 QSPI_SIO3 QSPI_SIO2 7 U6 V6 V15 T14 +3V3 USB_DNEG USB_DPOS 1 2 8 10k 8 1 2 VCC ROM 1k C107 8 RDY RUN 3 4 X102 2 1 0603 390 390 0603 R1092 1 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 GND 2 11 GND +3V3 12 RDY/RUN LED SEC. MEM C108 0603 100nF 1 +3V3 10 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU 9 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10 2 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 DD+ 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R115 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R114 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R113 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R115 R114 open 13 R113 Host Interace boot configuration 1.5k R111 R112 +3V3 R110 T15 SPI_MISO SPI0_MISO/QSPI_SIO1 U16 SPI_MOSI SPI0_MOSI/QSPI_SIO0 V16 SPI_CLK SPI0_CLK/QSPI_CLK U15 SPI_CS0# SPI0_CS0#/QSPI_CS# K101-F MICRO-NETX52-2231.000 6 D1 H16 I2C_SDA H18 I2C_SCL K101-D MICRO-NETX52-2231.000 JT_TDI JT_TDO JT_TMS JT_TCLK JT_TRSTn K101-E MICRO-NETX52-2231.000 POR# F1 RDY F2 RUN RSTOUT K101-A netX52 7 0603 6 V7 OSC_VDDC U7 OSC_VSS V8 E3 F3 G3 G2 B10 U8 C104 GND POR# 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH GND 2 GND C103 2 3 0603 100nF 2 POR# 1 4 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 2 C106 22pF 0603 C 1 0603 C105 5 0603 0603 4 0603 3 0603 B 2 0603 J I H G F E D C B A 2.3.7 SPI_MISO A 1 Quick Start 211/334 CC-Link © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited SD_CLK SD_CLK Date Name Date Name SD_WE# SD_CKE MII2_RXD0 SD_CLK SD_WE# SD_CKE Matthias Melzer 2 22.11.2012 3 MICRO-NETX52-2231.000 SD_CS# SD_D14 SD_D15 6 MII_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MII1_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MICRO-NETX52-2231.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K MII1_RXDV 4 www.hilscher.com 5 7 MICRO-NETX52-2231.000 MMIO08 MMIO09 MMIO10 MMIO11 K101-L netX52 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 8/16 Bit DPM N2 P2 R1 T1 DPM_BE1# DPM_BE3# DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_D16 DPM_D17 DPM_D18 DPM_D19 DPM_D20 DPM_D21 DPM_D22 DPM_D23 DPM_D24 DPM_D25 DPM_D26 DPM_D27 DPM_D28 DPM_D29 DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_BE0# DPM_BE2# DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 32 Bit DPM 8 PIO43 PIO44 PIO51 PIO52 PIO45 PIO46 PIO47 PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 PIO36 PIO35 PIO40 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 MMIO16 MMIO17 MMIO18 MMIO19 K101-N MICRO-NETX52-2231.000 HIF_BHE1 HIF_BHE3 HIF_CS# HIF_RD# HIF_WR# HIF_RDY HIF_DIRQ HIF_SDCLK HIF_D16 HIF_D17 HIF_D18 HIF_D19 HIF_D20 HIF_D21 HIF_D22 HIF_D23 HIF_D24 HIF_D25 HIF_D26 HIF_D27 HIF_D28 HIF_D29 HIF_D30 HIF_D31 HIF_D00 HIF_D01 HIF_D02 HIF_D03 HIF_D04 HIF_D05 HIF_D06 HIF_D07 HIF_D08 HIF_D09 HIF_D10 HIF_D11 HIF_D12 HIF_D13 HIF_D14 HIF_D15 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 K101-C HIF_A00 HIF_A01 HIF_A02 HIF_A03 HIF_A04 HIF_A05 HIF_A06 HIF_A07 HIF_A08 HIF_A09 HIF_A10 HIF_A11 HIF_A12 HIF_A13 HIF_A14 HIF_A15 HIF_A16 HIF_A17 MICRO-NETX52-2231.000 A16 B16 A15 B15 B14 C15 D16 C8 G17 F18 E18 E17 C12 C11 A11 C10 A9 A8 A6 B7 A2 A4 D3 H17 A1 C2 D2 B3 B4 B2 A5 B5 G18 G16 F17 D18 C18 B18 C17 B17 A3 B6 C6 C7 B8 A7 B9 C9 C13 A10 B12 A14 B13 A13 A12 B11 A17 A18 netX52 9 6 7 8 9 HOST_INTERFACE/ETHERNET/MMIO CC-Link L1 M1 M2 N1 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# MII1_TXER MII1_RXDV DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 MII1_COL MII1_CRS 8/16 Bit DPM + MII MII1_TXER SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SPI DPM + MII Hilscher Gesellschaft für Systemautomatiom mbH T13 U10 U11 U12 U13 V10 V11 V12 V13 SD_DQM1 MII2_RXDV SD_CS# SD_DQM1 SD_DQM1 SD_DQM3 SD_CS# SD_DQM2 SD_WE# SD_CKE SD_D12 SD_D13 SD_D08 SD_D09 SD_D10 SD_D11 MII2_TXCLK MII2_TXD0 MII2_TXD1 MII2_TXD2 MII2_TXD3 MII2_TXEN SD_D12 SD_D13 MII2_RXCLK MII2_RXER SD_D14 SD_D15 SD_D08 SD_D09 SD_D10 SD_D11 N.C._1 N.C._2 N.C._3 N.C._4 N.C._5 N.C._6 N.C._7 N.C._8 N.C._9 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 MII2_COL MII2_CRS MII2_TXER MII2_DIO/MMIO43 MII2_MDC/MMIO44 MII2_RXD1 MII2_RXD2 MII2_RXD3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SD_D16 SD_D17 SD_D18 SD_D19 SD_D26 SD_D27 SD_D30 SD_D31 K101-H SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_D08 SD_D09 SD_D10 SD_D11 SD_D20 SD_D21 SD_D22 SD_D23 SD_D24 SD_D25 SD_D12 SD_D13 SD_D28 SD_D29 SD_D14 SD_D15 5 Signals at the different Host Interface Modes 4 SPI DPM + 16 Bit SDRAM MII + 16 Bit SDRAM 3 32 Bit SDRAM 2 T4 V1 U4 U3 10 10 P18 U18 +1V5 R17 L18 PHY1_RXN K17 MICRO-NETX52-2231.000 TXD2 RTS2 RXD2 CTS2 V3 U5 T5 T6 12 N17 PHY_EXTRES N16 PHY_ATP 1 L12 GND PHY1_VSSAR M18 GND PHY1_VSSAT1 M17 GND PHY1_VSSAT2 0603 12.4k R3092 K16 +1V5 L17 PHY1_TXN K18 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR L10 GND PHY0_VSSAT1 L11 GND PHY0_VSSAT2 PHY0_RXN P17 PHY0_TXN R18 PHY0_RXP PHY0_TXP PHY0_VDDCART K101-O 11 M16 +1V5 M12 GND PHY_VSSAT L16 GND PHY_VSSACP PHY_VDDCAP MICRO-NETX52-2231.000 MMIO21 MMIO23 MMIO20 MMIO22 12 T17 +3V3 PHY_VDDIOAT N18 +3V3 PHY_VDDIOAC K101-B netX52 11 UART0 A 1 GND 2 0603 1 +3V3 13 100nF C201 13 2 0603 1 100nF C202 14 Page of Page +1V5 14 4 2 J I H G F E D C B A Quick Start 212/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited Date Name Date Name MICRO-NETX52-2231.000 R2 PIO0 U2 PIO1 T2 R3 1 2 22.11.2012 470 0603 C304 C309 4 2 1 green 1210 P301 2 0805 22uF 1 2 GND 0603 100nF 1 +3V3 2 GND 3 6 5 8 2 4 1 3 2 VO 1 2 GND2 VDD2 VI GND1 VCC CAT ANO 5V DC 0 OUT +3V3 PSD-3R305S 0 IN + 3,3V DC + T301 ACPL072L OPTO-ACPL072L K303 ACPL072L OPTO-ACPL072L K302 HCPL0601 OPTO-HCPL0601 & K301 4 5 VI GND1 VCC VO GND2 VDD2 VO VE GND VCC 2 4 1 6 5 8 6 7 5 8 4 www.hilscher.com 5 C301 ISOGND_CCL C303 ISOGND_CCL C305 2 2 1 2 1k 6 CC-LINK CC-Link 1 3 7 EN VIN 2 GND 5 NCP500SN50T1 VOUT T302 NC7SZ14P5 INV-NC7SZ14P5 ISO+5V_CCL ISOGND_CCL 5 VCC Y 4 K304 2 A 3 GND R302 ISOGND_CCL C310 0805 22uF 1 ISOGND_CCL 0603 100nF 1 ISO+5V_CCL 2 0603 100nF 1 ISO+5V_CCL 2 0603 100nF 1 ISO+5V_CCL ISOLATED AREA 7 8 2 3 5 4 2 R 2 B A Z Y C311 9 2 ISOGND_CCL 11 12 10 9 9 ISOGND_CCL ISO+5V_CCL B A Z Y 7 GND2 6 GND1 1 1 2 10 ISOGND_CCL 2 0603 2 R306 680 1 680 0603 R3052 1 R307 47k 47k R304 ISO+5V_CCL 10 C307 0603 100nF 1 ISO+5V_CCL 14 VCC2 13 VCC1 75ALS181D DRIVER-75ALS181D R RE D DE K305 ISOGND_CCL 0805 22uF 1 RE# D DE 10k 0603 100nF R3032 1 1 C306 8 11 2 11 ISOGND_CCL 1 6 3 5 0603 4 Hilscher Gesellschaft für Systemautomatiom mbH 3 red LEDSRG DIODE-LED-LEDSRG-1210 R3142 270 0603 R3132 1 1 2 0805 Z=1000 Ohm @100MHz R312 Matthias Melzer COM0_G# COM0_R# COM1_G# COM0_R# K101-M MMIO12 MMIO13 MMIO14 MMIO15 GND R311 C302 GND 0603 100nF 1 +3V3 220 0603 R3012 1 1 2 0805 Z=1000 Ohm @100MHz H2 XM0_RX K2 XM0_TX J2 L3 XM0_IO0 +3V3 XM0_RX XM0_TX XM0_ECLK XM0_IO0 MICRO-NETX52-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX52 3 0603 A 2 0603 0603 1 12 R310 L1_1 L1_2 1 6 L2_1 L2_2 2 5 L3_1 L3_2 3 4 ZCYS51R5-M3PAT ISOGND_CCL RD6.2Z R308 12 1 13 2 5 4 3 2 1 14 4 3 X301 14 Page of Page PE C308 0805 3.3nF 13 J I H G F E D C B A Quick Start 213/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 22.11.2012 2 2 GND1 9 C402 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C407 1 2 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 6 7 POWER_SUPPLY +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 CC-Link R410 1.8k R409 GND GND 2 G C405 3 FDC5612 6 K401 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 COMP Matthias Melzer 2 1 1210 10uF C410 0805 22uF 1 +3V3 2.2k R407 1 C401 C409 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF C414 10uF C412 9 9 2 0603 1 2 0603 1 100nF C415 100nF C413 C16 G11 G12 G8 H10 J10 J11 K9 L7 M7 M8 P1 T18 V5 V9 H12 H8 K11 G1 H11 H9 J8 K10 K7 L8 F11 F13 F6 G6 J13 J6 L13 L6 M6 N12 F8 F9 H13 K6 N10 F7 M13 N11 N13 N7 N8 F10 F12 G13 N6 N9 H6 K13 T16 R16 J18 J17 T10 T12 10 GND +1V5 10 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VSS_47 VSS_48 VSS_49 VSS_50 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 11 MICRO-NETX52-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 K101-I netX52 11 L9 M9 N3 U1 U9 V14 V17 V2 B1 F16 G10 G7 G9 J1 J12 J7 J9 K8 V18 C5 H7 M10 M11 K12 J16 C14 C3 E2 K1 V4 C4 E1 P3 T3 T9 U17 E16 L2 D17 T11 U14 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C421 100nF C419 100nF C417 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C420 10uF C418 10uF C416 13 14 Page of Page 14 4 4 J I H G F E D C B A Quick Start 214/334 © Hilscher, 2008-2013 Quick Start 215/334 Bill of Material Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM7-25.000MHZ-D2Y-T K101 Microcontroller netX52 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R106 Resistor 10kΩ 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 560Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 390Ω 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R112 Resistor 1.5kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 R115 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 Ceramic Capacitor 100nF 25V 0603 C202 Ceramic Capacitor 100nF 25V 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 216/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 100nF 25V 0603 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 100nF 25V 0603 C305 Ceramic Capacitor 100nF 25V 0603 C306 Ceramic Capacitor 100nF 25V 0603 C307 Ceramic Capacitor 100nF 25V 0603 C308 Ceramic Capacitor 3.3nF 63V 0805 C309 Ceramic Capacitor 22µF 6.3V 0805 C310 Ceramic Capacitor 22µF 6.3V 0805 C311 Ceramic Capacitor 22µF 6.3V 0805 K301 Optocoupler HCPL0601 K302 Optocoupler ACPL072L K303 Optocoupler ACPL072L K304 Smitt Trigger NC7SZ14P5 K305 Driver 75ALS181D P301 LED red / green HSMF-C155 R301 Resistor 220Ω 63mW 0603 R302 Resistor 1kΩ 63mW 0603 R303 Resistor 10kΩ 63mW 0603 R304 Resistor 47kΩ 63mW 0603 R305 Resistor 680Ω 63mW 0603 R306 Resistor 680Ω 63mW 0603 R307 Resistor 47kΩ 63mW 0603 R308 Zener Diode RD6.2Z R310 Choke EMC Components part no. ZCYS51R5-M3PAT R311 Ferrite Würth Elektronik part no. 74279207 R312 Ferrite Würth Elektronik part no. 74279207 R313 Resistor 270Ω 63mW 0603 R314 Resistor 470Ω 63mW 0603 T301 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T302 Voltage Regulator NCP500SN50T1 X301 Connector Phoenix Contact MC1,5/5-G-3,81 part no. 1803303 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 217/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D Edited 1 Date Name RESETIN# 3 MR 24.01.2013 Matthias Melzer 2 1 22pF 2 GND 1 4 3 GND VCC RESET MAX811SEUS-T >= 2.93V Q101 1 GND 2 +3V3 4 www.hilscher.com 5 OSC_XTO BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI C1 T8 T7 J3 M3 K3 H1 H3 1 2 RDY RUN 1.5k USB_DNEG USB_DPOS CORE CompoNet MICRO-NETX52-2231.000 USB_VDDC USB_VDDIO K101-G MICRO-NETX52-2231.000 QSPI_SIO3 QSPI_SIO2 7 U6 V6 V15 T14 +3V3 USB_DNEG USB_DPOS 1 2 8 10k 8 1 2 VCC ROM 1k C107 8 RDY RUN 3 4 X102 2 1 0603 390 390 0603 R1092 1 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 GND 2 11 GND +3V3 12 RDY/RUN LED SEC. MEM C108 0603 100nF 1 +3V3 10 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU 9 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10 2 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 DD+ 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R115 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R114 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R113 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R115 R114 open 13 R113 Host Interace boot configuration 1.5k R111 R112 +3V3 R110 T15 SPI_MISO SPI0_MISO/QSPI_SIO1 U16 SPI_MOSI SPI0_MOSI/QSPI_SIO0 V16 SPI_CLK SPI0_CLK/QSPI_CLK U15 SPI_CS0# SPI0_CS0#/QSPI_CS# K101-F MICRO-NETX52-2231.000 6 D1 H16 I2C_SDA H18 I2C_SCL K101-D MICRO-NETX52-2231.000 JT_TDI JT_TDO JT_TMS JT_TCLK JT_TRSTn K101-E MICRO-NETX52-2231.000 POR# F1 RDY F2 RUN RSTOUT K101-A netX52 7 0603 6 V7 OSC_VDDC U7 OSC_VSS V8 E3 F3 G3 G2 B10 U8 C104 GND POR# 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH GND 2 GND C103 2 3 0603 100nF 2 POR# 1 4 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 2 C106 22pF 0603 C 1 0603 C105 5 0603 0603 4 0603 3 0603 B 2 0603 J I H G F E D C B A 2.3.8 SPI_MISO A 1 Quick Start 218/334 CompoNet © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited SD_CLK SD_CLK Date Name Date Name SD_WE# SD_CKE MII2_RXD0 SD_CLK SD_WE# SD_CKE Matthias Melzer 2 22.11.2012 3 MICRO-NETX52-2231.000 SD_CS# SD_D14 SD_D15 6 MII_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MII1_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MICRO-NETX52-2231.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K MII1_RXDV 7 4 www.hilscher.com 5 MMIO08 MMIO09 MMIO10 MMIO11 K101-L netX52 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 8/16 Bit DPM MICRO-NETX52-2231.000 N2 P2 R1 T1 DPM_BE1# DPM_BE3# DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_D16 DPM_D17 DPM_D18 DPM_D19 DPM_D20 DPM_D21 DPM_D22 DPM_D23 DPM_D24 DPM_D25 DPM_D26 DPM_D27 DPM_D28 DPM_D29 DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_BE0# DPM_BE2# DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 32 Bit DPM 8 PIO43 PIO44 PIO51 PIO52 PIO45 PIO46 PIO47 PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 PIO36 PIO35 PIO40 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 MMIO16 MMIO17 MMIO18 MMIO19 K101-N MICRO-NETX52-2231.000 HIF_BHE1 HIF_BHE3 HIF_CS# HIF_RD# HIF_WR# HIF_RDY HIF_DIRQ HIF_SDCLK HIF_D16 HIF_D17 HIF_D18 HIF_D19 HIF_D20 HIF_D21 HIF_D22 HIF_D23 HIF_D24 HIF_D25 HIF_D26 HIF_D27 HIF_D28 HIF_D29 HIF_D30 HIF_D31 HIF_D00 HIF_D01 HIF_D02 HIF_D03 HIF_D04 HIF_D05 HIF_D06 HIF_D07 HIF_D08 HIF_D09 HIF_D10 HIF_D11 HIF_D12 HIF_D13 HIF_D14 HIF_D15 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 K101-C HIF_A00 HIF_A01 HIF_A02 HIF_A03 HIF_A04 HIF_A05 HIF_A06 HIF_A07 HIF_A08 HIF_A09 HIF_A10 HIF_A11 HIF_A12 HIF_A13 HIF_A14 HIF_A15 HIF_A16 HIF_A17 MICRO-NETX52-2231.000 A16 B16 A15 B15 B14 C15 D16 C8 G17 F18 E18 E17 C12 C11 A11 C10 A9 A8 A6 B7 A2 A4 D3 H17 A1 C2 D2 B3 B4 B2 A5 B5 G18 G16 F17 D18 C18 B18 C17 B17 A3 B6 C6 C7 B8 A7 B9 C9 C13 A10 B12 A14 B13 A13 A12 B11 A17 A18 netX52 9 6 7 8 9 HOST_INTERFACE/ETHERNET/MMIO CompoNet L1 M1 M2 N1 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# MII1_TXER MII1_RXDV DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 MII1_COL MII1_CRS 8/16 Bit DPM + MII MII1_TXER SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SPI DPM + MII Hilscher Gesellschaft für Systemautomatiom mbH T13 U10 U11 U12 U13 V10 V11 V12 V13 SD_DQM1 MII2_RXDV SD_CS# SD_DQM1 SD_DQM1 SD_DQM3 SD_CS# SD_DQM2 SD_WE# SD_CKE SD_D12 SD_D13 SD_D08 SD_D09 SD_D10 SD_D11 MII2_TXCLK MII2_TXD0 MII2_TXD1 MII2_TXD2 MII2_TXD3 MII2_TXEN SD_D12 SD_D13 MII2_RXCLK MII2_RXER SD_D14 SD_D15 SD_D08 SD_D09 SD_D10 SD_D11 N.C._1 N.C._2 N.C._3 N.C._4 N.C._5 N.C._6 N.C._7 N.C._8 N.C._9 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 MII2_COL MII2_CRS MII2_TXER MII2_DIO/MMIO43 MII2_MDC/MMIO44 MII2_RXD1 MII2_RXD2 MII2_RXD3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SD_D16 SD_D17 SD_D18 SD_D19 SD_D26 SD_D27 SD_D30 SD_D31 K101-H SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_D08 SD_D09 SD_D10 SD_D11 SD_D20 SD_D21 SD_D22 SD_D23 SD_D24 SD_D25 SD_D12 SD_D13 SD_D28 SD_D29 SD_D14 SD_D15 5 Signals at the different Host Interface Modes 4 SPI DPM + 16 Bit SDRAM MII + 16 Bit SDRAM 3 32 Bit SDRAM 2 T4 V1 U4 U3 10 10 P18 U18 +1V5 R17 L18 PHY1_RXN K17 MICRO-NETX52-2231.000 TXD2 RTS2 RXD2 CTS2 V3 U5 T5 T6 12 N17 PHY_EXTRES N16 PHY_ATP 1 L12 GND PHY1_VSSAR M18 GND PHY1_VSSAT1 M17 GND PHY1_VSSAT2 0603 12.4k R3092 K16 +1V5 L17 PHY1_TXN K18 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR L10 GND PHY0_VSSAT1 L11 GND PHY0_VSSAT2 PHY0_RXN P17 PHY0_TXN R18 PHY0_RXP PHY0_TXP PHY0_VDDCART K101-O 11 M16 +1V5 M12 GND PHY_VSSAT L16 GND PHY_VSSACP PHY_VDDCAP MICRO-NETX52-2231.000 MMIO21 MMIO23 MMIO20 MMIO22 12 T17 +3V3 PHY_VDDIOAT N18 +3V3 PHY_VDDIOAC K101-B netX52 11 UART0 A 1 GND 2 0603 1 +3V3 13 100nF C201 13 2 0603 1 100nF C202 14 Page of Page +1V5 14 4 2 J I H G F E D C B A Quick Start 219/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited XM0_RX XM0_TX XM0_ECLK XM0_IO0 COM0_G# COM0_R# COM1_G# COM0_R# Date Name Date Name R2 U2 T2 R3 CN_MS_G CN_MS_R CN_NS_G CN_NS_R H2 CN_RX K2 CN_TX J2 L3 CN_EN 2 22.11.2012 Matthias Melzer MICRO-NETX52-2231.000 MMIO12 MMIO13 MMIO14 MMIO15 K101-M MICRO-NETX52-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX52 GND +3V3 3 3 & B A NC7SZ08P5 5 VCC 4 Y 3 GND K301 1 GND 2 1k 1 470 0603 R3212 270 0603 R3202 1 470 0603 7 6 5 8 1 green 1210 green 1210 3 red 1 LEDSRG 4 2 P302 3 red LEDSRG 4 270 B A GND VCC P301 2 AD51/025 D R3192 1 0603 DI R R3182 1 R301 4 1 RO 2 RE 3 DE K302 5 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH 2 1 RX 5V to 3V3 4 0603 +3V3_CN +3V3_CN 2 7 COMPONET 6 C302 10 0603 R3062 1 2 RD6.2SB1 R311 2 GND 2 1 1 8 1 2 0805 Z=1000 Ohm @100MHz R317 9 R314 RD6.2SB1 1 2 0805 Z=1000 Ohm @100MHz R316 R312 RD6.2SB1 +3V3 2 1 1 RD6.2SB1 R313 10 0603 R3082 1 10 0603 R3072 1 9 10 0603 8 R3052 1 0603 220pF 1 2 200 Ohm LEFS300RA500M-0603 1 R304 1 7 2 200 Ohm LEFS300RA500M-0603 GND R302 C301 CompoNet 2 0603 100nF 1 ISO+5V_CP 6 C304 GND 2 2 10 10 C303 0603 220pF 1 2 150 R1 0805 22uF 1 1 0603 A 2 1 2 0603 1 5 5 1 2 1 4 5V DC 0 4 5 11 OUT PSD-3R305S 0 IN + 3,3V DC + T302 4 2 2 3 3 1 03-7104 R315 15 8 T301 7 7 6 6 8 2 3 BDH 12 C305 1 4 BDL ACM3225-102-2P 0805 22uF 1 2 12 R310 ISO-AREA 11 3 1 EN VIN 2 5 1 2 14 C306 ISO+5V_CP 14 Page of Page ISOGND_CP 0805 10uF NCP500SN50T1 13 GND VOUT T303 BS+ BDH BDL BSXW7D-PB4-R 1 2 3 4 X301 13 4 3 J I H G F E D C B A Quick Start 220/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 22.11.2012 2 2 GND1 9 C402 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C407 1 2 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 6 7 POWER_SUPPLY +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 CompoNet R410 1.8k R409 GND GND 2 G C405 3 FDC5612 6 K401 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 COMP Matthias Melzer 2 1 1210 10uF C410 0805 22uF 1 +3V3 2.2k R407 1 C401 C409 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF C414 10uF C412 9 9 2 0603 1 2 0603 1 100nF C415 100nF C413 C16 G11 G12 G8 H10 J10 J11 K9 L7 M7 M8 P1 T18 V5 V9 H12 H8 K11 G1 H11 H9 J8 K10 K7 L8 F11 F13 F6 G6 J13 J6 L13 L6 M6 N12 F8 F9 H13 K6 N10 F7 M13 N11 N13 N7 N8 F10 F12 G13 N6 N9 H6 K13 T16 R16 J18 J17 T10 T12 10 GND +1V5 10 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VSS_47 VSS_48 VSS_49 VSS_50 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 11 MICRO-NETX52-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 K101-I netX52 11 L9 M9 N3 U1 U9 V14 V17 V2 B1 F16 G10 G7 G9 J1 J12 J7 J9 K8 V18 C5 H7 M10 M11 K12 J16 C14 C3 E2 K1 V4 C4 E1 P3 T3 T9 U17 E16 L2 D17 T11 U14 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C421 100nF C419 100nF C417 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C420 10uF C418 10uF C416 13 14 Page of Page 14 4 4 J I H G F E D C B A Quick Start 221/334 © Hilscher, 2008-2013 Quick Start 222/334 Bill of Material Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM7-25.000MHZ-D2Y-T K101 Microcontroller netX52 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R106 Resistor 10kΩ 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 560Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 390Ω 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R112 Resistor 1.5kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 R115 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 Ceramic Capacitor 100nF 25V 0603 C202 Ceramic Capacitor 100nF 25V 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 223/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 220pF 50V 0603 C303 Ceramic Capacitor 220pF 50V 0603 C304 Ceramic Capacitor 22µF 6.3V 0805 C305 Ceramic Capacitor 22µF 6.3V 0805 C306 Ceramic Capacitor 10µF 10V 0805 K301 Logic AND FAIRCHILD part no. NC7SZ08P5 K302 Driver Omron part no. AD51/025 P301 LED red / green HSMF-C155 P302 LED red / green HSMF-C155 R301 Resistor 1kΩ 63mW 0603 R302 Ferrite TDK part no. MMZ1608B301C R304 Ferrite TDK part no. MMZ1608B301C R305 Resistor 10Ω 63mW 0603 R306 Resistor 10Ω 63mW 0603 R307 Resistor 10Ω 63mW 0603 R308 Resistor 10Ω 63mW 0603 R309 Resistor 150Ω 63mW 0603 R310 Filter TDK part no. ACM3225-102-2P R311 Zehner Diode NEC part no. RD6.2SB1 R312 Zehner Diode NEC part no. RD6.2SB1 R313 Zehner Diode NEC part no. RD6.2SB1 R314 Zehner Diode NEC part no. RD6.2SB1 R315 Resistor 15Ω 63mW 0603 R316 Ferrite Würth Elektronik part no. 74279207 R317 Ferrite Würth Elektronik part no. 74279207 R318 Resistor 270Ω 63mW 0603 R319 Resistor 470Ω 63mW 0603 R320 Resistor 270Ω 63mW 0603 R321 Resistor 470Ω 63mW 0603 T301 Transformer OMRON part no. 03-7104 T302 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T303 Voltage Regulator NCP500SN50T1 X301 Connector OMRON part no. XW7D-PB4-R netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 224/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D Edited 1 Date Name RESETIN# 3 MR 24.01.2013 Matthias Melzer 2 1 22pF 2 GND 1 4 3 GND VCC RESET MAX811SEUS-T >= 2.93V Q101 1 GND 2 +3V3 4 www.hilscher.com 5 OSC_XTO BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI C1 T8 T7 J3 M3 K3 H1 H3 1 2 RDY RUN 1.5k USB_DNEG USB_DPOS CORE DeviceNet MICRO-NETX52-2231.000 USB_VDDC USB_VDDIO K101-G MICRO-NETX52-2231.000 QSPI_SIO3 QSPI_SIO2 7 U6 V6 V15 T14 +3V3 USB_DNEG USB_DPOS 1 2 8 10k 8 1 2 VCC ROM 1k C107 8 RDY RUN 3 4 X102 2 1 0603 390 390 0603 R1092 1 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 GND 2 11 GND +3V3 12 RDY/RUN LED SEC. MEM C108 0603 100nF 1 +3V3 10 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU 9 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10 2 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 DD+ 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R115 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R114 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R113 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R115 R114 open 13 R113 Host Interace boot configuration 1.5k R111 R112 +3V3 R110 T15 SPI_MISO SPI0_MISO/QSPI_SIO1 U16 SPI_MOSI SPI0_MOSI/QSPI_SIO0 V16 SPI_CLK SPI0_CLK/QSPI_CLK U15 SPI_CS0# SPI0_CS0#/QSPI_CS# K101-F MICRO-NETX52-2231.000 6 D1 H16 I2C_SDA H18 I2C_SCL K101-D MICRO-NETX52-2231.000 JT_TDI JT_TDO JT_TMS JT_TCLK JT_TRSTn K101-E MICRO-NETX52-2231.000 POR# F1 RDY F2 RUN RSTOUT K101-A netX52 7 0603 6 V7 OSC_VDDC U7 OSC_VSS V8 E3 F3 G3 G2 B10 U8 C104 GND POR# 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH GND 2 GND C103 2 3 0603 100nF 2 POR# 1 4 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 2 C106 22pF 0603 C 1 0603 C105 5 0603 0603 4 0603 3 0603 B 2 0603 J I H G F E D C B A 2.3.9 SPI_MISO A 1 Quick Start 225/334 DeviceNet © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited SD_CLK SD_CLK Date Name Date Name SD_WE# SD_CKE MII2_RXD0 SD_CLK SD_WE# SD_CKE Matthias Melzer 2 22.11.2012 3 MICRO-NETX52-2231.000 SD_CS# SD_D14 SD_D15 6 MII_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MII1_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MICRO-NETX52-2231.