Company Profile Contact Information
Transcription
Company Profile Contact Information
Company Profile • Company name: Lightwaves2020, Inc • Type of business: Fiber optic and optic technology & manufacture • Headquarter: Milpitas, California, USA • Incorporated: Founded in 1997, started to operate in 2000 • Products / services - Optical components and sub-systems - Inline products - Optical thin film filters and coating service - Testing instruments Contact Information Main tel: (408) 503-8888 Main fax: (408) 503-8988 Sales tel: (408) 503-9001 Sales fax: (408) 503-9002 Technical support: (408) 503-9003 Technical fax: (408) 503-9004 Customer service: (408) 503-9005 Customer fax: (408) 503-9006 E-mail: sales@lightwaves2020.com Web site: www.lightwaves2020.com www.lightwaves2020.com 1 Products and Technologies Optical Components and Modules 1. Liquid crystal based devices: VOA, polarization controllers, phase retarder 2. Miniature optical power monitors: tap monitor, unidirectional tap monitor, WDM monitor, dual band tap monitor, attenuated monitor, pigtailed monitor, tap monitor array 3. High performance optical components: high isolation 1310 / 1550 WDM, GFF filter, polarimeter, customized passive / active devices 4. Compact CWDM 5. Optical switches: 1x2, 2x2 SM and MM opto-mechanical switch, switch box 6. EDFA and ASE sources: ultra compact EDFA gain block, compact EDFA gain block and full function, MSA compatible full function and gain block, rack-mountable EDFA, Xenpak EDFA and customized EDFA 7. Integrated modules and sub-systems: intelligent WDM module, VMUX, integrated module for ROADM, in-line wavelength / optical power monitoring, in-line optical level monitoring and tracking, customized integrated modules Optical Coating 1. Telecom: CWDM, DWDM, 4skip0, GFF, FTTH filters, … 2. Biomedical: fluorescence filters for confocal microscopy, flow cytometry, and microchip reader / analyzer 3. Optical instrumentations: Raman spectroscopy, UV / Vis / NIR spectroscopy, optical sensing… 4. High power lasers: laser line, mirrors, dichroic, neutral density,… 5. Astronomy: H-Alpha, Nebula filters, … 6. Military and defense Test Instruments 1. Handheld instruments • Network link tester • Wavelength and power meter • Polarization synthesizer • Powermeter 2. Benchtop instruments • Multi-function optical testing platform: flexible, multi-function platform for optical component, module testing, customized system integration, matrix optical switch, etc. • High PSD C-band, L-band and C+L band ASE sources 2 www.lightwaves2020.com Table of CONTENT Optical page Instruments .................................................................. 55 page TFF Coating 47 .......................................................................................................................... page 41 Inline Products ....................................................................................................... page Optical Components 11 ................................................................................ Optical Power Monitor.............. 12 Variable Optical Attenuator........ 17 EDFA......................................... 20 ASE Source............................... 33 Compact WDM.......................... 34 Optical Switch............................ 37 Tunable FIlter............................. 38 Polarization Products................. 39 www.lightwaves2020.com 3 QUALITY ASSURANCE Everything We Do is of the Highest Quality All fully released products are Telcodia compliant - Compact EDFA, MSA EDFA - LC VOA/PC - Miniature optical power monitor - Opto-mechanical switch - Compact CWDM module - High isolation 1310 / 1550nm WDM ISO 9001:2000 certified since 2002 Lightwaves2020 welcomes and encourages our customers to conduct on-site quality audits Made in U.S.A. 4 www.lightwaves2020.com Lightwave2020's VOA and Photodiode Add Intelligence to Networks Future optical networks will be more adaptive and scalable to meet the demands of increasingly complex optical networks. Components such as VOAs must therefore be intelligent. The rapid growth of enterprise Intranet and end-user Internet traffic requires carriers to intelligently manage traffic and dynamically provision services, and intelligent VOAs are a key component in providing this flexibility. They are critical in enabling next generation applications such as dynamic metro networks, dynamic gain EDFA, dynamic gain equalization and dynamic system protection in long reach or short reach telecom networks, CATV and other optical systems. But how intelligent should they be? It really depends on the system operator and the degree of remote control desired over the network. That is why Lightwaves2020 provides its customers with a VOA platform that allows for as much or as little intelligence as is required. VOA with Power Monitor VOA Controller Digital Interface Power Monitor Log Amp or TIA V REF VOA DC to Square Wave Converter Micro Processor A/D V Buffer DC/DC Converter Closed-loop Control Board up RS232 or I2C D/A System Terminal RS232 2 or I C 5V to 3.3V Converter + 5V Power Supply Function diagram www.lightwaves2020.com Option 1: A Closed Loop VOA Structure On the first step toward intelligence, Lightwaves2020's has integrated a power monitor (simple tap and photodiode) into a VOA. This configuration offers an optical closed-loop ready structure for precise power auto-balancing and VOA output monitoring, making it ideal for feedback loop structure design. The integration adopts a plugable interface for easy mounting onto the electric board. Option 2: Adding A VOA Controller The basic power monitor + VOA design can be expanded to include a VOA driver along with a TIA (LOG AMP is optional), which is necessary to amplify the small photodiode signal. This modification establishes a ready-to-operate platform and multi-functional electric interface to the system that allows the system operator to adjust the VOA with a continuous 0 ~ 5V DC voltage and directly read the amplified PD output in the form of DC voltage. Option 3: Adding a Digital Interface By further adding a digital interface to the VOA through an I2C connection (by adopting I2C compatible chips), remote control through system commands can be realized. Through the digital interface, the system operator can intelligently receive power reports and adjust the output power of the VOA accordingly. Option 4: Adding a Microprocessor The most powerful intelligent feature that can be added to Lightwaves2020's VOA is a microprocessor (µP). With the existence of a µP, system operators need only set the output power from the VOA digitally through either an RS232 or I2C interface. The module will automatically monitor the VOA output and protect the VOA's output power from environmental disturbance without input from the system administrator, providing complete worry-free operation. 