FEATURES 10, 12, 16- and 20-slot VME subrack High speed VME
Transcription
FEATURES 10, 12, 16- and 20-slot VME subrack High speed VME
CCV 10/12/16 OR 20-SLOT INDUSTRIAL VME SUBRACK FEATURES z 10, 12, 16- and 20-slot VME subrack z High speed VME bus z P1 + P2 with automatic chaining z Power supply: 600W (85 to 264 Vac) z Powerful fan with thermal control z Exchange visualization BARGRAPH z Power supply control z ACFAIL and SYSRESET control z Other configurations possible z Neat finish with PCBs set-back trademarks and logos are registered DESCRIPTION The CCV 10/ 12/16/20-seriesVME subracks are especially designed for industrial applications. Some of the many features proposed by ADAS racks are: z z z z z z z ACFAIL, SYSRESET, SYSFAIL electronic control. Power supply control in the VME operational tolerance. Silicium sensor for thermal control and speed variable regular fan’s. Exchange visualization bargraph on VME. High speed bus with automatic chaining (no strap). Power supplies with automatic selection of primary tension in accordance to all current standards. Setting-back of the boards The subracks of the CCV 10/ 12/16/20-series can be configured in close accordance with "customer" applications thanks to a wide choice of personalization. 9 rue Georges Besse – BP 47 – 78330 FONTENAY LE FLEURY – FRANCE Tél.:(33) 1 30 58 90 09 - http://www.adas.fr - mail@adas.fr CCV SPECIFICATIONS TYPE BACK PLANE - Type - Number of slots - PCB depth - VME bus VENTILATION RACK POWER SUPPLY - Power - Voltages - AC FAIL and SYSRESET - Protection MEDIAS FRONT PANEL - On/Off - Reset - Bus occupation - Mains indicator - Altuglas door REAR PANEL PHYSICAL CHARACTERISTICS - Dimensions version rack (W x H x D) - Dimensions version table top case (W x H x D) - Color ENVIRONMENT - Operating temperature - Storage temperature - Relative humidity EUROPEAN NORMS (t = 25°C) INDUSTRIAL SUBRACK VME 10 / 12 / 16 / 20 SLOTS PCBs set-back 60mm 10, 12, 16 or 20 slots 160 mm P1 + P2 High speed, with automatic chaining and active adaptation 3 ventilator fans of 125 2 with filter Speed variable regulator FANs f(t) 600W 5V / 12 0A ; 12V / 10A Yes, VME standard Thermal, surge, short circuit ... Consult us for integration medias : - Hard disk - Floppy - DAT - CD ROM, ... 3 position key switch: OFF/ON/RESET LOCK Yes with anti-bounce By BARGRAPH 0 Þ 100 % (10 points) Power ON indication by LED Temperature in the operational range < 50°C Bus fail (SYSRESET/SYSFAIL) Hinged Fixed plate for mounting of panel 6U Hinged door allowing access to power supplies 19" x 9 units x 480mm 550 x 440 x 560mm Grey - RAL 7032 - 20 °C to + 70°C - 25 °C to + 85 °C 90 % (without condensation) EMC - EN 61326 - EN 55011 Class A CE Compliance ROHS - 2002/95/EC HOW TO ORDER? CCV ** N° OF SLOTS 10 12 16 20 Option Table top case CCV **/C ACCESSORIES 11 24/20 TRACEABILITY FORM DOCUMENT FOLLOW-UP Title: CCV Titre : English documentation (Document creation - Création du document) Edition: 1 Written by D. PIMONT Revised by Ph. DUTIN Approved by Ph. DUTIN on on on Warning: Unless otherwise stated, this revision overwrites the previous one which must be destroyed, along with any copies given to your collaborators. 20/12/91 Visa 20/12/91 Visa 20/12/91 Visa Avertissement : En l’absence d’indication contraire, cette nouvelle édition annule et remplace l’édition précédente qui doit être détruite, ainsi que les copies faites à vos collaborateurs. Edition Nature of the modifications (key words) Written Revised/Approved Edition Nature des évolutions (mots clés) Rédigé Revu/Approuvé Bilingual documentation & update 5 6 Documentation bilingue & Mise à jour by D. PIMONT by Ph. DUTIN on 99/05 on 99/05 Rev. A Visa Documentation update by D. PIMONT by Ph. DUTIN Mise à jour de la documentation on 20/01 on 20/01 Rev. A Visa Documentation update Mise à jour de la documentation by D. PIMONT by Ph. DUTIN on 20/26 on 20/26 7 Visa Visa Rev. A Visa Wiring drawing update Mise à jour des plans de câblage by D. PIMONT by Ph. DUTIN on 21/13 on 21/13 8 Visa Rev. A Visa English doc / French doc division by D. PIMONT by Ph. DUTIN on 24/20 on 24/20 9 Visa Rev. A DOCUMENT ARCHIVED DOCUMENT ARCHIVE Visa No Yes Visa on Δ ed. .. [ ] = Document input/output (Entrée/sortie modification de la documentation) # ed. .. [ ] = Board new function input/output (Entrée/sortie nouvelle fonctionnalité du produit) DSQ - 4.5.a - Indice F - 98/41 T.S.V.P. CCV - Rev. A - Edition 9 – 24/20 1 NOTES : CCV - Rev. A - Edition 9 – 24/20 2 CCV SUMMARY Chapter A Presentation............................................. 