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K MII1_RXDV 7 4 www.hilscher.com 5 MMIO08 MMIO09 MMIO10 MMIO11 K101-L netX52 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 8/16 Bit DPM MICRO-NETX52-2231.000 N2 P2 R1 T1 DPM_BE1# DPM_BE3# DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_D16 DPM_D17 DPM_D18 DPM_D19 DPM_D20 DPM_D21 DPM_D22 DPM_D23 DPM_D24 DPM_D25 DPM_D26 DPM_D27 DPM_D28 DPM_D29 DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_BE0# DPM_BE2# DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 32 Bit DPM 8 PIO43 PIO44 PIO51 PIO52 PIO45 PIO46 PIO47 PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 PIO36 PIO35 PIO40 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 MMIO16 MMIO17 MMIO18 MMIO19 K101-N MICRO-NETX52-2231.000 HIF_BHE1 HIF_BHE3 HIF_CS# HIF_RD# HIF_WR# HIF_RDY HIF_DIRQ HIF_SDCLK HIF_D16 HIF_D17 HIF_D18 HIF_D19 HIF_D20 HIF_D21 HIF_D22 HIF_D23 HIF_D24 HIF_D25 HIF_D26 HIF_D27 HIF_D28 HIF_D29 HIF_D30 HIF_D31 HIF_D00 HIF_D01 HIF_D02 HIF_D03 HIF_D04 HIF_D05 HIF_D06 HIF_D07 HIF_D08 HIF_D09 HIF_D10 HIF_D11 HIF_D12 HIF_D13 HIF_D14 HIF_D15 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 K101-C HIF_A00 HIF_A01 HIF_A02 HIF_A03 HIF_A04 HIF_A05 HIF_A06 HIF_A07 HIF_A08 HIF_A09 HIF_A10 HIF_A11 HIF_A12 HIF_A13 HIF_A14 HIF_A15 HIF_A16 HIF_A17 MICRO-NETX52-2231.000 A16 B16 A15 B15 B14 C15 D16 C8 G17 F18 E18 E17 C12 C11 A11 C10 A9 A8 A6 B7 A2 A4 D3 H17 A1 C2 D2 B3 B4 B2 A5 B5 G18 G16 F17 D18 C18 B18 C17 B17 A3 B6 C6 C7 B8 A7 B9 C9 C13 A10 B12 A14 B13 A13 A12 B11 A17 A18 netX52 9 6 7 8 9 HOST_INTERFACE/ETHERNET/MMIO DeviceNet L1 M1 M2 N1 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# MII1_TXER MII1_RXDV DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 MII1_COL MII1_CRS 8/16 Bit DPM + MII MII1_TXER SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SPI DPM + MII Hilscher Gesellschaft für Systemautomatiom mbH T13 U10 U11 U12 U13 V10 V11 V12 V13 SD_DQM1 MII2_RXDV SD_CS# SD_DQM1 SD_DQM1 SD_DQM3 SD_CS# SD_DQM2 SD_WE# SD_CKE SD_D12 SD_D13 SD_D08 SD_D09 SD_D10 SD_D11 MII2_TXCLK MII2_TXD0 MII2_TXD1 MII2_TXD2 MII2_TXD3 MII2_TXEN SD_D12 SD_D13 MII2_RXCLK MII2_RXER SD_D14 SD_D15 SD_D08 SD_D09 SD_D10 SD_D11 N.C._1 N.C._2 N.C._3 N.C._4 N.C._5 N.C._6 N.C._7 N.C._8 N.C._9 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 MII2_COL MII2_CRS MII2_TXER MII2_DIO/MMIO43 MII2_MDC/MMIO44 MII2_RXD1 MII2_RXD2 MII2_RXD3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SD_D16 SD_D17 SD_D18 SD_D19 SD_D26 SD_D27 SD_D30 SD_D31 K101-H SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_D08 SD_D09 SD_D10 SD_D11 SD_D20 SD_D21 SD_D22 SD_D23 SD_D24 SD_D25 SD_D12 SD_D13 SD_D28 SD_D29 SD_D14 SD_D15 5 Signals at the different Host Interface Modes 4 SPI DPM + 16 Bit SDRAM MII + 16 Bit SDRAM 3 32 Bit SDRAM 2 T4 V1 U4 U3 10 10 P18 U18 +1V5 R17 L18 PHY1_RXN K17 MICRO-NETX52-2231.000 TXD2 RTS2 RXD2 CTS2 V3 U5 T5 T6 12 N17 PHY_EXTRES N16 PHY_ATP 1 L12 GND PHY1_VSSAR M18 GND PHY1_VSSAT1 M17 GND PHY1_VSSAT2 0603 12.4k R3092 K16 +1V5 L17 PHY1_TXN K18 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR L10 GND PHY0_VSSAT1 L11 GND PHY0_VSSAT2 PHY0_RXN P17 PHY0_TXN R18 PHY0_RXP PHY0_TXP PHY0_VDDCART K101-O 11 M16 +1V5 M12 GND PHY_VSSAT L16 GND PHY_VSSACP PHY_VDDCAP MICRO-NETX52-2231.000 MMIO21 MMIO23 MMIO20 MMIO22 12 T17 +3V3 PHY_VDDIOAT N18 +3V3 PHY_VDDIOAC K101-B netX52 11 UART0 A 1 GND 2 0603 1 +3V3 13 100nF C201 13 2 0603 1 100nF C202 14 Page of Page +1V5 14 4 2 J I H G F E D C B A Quick Start 226/334 © Hilscher, 2008-2013 J I H G F E D C B 1 Date Name Date Name MICRO-NETX52-2231.000 R2 PIO0 U2 PIO1 T2 R3 GND +3V3 H2 XM0_RX K2 XM0_TX J2 L3 XM0_IO0 2 22.11.2012 100nF 3 470 0603 R3162 1 270 0603 R3152 1 1 2 0805 Z=1000 Ohm @100MHz R314 1 2 1 4.02k C311 GND 2 R306 +3V3 2 GND 1 green 1210 3 4 6 7 5 8 3 2 1 2 +3V3 EMI COL VO VE GND VCC CAT ANO 5 K302 HCPL0601 & K301 5V DC 0 OUT PSD-3R305S 0 IN + 3,3V DC + T301 TLP281 K303 HCPL060L & 4 www.hilscher.com 5 6 7 4 5 2 1 3 2 6 7 5 8 1 C301 2 2 C312 0805 22uF 1 1 470 0603 6 7 DEVICENET 4.02k 3 1 1 EN 8 2 2 5 8 9 C313 ISOGND_DN 2 4.3k 0805 R1 2 3 2 7 CANH 6 CANL GND VCC ISOGND_DN 1 PCA82C251T 0805 22uF 1 9 K304 ISO+5V_DN NCP500SN50T1 VOUT GND C308 1 TXD 4 RXD 5 V_REF 8 RS 0603 100nF 1 ISOGND_DN 470 T302 VIN 2 R302 ISO+5V_DN R307 R3042 1 ISOGND_DN ISO+5V_DN 2 0603 100nF DeviceNet CAT ANO CAT ANO VO VE GND VCC ISOLATED-AREA Hilscher Gesellschaft für Systemautomatiom mbH 3 red LEDSRG DIODE-LED-LEDSRG-1210 4 2 C302 0603 100nF 1 2 270 R301 0805 22uF 1 1 +3V3 P301 2 A 3 GND K305 1.3k 5 VCC 4 Y 2 R303 C304 74LVC1G17GW R313 GND 2 0603 1 +3V3 1 +3V3 2 0805 Z=1000 Ohm @100MHz Matthias Melzer COM0_G# COM0_R# COM1_G# COM0_R# K101-M MMIO12 MMIO13 MMIO14 MMIO15 Checked Edited XM0_RX XM0_TX XM0_ECLK XM0_IO0 MICRO-NETX52-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX52 4 0603 A 0603 0603 0603 3 0603 10 2 C303 ISOGND_DN 0603 100nF 1 ISO+5V_DN 10 2 1 2 1M PESD1CAN R305 11 11 R311 ISOGND_DN 1 2 1 1 2 2 12 C309 1 2 1M 13 13 R312 ISOGND_DN RVA30VA800-1812 12 R310 1808 15nF U 1812 3 2010 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 2010 1 PE 2 C310 14 Page of Page 1808 15nF 1 DN-H ISOGND_DN DN-L 14 4 3 J I H G F E D X301 C 1 2 3 4 5 B A Quick Start 227/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 22.11.2012 2 2 GND1 9 C402 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C407 1 2 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 6 7 POWER_SUPPLY +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 DeviceNet R410 1.8k R409 GND GND 2 G C405 3 FDC5612 6 K401 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 COMP Matthias Melzer 2 1 1210 10uF C410 0805 22uF 1 +3V3 2.2k R407 1 C401 C409 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF C414 10uF C412 9 9 2 0603 1 2 0603 1 100nF C415 100nF C413 C16 G11 G12 G8 H10 J10 J11 K9 L7 M7 M8 P1 T18 V5 V9 H12 H8 K11 G1 H11 H9 J8 K10 K7 L8 F11 F13 F6 G6 J13 J6 L13 L6 M6 N12 F8 F9 H13 K6 N10 F7 M13 N11 N13 N7 N8 F10 F12 G13 N6 N9 H6 K13 T16 R16 J18 J17 T10 T12 10 GND +1V5 10 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VSS_47 VSS_48 VSS_49 VSS_50 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 11 MICRO-NETX52-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 K101-I netX52 11 L9 M9 N3 U1 U9 V14 V17 V2 B1 F16 G10 G7 G9 J1 J12 J7 J9 K8 V18 C5 H7 M10 M11 K12 J16 C14 C3 E2 K1 V4 C4 E1 P3 T3 T9 U17 E16 L2 D17 T11 U14 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C421 100nF C419 100nF C417 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C420 10uF C418 10uF C416 13 14 Page of Page 14 4 4 J I H G F E D C B A Quick Start 228/334 © Hilscher, 2008-2013 Quick Start 229/334 Bill of Material Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM7-25.000MHZ-D2Y-T K101 Microcontroller netX52 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R106 Resistor 10kΩ 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 560Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 390Ω 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R112 Resistor 1.5kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 R115 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 Ceramic Capacitor 100nF 25V 0603 C202 Ceramic Capacitor 100nF 25V 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 230/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 100nF 25V 0603 C303 Ceramic Capacitor 100nF 25V 0603 C304 Ceramic Capacitor 100nF 25V 0603 C308 Ceramic Capacitor 100nF 25V 0603 C309 Ceramic Capacitor 15nF 1000V 1808 C310 Ceramic Capacitor 15nF 1000V 1808 C311 Ceramic Capacitor 22µF 6.3V 0805 C312 Ceramic Capacitor 22µF 6.3V 0805 C313 Ceramic Capacitor 22µF 6.3V 0805 K301 Optocoupler HCPL0601 K302 Optocoupler HCPL060L K303 Optocoupler TLP281 K304 CAN transceiver PCA82C251T K305 Schmitt-trigger 74LVC1G17GW P301 LED red / green HSMF-C155 R301 Resistor 270Ω 63mW 0603 R302 Resistor 470Ω 63mW 0603 R303 Resistor 1.3kΩ 63mW 0603 R304 Resistor 470Ω 63mW 0603 R305 EDS protection diode PESD1CAN R306 Resistor 4.02kΩ 63mW 0603 R307 Resistor 4.02kΩ 63mW 0603 R309 Resistor 4.3kΩ 125mW 0805 R310 Varistor B72580-V300-K62 R311 Resistor 1MΩ 500mW 2010 R312 Resistor 1MΩ 500mW 2010 R313 Ferrite Würth Elektronik part no. 74279207 R314 Ferrite Würth Elektronik part no. 74279207 R315 Resistor 270Ω 63mW 0603 R316 Resistor 470Ω 63mW 0603 T301 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T302 Voltage Regulator NCP500SN50T1 X301 Connector Phoenix Contact MC1,5/5-G-3,81 part no. 1803303 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 231/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D Edited 1 Date Name RESETIN# 3 MR 22.11.2012 Matthias Melzer 2 1 22nF 2 GND 1 4 3 GND VCC RESET MAX811SEUS-T >= 2.93V Q101 1 GND 2 +3V3 4 www.hilscher.com 5 OSC_XTO BSCAN_TRST TMC1 TMC2 TACT_TRST TEST OSC_XTI C1 T8 T7 J3 M3 K3 H1 H3 1 2 RDY RUN 1.5k USB_DNEG USB_DPOS CORE DeviceNet MICRO-NETX52-2231.000 USB_VDDC USB_VDDIO K101-G MICRO-NETX52-2231.000 QSPI_SIO3 QSPI_SIO2 7 U6 V6 V15 T14 +1V5 USB_DNEG USB_DPOS 1 2 8 10k 8 1 2 VCC ROM 1k C107 8 RDY RUN 3 4 X102 2 1 0603 390 390 0603 R1092 1 LEDSYG 1green 3yellow R1082 1 2 560 0603 560 R1072 RUN 1 4 0603 GND 2 11 GND +3V3 12 RDY/RUN LED SEC. MEM C108 0603 100nF 1 +1V5 10 P101 R1062 RDY 1 RUN 5 SDA 6 4 SCL GND RDY AT88SC0104C-SU 9 GND 2 5 GND A B 6 4 2 9 SN65220DBVT R103 22 0603 R1022 DUSB_DNEG 1 22 0603 R1012 D+ USB_DPOS 1 2 10 2 10k GND 3 GND 7 AT45DB321C-CNU RESET# 8 MISO 6 VCC WP# 5 GND 11 PE 1 VBUS 2 D3 D+ 4 ID 5 GND GND 6 PE SHIELD1 7 PE SHIELD2 8 PE SHIELD3 9 PE SHIELD4 XUSBS5BW-MINI X101 DD+ 12 2 C102 0603 100nF 1 +3V3 13 SPI FLASH USB Device POR# 1 MOSI 2 SCK 4 CS# ROM 32Mbit C101 4 Page of 14 1 14 Page pull up pull up pull up 10k pull up pull up open 10k DPM, 8 bit data bus, 16 address lines pull up open pull up R115 SDRAM on HIF, 32 bit data bus, up to 4M byte address range pull up open open 1 serial DPM open pull up pull up R114 SDRAM on HIF, 16 bit data bus, up to 4M byte address range open pull up open 1 DPM, 8 bit data bus, 11 address lines MII boot mode instead of ethernet open open pull up R113 HIF SRAM interface, 16bit data bus, 22 address lines, chip select 0-3 open open 1 Description no HIF configuration R115 R114 open 13 R113 Host Interace boot configuration 1.5k R111 R112 +3V3 R110 T15 SPI_MISO SPI0_MISO/QSPI_SIO1 U16 SPI_MOSI SPI0_MOSI/QSPI_SIO0 V16 SPI_CLK SPI0_CLK/QSPI_CLK U15 SPI_CS0# SPI0_CS0#/QSPI_CS# K101-F MICRO-NETX52-2231.000 6 D1 H16 I2C_SDA H18 I2C_SCL K101-D MICRO-NETX52-2231.000 JT_TDI JT_TDO JT_TMS JT_TCLK JT_TRSTn K101-E MICRO-NETX52-2231.000 POR# F1 RDY F2 RUN RSTOUT K101-A netX52 7 0603 6 V7 OSC_VDDC U7 OSC_VSS V8 E3 F3 G3 G2 B10 U8 C104 GND POR# 0603 1nF 1 +1V5 +1V5 Hilscher Gesellschaft für Systemautomatiom mbH GND 2 GND C103 2 3 0603 100nF 2 POR# 1 4 +3V3 ABM10-25M GND2 GND1 25MHz G101 Crystal Power On Reset GND 2 C106 22nF 0603 C 1 0603 C105 5 0603 0603 4 0603 3 0603 B 2 0603 J I H G F E D C B A 2.3.10 SPI_MISO A 1 Quick Start 232/334 PROFIBUS © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited SD_CLK SD_CLK Date Name Date Name SD_WE# SD_CKE MII2_RXD0 SD_CLK SD_WE# SD_CKE Matthias Melzer 2 22.11.2012 3 MICRO-NETX52-2231.000 SD_CS# SD_D14 SD_D15 6 MII_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MII1_TXCLK MII1_TXD0 MII1_TXD1 MII1_TXD2 MII1_TXD3 MII1_TXEN MII1_RXD0 MII1_RXD1 MII1_RXCLK MII1_RXER MII1_RXD2 MII1_RXD3 MICRO-NETX52-2231.000 MMIO04 MMIO05 MMIO06 MMIO07 K101-K MII1_RXDV 7 4 www.hilscher.com 5 MMIO08 MMIO09 MMIO10 MMIO11 K101-L netX52 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 8/16 Bit DPM MICRO-NETX52-2231.000 N2 P2 R1 T1 DPM_BE1# DPM_BE3# DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_D16 DPM_D17 DPM_D18 DPM_D19 DPM_D20 DPM_D21 DPM_D22 DPM_D23 DPM_D24 DPM_D25 DPM_D26 DPM_D27 DPM_D28 DPM_D29 DPM_D30 DPM_D31 DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_BE0# DPM_BE2# DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 DPM_A16 DPM_A17 32 Bit DPM 8 PIO43 PIO44 PIO51 PIO52 PIO45 PIO46 PIO47 PIO58 PIO59 PIO62 PIO63 PIO67 PIO68 PIO71 PIO72 PIO79 PIO80 PIO84 PIO85 PIO36 PIO35 PIO40 PIO83 PIO82 PIO81 PIO78 PIO77 PIO76 PIO75 PIO74 PIO32 PIO34 PIO33 PIO39 PIO38 PIO37 PIO42 PIO41 MMIO16 MMIO17 MMIO18 MMIO19 K101-N MICRO-NETX52-2231.000 HIF_BHE1 HIF_BHE3 HIF_CS# HIF_RD# HIF_WR# HIF_RDY HIF_DIRQ HIF_SDCLK HIF_D16 HIF_D17 HIF_D18 HIF_D19 HIF_D20 HIF_D21 HIF_D22 HIF_D23 HIF_D24 HIF_D25 HIF_D26 HIF_D27 HIF_D28 HIF_D29 HIF_D30 HIF_D31 HIF_D00 HIF_D01 HIF_D02 HIF_D03 HIF_D04 HIF_D05 HIF_D06 HIF_D07 HIF_D08 HIF_D09 HIF_D10 HIF_D11 HIF_D12 HIF_D13 HIF_D14 HIF_D15 PIO73 PIO70 PIO69 PIO66 PIO65 PIO64 PIO61 PIO60 PIO57 PIO56 PIO53 PIO50 PIO49 PIO48 PIO54 PIO55 K101-C HIF_A00 HIF_A01 HIF_A02 HIF_A03 HIF_A04 HIF_A05 HIF_A06 HIF_A07 HIF_A08 HIF_A09 HIF_A10 HIF_A11 HIF_A12 HIF_A13 HIF_A14 HIF_A15 HIF_A16 HIF_A17 MICRO-NETX52-2231.000 A16 B16 A15 B15 B14 C15 D16 C8 G17 F18 E18 E17 C12 C11 A11 C10 A9 A8 A6 B7 A2 A4 D3 H17 A1 C2 D2 B3 B4 B2 A5 B5 G18 G16 F17 D18 C18 B18 C17 B17 A3 B6 C6 C7 B8 A7 B9 C9 C13 A10 B12 A14 B13 A13 A12 B11 A17 A18 netX52 9 6 7 8 9 HOST_INTERFACE/ETHERNET/MMIO DeviceNet L1 M1 M2 N1 DPM_CS# DPM_RD# DPM_WR# DPM_RDY DPM_INT DPM_SIRQ DPM_BHE# MII1_TXER MII1_RXDV DPM_D00 DPM_D01 DPM_D02 DPM_D03 DPM_D04 DPM_D05 DPM_D06 DPM_D07 DPM_D08 DPM_D09 DPM_D10 DPM_D11 DPM_D12 DPM_D13 DPM_D14 DPM_D15 DPM_A00 DPM_A01 DPM_A02 DPM_A03 DPM_A04 DPM_A05 DPM_A06 DPM_A07 DPM_A08 DPM_A09 DPM_A10 DPM_A11 DPM_A12 DPM_A13 DPM_A14 DPM_A15 MII1_COL MII1_CRS 8/16 Bit DPM + MII MII1_TXER SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SPI DPM + MII Hilscher Gesellschaft für Systemautomatiom mbH T13 U10 U11 U12 U13 V10 V11 V12 V13 SD_DQM1 MII2_RXDV SD_CS# SD_DQM1 SD_DQM1 SD_DQM3 SD_CS# SD_DQM2 SD_WE# SD_CKE SD_D12 SD_D13 SD_D08 SD_D09 SD_D10 SD_D11 MII2_TXCLK MII2_TXD0 MII2_TXD1 MII2_TXD2 MII2_TXD3 MII2_TXEN SD_D12 SD_D13 MII2_RXCLK MII2_RXER SD_D14 SD_D15 SD_D08 SD_D09 SD_D10 SD_D11 N.C._1 N.C._2 N.C._3 N.C._4 N.C._5 N.C._6 N.C._7 N.C._8 N.C._9 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 MII2_COL MII2_CRS MII2_TXER MII2_DIO/MMIO43 MII2_MDC/MMIO44 MII2_RXD1 MII2_RXD2 MII2_RXD3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SPM_MISO/SPM_SIO1 SPM_MOSI/SPM_SIO0 SPM_CS# SPM_CLK SPM_DIRQ SPM_SIRQ SPM_SIO2 SPM_SIO3 SD_D00 SD_D01 SD_D02 SD_D03 SD_D04 SD_D05 SD_D06 SD_D07 SD_D16 SD_D17 SD_D18 SD_D19 SD_D26 SD_D27 SD_D30 SD_D31 K101-H SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_A00 SD_A01 SD_A02 SD_A03 SD_A04 SD_A05 SD_A06 SD_A07 SD_A08 SD_A09 SD_A10 SD_A11 SD_A12 SD_DQM0 SD_BA0 SD_BA1 SD_RAS# SD_CAS# SD_D08 SD_D09 SD_D10 SD_D11 SD_D20 SD_D21 SD_D22 SD_D23 SD_D24 SD_D25 SD_D12 SD_D13 SD_D28 SD_D29 SD_D14 SD_D15 5 Signals at the different Host Interface Modes 4 SPI DPM + 16 Bit SDRAM MII + 16 Bit SDRAM 3 32 Bit SDRAM 2 T4 V1 U4 U3 10 10 P18 U18 +1V5 R17 L18 PHY1_RXN K17 MICRO-NETX52-2231.000 TXD2 RTS2 RXD2 CTS2 V3 U5 T5 T6 12 N17 PHY_EXTRES N16 PHY_ATP 1 L12 GND PHY1_VSSAR M18 GND PHY1_VSSAT1 M17 GND PHY1_VSSAT2 0603 12.4k R3092 K16 +1V5 L17 PHY1_TXN K18 PHY1_RXP PHY1_TXP PHY1_VDDCART P16 GND PHY0_VSSAR L10 GND PHY0_VSSAT1 L11 GND PHY0_VSSAT2 PHY0_RXN P17 PHY0_TXN R18 PHY0_RXP PHY0_TXP PHY0_VDDCART K101-O 11 M16 +1V5 M12 GND PHY_VSSAT L16 GND PHY_VSSACP PHY_VDDCAP MICRO-NETX52-2231.000 MMIO21 MMIO23 MMIO20 MMIO22 12 T17 +3V3 PHY_VDDIOAT N18 +3V3 PHY_VDDIOAC K101-B netX52 11 UART0 A 1 GND 2 0603 1 +3V3 13 100nF C201 13 2 0603 1 100nF C202 14 Page of Page +1V5 14 4 2 J I H G F E D C B A Quick Start 233/334 © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B 1 Checked Edited COM0_G# COM0_R# COM1_G# COM0_R# Date Name Date Name R2 PIO0 U2 PIO1 T2 R3 GND 2 22.11.2012 Matthias Melzer MICRO-NETX52-2231.000 MMIO12 MMIO13 MMIO14 MMIO15 K101-M H2 K2 J2 L3 +3V3 XM0_RX XM0_TX XM0_ECLK XM0_IO0 MICRO-NETX52-2231.000 MMIO00 MMIO01 MMIO02 MMIO03 K101-J netX52 2 3 1 470 0603 R3062 270 0603 R3052 1 0805 Z=1000 Ohm @100MHz 1 R308 2 0805 Z=1000 Ohm @100MHz R307 1 3 C301 6 3 XM0_RX 4 2 1 green 1210 P301 2 1 2 +3V3 RE R D DE T301 IL3585E 4 www.hilscher.com 5 0 OUT 5V DC 16 4 5 A B ISODE 12 13 10 7 C305 6 7 DEVICENET 2 C302 ISOGND_DP 2 0603 100nF 1 ISO+5V_DP 0805 22uF 1 PB_RXTX_P PB_RXTX_N DeviceNet PSD-3R305S 0 VDD2 9 GND2-1 15 GND2-2 + 3,3V DC + IN 6 ISOLATED-AREA K301 Hilscher Gesellschaft für Systemautomatiom mbH 4 5 C304 VDD1 8 GND1-2 2 GND1-1 1 XM_IO0 5 XM0_TX 0805 22uF 1 GND 2 0603 100nF 1 +3V3 3 red LEDSRG DIODE-LED-LEDSRG-1210 4 8 8 1 3 EN 2 GND 5 9 NCP500SN50T1 VOUT T302 VIN 9 1 330 0603 1 2 2 2 10 10 C306 0805 22uF 1 100k R303 100k R302 R3012 1 0603 0603 2 ISOGND_DP ISO+5V_DP 11 11 1 2 2010 A 1 1M R304 12 12 1 2 C303 1808 2.2nF PE 13 13 PB_RXTX_P PB_CNTR ISOGND_DP ISO+5V_DP 14 Page of Page 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 PB_RXTX_N 8 9 9 10 SHIELD1 11 SHIELD2 XDCP9BW-6MM X301 14 4 3 J I H G F E D C B A Quick Start 234/334 © Hilscher, 2008-2013 J I H G F E D C 1 Checked Edited Date Name Date Name 1 2 2 22.11.2012 2 2 GND1 9 C402 1 2 FB GND VOUT CSH LDS VSW BST 3 D1 2 5 3 G 4 C407 1 2 1 2 GND 2 1.5k R404 4.7k R403 0603 100nF 1 S D4 100nF C406 3 PMEG4005 4 2 3 1 FB SW FAN2001 7 4 6 GND 1 3.3μH 2 R408 1 2 2 1 1.96k 4 www.hilscher.com 5 D1 2 10uH C408 0.018 R406 C411 2 7 6 7 POWER_SUPPLY +3V3 R405 0805 22uF 1 2 1 2 1 4 0805 22uF 1 +1V5 S D4 1 2 5 6 DeviceNet R410 1.8k R409 GND GND 2 G C405 3 FDC5612 6 K401 D2 D3 0805 10uF Hilscher Gesellschaft für Systemautomatiom mbH PGND AGND EN VIN T402 1 2 1 6 5 R402 1 PMEG4005 2 5 6 R401 3 4 Power Supply +1V5 3 5 4 8 FDC5612 1 2 5 6 0805 1 GND 2 K402 D2 D3 11 10 C404 0805 100nF 1 C403 1210 10uF 12 HSD 7 VDD MIC2198 13 4 Power Supply +3V3 6 VIN 2 EN/UVLO T401 COMP Matthias Melzer 2 1 1210 10uF C410 0805 22uF 1 +3V3 2.2k R407 1 C401 C409 GND 2 0603 2.2nF 1 1 1210 10uF 3 Synchronous Buck Controller B 9V-24V 0603 0603 0603 2 0603 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 0603 1206 A 1 8 8 GND 2 0805 1 GND 2 0805 1 10uF C414 10uF C412 9 9 2 0603 1 2 0603 1 100nF C415 100nF C413 C16 G11 G12 G8 H10 J10 J11 K9 L7 M7 M8 P1 T18 V5 V9 H12 H8 K11 G1 H11 H9 J8 K10 K7 L8 F11 F13 F6 G6 J13 J6 L13 L6 M6 N12 F8 F9 H13 K6 N10 F7 M13 N11 N13 N7 N8 F10 F12 G13 N6 N9 H6 K13 T16 R16 J18 J17 T10 T12 10 GND +1V5 10 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VSS_47 VSS_48 VSS_49 VSS_50 VDDIO_1 VDDIO_2 VDDIO_3 VDDIO_4 VDDIO_5 VDDIO_6 VDDIO_7 VDDIO_8 VDDIO_9 VDDIO_10 VDDIO_11 VDDIO_12 VDDIO_13 VDDIO_14 VDDIO_15 VDDIO_16 11 MICRO-NETX52-2231.000 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 K101-I netX52 11 L9 M9 N3 U1 U9 V14 V17 V2 B1 F16 G10 G7 G9 J1 J12 J7 J9 K8 V18 C5 H7 M10 M11 K12 J16 C14 C3 E2 K1 V4 C4 E1 P3 T3 T9 U17 E16 L2 D17 T11 U14 GND +3V3 12 2 0603 1 2 0603 1 2 0603 1 12 100nF C421 100nF C419 100nF C417 1 2 0805 1 2 0805 1 2 0805 13 10uF GND C420 10uF C418 10uF C416 13 14 Page of Page 14 4 4 J I H G F E D C B A Quick Start 235/334 © Hilscher, 2008-2013 Quick Start 236/334 Bill of Material Page 1 REF DES PART TYPE PART NAME C101 FLASH Memory AT45DB321C-CNU C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 1nF 50V 0603 C105 Ceramic Capacitor 22pF 50V 0603 C106 Ceramic Capacitor 22pF 50V 0603 C107 EEPROM AT88SC0104C-SU C108 Ceramic Capacitor 100nF 25V 0603 G101 Crystal ABM7-25.000MHZ-D2Y-T K101 Microcontroller netX52 P101 LED yellow / green HSMF-C156 Q101 Reset MAX811SEUS-T R101 Resistor 22Ω 63mW 0603 R102 Resistor 22Ω 63mW 0603 R103 Diode SN65220DBVT R106 Resistor 10kΩ 63mW 0603 R107 Resistor 560Ω 63mW 0603 R108 Resistor 560Ω 63mW 0603 R109 Resistor 390Ω 63mW 0603 R110 Resistor 390Ω 63mW 0603 R111 Resistor 1.5kΩ 63mW 0603 R112 Resistor 1.5kΩ 63mW 0603 R113 Resistor 10kΩ 63mW 0603 R114 Resistor 10kΩ 63mW 0603 R115 Resistor 10kΩ 63mW 0603 X101 Mini USB-B Molex mini USB-B X102 Pin Header 4 pin REF DES PART TYPE PART NAME C201 Ceramic Capacitor 100nF 25V 0603 C202 Ceramic Capacitor 100nF 25V 0603 Page 2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 237/334 Page 3 REF DES PART TYPE PART NAME C301 Ceramic Capacitor 100nF 25V 0603 C302 Ceramic Capacitor 100nF 25V 0603 C303 Ceramic Capacitor 2.2nF 1000V 1808 C304 Ceramic Capacitor 22µF 6.3V 0805 C305 Ceramic Capacitor 22µF 6.3V 0805 C306 Ceramic Capacitor 22µF 6.3V 0805 K301 Driver IL3585E P301 LED red / green HSMF-C155 R301 Resistor 330Ω 63mW 0603 R302 Resistor 100kΩ 63mW 0603 R303 Resistor 100kΩ 63mW 0603 R304 Resistor 1MΩ 500mW 2010 R305 Resistor 270Ω 63mW 0603 R306 Resistor 470Ω 63mW 0603 R307 Ferrite Würth Elektronik part no. 74279207 R308 Ferrite Würth Elektronik part no. 74279207 T301 DC/DC Converter PEAK electronics part no. PSD-3R305SLF T302 Voltage Regulator NCP500SN50T1 X301 D-Sub9 Female SUYIN USA part no. 070212FR009G200ZU netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Quick Start 238/334 Page 4 REF DES PART TYPE PART NAME C401 Ceramic Capacitor 10µ 50V 1210 C402 Ceramic Capacitor 10µ 50V 1210 C403 Ceramic Capacitor 10µ 50V 1210 C404 Ceramic Capacitor 100nF 50V 0805 C405 Ceramic Capacitor 10µF 10V 0805 C406 Ceramic Capacitor 100nF 50V 0805 C407 Ceramic Capacitor 100nF 25V 0603 C408 Ceramic Capacitor 22µF 6.3V 0805 C409 Ceramic Capacitor 