5 The following table shows how Lightwaves2020's VOA functionality increases with each step. Option 1 (VOA + PD + Tap) Function Input Output Power Supply Provides optical power attenuation & power monitoring AC square wave voltage (10 kHz) 0-5V DC photocurrent N/A DC voltage + 5V 12-bit digital value + 5V Digital command* + 5V Adds electrical Option 2 interface (DC driving (Option 1 + Electrical Interface) voltage & DC voltage conversion for amplified PD signal) Adds digital 16-bit Option 3 functionality & digital value (Option 2 + Digital remote control Interface) through I2C Provides automated Digital Option 4 closed loop control command* (Option 3 + through I2C or RS232 Microprocessor) Of course, there will always be a small market for manual VOAs in static applications where remote control is unnecessary or where small inaccuracies that can potentially be introduced into the system by multiple, independently-controlled devices and control software must be avoided. But most system operators will want to be able to remotely control their VOAs in the future, and Lightwaves2020 provides a VOA product to take them there. * Per specific firmware protocol MOPM - A simple Solution To Closed-Loop VOA Control Integrating a separate tap and photodiode into a VOA adds unnecessary complexity and cost to your system. A simpler solution is to integrate Lightwaves2020's Miniature Optical Power Monitor (MOPM) with a VOA to achieve the same functionality but with a lower cost and greater space savings. other power monitoring solutions in terms of responsivity flatness, wider operating wavelength range and lower polarization dependent loss. Input Fiber Cathode Tubing Anode Photo Diode Tap Filter Collimator SMF-28 Output Fiber The MOPM is a miniature optical power monitoring device that integrates a micro tap coupler and a PIN photodiode into an ultra-compact coaxial package. The MOPM performs two functions at the same time: it taps a portion of the input optical power (through the microtap coupler) and converts the tapped optical power into a photocurrent (through the photodiode). This design enables the MOPM to offers better performance than 6 MOPM schematic diagram www.lightwaves2020.com Lightwaves2020's LC VOA Product Portfolio Update and Selection Guidance LC VOA Lightwaves2020's state-of-the-art Liquid Crystal based VOA products have recently added new family members in order to meet customers' versatile applications. C-Band, L-Band, C+L-Band, 1310nm/1550nm Dual Window Normal-on Normal-off Single Broadband/ Single Broadband/ Narrowband Broadband Narrowband Broadband Lightwaves 2020 is one of the few fiber Channel small ripple Channel small ripple optic component manufacturers to bring to market the benefits of using Liquid 33dB 21dB 33dB 21dB 33dB 20dB 30dB 40dB 20dB 30dB 40dB 20dB 30dB 40dB 20dB 30dB 40dB 21dB 33dB 21dB Crystal technology in VOA components. A B C D E F G H I J K L M N O P Q R S T Our proprietary device structure and Table 1. Listed the new product family summary laser-welded packaging guarantees the simplified assembly with high alignment accuracy and reliability. There is no moving part during the adjustment process. Lightwaves 2020's LC VOA offers many advantages including static charge resistance, continuous tuning, low PDL, high attenuation, low WDL and ripple, voltage controllability, and low power consumption. It is also capable of high power handling, the critical parameter for optical amplifier applications. Due to our LC VOA's innovative design and high manufacturing standards, it is extremely stable and insensitive to vibrations of nearly all frequencies and mechanical shock. Applicant Examples Example 1. Regulate line card optical power DFB Laser VOA Power Monitor Close-loop control Figure 1. Trasmission line card Power Monitor VOA 1 WDM Filters 2 >> Close-loop Control Figure 2. VMUX www.lightwaves2020.com The output power of line card needs to be adjustable in order for the system balance. Varying the laser current is going to affect the center wavelength and is not a feasible way for adjustment. For this application, the critical characteristics include low PDL, low insertion loss and output power stability. LC VOA model A or M are fitting this application. There are two options to implement the VOA feature. As shown in Figure 1 and 2, the VOAs can be before the transmitter or put together with DWDM module. Combining with Lightwaves2020's integrated power monitor, a close-loop control is set up to maintain the power stability. In the case of open-loop environment, we can use look-up table for adjustment with high accuracy of 0.5dB over all operating temperature range. Since this is single channel application, the customers get the most cost benefits 7 Example 2. Receiver protection Receiver VOA Close-loop control Figure 3. Receiver line card To protect the receiver from power saturation, LC VOA model N is used. With normal-off operation mode, the receiver is well protected at the initial stage and power outrange. The high attenuation adds shut-off feature to help the system on wavelength provisions. Similar to the application at transmission line card, this model is also a cost-effective solution. Example 3. Gain titling in two-stage EDFA The current networks are much more flexible and provisional than before for the purpose of saving initial CAPEX and later OPEX. The design of EDFA cannot be predetermined and fixed anymore. To realize the sophisticated variable gain amplifier, the best way is to use LC VOA. Using LC VOA does not affect the overall amplifier performance such as noise figure and control accuracy but the output gain. The most critical requirements on VOA in order to sustain the amplifier performance are the high sustainable power, the wavelength dependent attenuation, the narrowband ripple, and tuning resolution. LC VOA model J or K's performance are optimized particularly for this applications. Power Monitor Isolator WDM Isolator Power Monitor Power Power Monitor Monitor Isolator WDM GFF Isolator Power Monitor VOA Pump Pump Figure 4. Gain configurable 2-stage EDFA Example 5. Hand-held Instrumentation LC VOA is well-known for its highest mechanical stability and reliability because of its no-moving part design . LC VOA model H or I used in hand-held attenuation instruments guarantee the no-disturbed output under different conditions. 