4 Chapter B VME standard........................................... 5 Chapter C VME bus ................................................... 6 Chapter D Power supply ........................................... 7 Chapter E Fan cooling............................................... 8 Chapter F Front panel ............................................... 9 Chapter G Medias ...................................................... 9 Chapter H Physical representation ........................ 10 H.1. Dimensions ...........................................................................................10 H.2. Connection............................................................................................10 H.3. Protection..............................................................................................10 Appendix ................................................................... 11 VME INIT CIRCUIT ................................................................................................11 WIRING DRAWING .................................................................................................11 CCV - Rev. A - Edition 9 – 24/20 3 Chapter A Presentation Δ# ed. 5 [ The series CCV VME racks have been designed for industrial environments. Of smart presentation, they combine aesthetic appearance and functionality. A table-mounted enclosure version can also be provided. Locating the PCBs laid back inside the rack prevents the connectors from being ripped off and nuisance actions on the PCB front panel buttons. The altuglass door enables the VME board leds to be displayed. A front panel bar graph displays the VME bus occupation rate. The three-position key-operated On/Off enables the system to be switched on and the reset to be disabled. >>>Note: The series CCV include versions 10, 12, 16, 20 slots that are all based on the same concept of where a unique documentation for the totality of the series. Version CCV have the internal cabling (as well as necessary mechanical adaptations) to the integration of media, suitable definition during the order. Δ# ed. 5 ] CCV - Rev. A - Edition 9 – 24/20 4 Chapter B VME standard Δ# ed. 8 [ In order to get a full understanding of all the functionalities of the VME bus, we strongly recommend the reader to refer to the standards edited by the VITA. A document which should be consulted for a better understanding of problems which may arise and for an overview of the VME resources is given here enclosed. Δ# ed. 8 ] CCV - Rev. A - Edition 9 – 24/20 5 Chapter C VME bus Δ # ed. 3, 4, 5 & 8 [ The series CCV frame includes a VME backplane featuring both a 10, 12, 16 or 20 slots P1 + P2 bus built around a very high technology (8 layers). The BGs and IACKs are electronically chained. Backplane characteristics Specifications”. are here-enclosed in “the VMEbus A VME INIT circuit is able to: generate a SYSRESET to the placement under tension or under the action of the reset in FRONT panel take into account SYSFAIL generated by cards and to indicate it on the FRONT panel present stemming ACFAIL the feeding generate a signal BUSY image of the occupation of the VME. Δ # ed. 3, 4, 5 & 8 ] CCV - Rev. A - Edition 9 – 24/20 6 CONFORMS TO : ANSI/IEEE STD1014-1987 IEC 821 and 297 BUS VME DAISY-CHAIN AUTOMATIQUE Automatic active daisy-chain switches are implemented on the motherboard to simplify the installation and removal of boards within the system. All daisy-chain signals of the VMEbus specification are supported by this new feature, which means that no jumper setting are necessary. This is useful when system configurations are changing, the motherboard allow the