2.2nF 50V 0603 C410 Ceramic Capacitor 22µF 6.3V 0805 C411 Ceramic Capacitor 22µF 6.3V 0805 C412 Ceramic Capacitor 10µF 10V 0805 C413 Ceramic Capacitor 100nF 25V 0603 C414 Ceramic Capacitor 10µF 10V 0805 C415 Ceramic Capacitor 100nF 25V 0603 C416 Ceramic Capacitor 10µF 10V 0805 C417 Ceramic Capacitor 100nF 25V 0603 C418 Ceramic Capacitor 10µF 10V 0805 C419 Ceramic Capacitor 100nF 25V 0603 C420 Ceramic Capacitor 10µF 10V 0805 C421 Ceramic Capacitor 100nF 25V 0603 K401 Transistor FDC5612 K402 Transistor FDC5612 R401 Diode PMEG4005AEV R402 Diode PMEG4005AEV R403 Resistor 4.7kΩ 63mW 0603 R404 Resistor 1.5kΩ 63mW 0603 R405 Inductor sumida CDRH8D43-100 R406 Resistor 0.018Ω 250mW 1206 R407 Resistor 2.2kΩ 63mW 0603 R408 Inductor sumida CR32NP-3R3M R409 Resistor 1.8kΩ 63mW 0603 R410 Resistor 1.96kΩ63mW 0603 T401 Step-Down Micrel MIC2198YML T402 Step-Down Fairchild Semiconductor FAN2001MPX netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Edited netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F Date 2 22.11.2012 Matthias Melzer UART 2 UART 1 3 TXD MMIO MMIO22 MMIO20 MMIO23 MMIO21 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH any MMIO combination is possible V12 MMIO34 RTS RXD MMIO32 T11 U12 MMIO33 TXD CTS PIN T12 MMIO MMIO35 Signal CTS RXD RTS 6 RS232 RS232 T6 T5 T6 V3 PIN 7 1 TXD RTS RXD CTS C103 2 0603 100nF 1 2 0603 100nF C102 8 6 5 4 2 14 13 15 12 T1IN T2IN R1OUT# R2OUT# K101 19 C2- C2+ C1- C1+ 18 MAX3232EEUP 9 V- V+ 7 3 T1OUT# 17 T2OUT# 8 16 R1IN 9 R2IN GND VCC 9 +3V3 1 GND GND +3V3 NX_TXD0 NX_RTS0 NX_RXD0 NX_CTS0 2 0603 100nF C104 C105 10 2 0603 100nF 1 2 0603 100nF 1 C101 10 11 100 0805 R1022 1 3.3k 0603 R1012 1 11 1 1 2 2 3 3 4 4 5 5 6 6 7 NX_RTS0 7 8 NX_CTS0 8 9 9 10 SHIELD1 11 SHIELD2 XDCP9SW-6MM PE 12 NX_RXD0 NX_TXD0 NX_DTR0 NX_RGND0 X101 12 13 13 14 1 Page of 14 1 Page J I H G F E D 2.4.1 E 1 Name UART 0 netX 52 8 2.4 D netX 50/51 7 C 6 C 5 B 4 B 3 A 2 A 1 Quick Start 239/334 Miscellaneous Circuits RS232 © Hilscher, 2008-2013 Quick Start 240/334 Bill of Material REF DES PART TYPE PART NAME C101 Ceramic Capacitor 100nF 25V 0603 C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 100nF 25V 0603 C105 Ceramic Capacitor 100nF 25V 0603 K101 Driver MAX3232EEUP R101 Resistor 3.3kΩ 63mW0603 R102 Resistor 100Ω 125mW 0805 X101 D-Sub9 Male SUYIN USA part no. 070211MR009G200ZU netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E Edited 1 Name Date 2 22.11.2012 Matthias Melzer 3 TXD RTS 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH (MMIOxx) RTS (MMIOxx) TXD RXD 3 DE 4 D VCC 8 +3V3 RS422 RS422 6 A B GND VCC 7 65HVD1781D DRIVER-RS485-65HVD1781D 2 RE# 1 R 3 DE 4 D K102 SN65HVD1781D DRIVER-RS485-65HVD1781D 2 RE# 1 R A B GND 6 7 5 8 6 7 5 1 2 100nF C102 8 GND 0603 1 100nF GND +3V3 2 0603 C101 8 9 R101-A 9 5 X4 Z=120 Ohm @100MHz 4 R101-D 3 6 X4 Z=120 Ohm @100MHz R101-C 2 7 X4 Z=120 Ohm @100MHz R101-B 1 8 X4 Z=120 Ohm @100MHz 10 10 11 TX# TX RX# RX 11 RX TX# TX RX# 12 12 13 13 14 1 Page of 14 1 Page J I H G F E D 2.4.2 D (MMIOxx) RXD +3V3 K101 7 C 6 C 5 B 4 B 3 A 2 A 1 Quick Start 241/334 RS422 © Hilscher, 2008-2013 Quick Start 242/334 Bill of Material REF DES PART TYPE PART NAME C101 Ceramic Capacitor 100nF 25V 0603 C102 Ceramic Capacitor 100nF 25V 0603 K101 Driver SN65HVD1781D K102 Driver SN65HVD1781D R101 Ferrite 4x Array 100MHz 120Ω 150mA 1206 Murata part no. BLA31AG121SN4 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Edited netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F Date 2 22.11.2012 Matthias Melzer VCC 8 +3V3 (MMIOxx) TXD 3 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH RXD TXD (MMIOxx) RXD RTS (MMIOxx) RTS 6 RS485 7 SN65HVD1781D RS485 2 RE# 1 R 6 A B 7 GND 5 1 2 100nF 8 GND 0603 C101 9 2 7 X4 Z=120 Ohm @100MHz R101-B 1 8 X4 Z=120 Ohm @100MHz R101-A 10 10 RX RX# 11 RX# RX 11 12 12 13 13 14 1 Page of 14 1 Page J I H G F E 2.4.3 E 1 Name 3 DE 4 D K101 9 D +3V3 8 D 7 C 6 C 5 B 4 B 3 A 2 A 1 Quick Start 243/334 RS485 © Hilscher, 2008-2013 Quick Start 244/334 Bill of Material REF DES PART TYPE PART NAME C101 Ceramic Capacitor 100nF 25V 0603 K101 Driver SN65HVD1781D R101 Ferrite 4x Array 100MHz 120Ω 150mA 1206 Murata part no. BLA31AG121SN4 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 06.12.2012 2 4 6 8 10 12 1 3 5 7 9 11 3 SWITCH-DIP-CHS-06TA +3V3 Matthias Melzer S101-A S101-B S101-C S101-D S101-E S101-F MMIOxx (CTS) MMIOxx (RXD) MMIOxx (RTS) MMIOxx (TXD) 1 8 X4 B 10k 3 X X 0 0 1 1 1 0 10k X X X X X X 1 X 1 0 S101-A DXEN R101-C 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH 0 X X 1 1 0 0 1 X 0 1 X 6 S101-B RXEN# 7 10k R101-B 5 S101-E 485/232# R101-A 2 X4 4 X4 3 4 6 X X X X 1 X X X X 0 S101-C TE485 10k R101-D 1 X X 1 0 X X X X X X S101-D H/F# 2 10k R102 7 1 10k 1 1 0 0 X 0 0 0 0 X S101-F LB GND 2 7 DXEN RXEN# TE485 H/F# 485/232# LB FEN DY DX RA RB LTC2870 Mode and Comments 6 5 28 27 4 26 9 7 8 2 3 K101 9 CAP VDD VEE1 VEE2 VEE3 GND1 GND2 GND3 GND4 SW VL VCC1 VCC2 VCC3 Y Z A B 11 15 1 12 29 10 13 18 23 14 25 16 20 24 19 17 22 21 2 0603 1 2 0603 1 2 1 10 1uF C102 220nF C101 R104 10μH 8 9 RS232 Loopback Mode RS485 Loopback Mode RS485 Half-Duplex Mode RS485 Full-Duplex Mode 10 RS485 Driver and Receiver 120 Ohm Termination Enabled RS485 Receiver On RS485 Driver On RS232 Receivers On RS232 Drivers On Fast-Enable: DC/DC Converter On Only RS232/RS422/RS485 6 8 R103 RS232/RS422/RS485 5 X4 2 0603 11 2 0603 1 2 0603 1 11 1uF C103 2.2uF C104 2 0603 1 +3V3 12 100nF C105 12 13 RX#/CTS RX/RXD TX#/RX#/RTS TX/RX/TXD 13 1 Page of 14 1 Page 14 J I H G F E D C B A 2.4.4 0603 A 1 Quick Start 245/334 RS232, RS422 and RS485 in one Circuit © Hilscher, 2008-2013 Quick Start 246/334 Bill of Material REF DES PART TYPE PART NAME C101 Ceramic Capacitor 220nF 16V 0603 C102 Ceramic Capacitor 1µF 16V 0603 C103 Ceramic Capacitor 1µF 16V 0603 C104 Ceramic Capacitor 2.2µF 6.3V 0603 C105 Ceramic Capacitor 100nF 25V 0603 K101 Driver LTC2870 R101 Resistor Array 4x 10kΩ 62mW 1206 R102 Resistor RES-RKRS10KW63M-0603 R103 Resistor RES-RKRS10KW63M-0603 R104 Ferritte IND-LSFS10UA300M-1008 S101 Sllide Switches CHS-06TA Copal Electronics netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C B Edited 1 Date Name 2 06.12.2012 Matthias Melzer 2 3 MISO MOSI CLK CS0# CS1# SIO3 SIO2 CD 3 7 3 QSPI_SIO3 QSPI_SIO2 W25Q32VZPIG HOLD#(IO3) 4 WP#(IO2) GND 6 CLK 1 CS# SPI_CLK SPI_CS0# 2 DI(IO0) DO(IO1) 8 VCC 5 SPI_MOSI ROM 32Mbit C101 FLASH 5 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH CARD_DETECT QSPI_SIO2 QSPI_SIO3 SPI_CS1# SPI_CS0# SPI_CLK SPI_MOSI SPI_MISO 4 C102 1 +3V3 1 2 SIO2 CD *) only netX 51 P2 T14 N2 T14 P12* CS1# U15 V16 U2 U15 CS0# V15 V15 CLK T15 netX 52 U16 SPI0_MISO_SD 9 GND SPI_MOSI_SD 100nF 0603 2 6 7 8 FLASH/MMC/SD-CARD 1 +3V3 SPI_CS1# C104 5 1 2 3 GND 4 Y 74LVC1G125GW OE# A VCC K102 74LVC1G125GW R13* V16 MOSI SIO3 U15 MISO A OE# K101 VCC 8 3 GND 4 Y 5 Standard Pin Connection netX 50/51 SPI_MOSI SPI_MISO GND 2 100nF 0603 C103 7 9 SPI FLASH and MMC/SD-CARD GND 2 0603 100nF 1 +3V3 6 10k R101 1 +3V3 2 10 10 +3V3 11 10k 0603 R1022 1 11 PE GND VDD DO DI SCLK CS# GND1 GND2 10 CD_&_WP 11 COMMON 14 WP 4 7 2 5 1 3 6 12 13 PE FPS009-2405-0 SPI0_MISO_SD SPI_MOSI_SD SPI_CLK SPI_CS1# X101 MMC/SD-CARD 12 13 13 1 Page of 14 1 Page 14 J I H G F E D C B A 2.4.5 0603 A 1 Quick Start 247/334 MMC/SD-Card und SPI-FLASH © Hilscher, 2008-2013 Quick Start 248/334 Bill of Material REF DES PART TYPE PART NAME C101 FLASH Memory W25Q32VSSIG C102 Ceramic Capacitor 100nF 25V 0603 C103 Ceramic Capacitor 100nF 25V 0603 C104 Ceramic Capacitor 100nF 25V 0603 K101 Driver NC7SZ125 K102 Driver NC7SZ125 R101 Resistor 10kΩ 63mW 0603 R102 Resistor 10kΩ 63mW 0603 X101 Connector FPS009-2405-0 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public J I H G F E D C Edited 1 Date Name 2 22.11.2012 Matthias Melzer 2 3 3 ETM_TPKT0 ETM_TPKT1 ETM_TPKT2 ETM_TPKT3 ETM_TPKT4 ETM_TPKT5 ETM_TPKT6 ETM_TPKT7 ETM_TPKT8 ETM_TPKT9 ETM_TPKT10 ETM_TPKT11 ETM_TPKT12 ETM_TPKT13 ETM_TPKT14 ETM_TPKT15 ETM_TCLK ETM_TSYNC ETM_DREQ ETM_DACK MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO16 JTAG_TDI JTAG_TDO JTAG_TMS JTAG_TCLK JTAG_TRST# K101-E ETM_PSTAT0 ETM_PSTAT1 ETM_PSTAT2 MMIO21 MMIO22 MMIO23 K101-N MMIO36 MMIO37 MMIO38 MMIO39 K101-R MMIO32 MMIO33 MMIO34 MMIO35 K101-Q MMIO28 MMIO29 MMIO30 MMIO31 K101-P MMIO24 MMIO25 MMIO26 MMIO27 K101-O netX 50/51 5 L6 L5 K6 K5 J5 U2 V2 V3 T6 V6 U6 T7 V7 V13 U13 T13 V14 V12 T11 U12 T12 T9 U10 T10 U11 U7 R8 V9 U9 4 www.hilscher.com 5 Hilscher Gesellschaft für Systemautomatiom mbH POR# 4 7 6 ETM 7 netX 50/51 ETM 6 8 8 9 +3V3 9 14 12 19 11 17 15 21 9 30 28 26 24 22 20 18 16 37 35 33 31 29 27 25 23 38 36 34 6 32 7 8 ETM9 GND1 GND2 GND3 GND4 GND5 GND6 10 AMP2-767004-2 VCC VTREF TDI TDO TMS TCK TRSTN SRSTN TRACEPKT0 TRACEPKT1 TRACEPKT2 TRACEPKT3 TRACEPKT4 TRACEPKT5 TRACEPKT6 TRACEPKT7 TRACEPKT8 TRACEPKT9 TRACEPKT10 TRACEPKT11 TRACEPKT12 TRACEPKT13 TRACEPKT14 TRACEPKT15 PIPESTAT0 PIPESTAT1 PIPESTAT2 TRACECLK TRACESYNC DBGRQ DBGACK X101 5 40 41 42 43 44 11 11 GND ETM Connector 10 12 12 13 13 1 Page of 14 1 Page 14 J I H G F E D C B A 2.4.6 B A 1 Quick Start 249/334 ETM netX 50/51 © Hilscher, 2008-2013 Quick Start 250/334 Bill of Material REF DES PART TYPE PART NAME K101 Mikrocontroller netX 50/51 X101 Connector AMP2-767004-2 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Resource Overview 3 251/334 Resource Overview The following tables list netX Hardware Resources and functions and provide information on existing software support for these features. “no driver available” means, that Hilscher does currently not provide a driver or special functions for easy access to the corresponding resource, however this resource may of course still be used if the user develops the appropriate code by himself or integrates third party products (e.g. Flash File System for parallel FLASH). 3.1 rcX Operating System Resource/Functionality Loadable Firmware Linkable Object Modules USB Device for firmware update for firmware update / debug USB Host not supported no driver available UART0 for firmware update for firmware update / debug UART1 Modbus RTU supported UART2 Modbus RTU supported SDRAM required (min. 8MB) required (min. 8MB) for standard application Secure Memory Master: required Slave: optional, but recommended Master: required Slave: optional, but recommended SPI Flash Required (minimum size see Table 4) Required (minimum size see Table 4) Quad-SPI - requires 2nd stage loader - for loading FW only (FSU) - requires 2nd stage loader - for loading FW only (FSU) 2nd SPI Interface not supported - no FLASH File System - only limited components MMC/SD Card not supported no driver available Parallel FLASH not supported - no FLASH File System - only limited components Fieldbus Slave (1 Channel) see Table 4 see Table 4 Ethernet Ports RTE protocols (see separate list) Standard Ethernet and RTE protocols (see separate list) Host Interface DPM interface DPM, Extension Bus, PCI Gateway Functionality not supported user programmable 2 Channel Fieldbus not supported supported I/O Link not supported no driver available CCD interface not supported no driver available Table 3: List of Resources – rcX OS netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Resource Overview 3.2 252/334 Memory Requirements of Hilscher Stacks The following table lists all field bus and RTE protocols that are currently (status of December 2012) available as Loadable Firmware or Loadable Object Modules from Hilscher, along with the required size of the SPI FLASH, holding the appropriate firmware. The FLASH size information is based on the code sizes of the current Firmware Releases, include the additional memory required for the Hilscher second stage loader (currently 52K) and the FLASH disk, leave some headroom for future extensions and are generally rounded up to the next available FLASH size step. If Linkable Object Modules are to be used, users must of course consider the additional memory required for their user application (where applicable). All listed protocols also require different amounts of SDRAM; however the smallest available SDRAM components are meanwhile 8MB anyway. This amount of memory meets the requirements of all current protocols and is hence indicated as minimum SDRAM size for netX 50/51 designs. Designs with netX 52 no external SDRAM is required. Loadable Firmware / LOM SPI FLASH size ASi Master 2MB CANopen Slave 2MB DeviceNet Slave 2MB CC-Link Slave 2MB PROFIBUS Slave 2MB EtherCAT Slave 2MB Ethernet/IP Adapter 2MB Modbus RTU / TCP 2MB POWERLINK Slave (with integrated. Hub) 2MB PROFINET RT / IRT Slave (with integrated. Switch) 4MB Table 4: FLASH Sizes for Hilscher Stacks netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4 253/334 Standard Circuits 4.1 netX 51/52 Chip Mode Selection The ROM code uses pins MEM_A18 and MEM_A19 to read the chip mode. Both pins are sampled when a negative edge occurs on the reset. 4.1.1 Chip Mode Selection netX 51 netX 51 offers two chip modes ! netX 51 mode ! netX 51 in netX 50 compatibility mode The figures in the following table show how to use pull-up resistors to select/set the mode. netX 51 Mode netX 51 in netX 50 Compatibility Mode No pull-up resistors at MEM_A18 and MEM_A19. 10 k +3.3 V MEM_A18 MEM_A18 MEM_A19 MEM_A19 netX 51 netX 51 Figure 2: netX 51 in netX 50 Compatibility Mode Figure 1: netX 51 Mode Table 5: Chip Mode Selection netX 51 4.1.2 Chip Mode Selection netX 52 netX 52 has one chip mode. The following figure shows how to use pull-up resistors to select/set the mode. 10 k +3.3 V MEM_A18 MEM_A19 netX 52 Figure 3: netX 52 Chip Mode netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.2 254/334 Booting and System LEDs The netX 50/51/52 provide two dedicated I/O pins that are used for up to two different purposes. These pins are named RDY and RUN and operate as inputs after reset. The first stage boot loader residing in the ROM of the netX chips checks the logic levels on these pins and enters certain boot modes, depending on these levels. After that, the first stage loader configures these pins as outputs, which are used to display status information. Once a firmware is started, it has complete control over these pins and their function may then be completely application specific. In the netX 50/51/52, these pins can also serve a third purpose, which is accessing an I²C secure EEPROM, described in the next chapter. Note: In netX schematics, the RDY and RUN pins are usually shown with a negating circle. However, the polarity of these pins (when used as outputs) depends on a register setting. Besides the two bits that enable the output driver (pin configured as output) and set the level of the pin, there is a third bit for each pin that determines the polarity (active high or active low). So it actually depends on these polarity bits, if the (output-) pins are active low or active high! Further these polarity bits do not affect the pins when used as inputs (RDY and RUN inputs are never inverted). For historical reasons (the active low signals RDY# and RUN# were already defined for the EC1 based devices) the RDY and RUN pins are however always shown as active low. For displaying system status, a system LED (dual LED or two single LEDs) is defined: LED Color Description RDY Yellow netX with operating system is running RUN Green User application is running without errors Table 6: RDY / RUN LED Status Basically, designers could use LEDs with other colors, however it is recommended to use the Hilscher definition (especially when interpreting blink codes for troubleshooting it is helpful if customer and support see the same colors). The first question when selecting the correct RDY/RUN circuit for a netX 50/51/52 design is whether the design is to run a Hilscher Master stack or not. In the first case, the use of a secure EEPROM is mandatory and designers should continue with chapter 4.3.(as with the netX 50/51/52, the secure EEPROM is connected to the RDY / RUN pins, the RDY/RUN circuit for that case is described in a common chapter with the secure EEPROM). In the other case, the use of a secure EEPROM is still recommended, however when not using the EEPROM, the following circuit may be used: netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 255/334 6.8k 6.8k +3.3V RDY Boot options: RDY yellow netX 50 netX 51 netX 52 J1 560 560 J2 FLASH/Ethernet (netX 51/52) boot mode RUN green J2 J1 Serial boot mode (UART0 or USB) RUN J2 J1 J2 J1 1.27k 1.27k FLASH/Dual-Port Memory boot mode J2 J1 FLASH boot mode GND Figure 4: netX 50/51/52 RDY/RUN Circuit netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 256/334 RDY/RUN Pins in the Bootsequence Right after turning on the power or pressing the reset button the netX looks for a bootable image. This image is usually a 2nd Stage loader or a firmware. The netX checks a sequence of devices for a bootable image. This is the boot sequence. The devices in the boot sequence are checked one after the other. The first device with a valid image wins. The boot sequence is defined by the state of the RDY/RUN pins. Dual-Port-Memory Extension Bus Bootmode Serial Bootmode Memory Bootmode Bootmode Par. FLASH memory bus Par. FLASH memory bus None Par. FLASH memory bus SPI CS0 FLASH SPI CS0 FLASH None SPI CS0 FLASH SPI CS1 MMC/SD Card SPI CS1 MMC/SD Card None SPI CS1 MMC/SD Card I²C I²C None I²C Par. FLASH extension bus DPM None None None None None None None None None None None None None None Table 7: Standard Boot Devices in netX 50 Extension Bus Bootmode Dual-Port-Memory Serial Bootmode Ethernet Bootmode Bootmode Par. FLASH memory bus Par. FLASH memory bus None Par. FLASH memory bus QSPI CS0 FLASH QSPI CS0 FLASH None QSPI CS0 FLASH SPI CS0 FLASH SPI CS0 FLASH None SPI CS0 FLASH SPI CS1 MMC/SD Card SPI CS1 MMC/SD Card None SPI CS1 MMC/SD Card None DPM None ETH None None None None None None None None None None None None Table 8: Standard Boot Devices in netX 51 Extension Bus Bootmode Dual-Port-Memory Serial Bootmode Ethernet Bootmode Bootmode Par. FLASH Host Interface Par. FLASH Host Interface None Par. FLASH Host Interface QSPI CS0 FLASH QSPI CS0 FLASH None QSPI CS0 FLASH SPI CS0 FLASH SPI CS0 FLASH None SPI CS0 FLASH SPI CS2* MMC/SD Card SPI CS2* MMC/SD Card None SPI CS2* MMC/SD Card None DPM None ETH None None None None None None None None None None None None *) MMIO09 Table 9: Standard Boot Device in netX 52 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 257/334 A special case occurs if the boot sequence contains devices connected to the host interface. The host interface offers a variety of functions with just a few pins. This is done by sharing one pin to many functions. To prevent physical damage to the netX, the host interface should only use the functions which are actually connected. Using other functions with the connection might cause permanent damage. Example 1: A board has a DPM interface connected to the host interface pins. The host interface should be used as DPM, but not as a memory interface. Example 2: A board has a parallel flash connected to the host interface pins. The host interface should be used as memory interface, but not as DPM. The netX offers both DPM and parallel flash as boot devices. It needs a way to determine which functions of the host interface can be used. This is where the strapping options come in. They describe what is connected to the host interface. When the netX processes the boot sequence and hits a device on the host interface, it first consults the strapping options. If and only if the device matches the settings of the strapping options, the netX looks for a bootable image there. If the strapping options do not match, the device is ignored. SPI0_MOSI SPI0_CLK SPI0_MISO Description netX boots from the connected Memory none none none Ignore host interface during boot. Use if the device that is connected at the host interface can’t be used as source or destination device during boot, e. g. the host interface is used as PIO. none none pull up SDRAM with 16 bit data bus and up to 4 Mbyte address range Use if SDRAM can be used as destination device instead of INTRAM. pull up none pull up SDRAM with 32 bit data bus and up to 4 Mbyte address range Use if SDRAM can be used as destination device instead of INTRAM. none pull up none SRAM with 16 bit data bus and up to 4 Mbyte address range Use if parallel Flash (CS0) can be used as source device. - or Use if static RAM (CS0, 1, 2 or 3) can be used as destination device instead of INTRAM. Host CPU supported: Host CPU boots netX via Dua-Port Memory none pull up pull up Serial dual-port memory (SPM) mode Use if serial dual-port memory should be used as source device. pull up none none Parallel dual-port memory (DPM) with 8 bit data bus and up to 2 Kbyte address range Use if parallel dual-port memory should be used as source device. pull up pull up pull up Parallel dual-port memory (DPM) with 8 bit data bus and up to 64 Kbyte address range Use if parallel dual-port memory should be used as source device. Reserved pull up pull up none Reserved. Don’t use it. Table 10: Host Interface Mode and Booting For detailed information about the host interface mode see reference [1]. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.3 258/334 Secure EEPROM The secure EEPROM available for netX controllers can hold licensing information, MAC addresses and other information. A detailed Application Note explaining the purpose and use of the Secure EEPROM is available on the Hilscher website. On the netX 50/51/52, the secure memory must not be connected to the I²C interface! Instead, the RDY and RUN pins are used, as shown in the following schematics for netX 50: Boot mode stored in EEPROM +3.3V +3.3V NC NC GND SCL SDA 7 0.1 μF 6 E1 5 E2 green GND yellow 560 4 NC 8 RDY RUN GND RDY RUN Rpd 3 VCC 560 2 NC 1.5k 1 1.5k AT88SC0104C GND netX 50 S1 Serial boot mode (UART0 or USB when S1 pressed on power on Reset GND Rpd < 420 ȍ Figure 5: Sample Schematic, netX 50 Security Memory and RDY/RUN LED The circuit for netX 51/52 is a little bit different to netX 50 concerned the LED connection and is shown in following figure. 