8 www.lightwaves2020.com Liquid Crystal Phase Retarder Lightwaves2020’s Liquid Crystal Phase Retarder can be used as a tunable wave plate by adjusting the applied AC voltage. The retardation of the standard liquid crystal cell can be π/2, π, and 2π depending on the thickness of the liquid crystal layer. Liquid crystals have anisotropic molecules. In LC cell without any external electric field, the ordering of the molecules is usually determined by the anisotropy of the boundary. The ordering of the molecules can be controlled electrically by applying an external electric field. As a result of the ordering of the molecules, the liquid crystal exhibits a strong optical birefringence. In order words, there are two modes of optical propagation, each with a unique phase velocity. The difference in the phase velocities leads to a phase retardation (Γ) between these two modes. Where no is the ordinary refractive index of the liquid crystal, ne is the extraordinary refractive index that varies with the applied voltage; d is the thickness of the LC layer and λ is the wavelength of light. As a consequence, the polarization state of an incoming polarized light can be modified by the applied electric field. When such an LC cell is sandwiched between a polarizer and an analyzer perpendicular to one another, the intensity of the transmitted light (It) can be represented as It = I0 sin2(Γ/2), where I0 is the intensity of the light with the polarization parallel to the polarizer. Γ is the phase retardation of the LC cell, which is dependent on the applied voltage. Fig.1 shows the attenuation versus the peak-to-peak AC voltage of a half wave-plate liquid crystal cell for the polarizer parallel and perpendicular to the analyzer. The liquid crystal phase retarder can be used in optical variable attenuator, optical switch, optical shutter, and other applications. LC Retarder @ 1550 nm Attenuation (dB) 0 5 10 15 20 25 0 -5 -10 -15 -20 -25 -30 -35 -40 Voltage (v) Polarizer perpendicular to Analyzer Polarizer parallel to Analyzer Figure 4: Attenuation versus AC Voltage in a half wave plate www.lightwaves2020.com 9 EDFA Product Family Lightwaves2020’s EDFA product family offers broad options to customers, from optical gain block to full function; from single channel, narrow band to gain flattened wideband applications; from un-cooled to cooled pump laser operation; from booster to pre-amplifiers; from single mode EDFA to polarization maintaining EDFA; and from compact size to MSA and 19” rack mounted chassis. The full function EDFA is designed with interface of RS232 or I2C. In addition to standard EDFA products listed in the catalog, we also provide a variety of customized EDFAs to meet customers’ special applications, as listed below: 1. L-band EDFA 2. Gain Flattened Wide-band EDFA 3. Polarization Maintaining EDFA 4. Two-Stage EDFA with Mid-stage Access Loss 5. High Power EDFA 6. Desktop and 19” Rack Mounted EDFA 7. Hot-pluggable XENPACK EDFA 10 www.lightwaves2020.com OPTICAL COMPONENTS Optical Power Monitor • Miniature Optical Power Monitor .................... 12 • Unidirectional MOPM ...................................... 13 • Multi-Channel MOPM Array ............................ 14 • WDM Power Monitor ...................................... 16 Variable Optical Attenuator • Single Channel VOA ....................................... 17 • 8-Channel VOA Array ..................................... 19 EDFA • Ultra-Compact Booster Gain Block ................ 20 • Compact Booster Gain Block ......................... 21 • Compact Booster Full Function ...................... 22 • Compact Pre-Amplifier Gain Block ................ 23 • Compact Pre-Amplifier Full Function ............ 24 • MSA Booster Gain Block ............................... 25 • MSA Booster Full Function ............................ 27 • MSA Pre-amplifier Gain Block ...................... 29 • MSA Pre-amplifier Full Function ................... 31 ASE Source • ASE Source ...................................................... 33 Compact WDM • Ultra-High Isolation 1310 / 1550nm WDM ..... 34 • Compact 4-Channel MCWDM ........................ 35 • Compact 8-Channel MCWDM ........................ 36 Optical Switch • 1x2 Miniature Optomechanical Switch ......... 37 Tunable Filter • Tunable Optical Filter...................................... 38 Polarization Products • Polarimeter ...................................................... 39 • Polarization Controller .................................... 40 www.lightwaves2020.com 11 Single-Channel Miniature Optical Power Monitor Features/Benefits General Specifications - Wide wavelength coverage (C-, L-band and C- & L-band) - Compact coaxial package - Small responsivity ripple - Excellent responsivity linearity - Low insertion loss - Low polarization dependent loss - Low wavelength dependent loss - Low polarization dependent responsivity - Minimizes fiber splicing - Saves board space - Simplifies logistic management - Cost effective Parameters Operating Wavelength Range Applications - EDFA - Raman amplifier - DWDM mux/demux - OADM - Protection switch - Other monitoring applications Dimensions Polarization Dependent Loss Wavelength Dependent Loss Polarization Mode Dispersion Optical Return Loss Responsivity Flatness (with respect to band center) Polarization Dependent Responsivity Linearity Reverse Voltage Forward Current Dark Current @ 23°C, - 5V High Frequency Response Limit Operating Temperature Storage Temperature Fiber Pigtail Unit nm nm nm dB dB ps dB dB dB % V mA nA GHz °C °C - Dimension mm C-band L-band C- & L-band Min. Typ. Max. 1525 1550 1565 1570 1593 1615 1525 1570 1615 0.03 0.1 0.05 0.15 0.1 45 ± 0.3 0.03 0.1 ±5 5 20 10 0.5 1.0 0.6 -5 70 - 40 85 SMF-28, 250µm bare fiber or 900µm loose tube Φ 3.5 × 18.1 Optical Performance vs Splitting Ratio Tap Ratio Max. Insertion Loss (dB) (%) C or L band Min. Responsivity Max. Input (µA/mW) Optical Power C+L band Premium A Grade Premium A Grade 1 0.3 0.4 0.4 0.5 8 (mW) 500 3 0.4 0.5 0.5 0.6 24 300 5 0.5 0.6 0.6 0.7 45 300 Note: Insertion loss and return loss values are without connectors. Ordering Information M O P M T Tapping Wavelength Tapping Ratio C= C-band L= L-band E= C- & L-band 1= 1 % 3= 3 % 5= 5 % 0 0 Grade P= Premium A= A grade 0 Buffer Type Connector 0= 250µm bare fiber 1= 900µm loose tube 0= 1= 2= 3= 4= 5= 6= Fiber Type 0= SMF-28 Pigtail Length This product information is subject to change without notice. 