specially dedigned power supply to be directly connected without the need for cable harness. Power for all the different modules in the system is distributed via motherboard. Le codage par cavalier du “Daisy-chain” est remplacé par une logique directement implémentée sur le bus. Cette nouvelle fonction simplifie l’installation et le changement de cartes au niveau d’un système. Tous les signaux de “Daisy-chain” établis selon la spécification VMEbus sont supportés par cette fonction et, de cette manière, il n’est plus nécessaire de configurer les cavalier. Ceci est très utile lors de changement de la configuration de systèmes. La carte-mère accepte, par l’intermédiaire d’une paire de connecteurs, d’être directement reliée à une alimentation qui a été spécialement développée pour cet usage. La tresse de câble est supprimée. Toutes les valeurs de tensions nécessaires pour les différents modules sont distribuées par l’intermédiaire de la carte-mère. FEATURES SPECIFICATIONS q q 8-fold multilayer all signal lines in the internal layers q q q q q q reliable decoupling of all bus lines inside onboard terminators Automatic Daisy-Chain All I/O lines are provided with ground trough holes for shielding Optimised ground shift Blocking capacitor for each slot q q q q q q Circuit-imprimé multicouches 8 couches Toutes les lignes de signaux sont dans les couches intérieures Découplage fiable des lignes de signaux Terminaison active « onboard » « Daisy-Chain » automatique Toutes les lignes E/S sont blindées au moyen de surfaces reliées au GND « GND-shift » optimisé Capacité de blocage pour chaque slot q q DESCRIPTION DATAS / DONNEES DESCRIPTION Bandwith 50 MHz Fréquence Termination Terminaison Basic current cons. Passif “Onboard » 20 mA – 1,5A Signal impedance 50 Ohms 5 % Impédance Resistance of Signal lines 1 Ohm Résistance de ligne Construction 8-layers / 8 couches Construction Power supply 120A / 200A 5VDC Alimentation Connectors DIN 41612 C classe II Connecteurs actif passif Consommation de base J1/P1 PIN ASSIGNMENTS (B) Mnemonic signal (C) Mnemonic signal D00 D01 D02 D03 D04 D05 D06 D07 BBSY* BCLR* ACFAIL* BG0IN* BG0OUT* BG1IN* BG1OUT* BG2IN* D08 D09 D10 D11 D12 D13 D14 D15 9 10 11 12 13 14 15 16 GND SYSCLK GND DS1* DS0* WRITE* GND DTACK* BG2OUT* BG3IN* BG3OUT* BR0* BR1* BR2* BR3* AM0 GND SYSFAIL* BERR* SYSRESET* LWORD* AM5 A23 A22 17 18 19 20 21 22 23 24 GND AS* GND IACK* IACKIN* IACKOUT* AM4 A07 AM1 AM2 AM3 GND SERCLK (1) SERDAT*(1) GND IRQ7* A21 A20 A19 A18 A17 A16 A15 A14 25 26 27 28 29 30 31 32 A06 A05 A04 A03 A02 A01 -12V/DC + 5V/DC IRQ6* IRQ5* IRQ4* IRQ3* IRQ2* IRQ1* +5V STDBY + 5V A13 A12 A11 A10 A09 A08 +12V/DC + 5V/DC PIN NUMBER 1 2 3 4 5 6 7 8 (A) Mnemonic signal J2/P2 PIN ASSIGNMENTS (B) Mnemonic signal (C) Mnemonic signal PIN NUMBER (A) Mnemonic signal 1 2 3 4 5 6 7 8 User Defined User Defined User Defined User Defined User Defined User Defined User Defined User Defined + 5 VDC GND RESERVED A24 A25 A26 A27 A28 User Defined User Defined User Defined User Defined User Defined User Defined User Defined User Defined 9 10 11 12 13 14 15 16 User Defined User Defined User Defined User Defined User Defined User Defined User Defined User Defined A29 A30 A31 GND + 5 VDC D16 D17 D18 User Defined User Defined User Defined User Defined User Defined User Defined User Defined User Defined 17 18 19 20 21 22 23 24 User Defined User Defined User Defined User Defined User Defined User Defined User Defined User Defined D19 D20 D21 D22 D23 GND D24 D25 User Defined User Defined User Defined User Defined User Defined User Defined User Defined User Defined 25 26 27 28 29 30 31 32 User Defined User Defined User Defined User Defined User Defined User Defined User Defined User Defined D26 D27 D28 D29 D30 D31 GND + 5 VDC User Defined User Defined User Defined User Defined User Defined User Defined User Defined User Defined SIGNAL IDENTIFICATION SIGNAL MNEMONIC A01-A15 A16-A23 A24-A31 ACFAIL* AM0-AM5 AS* BBSY* BCLR* BERR* BG0IN* - BG3IN* BG0OUT* - BG3OUT* SIGNAL NAME AND DESCRIPTION Address bus (bits 1-15). Three-state driven address lines that are used to broadcast a