3 NC SCL GND SDA 7 RDY 0.1 μF green 560 NC 1.5k NC 8 RUN 6 RDY 5 RUN Rpd 4 VCC 560 2 NC 1.5k AT88SC0104C 1 GND Boot mode stored in EEPROM +3.3V yellow +3.3V +3.3V netX 51 netX 52 S1 GND Rpd < 420 ȍ Serial boot mode (UART0 or USB when S1 pressed on power on Reset Figure 6: Sample Schematic, netX 51/52 Security Memory and RDY/RUN LED netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits Note: 259/334 All other I²C components used in a netX 50/51/52 design must be connected to the I²C interface of the netX 50/51/52. The I²C emulation on the RDY and RUN pins is only used by the first stage loader and is not accessible for users! Q1: Now that there’s only a button for the serial boot mode, how can I enter the DPM boot mode or Extension Bus boot mode on my design? A1: The netX 50/51/52 can store the boot mode in the user area of the Secure EEPROM. Q2: But I prefer to do things in hardware. Can’t I still use the jumpers as with the other circuits? A2: No, the jumpers can not be used along with the EEPROM. I²C accesses do not allow to drive signals actively high, hence the RDY and RUN pins must always have strong pull-ups when the EEPROM is to be accessed. The netX 50/51/52 ROM loader will not even look for a secure EEPROM unless it detects a high level on the RDY and RUN pins. Q3: Now that the boot mode is stored in the EEPROM, do I still need the serial boot mode button? A3: The serial boot mode allows to (re-)flash the firmware and to set or modify the boot mode stored in the EEPROM and is hence strongly recommended. Q4: Why are the System LEDs not connected antiparallel as with the other circuits? A4: The antiparallel circuit has too much impact on the quality of the I²C signals, hence the diodes need to be connected differently. Q5: I would like to use a Dual LED with a common Anode and netX 50. What should I do? A5: In that case, you need two additional components (N-channel FETs), connected as shown below. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 260/334 +3.3V yellow green RDY RUN +3.3V 4 NC NC GND VCC NC SCL SDA 8 7 6 0.1 μF K1 D D S S G K2 G E1 5 E2 RDY RUN Rpd GND GND GND Boot mode stored in EEPROM 560 3 NC 1.5k 2 1.5k 1 560 AT88SC0104C +3.3V Rpd < 420 ȍ Q1, Q2: N-Channel FET, e.g. 2N7002 netX 50 S1 GND Serial boot mode (UART0 or USB when S1 pressed on power on Reset Figure 7: Sample Schematic, netX 50 Security Memory and RUN/RDY LED with Common Anode netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.4 261/334 Crystals, Clock Generators 4.4.1 System Clock The netX 50, netX 51 and netX 52 use either an internal oscillator along with an external crystal or an external oscillator for generating the 25 MHz base clock, which is then stabilized by a PLL which generates all internal Clocks of the chip. The following figure shows the clock circuits for the system clock generation: a) b) + 1.5V + 1.5V netX 50 netX 51 netX 52 OSC-VDDC OSC-VSS netX 50 netX 51 netX 52 OSC-VDDC OSC-VSS OSC-XTI OSC-XTO OSC-XTI OSC-XTO GND Rs GND + 3.3V 25 MHz 25 MHz 22 pF GND 22 pF GND GND Figure 8: netX 50/51/52 System Oscillator Circuit The values of the capacitors and the serial Resistor (Rs), depend on the used crystal. When using the same crystal all Hilscher netX products are equipped with, the resistor Rs will not be used (and replaced by a wire), further the capacitors should have a value of 22 pF. If a different crystal is used, the data sheet of the crystal must be consulted to determine the appropriate values. The Hilscher standard netX system crystal is a CS10-25.000MAGJ-UT, manufactured by Citizen. Alternatively, an external oscillator can be used, which is then connected according to schematic b). Note: When selecting an external oscillator or a different crystal, it must be provided, that these parts have a frequency of 25 MHz with a maximum tolerance of +/- 100 ppm throughout the complete temperature range, the design will be specified for! Q1: We already stock crystals or oscillators with a different frequency or higher tolerance. Can we also use these parts for the system oscillator? A1: No. The 25 MHz clock is the base for all other netX clocks and has hence influence on any timing around the netX, like SDRAM timing, Baud Rates, Ethernet timing, etc. Deviating from the specified frequency will most likely result in a system that does not work properly. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.5 262/334 Power On Reset and Reset In The netX 50/51/52 provides two inputs for reset signals, the Power On Reset (PORn) and the Reset In (RSTINn). While the use of the RSTINn is optional, the Power On Reset is mandatory. Since the PORn input is equipped with a Schmitt-trigger gate, it could basically be connected to a capacitor (other pin of cap. connected to GND) and a pull-up resistor, however it is strongly recommended to connect this signal to the output of a reset generator with voltage supervision, to make sure, the netX will not be released from reset until the power supplies have reached sufficient and stable levels. Reset generator components are often available with either a push/pull or an open drain output. When the design will make use of the JTAG Interface of the netX, an open drain type should be selected, since this allows to simply connect the reset signal from the JTAG connector (which is also specified as open drain) to the output of the reset generator. Of course a pull-up resistor (e.g. 10 kΩ) must be attached to the PORn signal when using open drain reset sources. The optional RSTINn, which is commonly used by an external host processor to reset the netX, also provides a Schmitt-trigger gate. The netX 50/51/52 provides an internal pull-up resistor (nominal 50 kΩ) and could be left open when not used. However it is recommended to tie it to VDDIO (+3,3V), since this can improve EMC behavior. When placing the components during PCB design, the reset source(s) should be placed near the reset inputs of the netX, to keep the traces off the reset signals short. Routing reset signals all over the PCB may result in bad EMC behavior of the design, since ESD may cause undesired resets of the chip. Experience with several netX designs further has shown that a 1 nF ceramic capacitor connected to GND and PORn, with the capacitor located close to the netX PORn pin, further improves resistivity against ESD. The following figure shows the standard reset circuits: + 3.3V alternative circuits External Reset Source (host) RSTIN 10k + 3.3V From JTAG conn. (optional) +3.3V Power on RESET RESET out Manual RESET (Open Collector / Open Drain Output) POR netX 50 netX 51 netX 52 1nF GND Figure 9: netX 50/51/52 Reset Circuits netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.6 263/334 Debug and Test Interfaces 4.6.1 JTAG Interface The netX 50/51/52 are equipped with a standardized JTAG Interface that allows loading, flashing and starting firmware, debugging of firmware and provides access to the Boundary Scan Test mode of the chips. Though this interface is rarely used during operation of final netX products, it is strongly recommended, to have at least retrofittable access to this interface on any netX design, especially on prototypes, even for designs where the customer does not intend to write his own software but use Hilscher loadable firmware instead. Debugging of a prototype can be somewhere between cumbersome and impossible if the JTAG interface is not accessible and for development of own netX software, a JTAG interface is essential anyway. Further, automatic testing systems used in production testing usually need access to this interface, so the JTAG interface pins should at least be connected to test points that can be contacted by prober systems. The following figure shows the standard netX JTAG circuit: TDI TDO TMS TCK nTRST nSRST VTref Vsupply GND GND GND GND GND GND GND GND GND 10k 10k +3.3V 5 13 7 9 3 15 JT_TDI JT_TDO JT_TMS JT_TCLK JT_TRST +3.3V 1 2 4 6 8 10 12 14 16 18 20 +3.3V Power on RESET RESET out Manual RESET (Open Collector / Open Drain Output) POR netX 50 netX 51 netX 52 1 nF GND GND Figure 10: netX 50/51/52 JTAG Circuits Whenever there is enough space on the design’s PCB, a standard 20 pin shrouded header with 0.1” or 2.54 mm pitch should be used for the JTAG interface, since this allows connecting standard JTAG debugging units to be plugged to the board instantly, without the need for any special cable adapters. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 264/334 The JTAG connector is a 20 pin Insulation Displacement Connector (IDC) keyed box header (2.54 mm male) that matches with IDC sockets mounted on a ribbon cable and provides the following signals: Pin ARM Signals netX Signals Pin ARM Signals netX Signals 1 VTref +3.3V 2 Vsupply +3.3V 3 nTRST JT_TRSTn 4 GND VSS 5 TDO JT_TDO 6 GND VSS 7 TMS JT_TMS 8 GND VSS 9 TCK JT_TCK 10 GND VSS 11 RTCK Not used 12 GND VSS 13 TDI JT_TDI 14 GND VSS 15 nSRST PORn 16 GND VSS 17 DBGRQ Not used 18 GND VSS 19 DBGACK Not used 20 GND VSS In designs that will not require the use of the JTAG interface, the JTAG signals may be left unconnected. The internal pull-down on the JT_TRSTn will then constantly hold the JTAG interface in Reset state. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.6.2 265/334 Hilscher “mini-JTAG” Connector For netX products with small board size that do not allow implementation of the standard 20 pin JTAG connector, while still requiring access to the JTAG interface, Hilscher has defined an 8 pin JTAG interface port for the connection of Flex Cables. Of course, users are free to use any suitable connector for a JTAG interface in their application, along with a custom cable adaptor. Implementing the Hilscher defined connector however releases the user from defining and building such an adapter, as there is already an appropriate adapter for the “mini-JTAG” connector available from Hilscher. This adapter provides a standard 20 pin JTAG connector to be used with common debugger devices and a Flex cable, that connects to the “mini-JTAG” port. The adaptor also provides the required pull-up resistor on the JT_TRST signal, leaving the netX JTAG interface disabled (in Reset state), achieved through the internal pull-down on the JT_TRST pin, when not connected to the application. For details on the connector (dimensions, recommended land pattern, etc) please consult the appropriate manufacturer datasheet). Connector Signals Manufacturer Product ZIF Flex cable connector,vertical 8 JST 08FLT-SM1-TB ZIF Flex cable connector, horizontal 8 JST 08FLZ-RSM1-TB Connector Pinout: Pin Signal name 1 +3V3 2 GND 3 JT_TCK 4 JT_TDO 5 JT_TDI 6 JT_TMS 7 JT_TRST 8 GND 8 1 8 1 Top View Front View ZIF connector for Flex cable TDO TDI TMS TCK nTRST +3V3 GND GND Note: 4 5 6 3 7 1 2 8 JT_TDO JT_TDI JT_TMS JT_TCLK JT_TRST +3V3 GND GND netX The “mini-JTAG” connector does not allow the debugger to reset the netX (Target Reset), as the appropriate signal (PORn) ist not available on the connector! This netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 266/334 means, that resetting and stopping the target before the bootloader has been started is not possible with this solution. Further, some debuggers have problems to properly connect the target when the PORn signal is not available, hence the use of this solution is only recommended when the design does not provide enough space for a standard JTAG connector or a custom solution that provides the PORn signal! 4.6.3 ETM Interface The ETM Interface (Embedded Trace Macro cell) that is provided by the internal ARM CPU of the netX 50/51 extends the debugging capabilities provided by the JTAG interface. It is generally recommended to implement when building netX Evaluation boards, but will most likely not be needed to debug prototype hardware. Even the 38 pin ETM board connectors (AMP Mictor 2767004-2) are costly, let alone appropriate ETM debugging units, so implementing an ETM interface will usually only be interesting for customers that write own software for their netX design. The connector for the ETM is standardized by ARM. Further information is available at www.arm.com. It is highly recommended to implement accordingly otherwise the debug tools will not work correctly. The ETM connector is to be wired to the netX according to the following table: Conn. ARM Signals netX Signals Pin 1 netX 50/51 Conn. ARM Signals Pin Pin N.C. 2 netX Signals netX 50/51 Pin N.C. 3 N.C. 5 GND VSS 7 DBGRQ ETM_DRQ 9 nSRST Not used 11 TDO JT_TDO 13 RTCK Not used 15 TCK JT_TCLK 17 TMS JT_TMS K6 18 TRACEPKT[6] ETM_TPKT06 T10 19 TDI JT_TDI L6 20 TRACEPKT[5] ETM_TPKT05 U10 21 nTRST JT_TRSTn J5 22 TRACEPKT[4] ETM_TPKT04 T9 23 TRACEPKT[15] ETM_TPKT15 V14 24 TRACEPKT[3] ETM_TPKT03 U9 25 TRACEPKT[14] ETM_TPKT14 T13 26 TRACEPKT[2] ETM_TPKT02 V9 27 TRACEPKT[13] ETM_TPKT13 U13 28 TRACEPKT[1] ETM_TPKT01 R8 29 TRACEPKT[12] ETM_TPKT12 V13 30 TRACEPKT[0] ETM_TPKT00 U7 31 TRACEPKT[11] ETM_TPKT11 T12 32 TRACESYNC ETM_TSYNC V3 33 TRACEPKT[10] ETM_TPKT10 U12 34 PIPESTAT[2] ETM_PSTAT2 V7 35 TRACEPKT[9] ETM_TPKT09 T11 36 PIPESTAT[1] ETM_PSTAT1 T7 37 TRACEPKT[8] ETM_TPKT08 V12 38 PIPESTAT[0] ETM_PSTAT0 U6 T6 L15 K5 4 N.C. 6 TRACECLK ETM_TCLK V2 8 DBGACK ETM_DACK V6 10 EXTTRIG 12 VTRef VCCIO 14 VCC VCCIO 16 TRACEPKT[7] ETM_TPKT07 U11 Table 11: ETM Signals netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 267/334 Note: The AMP Mictor connector has four additional through-hole-pins in the center which have to be grounded for proper operation of the trace port! For the PCB layout it is recommended to have the lines for the ETM signals as short as possible (the signal delay should be < 100 ps). The length of the lines should be equal to avoid different signal delays. To improve signal quality, matching resistors can be placed in the signal lines (located as close as possible to the chip pins (<10 mm)) to match the output impedance of the chip signal driver with the PCB trace impedance Note: For netX 50/51 the ETM signals are shared signals and can be mapped to MMIO signal pins. If ETM is used, then no other signals on the MMIO pin can be used at the same time. Note: netX 52 can be used with JTAG only. 4.6.4 Boundary Scan For automated production testing of a final netX product, it may be desirable to make use of the netX Boundary Scan feature. In that case, certain conditions must be met to allow entering the Boundary Scan test mode: The first condition refers to the logic level on the TEST/BSCAN_TRST pin (netX 50/51: G5, netX 52: E3). The design must provide a possibility to pull this signal to high level, which activates the test modes, which can be realized by a jumper or a contact pad for the test system which then controls this signal. Further, all JTAG signals must be available to the test system (e.g. by appropriate contact pads). JT_TDI JT_TDO JT_TMS JT_TCLK JT_TRST 1k TEST/BSCAN_TRST B1 POR netX50 netX51 netX52 1 nF GND Figure 11: netX 50/51/52 Boundary Scan JTAG/TEST Signals The 1 kΩ pull-down resistor (placed as close as possible to the netX pin) can be omitted, when the signal trace between the contact pad and the netX pin is short, as then the internal pull-down resistor (nominal 50 kΩ) is sufficient to keep the TEST/BSCAN_TRST signal state inactive during normal operation. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 268/334 The second condition refers to the state of some GPIO signals only on netX 50 as shown in the following table (not necessary for netX 51/52). The design must provide the possibility to set the required logic levels on these signals and the levels must remain in that state throughout the complete Boundary Scan test procedure. netX 50 Signal Pin number Signal State MMIO14 W13 Pulled high MMIO08 AA15 Pulled low or unconnected MMIO9 Y15 Pulled low or unconnected MMIO10 AA14 Pulled low or unconnected MMIO11 Y14 Pulled low or unconnected Table 12: netX 50 Boundary Scan MMIO Signals netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.7 269/334 External Memory Basically, the netX 50/51 provide two different interfaces where firmware memory can be connected to: The (serial) SPI interface and the parallel FLASH/SRAM interface that shares most of its pins with the SDRAM controller. When connecting memory components to the parallel FLASH/SRAM/SDRAM interface, designers should always mind the capacitive load that is applied to the interface signals by the memory components. The memory interface of the netX 50/51 is designed to handle a maximum load capacity of 15 pF on data- and address- lines and 10 pF on all other control signals (RDn, WRn, CSn, DQM). The capacitive load directly influences the signal timing (the higher the load, the longer the signal delay) which has limited scope with SDRAMs. Since the allowed range of operating conditions (min./max. voltage, min./max. temperature) further influences signal timing, capacity limits needed to be defined, that ensure safe operation throughout the whole voltage and temperature range. When exceeding these capacity limits, this may, to a certain amount, be compensated by two clock phase parameters of the SDRAM interface, hence such “out-of-spec-designs” are imaginable, but require careful evaluation! 4.7.1 FLASH Memory 4.7.1.1 SPI FLASH SPI FLASH components consume considerably little space (SO-8 package) on the PCB, while being able to hold large firmware images of 4 MB or even greater, hence it is always recommended to add such a FLASH to any design if allowed by board size constraints. Even designs using a parallel FLASH as firmware memory or designs that receive their firmware through the DPM interface from an external host processor can benefit from an additional serial FLASH that can hold a second stage boot loader or non-volatile user data. Finally it may always simply be left unpopulated if really not used in the final product. Note: When the design is to be used with loadable firmware from Hilscher, an SPI FLASH is mandatory! While an SPI Flash can be connected to three different chip select signals, it must be connected to chip select 0 (SPI_CS0), when the design is to be able to boot from this SPI Flash. A standard component used by Hilscher is the AT45DB321 from ATMEL, providing a capacity of 4MB. It is being connected as shown in the following schematics: netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 270/334 netX 50 10k +3.3V AT45DB321 SPI_MISO 1 SPI_MOSI 2 SPI_CLK 3 SPI_CS0 netX 50 netX 51 netX 52 4 SPI_CS1 SI SO CLK GND RESET VCC CS WP 8 +3.3V 7 6 5 0.1 μF GND GND PORn Figure 12: netX 50/51/52 SPI Flash 4.7.1.2 QSPI FLASH Instead of a standard SPI Flash, a QUAD-SPI Flash may be used on netX 50/51/52 designs, which allows to reduce the time required for loading large firmware images and hence to reduce boot up time. These FLASHes can be switched to a second mode that allows to serially transmit 4 Bit simultaneously. This feature was implemented for designs that run PROFINET and are required to provide the so called “Fast Startup” (FSU) feature. It is available on netX 50, netX 51 and netX 52, requires the Hilscher second stage loader and is only used while loading the firmware (any access to the QSPI Flash once the firmware is started, will always use the standard 1-Bit mode). The currently available solution allows a start up time for PROFINET slave firmware of approximately 700ms, while appropriate code optimization is currently in progress, targeting start up times of less than 500ms. As this feature consumes a total of 6 additional I/O pins, it is recommended to only use it with FSU design or other designs with considerably large firmware images and comparable constraints for the system start up time. The supported FLASH type is a W25Q32V from Winbond Electronics. The table below shows the three possible pin connection for the netX 50 as well as the pin connection for the netX 51 and netX 52. Pinning netX 50 0 (Standard) SPI CSn SPI CLK SPI MOSI SPI MISO SPI WP SPI HOLD (IO0) (IO1) (IO2) (IO3) MMIO37 MMIO39 MMIO28 MMIO29 MMIO30 MMIO31 U13 V14 T9 U10 T10 U11 1 (Fiberoptic ready) MMIO27 MMIO26 MMIO28 MMIO29 MMIO30 MMIO31 U9 V9 T9 U10 T10 U11 2 (Fiberoptic ready) MMIO23 MMIO22 MMIO24 MMIO25 MMIO26 MMIO27 V7 T7 U7 R8 V9 U9 netX 51 Standard U14 V14 V16 U15 R13 R12 netX 52 Standard U15 V16 U16 T15 T14 V15 Table 13: QSPI Pinning netX 50 / netX 51 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 271/334 The following schematic shows how to connect this FLASH to the netX 50: SPI0_MISO SPI0_MOSI SPI0_CLK SPI0_CS0 SPI0_CS1 (XC0_IO2) MMIO28 (XC0_IO3) MMIO29 (XC0_IO4) MMIO30 (XC0_IO5) MMIO31 (XC0_IO0) MMIO37 (XC0_IO1) MMIO39 10k 10k 10k +3.3V W25Q32V U15 V16 5 V15 6 U14 1 T14 3 7 T9 DO (IO1) DI (IO0) CLK VCC CS +3.3V 8 0.1 μF WP (IO2) HOLD (IO3) 2 GND 4 U10 T10 U11 U13 V14 Designs with Fiberoptic interface must use MMIO27 instead of MMIO37 and MMIO26 instead of MMIO39! netX 50 Figure 13: netX 50 with QSPI FLASH The following schematic shows how to connect this FLASH to the netX 51: 10k +3.3V QSPI_SIO1/SPI0_MISO QSPI_SIO0/SPI0_MOSI QSPI_CLK/SPI0_CLK QSPI_CS/SPI0_CS0 netX51 V16 5 V15 6 U14 1 SPI0_CS1 QSPI_SIO2/MEM_A18 QSPI_SIO3/MEM_A19 W25Q32V U15 3 P12 7 DI (IO0) DO (IO1) CLK CS VCC +3.3V 8 0.1 μF WP (IO2) HOLD (IO3) 2 GND 4 R13 Figure 14: netX 51 with QSPI FLASH netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 272/334 The following schematic shows how to connect this FLASH to the netX 52: 10k +3.3V QSPI_SIO1/SPI0_MISO QSPI_SIO0/SPI0_MOSI QSPI_CLK/SPI0_CLK QSPI_CS/SPI0_CS0 QSPI_SIO2 netX52 QSPI_SIO3 W25Q32V U15 V16 5 V15 6 U14 1 P12 3 R13 7 DI (IO0) DO (IO1) CLK CS VCC +3.3V 8 0.1 μF WP (IO2) HOLD (IO3) 2 GND 4 Figure 15: netX 52 with QSPI FLASH netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.7.1.3 273/334 MMC/SD Card Instead of an SPI Flash, MMC/SD Cards can be connected to the netX, even allowing to boot a firmware image stored on such a card. To allow booting, the MMC/SD Card must be connected to SPI chip select 1 (SPI_CS1). To detect insertion or removal of the MMC/SD Card during operation, an insertion signal has been defined, that must be pulled high when an MMC/SD Card is in the socket: Function Pin name and number netX 50/51 netX 52 MMC/SD Card insert GPIO 15 (MMIO 16) (U2) GPIO 08 (MMIO 08) (N2) SPI_CS1n SPI_CS1n T14 MMIO 09 P2 Table 14: MMC / SD Card Insertion and CSn Signal 10k +3.3V (MMIO) GPIO 15 (U2) +3.3V only netX50 10k MMC_INS 9 SPI_MISO SPI_MOSI SPI_CLK SPI_CS0 netX50 netX51 SPI_CS1 U15 SPI_CS1 V16 V15 +3.3V U14 1 2 3 MMC / SD 4 T14 5 6 7 8 0.1 μF Figure 16: netX 50/51 MMC/SD Card +3.3V (MMIO) GPIO 8 (N2) 10k MMC_INS 9 SPI_MISO SPI_MOSI SPI_CLK SPI_CS0 MMIO 09/SPI_CS1 T15 SPI_CS1 U16 V16 +3.3V U15 1 2 3 4 P2 MMC / SD 5 netX52 6 7 8 0.1 μF Figure 17: netX 52 MMC/SD Card If the MMC/SD Card is connected in addition to a Flash on SPI bus, it is recommended to isolate the MMC/SD Card with switchable bus driver. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 274/334 +3V3 K102 5 1 0603 FLASH C101 SPI_MISO POR# K101-G 3 RESET# 1 7 AT45DB321C-CNU SPI_MISO SPI_MOSI SPI_CLK SPI_CS0# SPI_CS1# U15 V16 V15 U14 T14 SPI_MISO SPI_MOSI SPI_CLK SPI_CS0# SD_CS# SD_MISO SD_CS# GND 8 MISO 6 VCC WP# 5 GND 2 +3V3 74LVC1G125GW SPI_MISO 1 0603 POR# 3 4 C102 K103 100nF 2 VCC +3V3 5 1 0603 GND SPI_MOSI SD_CS# 2 1 A 3 GND 4 Y OE# +3V3 C103 R101 10k 1 100nF 2 0603 netX51 1 MOSI 2 SCK 4 CS# 100nF 2 ROM 32Mbit SPI_MISO SPI_CLK SPI_CS0# C4 2 SD_MOSI X101 +3V3 GND 1 4 7 3 5 2 6 8 SD_MISO SD_MOSI SPI_CLK SD_CS# 74LVC1G125GW MICRO-NETX51-2231.000 Micro SD-Card +3V3 K101-N GPIO15 MMIO16 MMIO17 MMIO18 MMIO19 MMIO20 MMIO21 MMIO22 MMIO23 U2 V2 V3 T6 V6 U6 T7 V7 R1022 1 SD_CD MICRO-NETX51-2231.000 0603 GND SD_CD 9 10 10k NC VDD DO DI CLK CS# VSS RSV COM CD 11 PE1 12 PE2 13 PE3 14 PE4 XSDCARDMICRO PE Figure 18: MMC/SD Card and Flash Memory on SPI Bus After the MMC/SD Card is pushed in to the MMC/SD Card connector, they work in one bit SD bus mode. This mode can disturb the SPI communication between the netX 50/51/52 and flash memory. The switchable bus drivers disconnect the SD Card from SPI bus as long as the SPICS1# is high. 4.7.1.4 Parallel FLASH For large firmware images for applications executing code directly out of FLASH, the use of parallel FLASH is inevitable. Parallel FLASH connected to the netX may be 8-, 16- or 32 Bit wide, while two 16 Bit components may be paired for 32 Bit wide access. Note: rcX does not support parallel flash. It can no file operations are executed with rcX. Though 16 Bit wide components are most common, for performance reasons 32 Bit components should be used when executing code directly out of FLASH. The netX SRAM/FLASH memory controller provides three different chip select signals (MEM_CS[2:0]), allowing to select three different memory components or pairs of components (two paired 16 Bit FLASHes use a common chip select signal), each with its own set of parameters (timing and bus width). When the design is to boot from parallel FLASH, chip select 0 must be used for selecting this FLASH. The memory controller is designed to never “waste” any address lines, regardless of the bus width setting. Hence in 8 Bit mode, address line A0 is used for low and high Byte selection, while in 16 Bit mode A0 selects low and high word and in 32 Bit mode, A0 is simply the LSB of a DWORD address. For that reason, the data sheet of the desired FLASH component must be consulted, to determine the correct way of hooking up the address lines of the FLASH. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 275/334 Many (16 Bit-) FLASH components (e.g. TE28F128J...) use address line A0 for low / high Byte selection when operating the component in 8 Bit mode and do not use A0 at all when in 16 Bit mode. Such components must hence have A0 of the FLASH grounded (to prevent floating), while A0 of the netX is connected to A1 of the FLASH, A1 to A2, A2 to A3, etc. The following schematics show an example: FLASH 16Mx16 A0 A1-24 MEM_A0-23 MEMSR_CS0n MEMSR_OEn MEMSR_WEn RST_OUTn CS OE WE BYTE VPEN RP MEM_D0-15 D0-15 +3.3V +3.3V netX50 netX51 (e.g. TE28F128J..) FLASH 16Mx16 A0 A1-24 MEM_A0-23 MEMSR_CS0n MEMSR_OEn MEMSR_WEn +3.3V +3.3V RST_OUTn MEM_D0-15 MEM_D16-31 CS OE WE BYTE VPEN RP D0-15 netX50 netX51 (e.g. TE28F128J..) FLASH 16Mx16 A0 A1-24 +3.3V +3.3V CS OE WE BYTE VPEN RP D0-15 Figure 19: netX 50/51 FLASH - Address Line A0 for Low / High Byte Selection netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 276/334 Other FLASH components (e.g. S29GL256P...) always use A0 as the LSB of a Word (16 Bit-) address, hence the address lines of such components must be connected straight forward as shown in the following example schematics: FLASH 16Mx16 MEM_A0-23 A0-23 MEMSR_CS0n MEMSR_OEn MEMSR_WEn +3.3V +3.3V RST_OUTn MEM_D0-15 netX50 netX51 CS OE WE BYTE VPEN RESET D0-15 (e.g. S29GL256P..) FLASH 16Mx16 MEM_A0-23 A0-23 MEMSR_CS0n MEMSR_OEn MEMSR_WEn +3.3V +3.3V RST_OUTn MEM_D0-15 MEM_D16-31 CS OE WE BYTE VPEN RESET D0-15 netX50 netX51 (e.g. S29GL256P..) FLASH 16Mx16 A0-23 +3.3V +3.3V CS OE WE BYTE VPEN RESET D0-15 Figure 20: netX 50/51 FLASH - A0 as the LSB of a Word Address netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 277/334 Q1: I would like to access parallel FLASH connected to the netX by another processor (e.g. host processor) while the netX does not use the FLASH or is being held in reset. Is that possible? A1: This will only work with additional components. Since memory interfaces are usually not designed for multi-master access, the netX always drives all of the memory interface signals, except the data lines, even while being held in reset state. Hence accessing any memory components by another processor is only possible when the memory components can be isolated from the netX memory interface by appropriate bus switches. 4.7.2 SDRAM Most netX 50/51 applications will require the use of SDRAM, since most of the internal RAM is usually occupied by the standard 64k DPM and buffers, leaving only little space for quite simple applications. At netX 52 external SDRAM is not necessary, but it is possible to connect SDRAM to the Host Interface. For certain slave applications, an alternative to using SDRAM may be the use of parallel FLASH, while the firmware is directly executed out of this FLASH instead of copying the firmware from FLASH to RAM and executing from there (which is the standard situation). SDRAM components connected to netX may be either 16 Bit or 32 Bit wide, while two 16 Bit components may be paired to allow 32 Bit wide access. Using two 8 Bit components (paired for 16 Bit) or four 8 Bit components (32 Bit) is also possible. When using SDRAM, 32 Bit wide designs are generally recommended, to make use of the full performance of the memory controller. The use of one 32 Bit wide component instead of two 16 Bit (or four 8 Bit-) components is further recommended, due to easier PCB design and reduced load capacity (two 16 Bit components usually add twice the load to the address and control signals as a comparable 32 Bit component). Q1: In the meantime DDR-3 RAM is state of the art. Why are the netX chips only equipped with an outdated SDRAM interface? A1: Well, SDRAM isn’t really outdated. DDR RAM technology was invented for the short-lived PC market, where it is commonly accepted, that components have extremely short life cycles, limited operating condition range and substantial power consumption. Since DDR RAMs work with internal PLLs and can hence not be used on older (slower) memory interfaces, DDR RAM technology is not suitable for the embedded / industrial market where customers usually look for availability of several years. Further even powerful embedded processor technology like ARM can necessarily not compete with common PC processors in terms of processing power, hence it would make little sense to connect such processors to DDR RAMs anyway. Connecting SDRAM to the netX is pretty straight forward, besides address lines A16 and A17, which are used for the bank select signals BA0 and BA1. The schematics on the following page show examples for connecting 8-, 16- and 32 Bit SDRAMs to netX 50/51: netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 278/334 SDRAM 32Mx16 MEM_A0-12 MEM_A16 MEM_A17 MEMDR_RASn MEMDR_CASn MEMDR_CSn MEMDR_WEn MEM_DQM0 MEM_DQM1 MEMDR_CLK MEMDR_CKE MEM_D0-15 SDRAM 16Mx32 A0-12 BA0 BA1 RAS CAS CS WE DQML DQMH CLK CKE MEM_A0-12 MEM_A16 MEM_A17 A0-12 BA0 BA1 MEMDR_RASn MEMDR_CASn MEMDR_CSn MEMDR_WEn MEM_DQM0 MEM_DQM1 MEM_DQM2 MEM_DQM3 RAS CAS CS WE DQM0 DQM1 DQM2 DQM3 MEMDR_CLK MEMDR_CKE D0-15 netX MEM_D0-31 CLK CKE D0-31 netX Figure 21: netX 50/51 SDRAM 1 *16 Bit, 1 * 32 Bit netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.8 279/334 Host Interface The netX 50/51/52 provides a versatile parallel asynchronous interface, referred to as “host interface” or “HIF”, that can either be “active” (netX controls the interface and accesses other memory mapped components) or “passive” (netX behaves like a Dual Port Memory (DPM) and is accessed by an external host processor). In DPM mode, the host interface can either be 8, 16 or 32 Bit wide. In addition to the parallel DPM the netX 51/52 has a serial DPM (SPM) based on SPI. Signals that are not used for host interface operation of a design (e.g. upper address lines) can be separately configured as I/Os. The host interface always works in little endian mode. Due to the fact that the behavior of the netX host interface is configurable to a large extent, most applications do not require any additional glue logic. The host interface signal buffers of the netX 50/51/52 are 3,3V buffers that are not PCI compliant and NOT 5V tolerant. However, they are equipped with internal pull-up resistors (nominal 50k) and hence usually do not require any external pull-up resistors (however, see also chapter External pull-ups / pull-downs, unused signals!) 4.8.1 DPM Mode 4.8.1.1 DPM Control Lines In DPM mode, the host interface can be controlled by separate Read (RDn) and Write (WRn/WRLn, WRHn) signals (“Intel mode”) or by a combined R/WRn signal indicating the direction of the access and Byte strobe signals (“Motorola mode”). In “Intel mode”, either a single Write signal can be used (WRLn) or two Write signals (WRLn, WRHn) for writing to the low Byte (WRLn) and high Byte (WRHn) separately. 4.8.1.2 Address Bus In case of a 16 Bit host systems with word access the address line A0 should be connected to GND. The following table shows the decoding logic for byte and word access. BHE# A0 Function 0 0 word access 0 1 access high byte 1 0 access low byte 1 1 no access Table 15: Function Table of 16 Bit Decode Logic netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.8.1.3 280/334 Non-multiplexed Mode The following schematics show some examples for common setups in non-multiplexed mode: A0-15 CS DPM_CSn RD WR DPM_RDn DPM_WRLn DPM_WRHn DPM_RDYn RDY/WAIT Host DPM_A0-15 INT DPM_INT D0-7 DPM_D0-7 A0-15 DPM_A0-15 CS BHE DPM_CSn DPM_BHEn RD WR DPM_RDn DPM_WRLn DPM_WRHn DPM_RDYn RDY/WAIT INT netX ’Intel TM interface’, 8 Bit, non multiplexed Host D0-15 DPM_INT DPM_D0-15 netX ’Intel TM interface’, 16 Bit, non multiplexed Figure 22: netX DPM IntelTM Type Interface Circuits (1) A1-15 CS RD WRL WRH RDY/WAIT INT DPM_A1-15 DPM_CSn DPM_RDn DPM_WRLn DPM_WRHn DPM_RDYn BE0 BE2 A2-15 DPM_A0 DPM_A1 DPM_A2-15 CS BE1 DPM_CSn DPM_BHEn RD WR BE3 RDY/WAIT DPM_INT INT Host D0-15 DPM_RDn DPM_WRLn DPM_WRHn DPM_RDYn DPM_D0-15 netX ’Intel TM interface’, 16 Bit, non multiplexed, 2 write signals (Low Byte, High Byte) Host D0-31 DPM_INT DPM_D0-31 netX ’Intel TM interface’, 32 Bit, non multiplexed Figure 23: netX DPM IntelTM Type Interface Circuits (2) netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits BS1 A1-15 DPM_A0 DPM_A1-15 UDS A1-15 DPM_A0 DPM_A1-15 CS BS0 DPM_CSn DPM_BHEn CS LDS AS DPM_CSn DPM_BHEn DPM_ALE RD/WRn TA INT D0-7 D8-15 Host 281/334 RD/WRn DPM_RDn DTACK DPM_RDYn IPL0 DPM_INT DPM_D8-15 DPM_D0-7 netX Motorola TM ColdFire, 16 Bit, non multiplexed D0-7 D8-15 Host DPM_RDn DPM_RDYn DPM_INT DPM_D8-15 DPM_D0-7 netX Motorola TM M68000, 16 Bit, non multiplexed Figure 24: netX DPM MotorolaTM Type Interface Circuits netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.8.1.4 282/334 Multiplexed Mode The netX host interface can also be operated in multiplexed mode, where the data lines are alternatingly used for data and the lower address signals. The following schematics show some examples for common setups in multiplexed mode: DPM_A8-15 A8-15 CS DPM_CSn ALE DPM_ALE RD WR DPM_RDn DPM_WRLn DPM_WRHn DPM_RDYn RDY/WAIT Host DPM_D0-7 AD0-7 Figure 25: netX DPM Intel DPM_A8-15 CS EN AS DPM_CSn DPM_BHEn DPM_ALE RDY/WAIT INT AD0-7 Host DPM_CSn DPM_BHEn DPM_ALE RD WR DPM_RDn DPM_WRLn DPM_WRHn DPM_RDYn netX Host AD0-15 DPM_INT DPM_D0-15 netX ’Intel TM interface’, 16 Bit, multiplexed Type Circuits, Multiplexed A8-15 RD/WRn CS BHE ALE INT ’Intel TM interface’, 8 Bit, multiplexed TM DPM_A0-15 RDY/WAIT DPM_INT INT A16-?? DPM_RDn DPM_RDYn DPM_INT DPM_D0-7 netX ’Motorola TM interface’, 8 Bit, multiplexed Figure 26: netX DPM MotorolaTM Type Interface Circuit, Multiplexed netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.8.1.5 283/334 RDY / WAIT Signal Since the DPM mode of the netX host interface provides a virtual Dual Port Memory instead of a real DPM (external accesses to the DPM are redirected to programmable memory locations inside the netX), there is no fixed access time for reading or writing the netX DPM, even when there is no access conflict. Real DPM components however also use a Busy signal to compensate access conflicts (one side of the memory reads a certain memory location while the other side tries to write the same location or vice versa). In order to make sure, that the host processor will read valid data, respectively the netX successfully accepted write data from the host, while keeping access cycles as short as possible, it is mandatory for the host processor to support a Ready or Wait signal from an external memory! To allow glueless interfaces, the netX RDY/WAIT signal supports two different basic modes (Ready mode, where an active Ready signal indicates that the cycle may now be terminated and Wait mode, where an active Wait signal indicates, that the netX is still busy and the cycle may not yet be terminated) that can either work with active high or active low signals. Further, the output of the RDY/WAIT signal can be configured as push/pull or open drain – open source with sustained tri-state option (signal edge is actively driven). For more details and diagrams please consult the appr. netX Technical Reference Guide (separate documents for netX 50 and netX 51/52). netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.8.2 284/334 Extension Bus Mode In Extension Bus mode, the netX provides an active parallel, 8- or 16 Bit wide asynchronous bus interface with support for a Ready or Wait signal that allows external components to extend data cycles beyond the programmed cycle timing. The Extension Bus can either use separate Read (EXT_RDn) and Write (EXT_WRn/WRLn, EXT_WRHn) signals (“Intel mode”) or a combined R/WRn signal indicating the direction of the access along with Byte strobe signals (“Motorola mode”). In “Intel mode”, either a single Write signal can be used (EXT_WRLn), combined with a Byte Enable Signals (EXT_BHEn) or two Write signals (EXT_WRLn, EXT_WRHn) for writing to the low Byte (EXT_WRLn) and high Byte (EXT_WRHn) separately. The Extension Bus can be used to connect parallel peripherals like SRAMs, FLASHes, DPMs, etc. and can operate in non-multiplexed or multiplexed mode. The four different chip select signals allow to connect four completely different devices, as the configuration for each chip select area is done separately. The netX also provides the possibility to boot from a memory device connected to the Extension Bus. In that case, the device must be connected to use the EXT_CS0n chip select signal and the Extension Bus boot mode must be selected. 4.8.2.1 Non-multiplex Mode The following schematics show some examples for common setups in non-multiplexed mode: EXT_A0-24 A0-24 EXT_CS0-3n EXT_BHEn EXT_ALE CS EXT_RDn EXT_WRLn EXT_WRHn EXT_RDYn RD WR EXT_INT INT EXT_D0-7 D0-7 RDY/WAIT netX IntelTM, 8 Bit, one write signal Figure 27: netX Extension Bus IntelTM Type Interface Circuit 8Bit, non Multiplex netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits EXT_A0-24 285/334 EXT_A0-24 A0-24 EXT_CS0-3n EXT_BHEn EXT_ALE CS BHE EXT_CS0-3n EXT_BHEn EXT_ALE EXT_RDn EXT_WRLn EXT_WRHn EXT_RDYn RD WR EXT_RDn EXT_WRLn EXT_WRHn EXT_RDYn EXT_INT INT EXT_D0-15 RDY/WAIT EXT_INT EXT_D0-15 D0-15 netX A0-24 CS BHE RD WRL WRH RDY/WAIT INT D0-15 netX IntelTM, 16 Bit, one write signal IntelTM, 16 Bit, write low/high signals Figure 28: netX Extension Bus IntelTM type Interface Circuit 16Bit, non Multiplex EXT_A0-24 A0-24 EXT_A0-24 A0-24 EXT_CS0-3n CS EXT_CS0-3n CS EXT_ALE AS EXT_ALE AS EXT_RDn EXT_WRLn RD/WRn DS EXT_RDn EXT_WRLn RD/WRn DS EXT_RDYn RDY/WAIT EXT_RDYn RDY/WAIT EXT_INT EXT_D0-15 INT D0-15 netX EXT_INT INT EXT_D0-7 D0-7 netX MotorolaTM, 16 Bit, one data strobe MotorolaTM, 8 Bit, one data strobe Figure 29: netX DPM MotorolaTM Type Interface Circuits, non Multiplex netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.8.2.2 286/334 Multiplex Mode The netX host interface can also be operated in multiplexed mode, where the data lines are alternatingly used for data and the lower address signals. The following schematics show some examples for common setups in multiplexed mode: EXT_A8-24 A8-24 EXT_CS0-3n EXT_BHEn EXT_ALE CS EXT_RDn EXT_WRLn EXT_WRHn EXT_RDYn RD WR EXT_INT INT ALE RDY/WAIT EXT_D0-7 AD0-7 netX Intel, 8 Bit, one write signal EXT_A16-24 A16-24 EXT_A16-24 A16-24 EXT_CS0-3n EXT_BHEn EXT_ALE CS BHE ALE EXT_CS0-3n EXT_BHEn EXT_ALE CS BHE ALE EXT_RDn EXT_WRLn EXT_WRHn EXT_RDYn RD WR EXT_RDn EXT_WRLn EXT_WRHn EXT_RDYn EXT_INT INT RDY/WAIT EXT_D0-15 EXT_INT EXT_D0-15 AD0-15 netX RD WRL WRH RDY/WAIT INT AD0-15 netX Intel, 16 Bit, one write signal TM Figure 30: netX DPM Intel Intel, 16 Bit, write low/high signals Type Interface Circuit, Multiplexed netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 287/334 A8-24 EXT_A16-24 A16-24 EXT_CS0-3n CS EXT_CS0-3n CS EXT_ALE AS EXT_ALE AS EXT_A8-24 EXT_RDn EXT_WRLn RD/WRn DS EXT_RDYn RDY/WAIT EXT_INT EXT_D0-7 EXT_RDn EXT_WRLn EXT_WRHn EXT_RDYn EXT_INT INT EXT_D0-15 AD0-7 netX RD/WRn BS0 BS1 RDY/WAIT INT AD0-15 netX MotorolaTM, 8 Bit, one data strobe MotorolaTM, 16 Bit, two data strobes Figure 31: netX Extension Bus MotorolaTM Interface Circuit, Multiplexed 4.8.3 External pull-ups/pull-downs, unused signals As already mentioned at the beginning of chapter 4.8, the netX 50/51/52 provides internal pull-up resistors on nearly all host interface pins, hence any host interface pins which are not used in a design, may simply be left open. The only exception is the CLOCKOUT signal, which should be equipped with an external pull-up or pull-down (e.g. 10k) when not used, to avoid any crosscurrents from a floating signal. As most host interface control signals are active low, the internal pull-ups usually provide the required inactive level when the netX is in Reset state or when the host interface has not yet been configured by the firmware (all host interface pins are switched to input mode upon reset). However, if for example using an active high interrupt signal, an external pull-down resistor may be required on this signal to avoid an undesired active state (this may also apply to the RDY/WAIT signal, which has a programmable polarity as well). netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.9 288/334 UARTs The netX provides a total of three UARTs (each with RX, TX, RTSn, CTSn) that interface directly to common RS-232 or RS-485 transceivers, as shown in the following example schematics. UART0 is the UART that must be used when the serial boot mode via UART is to be available. UART0 may further be used as diagnostic port by Hilscher firmware. This example shows connection for UART0. UART1 and UART2 are connected equally. Please note, that on netX 50/51/52, the UARTs are only accessible through the Multiplex Matrix and their signals can hence be mapped to any of the 40 MMIO pins. However when using UART0, it is strongly recommended to use the MMIOs shown in this example, since this is the default mapping for these MMIOs and UART0 and the serial boot mode through UART0 can only be used with this default mapping! T12 MMIO35 / UART0_TXD T11 MMIO33 / UART0_RTSn MMIO34 / UART0_RXD 1 6 U12 MMIO32 / UART0_CTSn 9 V12 netX 50/51 5 RS-232 Transceiver GND (e.g. MAX3232E) Figure 32: netX 50/51 UART0 MMIO21 / UART0_TXD MMIO23 / UART0_RTSn MMIO20 / UART0_RXD MMIO22 / UART0_CTSn netX 52 V3 1 6 U5 T5 9 T6 5 RS-232 Transceiver GND (e.g. MAX3232E) Figure 33: netX 52 UART0 Due to an improved ROM boot loader, the netX 50/51 does not require any external pull-ups on UART0 signals when UART0 is not used. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 289/334 4.10 USB The netX provides a USB 1.1 compliant USB interface that can either be used in device mode (Downstream Port) or in host mode (Upstream Port). The device mode is commonly used to connect the netX to a PC, while the host mode allows to access for example memory devices like USB-sticks, etc. Both modes require different external circuits that are described in the following chapters. Though the netX is equipped with separate power supply pins for the USB interface (USB_VDDIO), these pins can simply be connected to the corresponding voltage rail and do not require any special filtering etc, however please regard the following note related to the USB_VDDIO (+3.3V) supply: The worst case short circuit current that may flow through the netX USB buffers can reach 170mA when a short circuit on the USB cable occurs. When the design is to continue working under that condition, the netX VDDIO rail (+3.3V) must either be able to deliver this additional current, or the USB_VDDIO supply must be connected to the 3.3V rail through an appropriate fuse or current limiter (PTC) or a separate supply! Note: Like ALL power supply pins on the netX, the USB power supply pins must always be connected, even when the USB interface is not used! 4.10.1 Device Mode The device mode is the commonly used mode of the netX USB interface and allows to connect the netX to a PC, which can then download and flash firmware, read and modify register values and run hardware test applications by the help of freely available software tools from Hilscher. In order to be able to use this handy and yet simple debug and service connection, the implementation of a USB device port is always recommended whenever allowed by board size constraints. +3.3V USB_VDDIO MMIO38 T8 1 T13 VBUS 1.5k USB_DPOS U8 24 3 D+ 2 1 D- 3 4 SN65220D Transient Suppressor USB_DNEG V8 24 2 Receptacle „B“ 4 netX50 GND GND Figure 34: netX 50 USB DOWNstream Port (Device Mode) When using the circuits shown above, accessing the netX through the USB serial boot mode will not work, since the serial boot mode is handled by the netX ROM loader and the ROM loader will not activate MMIO38, hence the PC will not detect a connected USB device. For that reason a netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 290/334 special non-standard diagnostic cable, including an external pull-up on D+ must be used, when the netX needs to be accessed in USB serial boot mode! In different to netX 50, the netX 51/52 is able to handle the pull-up on D+. Therefore, the external connection between MMIO38 Pin T13 to D+ is not necessary. +3.3V USB_VDDIO 1 24 USB_DPOS 3 VBUS D+ 2 1 3 4 SN65220D Transient Suppressor USB_DNEG 24 2 D- Receptacle „B“ 4 netX 51/52 GND GND Figure 35: netX 51/52 USB DOWNstream Port (Device Mode) 4.10.2 Host Mode (only netX 50) In host mode, the netX 50 USB port can be used to access other USB devices, like USB-Sticks, Memory Card Reader, etc. In host mode, the design must supply the +5V bus voltage for the USB port. The most simple circuit would directly deliver the +5V to the corresponding pin of the USB receptacle, however the use of a suitable power switch is recommended, as shown in the following example schematics. Such a power switch allows to detect short circuit or over current conditions and turn off the USB bus voltage in such a case. It also provides the possibility to disconnect and reconnect devices, by turning off and on the bus voltage. Two additional signals for connecting such a power switch to the netX 50 have been defined: Function Pin name and number USB power switching MMIO 12 R1 USB over current detection MMIO 13 U1 Table 16: Additional USB Signals The USB bus power switching signal (VUSB_ONn) is used to turn on and off the USB bus power. When used, this (active low) signal is to be connected to the enable input of a power switch. The USB over current detection signal (USB_OCn) is used to signal a USB over current condition detected by the power switch to the netX 50. When used, this (active low) signal is to be connected to the over current output signal of a power switch. Note: Please note, that there is no inherent hardware support for the above mentioned signals. All functions associated with these signals are only available, when supported by firmware! netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 291/334 The +5V power supply must be dimensioned to meet the power requirements of the USB devices that are to be connected to the netX (some devices require up to 500mA when fully operational!). Please also consider the USB V1.1 specification for further details. +3.3V USB_VDDIO T8 +5V Power Switch Vin GPIO12 GPIO13 R1 VUSB_ONn EN U1 USB_OCn OC 1 Vout VBUS (e.g. TPS2041A) USB_DPOS U8 24 3 D+ 1 2 3 4 Transient Suppressor USB_DNEG V8 24 D- Receptacle „A“ 15k 15k SN65220D 2 4 GND netX50 GND Figure 36: netX 50 USB UPstream Port (Host Mode) netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 292/334 4.11 Ethernet Interface The netX 50/51/52 have two integrated Physical Layer Units (PHYs) for Ethernet Communication, that allow to build systems with two Ethernet ports, while using only a few external components like pull-ups and transformer(s). The PHYs can be operated in two basic modes, which are twisted pair (10BASE-T / 100BASE-TX) and fiber optic mode (100BASE-FX). 4.11.1 Twisted Pair For 10BASE-T or 100BASE-TX Ethernet communication, the PHY must be connected as shown in the following example schematic (Figure 37). C3 100n C4 10μ R2 1000 ȍ @ 100 MHz, 200 mA 3.3V R11 10 C2 10μ 1.5V R4 50 C6 100n PHY_VSSAT PHY_VSSACP PHY0_VSSAR PHY0_VSSAT1 PHY0_VSSAT2 PHY1_VSSAR PHY1_VSSAT1 PHY1_VSSAT2 C5 100n PHY_VDDIOAT PHY_VDDIOAC C1 100n R3 50 PHY_VDDCAP PHY0_VDDCART PHY1_VDDCART R1 1000 ȍ @ 100 MHz, 200 mA H1 RJ45 1 PHY0_TXP 2 PHY0_TXN R12 10 R6 50 R5 50 C9 10n R15 75 R16 75 R17 75 R18 75 5 7 2 6 PHY0_RXN R13 10 R8 50 R7 50 C8 100n C7 100n H2 RJ45 1 2 PHY1_TXN R14 10 R10 50 R9 50 C11 10n R19 75 R20 75 R21 75 R22 75 TXN 5 7 2 6 PHY1_RXN TXP 4 3 PHY1_RXP RXP RXN C14 10n / 2kV C12 10n PHY_EXTRES GND R23 12.4k RXN PE PHY1_TXP netX 50/51/52 RXP C13 10n / 2kV C10 10n PHY_ATP TXN 4 3 PHY0_RXP TXP C15 1n / 2kV PE GND Figure 37: netX 50/51/52 2 Channel Ethernet Circuit (Twisted Pair) netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 293/334 Component Value Tolerance Rating R1, R2 1000 Ω @ 100 MHz R3, R4, R5, R6, R7, R8, R9, R10 50 Ω 1% 125 mW R11, R12, R13, R14 10 Ω 1% 63 mW R15, R16, R17, R18, R19, R20, R21, R22 75 Ω 1% 63 mW R23 12.4 kΩ 1% 63 mW C1, C3, C5, C6, C7, C8 100 nF 6.3 V C2, C4 10 µF 6.3 V C9, C10, C11, C12 10 nF C13, C14 10 nF 2 kV C15 1 nF 2 kV H1, H2 H1102 200 mA 20% HX1188 (Pulse Eng.) TS6121C (Bothhand) Table 17: Ethernet Circuit Component Specification The selected Ethernet transformer(s) (H1, H2, the Table 17 lists three examples) must be 1:1 ratio types with center tap and should be symmetric, which means, that transmit and receive path may be swapped. This is necessary to support the auto-crossover feature that is mandatory for most Real-time Ethernet protocols! Instead of a separate transformer, secondary side resistors (75 Ohm) and RJ45 jack, integrated jacks can be used, that combine all components (plus Status LEDs) in the housing of the jack. They are available as single-channel or 2-channel models. Hilscher commonly uses a 2 channel integrated jack that also includes the PE capacitor (C3a / C3b) and is available from Pulse Engineering, ERNI and Trxcom: Pulse Engineering: J8064D628AN ERNI: 203313 Trxcom: TRJ26204B netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 294/334 If only one Ethernet port is required, this port should be connected according to the following schematic: C3 100n C4 10μ R2 1000 ȍ @ 100 MHz, 200 mA 3.3V R11 10 C2 10μ 1.5V R4 50 C6 100n PHY_VSSAT PHY_VSSACP PHY0_VSSAR PHY0_VSSAT1 PHY0_VSSAT2 PHY1_VSSAR PHY1_VSSAT1 PHY1_VSSAT2 C5 100n PHY_VDDIOAT PHY_VDDIOAC C1 100n R3 50 PHY_VDDCAP PHY0_VDDCART PHY1_VDDCART R1 1000 ȍ @ 100 MHz, 200 mA H1 RJ45 1 PHY0_TXP 2 PHY0_TXN R12 10 R6 50 R5 50 C9 10n R15 75 R16 75 R17 75 R18 75 5 7 2 6 PHY0_RXN RXP RXN C13 10nF / 2kV C10 10n PHY1_TXP GND PHY1_TXN TXN 4 3 PHY0_RXP TXP C15 1n / 2kV PE PHY1_RXP PHY1_RXN PHY_ATP netX 50/51/52 R23 12.4k PHY_EXTRES GND Figure 38: netX 50/51/52 Single Channel Ethernet Circuit (Twisted Pair) Q1: We do not stock 12.4k resistors and / or 50 Ohm resistors. Can’t we use 12k / 49 Ohm / 51 Ohm instead? A1: The specified resistor values are directly taken from the specs of the internal PHY. Using out-of-spec resistor values will result in an out-of-spec Ethernet Interface that can not be guaranteed to work properly under all conditions. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.11.2 295/334 Fiber Optic For 100BASE-FX Ethernet communication, the netX requires external optical transceivers. Since these transceivers usually work with LVPECL (Low Voltage Positive Emitter Coupled Logic) levels, appropriate signal converters must further be connected between netX and transceivers. The signal converters should be placed as close as possible to the corresponding netX pins and the traces of the differential signal lines between buffers and transceivers should provide an impedance of 50 Ohm (100 Ohm differential impedance). The signal lines are to be terminated with a Thevenin termination as shown in the following schematic. 4.11.2.1 Transceivers with internal AC-termination Some Fiber Optic Transceivers already provide an internal AC-termination on the TXDATA input lines, which results in the following circuit: + 1.5V R1 1000 ȍ @ 100 MHz, 200 mA C3 100n C4 10μ TXD+ (IN) - TXD - (IN) T11 U12 + RXD+ (OUT) - RXD - (OUT) + SD - TXDIS V12 N18 + 3.3V ( QFBR-5978AZ ) PHY_EXTRES PHY_ATP netX 50/51 MMIO38 / FO1_SD L18 MMIO36 / FO1_EN TXD+ (IN) - U13 T13 TXD - (IN) + RXD+ (OUT) - RXD - (OUT) + SD - TXDIS V13 FX Transceiver ( QFBR-5978AZ ) K18 L15 R13 127 R12 127 + R23 12.4k PHY1_RXN L17 V14 R18 82.5 MMIO39 / FO1_TD R17 82.5 M18 MMIO37 / FO1_RD PHY1_RXP R11 127 GND M17 R16 82.5 PHY1_TXN + 3.3V netX 50/51 P18 R15 195 PHY1_TXP GND P17 R14 195 PHY0_RXN FX Transceiver R25 1.6k PHY0_RXP R10 82.5 MMIO32 / FO0_EN R5 127 R3 127 N17 + R8 82.5 MMIO33 / FO0_RD T12 R7 195 MMIO35 / FO0_TD R24 1k PHY0_TXN + 3.3V GND MMIO34 / FO0_SD PHY0_TXP + 3.3V R2 1000 ȍ @ 100 MHz, 200 mA R6 195 PHY_VSSAT PHY_VSSACP PHY0_VSSAR PHY0_VSSAT1 PHY0_VSSAT2 PHY1_VSSAR PHY1_VSSAT1 PHY1_VSSAT2 R17 M14 P16 N16 N15 K17 K15 K16 C2 10μ R4 127 R18 PHY_VDDIOAT M16 PHY_VDDIOAC C1 100n R9 82.5 M15 PHY_VDDCAP T18 PHY0_VDDCART L16 PHY1_VDDCART GND GND Figure 39: netX 50/51 Ethernet Circuit (Fiber Optic) netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 296/334 Component Value Tolerance R3, R4, R5, R11, R12, R13 127Ω / 130Ω 1% R8, R9, R10, R16, R17, R18 82.5Ω / 82Ω 1% R6, R7, R14, R15 195Ω 1% R19 1kΩ / 82 Ω R20 1.6kΩ / 130 Ω R23 12.4kΩ C1, C3 100nF 6.3V C2, C4 10µF 6.3 R1, R2 1000Ω @ 100MHz 200mA 1% Rating 125mW Table 18: Fiber Optic Ethernet Circuit Component Specification (AC-Termination) Note: The termination resistors shall be placed as close as possible to the end of the signal lines, connected with short traces (no stubs). Due to the large number of resistors, this can hardly be accomplished with standard (0603) resistors. A special Resistor array, containing 8 resistor pairs (127 Ohm pull-up, 82.5 Ohm pull-down) with common GND and VCC connection in a small BGA package is available from CTS (type RT1250B7) that allows to fulfill this requirement. The BIAS resistors on the TXD signals (circuit for internally AC-terminated Transceivers) are to be placed close to the beginning of the signal line, which means close to the LVTTl-to-LVPECL level translators. Please also see the following chapter for hints on component placement. The 127 Ohm / 82.5 Ohm Thevenin termination results in a bias voltage of 2.0V and a signal termination of appr. 50 Ohm. Alternatively, 130 Ohm / 82 Ohm can be used. The recommended value for Resisitors R6, R7, R14, R15 in the circuit for internally AC-terminated Transceivers depends on the LVTTL-to-LVPECL level translators that are used. 195 Ohm is the recommended value when using devices from MICREL. When using other components please consult the device datasheet and appropriate Manufacturers application notes if available. The values for R24 and R25 are flexible. Important is only the resistor ratio that results in a voltage of 2.0 V (VCC – 1.3V). The LVTTL-to-LVPECL signal converters usually have thermal PADs to achieve proper heat dissipation. Make sure to consider the thermal design notes in the datasheet of the appropriate devices. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 297/334 The power supply (+3,3V) for the Fiber optic Transceivers should be filtered according to the manufacturer’s recommendation (consult data sheet of transceiver). Detailed schematics for netX 50/51 Fiber Optic interfaces using the QFBR-5978AZ transceivers with internal AC-termination can be found in the Section of this document, chapter 2.1.3 page 23 and chapter 2.1.4 page 32 for netX 50 and chapter 2.2.4 page 106 and chapter 2.2.5 page 115 for netX 51. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.11.2.2 298/334 PCB Layout considerations The following drawings provide hints on proper placement of the Fiber Optic interface components. Transceivers with internal AC-termination +3V3 TD+ TD- Place level translators as close to netX pins as possible! Hi-Speed single ended signals. Keep traces as short as possible! BIAS resistors. Place as close to level translators as possible! Keep traces as short as possible! TX RX SD RD+ RD- Termination resistors. Place as close to level translators as possible! Differential signal lines, Zdiff = 100 Ohm + TXD+ (IN) - TXD - (IN) + RXD+ (OUT) - RXD - (OUT) + SD - Single ended signal line, Z = 50 Ohm netX FX Transceiver QFBR-5978AZ Termination resistors. Place as close to level translators as possible! +3V3 SD+ - Figure 40: netX Ethernet Circuit (Fiber Optic), Component Placement with AC-Termination Note: Please also consider the routing hints for differential signal lines in chapter 4.2.6, which correspondingly also apply to the Fiber optic interface! netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.11.2.3 299/334 Diagnostic Monitoring Interface For netX fiber optic designs that are to be used with Real-time Ethernet protocols, especially PROFINET, the fiber optic transceivers must be equipped with DMI (Digital Diagnostics Monitoring Interface), providing status information. This is required for AIDA. Use QFBR-5978AZ from Avago Technologies. Note: If you develop, produce or sell products with 'Transceiver for extended diagnosis', you have to sign a contract with Siemens on a buying option for transceivers for fiber optics. While I²C components can usually be connected to a common signal bus as they can normally be individually addressed through their I²C device address, this is unfortunately not possible with the QFBR-5978AZ, since these devices do not provide a hardware configurable device address. Each QFBR-5978AZ uses the same device address, which allows coexistence with other I²C components (sensors, memories, etc.) but not with a second QFBR-5978AZ Since Real-time Ethernet protocols usually require two Ethernet channels and hence also two Transceivers, solutions for the addressing problem had to be found for netX 50 and are described in the following. Due to the versatility provided by the Multiplex Matrix inside the netX 50, the solution for this controller does not require any active external components: While the SCL signal lines of the transceivers are connected to a common MMIO pin (MMIO21), the SDA signal lines are connected to separate MMIOs (MMIO02 and MMIO03) of the netX 50. Now the transceivers can be accessed individually (but of course not simultaneously) by changing the appropriate MMIO configuration registers before accessing the transceiver which routes the SDA signal of the netX 50 I²C controller to either MMIO02 or MMIO03, while the SCL signal is always routed to MMIO21. As an I²C interface always requires pull-up resistors on the signal lines and as the MMIO signals are only equipped with internal pull-down resistors, external 4.7k resistors need to be implemented. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 300/334 netX 50 has one I²C interface, thus the signal are connected to both tranceivers. The following figure shows the I²C relevant schematic for netX 50. MMIO21 MMIO02 MMIO03 4.7k 4.7k 4.7k +3V3 U6 J2 L2 Channel 0 SCL SDA TXD+ TXD - netX50 RXD+ RXD SD FX Transceiver (AFBR-5978Z / QFBR-5978AZ) Channel 1 SCL SDA TXD+ TXD RXD+ RXD SD FX Transceiver (AFBR-5978Z / QFBR-5978AZ) Figure 41: netX 50I²C Interface Fiber Optic Transceivers Software considerations netX 50 As already mentioned earlier in this chapter, the MMIO configuration of the netX 50 must be changed at run time, whenever the currently selected Fiber Optic Transceiver is to be changed, to read diagnostic information from the Transceiver of the other channel. Since the I²C interface of the netX 50 supports multi-master I²C setups, a certain procedure must be followed when changing between the channels, to prevent the netX 50 I²C master from erroneously detecting an I²C START condition: 1. Disconnect MMIO21 (SCL) from the internal I²C interface, which results in a low level of the internal netX SCL signal (set MMIO21_CFG to 0x000000FF) 2. Disconnect MMIO2 (SDA of Transceiver 0) (set MMIO02_CFG to 0x000000FF) 3. Disconnect MMIO3 (SDA of Transceiver 1) (set MMIO03_CFG to 0x000000FF) 4. Connect internal I²C SDA signal to desired transceiver (set either MMIO02_CFG (accessing Transceiver 0) OR MMIO03_CFG (accessing Transceiver 1) to 0x00000074 5. Connect internal I²C SCL signal to MMIO21 (set MMIO21_CFG to 0x00000073) Of course changing the channels must only be done, when there is no I²C communication in progress. For details and memory location of the MMIOxx_CFG registers please refer to the netX 50 Program Reference Guide. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.11.3 301/334 Ethernet PHYs unused If the internal Ethernet PHYs are not used in a netX design, the signal pins (RXP/RXN, TXP/TXN) should simply be left open. However, all power supply pins must still be connected, as well as the reference resistor, as shown on the following schematics: + 1.5V PHY_VDDCAP PHY0_VDDCART PHY1_VDDCART C2 10μ PHY_VDDIOAT PHY_VDDIOAC PHY_VSSAT PHY_VSSACP PHY0_VSSAR PHY0_VSSAT1 PHY0_VSSAT2 PHY1_VSSAR PHY1_VSSAT1 PHY1_VSSAT2 + 3.3V C4 10μ GND PHY0_TXP PHY0_TXN PHY0_RXP PHY0_RXN PHY1_TXP PHY1_TXN PHY1_RXP PHY1_RXN PHY_ATP R23 12.4k PHY_EXTRES netX 50/51/52 GND Figure 42: netX 50/51/52 Ethernet Circuit (PHYs not used) netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.11.4 302/334 Ethernet Status LEDs Each of the netX Ethernet ports provides two status LED signals: Link and Activity. The link status LED is lit, when a link has been established on the corresponding Ethernet port, while the yellow activity LED flickers when data is received or transmitted on the corresponding port. The following table shows the standard pin assignment for the status LEDs Function LED color Pin name an number netX 50/51 netX52 Ethernet Port 0, Link Sat. green XM0_IO0 (MMIO12) R1 XM0_IO0 (MMIO16) T4 Ethernet Port 0, Activity yellow XM0_IO1 (MMIO13) U1 XM0_IO1 (MMIO17) V1 Ethernet Port 1, Link Sat. green XM1_IO0 (MMIO14) T1 XM1_IO0 (MMIO18) U4 Ethernet Port 1, Activity yellow XM1_IO1 (MMIO15) V1 XM1_IO1 (MMIO19) U3 Table 19: Status LEDs for Ethernet Ports netX 50/51/52 use the IO signals of XMAC0 and XMAC1 for Ethernet status signaling. The schematics below must be used whenever the design is to be operated with loadable Firmware from Hilscher. + 3.3V Act. Link Act. g y g y g y g y (MMIO13) XM0_IO1 (MMIO14) XM1_IO0 (MMIO15) XM1_IO1 (R1) (U1) (T1) (V1) netX 50/51 Rv (MMIO16) XM0_IO0 (MMIO17) XM0_IO1 (MMIO18) XM1_IO0 (MMIO19) XM1_IO1 Rv Link Rv Act. Rv Link Rv Channel 1 Act. Rv Channel 0 Link Rv Channel 1 Rv (MMIO12) XM0_IO0 + 3.3V Channel 0 (T4) (V1) (U4) (U3) netX52 Figure 43: netX 50/51/52 Ethernet status LED circuit netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.11.5 303/334 Real Time Ethernet Besides running standard Ethernet protocols, the netX is able to run all current Real Time Ethernet (RTE) protocols. The physical interface for RTE protocols is identical to the standard Ethernet port as described in the preceding chapters, except some additional synchronization signals that may be required depending on protocol and application as well as some additional status LED signals. Both are described in the following chapters. 4.11.5.1 Sync signals The netX 50/51/52 provides a total of four additional signals for RTE synchronization purposes, two input and two output signals. RTE protocol Master / Slave Sync signal Function Type Remarks SERCOS Device XC_SAMPLE0 - In - - In - CON_CLK Out configurable DIV_CLK Out Configurable - In - - In - CON_CLK Out Configurable - Out - Latch 0 In - Latch 1 In - Sync 0 Out - Sync 1 Out - - In - - In - (MMIO08) XC_SAMPLE1 (MMIO09) XC_TRIGGER0 (MMIO10) XC_TRIGGER1 (MMIO11) Master XC_SAMPLE0 (MMIO08) XC_SAMPLE1 (MMIO09) XC_TRIGGER0 (MMIO10) XC_TRIGGER1 (MMIO11) EtherCAT Slave XC_SAMPLE0 (MMIO08) XC_SAMPLE1 (MMIO09) XC_TRIGGER0 (MMIO10) XC_TRIGGER1 (MMIO11) PROFINET IRT Controller / Device XC_SAMPLE0 (MMIO08) XC_SAMPLE1 (MMIO09) netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits RTE protocol Master / Slave 304/334 Sync signal Function Type Remarks XC_TRIGGER0 IO_Output Out Trigger for Outputs valid, also used for certification (start of red phase) OI_Output Out Trigger for sample inputs - In - - In - SoC Out Configurable “Start of Cycle” - Out - (MMIO10) XC_TRIGGER1 (MMIO11) Ethernet Powerlink Controlled Node XC_SAMPLE0 (MMIO08) XC_SAMPLE1 (MMIO09) XC_TRIGGER0 (MMIO10) XC_TRIGGER1 (MMIO11) Table 20: Additional RTE Sync Signals netX 50/51 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.11.5.2 305/334 RTE Status LEDs In Addition to the standard Ethernet Status LEDs (Link Status and Activity), up to four further LEDs (two dual LEDs) have been defined by the different RTE Protocols. The signals used for driving these LEDs (PIO0-3) are identical with the signals used for Field bus status LEDs on XMAC0 and XMAC1 (see also chapter 2.1.3 for pinning details), which however is not really a conflict, since RTE applications usually require both Ethernet ports and a field bus stack can not run on XMAC0 or XMAC1 when these XMACs are already used by an Ethernet application. Firmware Label Dual LED COM 0 SF EtherCAT RUN Powerlink Meaning COM 1 PIO0 PIO1 PROFINET Label PIO2 red PIO3 red BF green red ERR BS green red BE SERCOS Slave Ethernet/IP S3 green red MS green Open Modbus/TCP RUN green red ERR VARAN RUN green red ERR - red green red NS SF: System Failure BF: Bus Failure RUN: Run ERR: Error BS: Bus Status BE: Bus Error S3: orange = red and green at the same time. MS: Module Status NS: Network Status RUN: Run ERR: Error RUN: Run ERR: Error Table 21: Status LEDs for Real Time Ethernet Applications All RTE Status LED I/Os are defined as active low. The following schematic shows, how to connect the LEDs. + 3.3V + 3.3V COM0 g r netX 50/51 (MMIO12) PIO0 (MMIO13) PIO1 (MMIO14) PIO2 (MMIO15) PIO3 g r Rv (U11) r Rv (T10) g COM1 Rv (U10) r Rv (MMIO31) PIO3 (T9) COM0 Rv (MMIO30) PIO2 g Rv (MMIO29) PIO1 Rv Rv (MMIO28) PIO0 COM1 (R2) (U2) (T2) (R3) netX 52 Figure 44: netX 50/51/52 RTE Status LED Schematic netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 306/334 The appropriate value for Rv depends on type and color of the LED (standard value = 270 Ω). Use either two red/green Dual-LEDs or two pairs of single LEDs with the LEDs of each pair placed close to each other for the COM0 and COM1 indicators. On the netX 50/51/52, all PIO signals are connected to the internal Multiplex Matrix, hence the RTE status LEDs must be connected to MMIO pins. MMIOs 28 – 31 for on 50/51 and MMIOs 12 – 15 on netX 52 must always be used for connecting to PIO signals 0-3, whenever the design is to be operated with loadable Firmware from Hilscher. 