10= 1.0m 15= 1.5m (not avail. with connector) Unit: mm 12 www.lightwaves2020.com None FC/UPC FC/APC SC/UPC SC/APC LC/UPC MU/UPC Single Channel Unidirectional Miniature Optical Power Monitor General Specifications Features/Benefits Parameters *Operating Wavelength Range C-band L-band C- & L-band Isolation (Directivity) from Output to PD Polarization Dependent Loss Wavelength Dependent Loss Polarization Mode Dispersion Optical Return Loss Responsivity Flatness (with respect to band center) Polarization Dependent Responsivity Linearity Reverse Voltage Forward Current Dark Current @ 23°C, - 5V High Frequency Response Limit Operating Temperature Storage Temperature Fiber Pigtail Unit nm nm nm dB dB dB ps dB dB dB % V mA nA GHz °C °C - Dimension mm Min. Typ. Max. 1525 1550 1565 1570 1593 1615 1525 1570 1615 25 0.03 0.1 0.05 0.15 0.1 45 ± 0.3 0.03 0.1 ±5 5 20 10 0.5 1.0 0.6 -5 70 - 40 85 SMF-28, 250µm bare fiber or 900µm loose tube Φ 3.5 × 20.5 (bare fiber) Φ 3.5 × 26.0 (900µm loose tube) - Unidirectional monitoring - Compact coaxial package - Excellent responsivity linearity - Low insertion loss - Cost effective - High isolation Applications - EDFA Raman amplifier DWDM mux/demux OADM Protection switch OXC Other monitoring applications Dimensions * Dual band (1310 nm and 1550 nm) is available upon request Optical Performance vs Splitting Ratio Tap Ratio Max. Insertion Loss (dB) (%) C or L band Min. Responsivity Max. Input (µA/mW) Optical Power C+L band Premium A Grade Premium A Grade 1 0.3 0.4 0.4 0.5 7 (mW) 3 0.4 0.5 0.5 0.6 21 300 5 0.5 0.6 0.6 0.7 35 300 500 Note: Insertion loss and return loss values are without connectors. Ordering Information U O P M T Tapping Wavelength Tapping Ratio C= C-band L= L-band E= C- & L-band 1= 1 % 3= 3 % 5= 5 % 0 0 Grade P= Premium A= A grade 0 Buffer Type Connector 0= 250µm bare fiber 1= 900µm loose tube 0= 1= 2= 3= 4= 5= 6= Fiber Type 0= SMF-28 Pigtail Length This product information is subject to change without notice. www.lightwaves2020.com 10= 1.0 m 15= 1.5 m (not avail. with connector) None FC/UPC FC/APC SC/UPC SC/APC LC/UPC MU/UPC Unit: mm 13 Multi-Channel Optical Power Monitor Array Features/Benefits General Specifications - Wide wavelength coverage (C-, L- and C- & L-bands) - Small footprint - Small responsivity ripple - Excellent responsivity linearity - Low insertion loss - Low polarization dependent loss - Low wavelength dependent loss - Low polarization dependent responsivity - Minimizes fiber splicing - Saves board space - Plug-in socket design for easy mounting - Simplifies logistic management Parameters Operating Wavelength Range Applications - EDFA Raman amplifier DWDM mux/demux Multi-channel OADM Protection switch Dynamic gain equalizer Other monitoring applications C-band L-band C- & L-band Polarization Dependent Loss Wavelength Dependent Loss Polarization Mode Dispersion Optical Return Loss Responsivity Flatness (with respect to band center) Polarization Dependent Responsivity Linearity Reverse Voltage Forward Current Dark Current @ 23°C, - 5V High Frequency Response Limit Operating Temperature Storage Temperature Fiber Pigtail Dimension 4-channel 8-channel Unit nm nm nm dB dB ps dB dB dB % V mA nA GHz °C °C - Min. Typ. Max. 1525 1550 1565 1570 1593 1615 1525 1570 1615 0.03 0.1 0.05 0.15 0.1 45 ± 0.3 0.03 0.1 ±5 5 20 10 0.5 1.0 0.6 -5 70 - 40 85 SMF-28, 250µm bare fiber or 900µm loose tube 16.4 × 32 × 6 31 × 32 × 6 mm mm Optical Performance vs Splitting Ratio Tap Ratio Max. Insertion Loss (dB) (%) C or L band Min. Responsivity Max. Input (µA/mW) Optical Power C+L band Premium A Grade Premium A Grade 1 0.3 0.4 0.4 0.5 8 (mW) 500 3 0.4 0.5 0.5 0.6 24 300 5 0.5 0.6 0.6 0.7 45 300 Note: Insertion loss and return loss values are without connectors. Ordering Information O P M A 0 M Buffer Type Tapping Ratio Channel Number 1= 1 % 3= 3 % 5= 5 % 4= 4-channel 8= 8-channel Tapping Ratio C= C-band L= L-band E= C- & L-band 0 Fiber Type 0= SMF-28 Grade P= Premium A= A grade 0= 250µm bare fiber 1= 900µm loose tube Pigtail Length 10= 1.0m 15= 1.5m (not avail. with connector) This product information is subject to change without notice. 14 www.lightwaves2020.com Connector 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC Dimensions for 4-Channel OPMA Pin Assignments Pin Number 1 2 3 4 5 6 7 8 Description Anode com Ch 1 cathode Ch 2 cathode Anode com Ch 3 cathode Ch 4 cathode Mounting Mounting Pin Assignments Unit: mm Pin Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Dimensions for 8-Channel OPMA Description Anode com Ch 1 cathode Ch 2 cathode Anode com Ch 3 cathode Ch 4 cathode Ch 5 cathode Anode com Ch 6 cathode Ch 7 cathode Anode com Ch 8 cathode Mounting Mounting Unit: mm www.lightwaves2020.com 15 1310 / 1550nm WDM Filter Integrated Optical Power Monitor General Specifications Features/Benefits - Compact coaxial package - Low insertion loss - High isolation between detected signal and reflected signal - Low polarization dependent loss - Low wavelength dependent loss - Excellent responsivity linearity - High frequency response capability - Eliminates fiber splicing - Minimizes part number - Improves fiber routing - Saves board space Parameters Unit Reflect Port Operating Wavelength Range Min. nm Typ. Max. 1540±30 or 1310±50 Insertion Loss dB - - 0.6 Polarization Dependent Loss dB - 0.05 0.1 Isolation dB 15 - - Polarization Mode Dispersion ps - - 0.1 Optical Return Loss dB 45 - - Detect Port Operating Wavelength Range nm 1540±30 or 