short, standard, or extended address Address bus (bits 16-23). Three-state driven address lines that are used in conjunction with A01-A15 to broadcast a standard or an extended address. Address bus (bits 24-31). Three-state driven address lines that are used in conjunction with A01-A23 to broadcast an extended address. AC failure. An open-collector driven signal that indicates when the AC input to the power supply is no longer being provided or that the required AC input voltage levels are not being met. Address modifier (bits 0-5). Three-state driven lines that are used to broadcast information such as address size, cycle type, or master identification, or a combination of these. Address Strobe. A three-state driven signal that indicates when a valid address has been placed on the address bus. Bus busy. An open-collector driven signal that is driven low by the requester that is associated with the current master, to indicate that its master is using the DTB. When the requester releases this line, the resultant rising edge causes the arbiter to sample the bus grant lines and grant the bus to the highest priority requester. Bus clear. A totem-pole driven signal, generated by an arbiter to indicate when there is a higher priority request for the bus. This signal requests the current master to release the DTB. Bus error. An open-collector driven signals generated by a slave or bus timer. This signal indicates to the master that the data transfer was not completed. Bus grant (0-3)in. Totem-pole driven signals generated by the arbiter. The bus grant in and the bus grant out signals form bus grant daisy-chains. The bus grant in signal indicates to the board receiving if that it has been granted use of the DTB. Bus grant (0-3)out. Totem-pole driven signals generated by requesters. The bus grant out signal indicates to the next board in the daisy-chain that it may use the DTB. SIGNAL IDENTIFICATION SIGNAL MNEMONIC RESERVED SERCLK SERDAT* SYSCLK SYSFAIL* SYSRESET* WRITE* + 5V STDBY + 5V + 12V - 12V SIGNAL NAME AND DESCRIPTION Reserved. A signal line reserved for future enhancements. Serial Clock. A totem-pole driven signal that is used to synchronize the data transmission on the VMSbus. Serial Data. An open-collector driven signal that is used for VMSbus data transmission System clock. A totem-pole driven signal that provides a constant 16MHz clock signal that is independent of any other bus timing. System fail. An open-collector driven signal that indicates when a failure has occurred in the system. This signal can be generated by any board in the system. System reset. An open-collector driven signal, which when low, causes the system to be reset Write. A three-state driven signal generated by the master to indicate whether the data transfer cycle is a read or a write. A high level indicates a read operation; a low level indicates a write operation. + 5V dc standby. This line supplies + 5V dc to devices requiring battery backup. + 5V dc power. Used by system logic circuits. + 12V dc power. Used by system logic circuits. - 12V dc power. Used by system logic circuits. Chapter D Power supply Δ# ed. 5 [ The series CCV VME racks includes a 600W power supply. The standard version is powered from a 110/220V, auto-ranging, 50Hz 400Hz power supply. For the characteristics of the power supply, please refer to the following documents. >>>Note: The VME frame is fitted with an analog electronics system for testing power supply conformity: When the PSU front panel LED is green, the + 5V ; + 12V and - 12V power supplies are within the VME standard tolerances. a red LED indicates a power supply error (missing or off tolerances). Δ# ed. 5 ] CCV - Rev. A - Edition 9 – 24/20 7 ALPHA 400 to 1000W Modular Output ♦ 1 to 14 outputs ♦ Standard or Configurable ♦ No Minimum Load ♦ Rapid Connection ♦ Wide Range Input ♦ EN61000-3-2 Compliant ♦ Class B Conducted ♦ Low Leakage Medical Versions Typical Applications Computer Peripherals, Telecoms, Industrial Equipment, Office Automation, Instrumentation, Test & Measurement, OEM Applications etc. INPUT Input Voltage AC Input: 85 – 