4.11.5.3 Fast Start Up feature (PROFINET) Designs with netX 50 that run PROFINET and are required to provide Fast-Start-Up feature have to use a QSPI FLASH as describes in chapter 4.7.1.2 page 270. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.12 307/334 Fieldbus Interface The netX controllers are equipped with flexible communication processors (xPEC/xMAC units, also referred to as XC units) that allow to realize virtually any field bus interface on the market, by simply adding the appropriate physical layer circuit. The netX 50/51/52 provides two XC units. All common field bus interfaces are serial interfaces with a Transmit and Receive signal, while some of them use an additional control signal or status signal, hence the xMAC units that directly connect to the field bus physical layer circuit provide an XMi_TX, an XMi_RX and two I/O signals (XMi_IO0 and XMi_IO1), whereas currently only one of them is used by current field bus interfaces. On the netX 50/51/52, these I/O signals have been yet extended to a total of 5 signals for future use. Each XC unit also provides a clock input/output signal (XMi_ECLK) that either allows synchronizing external hardware to the XC clock or feeding an external clock to the XC unit. Both options are currently not used. The XMAC signals on the netX 50/51/52 are routed through the Multiplex Matrix and are hence connected through MMIO pins. However, for the TX signal and the optional external clock, there is a direct pin sharing option that connects these signals directly to certain MMIO pins and hence bypasses the Multiplex Matrix (which is clocked by 100MHz), allowing a higher resolution. For that reason it is strongly recommended to adopt the proposed MMIO assignment for the XMAC signals as shown in the following example schematic. MMIO01 / XM0_TX (MMIO00) XM0_RX (MMIO03) XM0_IO0 - PROFIBUS-DP - CANopen - DeviceNet - ASi CTRL - CC-Link - CompoNet (MMIO02) XM0_IO1 Fieldbus Physical Layer Interface MMIO04 / XM1_TX (MMIO06) XM1_RX (MMIO07) XM1_IO0 (MMIO05) XM1_IO1 netX50/51/52 Figure 45: netX 50/51/52 Fieldbus Interface netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.12.1 308/334 AS-Interface Master As there are no pure ASi transceivers on the market and generating the sin² signals is not trivial, an ASi interface with the netX still requires the use of an appropriate ASi-ASIC (→ ZMD). The following simplified example schematic shows the physical layer circuit for a netX AS-interface, still using the discontinued A2SI chip which is replaced by the ASI4U. More detailed schematics can be found in the Reference Section in Chapter 5. For details, consult A2SI data sheet A2SI (Master Mode) +3.3V XMi_TX XMi_RX VDD 100k ADuM1301 VDD 10k +5V ASI_TX ASI_RX USR UOUT UIN TXD +ASi RXD -ASi 1 2 Asi+ Asi- 0V XMi_IO0 netX ASI_PF Powerfail GND GND + Umin GND Figure 46: Basic Circuit for netX AS-Interface netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.12.2 309/334 CANopen Interface A CANopen interface can be implemented as shown in the following schematics. More detailed schematics (pin numbers) can be found in the in the Reference Section in Chapter 5. +3.3V VCC XMi_TX CO_TX 390 HCPL0601 PCA82C251 220 7 2 VCC TX H RX L REF RS GND & GND CAN_H CAN_L HCPL060L 390 XMi_RX netX VCC CO_RX & 390 GND SUB-D, 9-pin, male 3.3V 3 5V DGND 1M GND 15 n/1kV Shield1 Shield2 PE Figure 47: Basic Circuit of netX CANopen Interface netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.12.3 310/334 CC-Link Interface A CC-Link interface can be implemented as shown in the following schematics, which are based on the reference schematics from the CC-Link specification. The purpose of the AND gate in the RX signal is simply to convert the 5V signaling voltage from the photo coupler to 3.3V level. More detailed schematics (pin numbers) can be found in the in the Reference Section in Chapter 5. +5V_ISO VCC XMi_IO0 CCL_SDG 1k HCPL0601 220 & 1 GND 75ALS181 HCPL-0720 VCC XMi_TX 47k +5V VCC VCC CCL_TX 1 GND ZCYS51RS-M3PAT GND 1 680 GND XMi_RX 10k CCL_RX VCC VCC & 1 netX GND 2 680 47k HCPL-0720 DA DB RD6.2Z 3 5 DG GND For Details refer to the CC-Link specification 3.3V 3,3n / 50V 4 3.3V 5 5V SLD FG GND_ISO GND PE Figure 48: Basic Circuit for netX CC-Link Interface netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.12.4 311/334 CompoNet Interface A CompoNet interface can be implemented as shown in the following schematics, which are based on the reference schematics from the CompoNet specification. The purpose of the AND gate in the RX signal is simply to convert the 5V signaling voltage from the AD51/025 to 3.3V level. More detailed schematics (pin numbers) can be found in the in the Reference Section in Chapter 5. +5V AD51/025 VDD XMi_RX CP_RX & MMZ1608B301C 10 XW7D-PB4-R BS+ BDH CP_TX 150 XMi_TX 03-7104 10 BDL MMZ1608B301C XMi_IO0 10 GND CP_EN 10 BS- RD6.2SB1 47p 47p 22 1k ACM3225-102-2P netX RD6.2SB1 GND RD6.2SB1 Figure 49: Basic Circuit for netX CompoNet Interface netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.12.5 312/334 DeviceNet Interface A DeviceNet interface can be implemented according to the following simplified schematics. More detailed schematics can be found in the in the Reference Section in Chapter 5. +3.3V VCC XMi_TX DN_TX 470 HCPL0601 PCA82C251 VCC TX H RX L REF RS GND & 270 GND 4 2 CAN_H CAN_L PESD1CAN HCPL060L VCC 1,3K XMi_RX netX XMi_IO0 DN_RX DN_PF & 470 GND Powerfail For Details refer to the DeviceNet specification from the ODVA TLP281 5 4,3K V+ 1,3K 4,02K U 3.3V 1 5V 3 VDRAIN GND 1M 1M 15 n/1kV 15 n/1kV PE Figure 50: Basic Circuit for netX DeviceNet Interface netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.12.6 313/334 PROFIBUS Interface A PROFIBUS interface can be implemented according to the following simplified schematics. More detailed schematics can be found in the in the Reference Section in Chapter 5. Note: The (isolated) 3.3V to 5V DC-DC converter should either be a regulated model or should be equipped with an appropriate downstream LDO regulator. Otherwise, the secondary voltage may be too high, resulting in out-of-spec signal levels on the PROFIBUS line! +3.3V 6 IL3585E VCC XMi_RX netX 330 4 CNTR-P 100k XMi_TX VCC PB_ENB PB_TX 3 8 PB_RX GND GND 100k XMi_IO0 VP RXD/TXD-P RXD/TXD-N SUB-D, 9-pin, male 3.3V 5 5V GND 1M (regulated!) DGND 2.2 n/1kV Shield1 Shield2 PE Figure 51: Basic Circuit for netX PROFIBUS Interface netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.12.7 314/334 Fieldbus Status LEDs For each of the up to 2 possible Field bus ports, two status LED signals are defined, which function depends on the type of Field bus interface. Function Signal Pin name and number netX 50/51 netX 52 Field bus 0, Status 0 PIO00 MMIO28 T9 MMIO12 R2 Field bus 0, Status 1 PIO01 MMIO29 U10 MMIO13 U2 Field bus 1, Status 0 PIO02 MMIO30 T10 MMIO14 T2 Field bus 1, Status 1 PIO03 MMIO31 U11 MMIO15 R3 Table 22: Status LEDs for Field Bus Ports On the netX 50/51/52, all PIO signals are connected to the internal Multiplex Matrix, hence the Fieldbus status LEDs must be connected to MMIO pins. MMIOs 28 – 31 for on 50/51 and MMIOs 12 – 15 on netX 52 must always be used for connecting to PIO signals 0-3, whenever the design is to be operated with loadable Firmware from Hilscher. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 315/334 4.13 Power Supply netX 50/51/52 require an I/O voltage supply of 3.3V and a core voltage supply of 1.5V. For worst case scenarios, the 3.3V supply should be able to source a current of 350mA for the netX part (netX, memory, etc.) of the circuit. When the core voltage regulator is also supplied by the 3.3V rail, the max. current of course increases accordingly. The core supply should be able to deliver 900mA. For certain applications (e.g. applications that do not use the Ethernet ports) lower max. currents may be sufficient, however in that case, the corresponding Technical Data Reference Manual of the netX chip should be considered for details about power consumption. It is recommended to implement a separate core voltage supply for the netX, even if a 1.5V supply is required by other parts of the system (e.g. FPGA). The output voltage of this separate supply should be “programmable” (either by appr. digital input pins or by external resistors. This allows to continue to use the same design when the used netX type has gone through a die shrink process, which always results in a reduced core voltage. 4.13.1 Core Voltage Regulator A Hilscher standard circuit for the core voltage regulator uses a FAN2001 (Fairchild Semiconductor) step-down DC-DC converter and is shown below: +3V3 +1V5 (2.5V - 5.5V) SW 6 3.3µH 1.18A FB 4 2 PGND AGND 7 22uF 1.96k 22uF FAN 2001 GND GND 1.8k 1 Vin 5 NC 3 EN GND GND GND Figure 52: netX Core Voltage Regulator The complete part name is FAN2001MPX, the inductor is a CR32NP-3R3 (Sumida), and the capacitors are ceramic types (X5R), resistors 1%. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 4.13.2 316/334 Alternative Core Voltage Regulator An alternative part, especially for designs with space constraints, is the EN5312Q (Enpirion), which delivers 1A, has an integrated inductor and provides 3 digital inputs for setting the output voltage, requiring only two 10 µF ceramic caps as additional external components (see www.enpirion.com for detailed information). +3V3 1 VIN1 2 VIN2 1 0805 +1V5 T101 5 VOUT1 6 VOUT2 7 VOUT3 20 ENABLE 19 15 VS0 VSENSE 18 16 VS1 VFB 17 VS2 3 GND1 21 4 AGND GND2 C101 10uF 2 1 0805 C102 10uF 2 EN5312Q GND Figure 53: Alternative Core Voltage Regulator 4.13.3 Common Supply Voltage Regulator 3.3V A standard circuit for a common supply voltage of 24V, which operates from 9V to 30V and delivers 3A at 3.3V, is shown in the following schematic: T100 6 VIN 2 EN/UVLO 1 2 5 6 D1 K101 D2 D3 C104 1 0805 100nF FDC5612 D4 1 C103 COMP R103 BST VSW D1 D2 D3 FDC5612 D4 LDS 8 4 C100 C101 C102 1210 10uF 1210 10uF 1210 10uF 2 2 2 0603 1 1 2 R100 2.2k 3 1 2 5 6 VOUT G S 0603 MIC2198 13 9 STEPDOWN-MIC2198YML S 4 C107 0805 10uF 1 2 2 GND 2 1 1 PMEG4005 R105 10uH 3 GND 4 2 C106 2 1 3 6 5 4 1 5 1 5 6 G 3 PMEG4005 R104 0603 100nF FB GND GND1 100nF 2 K100 CSH C105 0805 11 2 1 1 10 0603 2.2nF 1 4 R101 4.7k 1 1206 9V-24V 3 12 HSD 7 VDD R106 0.018 +3V3 2 2 1 0603 1 Synchronous Buck Controller 2 R102 1.5k 2 1 C108 1 C109 0805 22uF 0805 22uF 2 2 GND Figure 54: netX +3V3 Supply netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Standard Circuits 317/334 This circuit provides high efficiency over the complete input voltage range, due to the synchronous switching, consumes appr. 320 mm2 board space and costs appr. 3.50 €. 4.13.4 Voltage Regulator 5V The same circuit with 6,8kΩ for R101 and 1,3kΩ for R102 delivers 5V. T100 1 2 5 6 D1 6 VIN 2 EN/UVLO K101 D2 D3 C104 1 0805 100nF FDC5612 D4 R103 BST VSW C100 1 C101 1 C102 1210 10uF 1210 10uF 2 2 2 0603 1 2 1 2 5 6 K100 4 3 5 6 1 2 1 6 5 LDS CSH 8 3 G S 1 9 MIC2198 13 STEPDOWN-MIC2198YML R105 10uH 3 2 C106 3 1 1206 5 2 1 2.2k 1 PMEG4005 4 0603 100nF FB GND 2 GND GND 4 4 C107 2 1 R104 S 0805 10uF PMEG4005 4 2 1210 10uF 100nF 2 11 D1 D2 D3 FDC5612 D4 VOUT GND1 C105 0805 C103 R100 1 10 0603 2.2nF 1 G 0603 1 COMP 3 12 HSD 7 VDD R106 0.018 +5V R101 6.8k 2 2 1 0603 1 9V-24V Synchronous Buck Controller 2 R102 1.3k 1 C108 1 C109 0805 22uF 0805 22uF 2 2 2 GND Figure 55: netX +5V Supply netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 General Design Considerations 5 318/334 General Design Considerations 5.1 5.1.1 Thermal Behavior Basics Since netX 50/51/52 designs are often used in industrial environments, fitness for high temperature ranges is frequently an issue. Depending on the used interfaces and chip type, netX 50/51/52 designs can have a power dissipation from typically 0.8W (netX 50/51/52 with field bus interface) up to 1.5W (netX 50/51/52 with 2 Ethernet channels), which results in appropriate warming of the netX silicon. While there is a hard limit for the chip’s junction temperature at 125°C above which malfunction and permanent damage may occur, it is always desired to keep the junction temperature as low as possible, as a semiconductor’s statistical life time generally decreases with rising temperature. Since additional power dissipation that is being avoided in the first place does not result in additional heat that needs to be dissipated, hardware designers should make sure, that all netX power supply circuits deliver nominal voltage levels (3.3V I/O and 1.5V core) and do not make use of the possible headroom (3.6V I/O and 1.65V core). The BGA packages used with all current netX chips have mainly two paths of heat dissipation, which are the path through the package balls into the copper of the PCB (mainly power and ground planes) and the path from the chip surface (top) to the environment. The resulting thermal resistance of the first path strongly depends on the characteristics of the PCB, which also makes the thermal behavior of a design strongly dependant on the PCB. The only possibility to decrease the influence of the PCB is to use a heat sink, which can considerably reduce the thermal resistance of the second heat dissipation path and also improves the overall thermal behavior of the design. 5.1.2 Estimates The Technical Data Reference Guides (chapter “Thermal package specification”) of the netX chips provide the following formula that allows calculation of the chip junction temperature ( T j ) at a given environment temperature ( Ta ), power ( PnetX ) and thermal resistance ( Rth ) of the heat sink: T j = Ta + (θ jc + Rth ) × PnetX The chip specific value of θ ic can be found in the above mentioned chapter of the appropriate Technical Data Reference Guide. Please note, that the formula above only allows an estimate for the possible junction temperature of a particular design, as there is still an influence of the PCB characteristics. The parameters have been evaluated using certain test boards and may hence not be directly applied to a specific design. This applies even more to the second formula, for operation without heat sink! netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 General Design Considerations 5.1.3 319/334 Recommendations Hilscher netX hardware is usually designed for a maximum junction temperature of appr. 100°C, which is also the recommended value for customer designs. The FIT-rate (FIT = Failure in Time, see appr. chapter of the Technical Data Reference Guide) for the silicon process which netX are based on, shows a significant rise in the temperature range between 100°C and the absolute maximum junction temperature, which was the reason for choosing the 100°C. However, since the absolute max. junction temperature is 125°C, it is at a device manufacturer’s discretion if he wants to follow this recommendation or rather decides to accept a higher junction temperature and trade a decrease of the MTBF of his devices for a higher temperature range specification. A major factor of the thermal behavior of a netX design is the size of the PCB. Design experience at Hilscher shows, that designs with a power density of more than 0.15W/cm2 are critical (assuming the 100°C limit for the junction temperature and a maximum ambient temperature of 70°C and considering the common maximum temperatures of peripheral components like SDRAM, FLASH, Reset Generator, etc.), hence the board size should be chosen accordingly. To calculate the power density of a design, simply divide the power dissipation by the area of the PCB. Following there are two examples from the Hilscher netX product line, one that is well within this power density limit and one that is at this limit: Mini PCI Card with Ethernet Dimensions: 44.6 mm x 59.8 mm Area: 26.67 cm² Power consumption: 1.75 W, heat sink, 70°C Power Density: 0.07 W / cm² Figure 56: CIFX 90-RE netIC with Ethernet Dimensions: 21.0 mm x 42.0 mm Area: 8.82 cm² Power consumption: 1.3 W, heat sink, 70°C Power Density 0.15 W / cm² Figure 57: NIC 50-RE netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 General Design Considerations 5.1.4 320/334 Rules of thumb Assuming the recommended 100°C junction temperature limit, the following rules of thumb can be provided, which are based on Hilscher’s design experience with netX chips: " Designs with 45 x 60 mm area and heat sink usually work up to 70°C. " Designs with 45 x 60 mm area without heat sink usually work up to 55°C. " When using the internal PHYs, the netX temperature rises by appr. 15°C. " When using the heat sinks, recommended by Hilscher, the maximum temperature of the netX case decreases by approximately. 15°C. " The above rules assume unimpeded convection of the PCB. When a small closed cabinet is used, the maximum ambient temperature (inside the cabinet) must be decreased by approximately 15°C. " When the power density is higher than 0.15 W/cm², it will be critical to make a netX design which operates up to 70°C. " Avoid placing semiconductor components on the bottom side of the PCB within the netX chip area. Resistors or ceramic capacitors may be placed under the netX if they allow operating temperatures up to 100°C (X7R ceramic). Temperature tests with a netX 500 Evaluation board have shown, that it is possible to build designs for extended temperature range (up to +85°C) with heat sink, resulting in a netX case temperature of ~103°C (see document “nxdkn-en_Rev3_Waerme.pdf”, available on the Hilscher website). netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 General Design Considerations 5.2 321/334 EMC Behavior Designing for EMC is a quite complex issue, already filling countless pages of again countless books and papers and it is not the intention of this document, to further enrich this variety of publications, however a few basic guidelines / hints can be presented, that may be useful for the PCB designer routing a netX design. 5.2.1 Layer Stack Though, depending on the complexity of the design, netX designs using 4-layer PCBs are possible, the use of a 6 Layer board (4 signal layers, one power and one ground plane layer) is recommended. 4 signal layers provide enough space to keep the power and ground planes free from any signal traces and allow shielding areas on top and bottom layers, which contributes to a satisfying EMC behavior of the design. An approved 6-layer stack for netX designs is shown in the following figure: TOP (Components / Routing / Shield) INT3 (Routing) INT1 (Ground) 35 µm CU 100 µm FR4 Prepreg 35 µm CU INT2 (Power) 510 µm FR4 Basematerial INT4 35 µm CU 100 µm FR4 Prepreg 35 µm CU (Routing) BOTTOM (Components / Routing / Shield) 510 µm FR4 Basematerial 35 µm CU 100 µm FR4 Prepreg 35 µm CU Figure 58: Approved netX PCB Layer Stack netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 General Design Considerations 5.2.2 322/334 Decoupling Capacitors As with any digital design, the use of a sufficient number of decoupling capacitors is important to provide a stable operation of the design and avoid unnecessary emission. The following picture shows an example how to arrange decoupling capacitors around a netX 50/51/52. +3.3 V +1.5 V +1.5 V +3.3 V +3.3 V Figure 59: netX 50/51/52 Decoupling Caps As the picture already indicates, the power path goes from vias (located as close as possible to the caps) to the caps and from there directly to the netX power pins. However only power pins on the two outer BGA rings should be connected that way. All inner power pins should connect to the plane directly. The best locations for the decoupling caps are on the bottom side (opposite) of the PCB, again close to the power supply pins, as only a few of these pins are located on the outer BGA ring. When double sided mounting of components is not an option, the decoupling capacitors should be placed close to and around the netX 50/51, while directly connecting the netX power and ground pins to the power and ground planes and connecting the caps separately, while always keeping traces as short as possible. netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 General Design Considerations 5.2.3 323/334 Power Supply Input Filter When using the 9-30V power supply shown in chapter 3.17, the following filter circuit is recommended, to reduce line based emissions at 500 kHz and harmonics: R4 47 µH R1 FE EXT_GND R6 + 3,3 V +9 - 30 V DC SMBJ30 CA R3 C1 C2 47 nF 4,7 nF R1 SMBJ30 CA SMBJ30 CA + C3 C4 220 µF 10 µF MIC2198 R5 47 µH R5 and R5 : EPCOS SIMID B82432-T1473-K, max. 340 mA GND Figure 60: Power Supply Filter netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 General Design Considerations 5.2.4 324/334 Reset Lines As already mentioned in chapter 3.4, reset signal lines should be kept as short as possible and should be equipped with a 1nF ceramic capacitor (connected to the reset signal and ground), located close to the netX reset input pin, to reduce the risk of undesired resets due to noise or electrostatic discharge. 