1310±50 Isolation dB 40 - - Responsivity** A/W 0.7 @ 1550-band - - 0.55 @ 1310-band Input Optical Power Applications - Dual window WDM systems Dimensions dBm - - 15 Polarization Dependent Responsivity dB - - 0.2 Operating Bias Voltage V - - 5.0 - Linearity % - - ±5 Dark Current @ 23°C, - 5V nA - 0.5 1.0 GHz 0.6 - - High Frequency Response Limit ** The ratio of photodiode current to device input optical power. Note: insertion loss and return loss values are without connectors. Absolute Maximum Ratings Parameters Unit Min. Max. Reverse Voltage V - 20 Forward Current mA - 10 Operating Temperature °C -5 70 Storage Temperature °C - 40 85 Operating Humidity %RH - 95 Ordering Information P I B F R Connector Wavelength (detect band) 1550= 1550nm 1310= 1310nm Unit: mm [inch] 16 Wavelength (reflection band) 1550= 1550nm 1310= 1310nm Fiber Type 0= 250µm 1= 900µm This product information is subject to change without notice. www.lightwaves2020.com 0= 1= 2= 3= 4= 5= 6= None FC/UPC FC/APC SC/UPC SC/APC LC/UPC MU/UPC Liquid Crystal Based Variable Optical Attenuator Features/Benefits Specifications Parameters Unit Normal-on Grade P Operating Wavelength Range - nm Attenuation Range Min dB Insertion Loss Max dB Normal-off Grade A Grade P Grade A C-band , L-band or C- & L-band 20 , 30 or 40 1.0 1.2 21 or 33 1.1 1.3 Polarization Dependent Loss @10dB Max dB 0.15 0.2 0.25 0.3 @20dB Max dB 0.25 0.4 0.35 0.5 Wavelength Dependent Loss @10dB Max dB Polarization Mode Dispersion Max ps Chromatic Dispersion Max ps/nm Return Loss Attenuation Resolution Min dB Min dB/mV Maximum Optical Power Response Rise Time Min. Max Response Fall Time Max mW ms ms V - Small footprint in a coaxial package - Continuous tunning without moving parts - Resistant to mechanical vibration - Wide operating wavelength range - Low PDL, WDL - Slow tunning slope without backlash and historic - Low cost 0.4 @ C-band or L-band 0.1 0.2 Applications 45 Continuous - Channel balancing in DWDM 300 5 35 (-5°C ~ 23°C), 15 (23°C ~ 70°C) Driving Voltage (without driver) - 0 ~ 30 Peak to Peak, 10 KHz Square Wave Driving Voltage (with driver ) - V 0 ~ 5 DC Operating Temperature - o C -5 ~ 70 Storage Temperature - o C Fiber Pigtail - - Dimensions - mm systems (pre-emphasis) - Power equalization in optical add/drop modules and optical cross-connects - Gain-tilt and power adjustment in EDFAs - Receiver protection -40 ~ 85 SMF-28, 250µm bare fiber or 900µm loose tube, 1.0±0.1m φ7.2 × 23.5 without driver 36.3 × 12.7 × 11.5 with driver Note 1: Insertion loss and return loss don’t include connectors. Note 2: response time includes contributions from electrically driving circuits; measured between 10 % and 90 % of maximum attenuation. VOA Dimensions VOA + Driver Assembly Diagram Unit: mm (inch) www.lightwaves2020.com 17 Driver Characteristics Parameter Unit Specification V +5 mW ≤ 300 V 0~5 Power Supply Power Consumption Driving Voltage Dimension (excluding electric pin) mm 36.3 × 12.7 × 1.3 Electric Pin Dimension mm φ0.51 × 4.83 Electric Pin Pitch mm 2.54 Driver Pin Assignment Pin Function Pin Function 1 NC 12 VOA pin B (for off-board connection)* 2 GND 13 NC 3 NC 14 NC 4 NC 15 NC 5 NC 16 NC 6 NC 17 NC 7 Analog Input ( 0 to 5V) 18 NC 8 GND 19 NC 9 +5V Power Supply 20 NC 10 NC 21 GND 11 VOA Pin A (for off-board connection)* 22 NC * Pin 11 and 12 can be used to test VOA. Otherwise, please let these two pins open and don’t connect them to the ground. Ordering Information V O A L 0 0 0 Connector Attenuation Range 20= 20dB (normal-on) 30= 30dB (normal-on) 40= 40dB (normal-on) 21= 21dB (normal-off) 33= 33dB (normal-off) Operation Mode 1= normal-off 2= normal-on Operating Wavelength Driver Grade 0= without driver 1= with driver P= grade P A= grade A C= 1525 ~ 1565nm L= 1570 ~ 1615nm E= 1525 ~ 1615nm Pigtail Type 0= 250µm bare fiber 1= 900µm loose tube 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC This product information is subject to change without notice. 18 www.lightwaves2020.com Liquid Crystal Based 8-Channel Variable Optical Attenuator Array Specifications Parameters Unit Normal-on Grade P Operating Wavelength Range Normal-off Grade A Grade P Grade A - nm C-band , L-band or C- & L-band Attenuation Range Min dB 20, 30 or 40 Insertion Loss Max dB 1.0 1.2 1.1 1.3 - Small footprint Polarization Dependent Loss @10dB Max dB 0.15 0.2 0.25 0.3 @20dB 0.25 0.4 0.35 0.5 - Built-in driver - Continuous tuning without moving parts - Resistant to mechanical vibration - Wide operating wavelength range - Low PDL, WDL - Slow tunning slope without backlash and historic - Low cost Max dB Wavelength Dependent Loss @10dB Max dB Polarization Mode Dispersion Max ps Chromatic Dispersion Max ps/nm Return Loss Attenuation Resolution Min dB Min dB/mV Maximum Optical Power Response Rise Time Min. Max Response Fall Time Max 0.4 @ C-band or L-band 0.1 0.2 45 Continuous mW ms 300 5 ms - V 0~5 Power Supply (DC) - V +5 Power Consumption Max mW - o Storage Temperature - o Fiber Pigtail - - Dimensions - mm Applications 35 (-5°C ~ 23°C), 15 (23°C ~ 70°C) Driving Voltage (DC) Operating Temperature Features/Benefits 21 or 33 200 C -5 ~ 70 C -40 ~ 85 SMF-28, 250µm bare fiber or 900µm loose tube, 1.0 ± 0.1m 50 x 53 x 11.5 - Channel balancing in DWDM systems (pre-emphasis) - Power equalization in optical add/drop modules and optical cross-connects - Gain-tilt and power adjustment in EDFAs - Receiver protection Note 1: insertion loss and return loss don’t include connectors. Note 2: response time includes contributions from electrically driving circuits; measured between 10 % and 90 % of maximum attenuation. Driver Pin Assignment Dimensions Unit: mm Ordering Information A V O A 0 8 1 Attenuation Range Operation Mode Operating Wavelength 20= 20dB (normal-on) 30= 30dB (normal-on) 40= 40dB (normal-on) 21= 21dB (normal-off) 33= 33dB (normal-off) 1= normal off 2= normal on C= 1525 ~ 1565nm L= 1570 ~ 1615nm E= 1525 ~ 1615nm 0 Grade P= grade P A= grade A Pigtail Type 0= 250µm bare fiber 1= 900µm loose tube Connector 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC Pin Function 1 5V DC 2 Channel 1 driving 3 Channel 2 driving 4 GND 5 Channel 3 driving 6 Channel 4 driving 7 Channel 5 driving 8 GND 9 Channel 6 driving 10 Channel 7 driving 11 GND 12 Channel 8 driving Pin dimension is 0.64 x 0.64mm and pin