264VAC, 160 – 358VDC (Alpha 400/600) AC Input: 90 – 264VAC, 120 – 360VDC (Alpha 1000) Power Factor Typically > 0.95¹ Inrush Current < 50A Fuse Internal fuse (no user access) Input Frequency 47 to 63Hz Isolation Input to Output 3kVRMS Leakage Current <1.1mA 260VAC 50Hz² Input to Ground 1.5kVRMS OUTPUT Efficiency Typically 75% (configuration and input dependant) Hold Up 15mS minimum at full rated output Switching Frequency PFC converter 100KHz for Alpha 400 & 1000, 200KHz for Alpha 600. Output converter 200kHz Thermal Protection On converter. Cycle on/off to reset Isolation Output to output 500VDC See Output Module Table for detailed performance specifications. SAFETY APPROVALS UL1950, CSA22.2 No. 950, EN60950, IEC60950, CE marked for LVD. Type Approved for IEC 61010-1, EN61010-1 and EN60601-1. (Alpha 1000 May 2000). 14/11/00 – Issue 4 ENVIRONMENT Operational Storage Temperature -20°C Start Up to +70°C¹ -40°C – 85°C Humidity 5 – 95% RH non condensing 5 – 95% RH non condensing Shock 3000 bumps, 10G (16mS) half sine Vibration 10 – 200Hz, 1.5G Altitude 3300 metres MTBF Demonstrated 483,000hrs Temperature Coefficient 0.02% per °C Note 1 EMC Conducted Radiated WARRANTY 3 Years IMMUNITY EN61000 Alpha 400 & 600 derate each output by 2.5% per °C from 50°C to 70°C Alpha 1000 max temperature is 65°C and derate at 2.5% per °C from 45°C to 65°C EN 55022 Class B, FCC Class B, (Class A Alpha 1000) EN 55022 Class A, FCC Class A -4-2 -4-3 -4-4 -4-5 -4-6 -4-11 ESD RF Fast Transient Surges RF Common Mode Voltage Dips Level 4 Level 3 Level 4 Level 3 Level 3 Compliant COMMON ALPHA CONFIGURATIONS Part Number Max. Power CA400 5A CA400 5S CA400 12F CA400 24G CA400 5A 12C 12C CA400 5A 12/12E 24N CA600 5APP 5APP CA600 24G CA600 5A 12C 12C CA600 5A 3.3Q 12C 12C CA600 5A 24D 12/12E CA1000 B/S 5A 12F 12F CA1000 12C 5A 3.3R 12F 300W 400W 396W 400W 400W 400W 600W 600W 600W 600W 600W 1000W 1000W O/P 1 Volts 5V 5V 12V 24V 5V 5V 5V 24V 5V 5V 5V 5V 5V Amps 60A 80A 33A 16.6A 60A 60A 120A 25A 60A 60A 60A 60A 60A O/P 2 O/P 3 O/P 4 Volts Amps Volts Amps Volts Amps 12V 12V 16A 8A 12V 12V 16A 8A 24V 5A 12V 3.3V 24V 12V 3.3V 16A 25A 8A 33A 60A 12V 12V 12V 12V 12V 16A 16A 6A 20A 20A 12V 12V 12A 6A 12V 16A You can configure your own combination of outputs by using the tables on the following pages or visit http://www.lambda-gb.com/clips.htm and try our Rapid Selector online to instantly configure an Alpha of your choice. 14/11/00 – Issue 4 DIMENSIONS Alpha 400 Alpha 600 14/11/00 – Issue 4 Chapter E Fan cooling Three fans 125. The system of ventilation of the racks CCV is to electronic regulation. Two circuit PWM regulates the speed of ventilators according to the ambient temperature. So, the temperature is much more stable than in frames not possessing this function what is favorable for the analogical boards for example. Both systems are independent and a sensor is mainly associated to the slots of left (for board CPUs). CCV - Rev. A - Edition 9 – 24/20 8 Chapter F Front panel Δ# ed. 5 [ The FRONT panel includes: A three-position A/M/LOCK switch A two-colour status LED power supply unit A two-colour system status LED A two-colour temperature control LED A 10-position bar-graph for the VME bus Two media-access LEDs (if included) Δ# ed. 5 ] Chapter G Medias The series CCV can receive media to make thus a complete system on the VME. Media can be situated in FRONT panel for CCVs 10, 12 and 16 slots. A cassette is available in FAR for 20 slots. The integration of media is in option and many variant can be available in function of numerous technological evolution in this area. CCV - Rev. A - Edition 9 – 24/20 9 Δ# ed. 5 [ Chapter H Physical representation H.1. Dimensions Rack version: L x H x W = 19" x 9U x 480 mm Enclosure version: L x H x W = 550 x 440 x 560 mm H.2. Connection AC version : Through a 2-pole plug + earth connection Two grounding terminals (through the provided captive bars) = Earth connection H.3. Protection AC version : One 5/20 time-delay fuse, 4A Δ# ed. 5 ] CCV - Rev. A - Edition 9 – 24/20 10 Appendix VME INIT CIRCUIT WIRING DRAWING CCV - Rev. A - Edition 9 – 24/20 11