5.2.5 Clock Circuits Any oscillator pins on the netX chips are located on outer BGA ball rings, allowing to keep the traces to a quartz crystal as short as possible. The following picture shows a recommendation for placing and routing the oscillator components: netX Figure 61: Oscillator Circuit with Ground Shield netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 General Design Considerations 5.2.6 325/334 Ethernet Interface When routing the two signal pairs TXP/TXN and RXP/RXN of each netX Ethernet channel, some special requirements need to be considered: • Each signal pair must be routed as a separate pair of traces which should be kept as short as possible (place magnetics and termination components as close to the netX as possible). • Traces of a pair must be routed adjacent to each other, with constant spacing and equal length. • The distance between signal pairs should be at least 5 times the spacing of the pair traces. • Traces must be impedance controlled, maintaining a differential impedance of 100 Ohm. • Minimize layer changes. If a layer change is inevitable, change layer with both traces at equal distance from start of trace and avoid changing to layers that use a different reference plane. • Avoid connectors in the signal traces; the traces should begin and end on the same PCB. If a connector is inevitable, use impedance controlled connectors to minimize any discontinuities in trace impedance. • Area where Ethernet signals are routed should be free from any other signals in adjacent layers (use only layers that are separated from the Ethernet signal layer(s) by a power or ground plane, when routing other signals in the Ethernet area). • Use the schematic from chapter 3.10.1 along with the recommended components. The following pictures show two examples of setups that keep the differential impedance of the signal pair around 100 Ohm: 112 µm 35 µm a) Edge-Coupled Surface Micro strip = 4.2 r 150µm (6 mil) d~ 98 150µm (6 mil) 150µm (6 mil) Figure 62: Edge-Coupled Sourface Micro Strip netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 General Design Considerations 326/334 To improve shielding, the Ethernet traces can be routed on an inner layer, using part of the top layer as shield: 220 µm = 4.2 r 365 µm 35 µm b) Edge-Coupled Offset Strip line r= 4.2 150µm (6 mil) d~ 96 100µm (4 mil) 100µm (4 mil) Figure 63:Edge-Coupled Offset Strip Line 5.2.7 Memory Bus When connecting SDRAM and/or parallel FLASH/SRAM etc., route the connection in a bus structure (no tree) with the bus starting at the netX, as shown in the following picture. The bus should be as short as possible and the length of the SDRAM clock signal trace should match the length of the longest SDRAM signal trace. Figure 64: netX Memory Bus netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 General Design Considerations 5.2.8 327/334 Planes When routing signal lines, make sure, they run over an appropriate return path (power or ground plane), that is contiguous, not more than 2 layers away and not interrupted by large gaps, as this always increases emission. When splitting planes can not be avoided, keep traces well within the plane area and do not route at the edge or even outside of the plane, as shown below: Figure 65: Routibg Example netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 General Design Considerations 5.2.9 328/334 VIAs and Signal Fan Out under netX 50/51/52 Coming in a PBGA package, the netX requires the use of small traces and vias on the PCB. Designs using external memory (SDRAM or PFLASH) will require the use of 4 signal layers along with 6 mil standard technology to be able to fan out all signals. However, designs using internal RAM only, might be realized with two signal layers as the SDRAM signal balls reside on the inner ball rings of the package. Standard “dog bone style” routing as shown below can be used to fan out the netX signals. c t w v e p Top Layer Inner Signal Layer Inner Signal Layer Bottom Layer Figure 66: VIA Position and Signal Fan Out under netX 50/51/52 Dimension Description netX 50/51 netX 52 mm mil mm mil Clearance 0,15 6 0,1 4 e Pitch 1,00 39.37 0,8 31.5 p Pad 0,45 18 0,45 18 t Trace Width 0.15 6 0,1 4 v Via Diameter 0,50 20 0,5 20 w Drill Hole 0,20 8 0,2 8 c Note: Vias within the chip footprint area should be exactly centered between the pins to avoid possible soldering problems during manufacturing! netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Reference Section 6 329/334 Reference Section The following chapters list some key components for netX 50/51/12 designs that have been successfully evaluated by Hilscher and, where applicable, are supported by Hilscher tools (status of December 2012). 6.1 Crystals Use Part Number Manufacturer System clock CS10-25000MAGJ-UT Citizen Table 23: Crystal Reference 6.2 Memory Components SPI FLASH Manufacturer Size Type ATMEL 2MB AT25DF161 # - - 128kB AT25F1024A # - - 64kB AT25F512 - - # 64kB AT25F512A - - # 2MB AT26DF161 # - - 2MB AT26DF161A # - - 4MB AT26DF321 # - - 128kB AT45DB011B # # # 256kB AT45DB021B # # # 512kB AT45DB041B # # # 1MB AT45DB081B # # # 1MB AT45DB081D # # # 2MB AT45DB161B # # # 2MB AT45DB161D # # # 4MB AT45DB321B # # # 4MB AT45DB321C # # # 4MB AT45DB321D # # # 8MB AT45DB642D # # #1) EON 4MB EN25P32 # - - Macronix 2MB MX25L1605D # - - 4MB MX25L3205D # - - 8MB MX25L6405D # - - 128kB PM25LV010 # - - 64kB PM25LV512 # - - 512kB M25P40 # - - 64kB SA25F005 # # - 128kB SA25F010 # # - 512kB SA25F020 # # - 128kB M25P10VP # - - 4MB M25P32 # # - 8MB M25P64 # - - PMC Saifun ST Bootwizard netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public 2nd Stage rcX © Hilscher, 2008-2013 Reference Section Manufacturer ST SST 330/334 Size Type 1MB M25PE80 # # # 2MB M45PE16 # # # 256kB M45PE20 # - - 512kB M45PE40 # # # 1MB M45PE80 # # # 256kB SST25LF20A # - - 512kB SST25LF40A # - - 1MB SST25LF80A # - - 128kB SST25VF010 # - - 128kB SST25VF010A # - - 256kB SST25VF020 # - - 512kB SST25VF040 # - - 64kB SST25VF512 # - - SST25VF512A # - - CFI ParFlashes # # - 2MB S25FL016A # - - 4MB S25FL032A # - - CFI ParFlashes # # # 64kB Spansion Strata Winbond Nymonix 4MB Bootwizard 2nd Stage rcX W25P32 - - 2MB W25Q16 # # - 4MB W25Q32 # # # 1MB W25Q80 # # - 4MB W25X32 # - - 128kB NX25P10 # - - 256kB NX25P20 # - - 512kb NX25P40 # - - Table 24: Memory Component Reference SPI FLASH 1) Is not detected using the autodetect function. Parameters have to be entered in config file. Parallel Flash Manufacturer Size Part Number Spansion 16MB S29GL128P90TFIR1 32MB GL256N10FFI01 Table 25: Memory Component Reference Parallel FLASH netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Reference Section 331/334 SDRAM Manufacturer Size Part Number ISSI 8MB IS42S32200C1 (32Bit) 32MB IS42S32800B (32Bit) 64MB IS42S32160B (32Bit) 8MB MT48LC2M32B2 (32Bit) 16MB MT48LC4M32B2 (32Bit) 32MB MT48LC8M32B2 (32Bit) 64MB MT48LC16M32 (16Bit) Micron Table 26: Memory Component Reference SDRAM netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Appendix 7 7.1 332/334 Appendix List of Tables Table 1: List of Revisions .................................................................................................................................................... 6 Table 2: References to Documents..................................................................................................................................... 6 Table 3: List of Resources – rcX OS ............................................................................................................................... 251 Table 4: FLASH Sizes for Hilscher Stacks ...................................................................................................................... 252 Table 5: Chip Mode Selection netX 51 ............................................................................................................................ 253 Table 6: RDY / RUN LED Status..................................................................................................................................... 254 Table 7: Standard Boot Devices in netX 50 .................................................................................................................... 256 Table 8: Standard Boot Devices in netX 51 .................................................................................................................... 256 Table 9: Standard Boot Device in netX 52 ...................................................................................................................... 256 Table 10: Host Interface Mode and Booting .................................................................................................................... 257 Table 11: ETM Signals .................................................................................................................................................... 266 Table 12: netX 50 Boundary Scan MMIO Signals ........................................................................................................... 268 Table 13: QSPI Pinning netX 50 / netX 51 ...................................................................................................................... 270 Table 14: MMC / SD Card Insertion and CSn Signal ...................................................................................................... 273 Table 15: Function Table of 16 Bit Decode Logic............................................................................................................ 279 Table 16: Additional USB Signals ................................................................................................................................... 290 Table 17: Ethernet Circuit Component Specification....................................................................................................... 293 Table 18: Fiber Optic Ethernet Circuit Component Specification (AC-Termination) ........................................................ 296 Table 19: Status LEDs for Ethernet Ports ....................................................................................................................... 302 Table 20: Additional RTE Sync Signals netX 50/51 ........................................................................................................ 304 Table 21: Status LEDs for Real Time Ethernet Applications ........................................................................................... 305 Table 22: Status LEDs for Field Bus Ports ...................................................................................................................... 314 Table 23: Crystal Reference............................................................................................................................................ 329 Table 24: Memory Component Reference SPI FLASH ................................................................................................... 330 Table 25: Memory Component Reference Parallel FLASH ............................................................................................. 330 Table 26: Memory Component Reference SDRAM ........................................................................................................ 331 7.2 List of Figures Figure 1: netX 51 Mode................................................................................................................................................... 253 Figure 2: netX 51 in netX 50 Compatibility Mode ............................................................................................................ 253 Figure 3: netX 52 Chip Mode .......................................................................................................................................... 253 Figure 4: netX 50/51/52 RDY/RUN Circuit ...................................................................................................................... 255 Figure 5: Sample Schematic, netX 50 Security Memory and RDY/RUN LED ................................................................. 258 Figure 6: Sample Schematic, netX 51/52 Security Memory and RDY/RUN LED ............................................................ 258 Figure 7: Sample Schematic, netX 50 Security Memory and RUN/RDY LED with Common Anode............................... 260 Figure 8: netX 50/51/52 System Oscillator Circuit........................................................................................................... 261 Figure 9: netX 50/51/52 Reset Circuits ........................................................................................................................... 262 Figure 10: netX 50/51/52 JTAG Circuits.......................................................................................................................... 263 Figure 11: netX 50/51/52 Boundary Scan JTAG/TEST Signals ...................................................................................... 267 Figure 12: netX 50/51/52 SPI Flash ................................................................................................................................ 270 Figure 13: netX 50 with QSPI FLASH ............................................................................................................................. 271 Figure 14: netX 51 with QSPI FLASH ............................................................................................................................. 271 Figure 15: netX 52 with QSPI FLASH ............................................................................................................................. 272 Figure 16: netX 50/51 MMC/SD Card ............................................................................................................................. 273 Figure 17: netX 52 MMC/SD Card .................................................................................................................................. 273 Figure 18: MMC/SD Card and Flash Memory on SPI Bus .............................................................................................. 274 Figure 19: netX 50/51 FLASH - Address Line A0 for Low / High Byte Selection ............................................................. 275 Figure 20: netX 50/51 FLASH - A0 as the LSB of a Word Address................................................................................. 276 Figure 21: netX 50/51 SDRAM 1 *16 Bit, 1 * 32 Bit......................................................................................................... 278 Figure 22: netX DPM IntelTM Type Interface Circuits (1) ................................................................................................. 280 Figure 23: netX DPM IntelTM Type Interface Circuits (2) ................................................................................................. 280 Figure 24: netX DPM MotorolaTM Type Interface Circuits................................................................................................ 281 Figure 25: netX DPM IntelTM Type Circuits, Multiplexed.................................................................................................. 282 Figure 26: netX DPM MotorolaTM Type Interface Circuit, Multiplexed ............................................................................. 282 TM Figure 27: netX Extension Bus Intel Type Interface Circuit 8Bit, non Multiplex ........................................................... 284 Figure 28: netX Extension Bus IntelTM type Interface Circuit 16Bit, non Multiplex........................................................... 285 Figure 29: netX DPM MotorolaTM Type Interface Circuits, non Multiplex......................................................................... 285 Figure 30: netX DPM IntelTM Type Interface Circuit, Multiplexed..................................................................................... 286 Figure 31: netX Extension Bus MotorolaTM Interface Circuit, Multiplexed ....................................................................... 287 Figure 32: netX 50/51 UART0 ......................................................................................................................................... 288 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Appendix 333/334 Figure 33: netX 52 UART0 .............................................................................................................................................. 288 Figure 34: netX 50 USB DOWNstream Port (Device Mode) ........................................................................................... 289 Figure 35: netX 51/52 USB DOWNstream Port (Device Mode) ...................................................................................... 290 Figure 36: netX 50 USB UPstream Port (Host Mode) ..................................................................................................... 291 Figure 37: netX 50/51/52 2 Channel Ethernet Circuit (Twisted Pair)............................................................................... 292 Figure 38: netX 50/51/52 Single Channel Ethernet Circuit (Twisted Pair) ....................................................................... 294 Figure 39: netX 50/51 Ethernet Circuit (Fiber Optic) ....................................................................................................... 295 Figure 40: netX Ethernet Circuit (Fiber Optic), Component Placement with AC-Termination ......................................... 298 Figure 41: netX 50I²C Interface Fiber Optic Transceivers ............................................................................................... 300 Figure 42: netX 50/51/52 Ethernet Circuit (PHYs not used) ............................................................................................ 301 Figure 43: netX 50/51/52 Ethernet status LED circuit ..................................................................................................... 302 Figure 44: netX 50/51/52 RTE Status LED Schematic.................................................................................................... 305 Figure 45: netX 50/51/52 Fieldbus Interface ................................................................................................................... 307 Figure 46: Basic Circuit for netX AS-Interface................................................................................................................. 308 Figure 47: Basic Circuit of netX CANopen Interface ....................................................................................................... 309 Figure 48: Basic Circuit for netX CC-Link Interface......................................................................................................... 310 Figure 49: Basic Circuit for netX CompoNet Interface..................................................................................................... 311 Figure 50: Basic Circuit for netX DeviceNet Interface ..................................................................................................... 312 Figure 51: Basic Circuit for netX PROFIBUS Interface ................................................................................................... 313 Figure 52: netX Core Voltage Regulator ......................................................................................................................... 315 Figure 53: Alternative Core Voltage Regulator................................................................................................................ 316 Figure 54: netX +3V3 Supply .......................................................................................................................................... 316 Figure 55: netX +5V Supply ............................................................................................................................................ 317 Figure 58: Approved netX PCB Layer Stack ................................................................................................................... 321 Figure 59: netX 50/51/52 Decoupling Caps .................................................................................................................... 322 Figure 60: Power Supply Filter ........................................................................................................................................ 323 Figure 61: Oscillator Circuit with Ground Shield.............................................................................................................. 324 Figure 62: Edge-Coupled Sourface Micro Strip............................................................................................................... 325 Figure 63:Edge-Coupled Offset Strip Line....................................................................................................................... 326 Figure 64: netX Memory Bus........................................................................................................................................... 326 Figure 65: Routibg Example............................................................................................................................................ 327 Figure 66: VIA Position and Signal Fan Out under netX 50/51/52 .................................................................................. 328 netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013 Contacts 8 334/334 Contacts Headquarters Germany Hilscher Gesellschaft für 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Lisle, IL 60532 Phone: +1 630-505-5301 E-Mail: info@hilscher.us Support Support Phone: +39 02 25007068 E-Mail: it.support@hilscher.com Phone: +1 630-505-5301 E-Mail: us.support@hilscher.com netX 50/51/52 | Design-In Guide DOC120102DG02EN | Revision 2 | English | 2013-03 | Released | Public © Hilscher, 2008-2013