pitch is 2.54mm. This product information is subject to change without notice. www.lightwaves2020.com 19 Ultra-Compact Low Cost Booster EDFA (Gain Block) Optical Specifications Parameters Operating Wavelength Range Features/Benefits - Low cost - Low power consumption - Wide operating temperature range - Smallest footprint - Output power monitor Unit Min. Typ. Max. nm 1528 - 1562 Input Optical Power (pin) dBm - 10 - 0 Total Output Power @ Pin= -6 ~ 0dBm dBm 8 - - 10 - - - 6 7 Noise Figure dB Polarization Dependent Gain dB - - 0.5 Polarization Mode Dispersion ps - - 0.5 Applications Return Loss (pump LD off) dB 35 - - - Metropolitan and access networks - Digital CATV - Amplet for long-haul network - Single-channel or DWDM sub-systems - Optical cross-connects - Optical add/drop modules - Amplifier for transmitter line card - Power equalization and flexible pre-emphasis Operating Temperature Range °C -5 - 70 Gain Block Pin Assignment Pin Description Fiber Type - SMF-28, 250µm or 900µm Dimensions mm 30 x 50 x 8 Electrical Specifications Parameters Unit Min. Typ. Max. Pump Laser Threshold Current mA - - 150 Pump Laser Forward Current (BOL) mA - 210 300 Pump Laser Forward Voltage V - 1.66 1.95 Pump Laser Reverse Voltage V - - 2.0 Output Monitor PD Responsivity µΑ / mW 20 - - V - 5 20 1 Pump laser diode anode (+) Output Monitor PD Reverse Voltage 2 Pump laser diode cathode (-) Output Monitor PD Forward Current mA - - 10 3 Pump laser PD anode (+) Dark Current (- 5V, 25°C) nA - - 1 4 GND 5 Output monitor PD anode(+) 6 Output monitor PD cathode (-) Dimensions Pump laser diode anode shares the same pin with pump laser PD cathode Safety Information ESD Protection The laser diodes and photodiodes in the module can be easily destroyed by electrostatic discharge. Use wrist straps, grounded work surfaces, and anti-static techniques when operating this module. When not in use, the module shall be kept in a static-free environment. Unit: mm (inch) Ordering Information T O A B G 0 0 0 0 1 Connector Output Power @ Pin= -6dBm 08= 8dBm 10= 10dBm This product information is subject to change without notice. 20 0 Fiber Length 1= 1.0 ± 0.1m Pigtail Type 1= 900µm loose tube 0= 250µm bare fiber www.lightwaves2020.com 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC Compact Low Cost Booster EDFA (Gain Block) Optical Specifications Parameters Unit Min. Typ. Max. nm 1528 - 1562 Input Optical Power (Pin) dBm - 10 - 0 Total Output Power @ Pin=-6~0dBm dBm 8 - - Operating Wavelength Range 10 - - Noise Figure dB - 6 7 Polarization Dependent Gain dB - - 0.5 Polarization Mode Dispersion ps - - 0.5 Return Loss (Pump LD off) dB 35 - - Operating Temperature Range °C -5 - 70 Fiber Type - SMF-28, 900µm loose tube Dimensions mm 40 x 70 x 12 Electrical Specifications Parameters Unit Min. Typ. Max. Pump Laser Threshold Current mA - - 150 Pump Laser Forward Current (BOL) mA - 210 300 Pump Laser Forward Voltage V - 1.66 1.95 Pump Laser Reverse Voltage V - - 2.0 µΑ/mW 20 - - Output Monitor PD Reverse Voltage V - 5 20 Output Monitor PD Forward Current mA - - 10 Dark Current (- 5V, 25°C) nA - - 1 Output Monitor PD Responsivity Dimensions Features/Benefits - Low cost - Low power consumption - Wide operating temperature range - Small footfrint - Output power monitor Applications - Metropolitan and access networks - Digital CATV - Amplet for long-haul network - Single-channel or DWDM sub-systems - Optical cross-connects - Optical add/drop modules - Amplifier for transmitter line card - Power equalization and flexible pre-emphasis Gain Block Pin Assignment Pin Description 1 Pump laser diode anode (+) 2 Pump laser diode cathode (-) 3 Pump laser PD anode (+) 4 GND 5 Output monitor PD anode(+) 6 Output monitor PD cathode (-) Pump laser diode anode shares the same pin with pump laser PD cathode Safety Information ESD Protection Side view Bottom view Unit: mm (inch) Ordering Information N O A B G 0 0 0 0 0 1 1 Connector Output Power@Pin= -6dBm 08= 8dBm 10= 10dBm This product information is subject to change without notice. www.lightwaves2020.com Fiber Length 1=1.0±0.1m Pigtail Type 1= 900µm loose tube 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC The laser diodes and photodiodes in the module can be easily destroyed by electrostatic discharge. Use wrist straps, grounded work surfaces, and anti-static techniques when operating this module. When not in use, the module shall be kept in a static-free environment. 21 Compact Low Cost Booster EDFA (Full Function) Optical Specifications Features/Benefits Parameters - Low cost - APC, ACC mode - Low power consumption - Wide operating temperature range - Standard communication interface (RS232, I2C) Operating Wavelength Range Applications - Metropolitan and access networks - Digital CATV - Amplet for long-haul network - Single-channel or DWDM sub-systems - Optical cross-connects - Optical add/drop modules - Amplifier for transmitter line card - Power equalization and flexible pre-emphasis Full Function Pin Assignment Pin RS-232 I 2C 1 Serial input Serial bi-di data 2 GND GND 3 Serial output Serial clock 4 Alarm status Alarm status 5 GND GND 6 Power supply +3.3V Power supply +3.3V Unit Min. Typ. Max. nm 1528 - 1562 Input Optical Power (pin) dBm - 10 - 0 Total Output Power @ Pin= -6 ~ 0dBm dBm 8 - - 10 - - - 6 7 Noise Figure dB Polarization Dependent Gain dB - - 0.5 Polarization Mode Dispersion ps - - 0.5 Return Loss (pump LD off) dB 35 - - Operating Temperature Range °C -5 - 70 Fiber Type - SMF-28, 900µm loose tube Dimensions mm 40 x 70 x 12 Electrical Specifications Parameters Unit Min. Output Monitor Accuracy dB Power Supply Voltage V Power Consumption W The laser diodes and photodiodes in the module can be easily destroyed by electrostatic discharge. Use wrist straps, grounded work surfaces, and anti-static techniques when operating this module. When not in use, the module shall be kept in a static-free environment. - 0.5 - + 0.5 3.1 3.3 3.5 - - 1.0 Side view Bottom view Unit: mm (inch) Ordering Information N O A B F 0 Output Power @ Pin= - 6dBm 08= 8dBm 10= 10dBm 1= APC 2= ACC 0 0 1 1 Connector Default Mode This product information is subject to change without notice. 22 Max. Dimensions Safety Information ESD Protection Typ. 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC Pigtail Type 6= MU/UPC 1= 900µm loose tube Fiber Length 1= 1.0 ± 0.1m Electronic Interface R= RS-232 C= I2C www.lightwaves2020.com Compact Low Cost Pre-Amplifier EDFA (Gain Block) Optical Specifications Parameters Operating Wavelength Range Input Optical Power (Pin) Signal Gain @ Pin= -30dBm Unit Min. Typ. Max. nm 1528 - 1562 dBm - 30 - -10 dB 20 - - 25 - - - 5 6 Noise Figure @Pin= -30dBm dB Polarization Dependent Gain dB - - 0.5 Polarization Mode Dispersion ps - - 0.5 Return Loss (Pump LD off) dB 35 - - Operating Temperature Range °C -5 - 70 Fiber Type - SMF-28, 900µm loose tube Dimensions mm 40 x 70 x 12 Electrical and Mechanical Specifications Parameters Unit Min. Typ. Max. Features/Benefits - Low cost - Low power consumption - Wide operating temperature range - Small footprint - Output power monitor Applications - Metropolitan and access networks - Digital CATV - Amplet for long-haul network - Single-channel or DWDM sub-systems - Optical add/drop modules Pump Laser Threshold Current mA - - 150 Pump Laser Forward Current (BOL) mA - 210 300 Pump Laser Forward Voltage V - 1.66 1.95 Pump Laser Reverse Voltage V - - 2.0 Pin µΑ / mW 20 - - 1 Pump laser diode anode (+) Output Monitor PD Responsivity Gain Block Pin Assignment Description Output Monitor PD Reverse Voltage V - 5 20 2 Pump laser diode cathode (-) Output Monitor PD Forward Current mA - - 10 3 Pump laser PD anode (+) Dark Current (- 5V, 25°C) nA - - 1 4 GND 5 Output monitor PD anode (+) 6 Output monitor PD cathode (-) Dimensions Pump laser diode anode shares the same pin with pump laser PD cathode Safety Information ESD Protection Side view Bottom view Unit: mm (inch) Ordering Information N O A P G 0 0 0 0 0 1 1 Connector Signal Gain @Pin= -30dBm 20= 20dB 25= 25dB This product information is subject to change without notice. www.lightwaves2020.com Fiber Length 1=1.0±0.1m Pigtail Type 1= 900µm loose tube 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC The laser diodes and photodiodes in the module can be easily destroyed by electrostatic discharge. Use wrist straps, grounded work surfaces, and anti-static techniques when operating this module. When not in use, the module shall be kept in a static-free environment. 23 Compact Low Cost Pre-Amplifier EDFA (Full Function) Optical Specifications Features/Benefits - Low cost - APC, ACC mode - Low power consumption - Wide operating temperature range - Standard communication interface (RS232, I2C) Applications - Metropolitan and access networks - Digital CATV - Amplet for long-haul network - Single-channel or DWDM sub-systems - Optical cross-connects - Optical add/drop modules - Power equalization and flexible pre-emphasis Parameters Operating Wavelength Range Input Optical Power (Pin) Signal Gain @ Pin= -30dBm Unit Min. Typ. Max. nm 1528 - 1562 dBm - 30 - - 10 dB 20 - - 25 - - Noise Figure @Pin= -30dBm dB - 5 6 Polarization Dependent Gain dB - - 0.5 Polarization Mode Dispersion ps - - 0.5 Return Loss (Pump LD off) dB 35 - - Operating Temperature Range °C -5 - 70 Fiber Type - SMF-28, 900µm loose tube Dimensions mm 40 x 70 x 12 Electrical Specifications Full Function Pin Assignment Parameters Pin RS-232 I2C 1 Serial input Serial bi-di data 2 GND GND 3 Serial output Serial clock 4 Alarm status Alarm status 5 GND GND 6 Power supply Power supply +3.3V +3.3V Unit Min. Typ. Max. Output Monitor Accuracy dB -0.5 - + 0.5 Power Supply Voltage V 3.1 3.3 3.5 Power Consumption W - - 1.0 Dimensions Safety Information ESD Protection The laser diodes and photodiodes in the module can be easily destroyed by electrostatic discharge. Use wrist straps, grounded work surfaces, and anti-static techniques when operating this module. When not in use, the module shall be kept in a static-free environment. Side view Bottom view Ordering Information N O A P F 0 1= APC 2= ACC This product information is subject to change without notice. 0 0 1 1 Connector Default Mode Signal Gain @ Pin= -30dBm 20= 20dB 25= 25dB 24 Unit: mm (inch) 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC Pigtail Type 6= MU/UPC 1= 900µm loose tube Fiber Length 1= 1.0±0.1m Electronic Interface R= RS-232 C= I2C www.lightwaves2020.com MSA Compact Low Cost Booster EDFA (Gain Block) Optical Characteristics Parameter Operating Wavelength Range Input Optical Power (pin) Total Output Power Unit Condition nm dBm dBm Noise Figure dB Polarization Dependent Gain Polarization Mode Dispersion Return Loss Operating Temperature Fiber Type Dimensions dB ps dB °C mm Pin= -6dBm Pin= -6dBm, Pout= 13 ~ 17dBm Pin= +4dBm, Pout= 13dBm Pin= +4dBm, Pout= 15dBm Pin= +4dBm, Pout= 17dBm Pump LD off Specification Typ. 5.0 7.0 6.5 6.0 - Min. 1528 - 10 + 13 + 15 + 17 35 -5 Max. 1562 +4 6.0 8.0 7.5 7.0 0.5 0.5 70 SMF-28, 900µm loose tube 70 x 90 x 12 Specifications listed in this section are guaranteed under single channel operation over operating wavelength range and operating temperature range and without connectors. Input and Output Monitor PD Specifications Parameters Input Monitor PD Responsivity Output Monitor PD Responsivity Monitor PD Reverse Voltage Monitor PD Forward Current Dark Current (- 5V, 25°C) Unit µΑ / mW µΑ / mW V mA nA Min. 30 4 - Typ. 5 - Max. 75 25 20 10 1 Uncooled Pump Laser Specifications Parameters Pump Laser Threshold Current Pump Laser Forward Current (BOL) Pump Laser Forward Voltage Pump Laser Reverse Voltage Unit mA mA V V Output power of 13 to 15dBm Min. Typ. Max. 60 240 370 1.55 2.0 2.0 Output power of 16 to 17dBm Min. Typ. Max. 60 450 550 1.75 2.2 2.0 Output power of 13 to 15dBm Min. Typ. Max. 50 250 2.5 2.0 1.1 1.3 2.4 2.9 9.5 10 10.5 Output power of 16 to 17dBm Min. Typ. Max. 50 400 2.5 2.0 1.1 1.3 2.4 2.9 9.5 10 10.5 TEC Cooled Pump Laser Specifications Parameters Pump Laser Threshold Current Pump Laser Forward Current (BOL) Pump Laser Forward Voltage Pump Laser Reverse Voltage TEC Current (Max. ∆T= 50°C) TEC Voltage (Max. ∆T= 50°C) Thermistor Resistance (25°C) www.lightwaves2020.com Unit mA mA V V A V kΩ 25 Features/Benefits - Package size (70 x 90 x 12mm) - Input monitor/isolator - Output monitor/isolator - User-friendly 20-pin interface - 980 nm pump laser - Low power consumption - Low cost Applications - Single-channel or narrow-band amplification - Metropolitan and access networks - Amplet for long haul networks - Optical cross-connect - Switch matrix - Optical add/drop module - Amplifier for transmitter line card - Power equalization and pre-emphasis - Digital CATV Gain Block Pin Assignment Pin 1 3 5 7 9 11 13 15 17 19 Function Ground, optical power monitor PD Input monitor PD anode (+) Output monitor PD anode (+) Pump laser diode anode (+) Pump backfacet monitor PD cathode (-) TEC anode (+), (NC for uncooled) TEC anode (+), (NC for uncooled) TEC cathode (-), (NC for uncooled) Ground, pump laser diode Pump laser diode cathode (-) Function Input monitor PD cathode (-) Output monitor PD cathode (-) Thermistor Pump laser diode anode (+) Pump backfacet monitor PD anode (+) TEC anode (+),(NC for uncooled) TEC cathode (-), (NC for uncooled) TEC cathode (-), (NC for uncooled) Thermistor Pump laser diode cathode (-) Note1: Electrical connection is made via a male 20 PIN connector (2 rows of 10, pin pitch 2.0mm, 0.5x0.5mm), Samtec TMMH-110-01-G-DV-EC or equivalent. Note2: The gain block case is isolated with the pump laser diode case. Functional Diagram Input EDF Isolator Tap Input Monitor Safety Information Pin 2 4 6 8 10 12 14 16 18 20 Tap Isolator Output Output Monitor Pump LD Dimensions ESD Protection The laser diodes and photodiodes in the module can be easily destroyed by electrostatic discharge. Use wrist straps, grounded work surfaces, and anti-static techniques when operating this module. When not in use, the module shall be kept in a static-free environment. Unit: mm Ordering Information M O A B G Output Power @ Pin= -6dBm 13 = 13dBm 14 = 14dBm 15 = 15dBm 16 = 16dBm 17 = 17dBm N 5 1 0 1 Connector Pump U= uncooled C= cooled Output Tap Ratio 1= 1% Input Tap Ratio 5= 5% 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC Pigtail Type 5= LC/UPC 1= 900µm loose tube 6= MU/UPC Fiber Length 1= 1.0 ± 0.1m 5= 1.5 ± 0.1m This product information is subject to change without notice. 26 www.lightwaves2020.com MSA Compatible Full Function Booster EDFA Optical Characteristics Parameter Condition Operating Wavelength Range Input Optical Power (pin) Total Output Power nm dBm dBm Noise Figure dB Polarization Dependent Gain Polarization Mode Dispersion Return Loss Operating Temperature Fiber Type Dimensions dB ps dB °C mm Pin= -6dBm Pin= -6dBm, Pout= 13 ~ 17dBm Pin= +4dBm, Pout= 13dBm Pin= +4dBm, Pout= 15dBm Pin= +4dBm, Pout= 17dBm Pump LD off Specification Min. Typ. Max. 1528 1562 - 10 +4 + 13 + 15 + 17 5.0 6.0 7.0 8.0 6.5 7.5 6.0 7.0 0.5 0.5 35 -5 70 Features/Benefits - Firmware field upgradable - Multiple control modes ( AGC, APC and ACC) - Comprehensive reporting - Digital interface with RS-232 - Low Noise Figure (NF) - Optimized as a booster SMF-28, 900µm loose tube 70 x 90 x 15 Unless otherwise noted, specifications listed in this section are guaranteed under single channel operation over operating wavelength range and operating temperature range and without connectors. Electrical Characteristics Parameter Input Monitor Accuracy Output Monitor Accuracy for APC and ACC Output Monitor Accuracy for AGC Power Supply Voltage Power Consumption (uncooled) Power Consumption (cooled) Cold Start Settle Time Warm Start Settle Time Transient Settle Time * AGC Excursion * Transient Gain Steady State Error * Unit dB dB dB V W W s s µs dB dB Min. - 0.5 - 0.5 - 0.65 3.1 - Typ. 3.3 1 3 150 0.5 0.5 Max. + 0.5 + 0.5 + 0.65 3.5 2 6 10 0.1 250 0.8 0.8 Applications - Single-channel or narrow-band amplification - Metropolitan and access networks - Amplet for long haul networks - Optical cross-connect - Switch matrix - Optical add/drop module - Amplifier for transmitter modules - Power equalization and pre-emphasis - Digital CATV Note * for AGC mode only and in the condition of 6dB Add/Drop. Fireware Function, Monitors and Alarms Parameter Firmware Functions Monitors Alarms Specification • Field upgradable • Automatic Gain Control (AGC) mode • Automatic Output Power Control (APC) mode • Automatic Pump Current Control (ACC) mode • Reset • Disable • Mute • Total input optical power • Total output optical power • Pump status • Module temperature • Loss of signal alarm • Loss of output power alarm • Module temperature alarm • Pump temperature alarm • Pump bias current alarm www.lightwaves2020.com 27 Full Function Pin Assignment Pin 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 Function + 3.3V NC GND RS-232 Rx GND NC Amplifier disable input, (active high) Case temperature alarm, (active high) Pump temperature alarm, (active high) Loss of input alarm, (active high) Input power monitor ground Input power monitor GND NC + 3.3V Pin 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 Function + 3.3V NC GND RS-232 Tx GND RESET input, (active low) Output power mute input,(active high) Common alarm, (active low) Pump bias alarm, (active high) Loss of output alarm, (active high) Output power monitor ground Output power monitor GND NC + 3.3V Electrical connection is made via a female 30 PIN connector (2 rows of 15, pin pitch 2.0mm, 0.5x0.5mm), Samtec SMM-115-01-S-D or equivalent. Safety Information Dimensions ESD Protection The laser diodes and photodiodes in the module can be easily destroyed by electrostatic discharge. Use wrist straps, grounded work surfaces, and anti-static techniques when operating this module. When not in use, the module shall be kept in a static-free environment. IN Unit: mm (inch) Ordering Information M O A B F 5 Output Power @ Pin=-6dBm 1 Connector Electronic Interface Default Mode R= RS-232 1= APC 2= ACC 3= AGC 13 = 13dBm 14 = 14dBm 15 = 15dBm 16 = 16dBm 17 = 17dBm This product information is subject to change without notice. 28 1 Pump U= uncooled C= cooled Output Tap Ratio Fiber Length 1= 1.0 ± 0.1m 5= 1.5 ± 0.1m 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC 1= 1% Input Tap Ratio 5= 5% Pigtail Type 1= 900µm loose tube www.lightwaves2020.com MSA Compact Low Cost Pre-Amplifier EDFA (Gain Block) Optical Characteristics Parameter Operating Wavelength Range Input Optical Power (pin) Signal Gain Unit nm dBm dB Noise Figure dB Polarization Dependent Gain Polarization Mode Dispersion Return Loss Operating Temperature Fiber Type Dimensions dB ps dB °C mm Condition Pin= -30dBm, λ= 1562nm Pin= -30dBm, Pout= -5dBm Pin= -20dBm, Pout= -5dBm Pin= -10dBm, Pout= -5dBm Pump LD off Min. 1528 - 30 20 25 35 -5 Specification Typ. Max. 1562 - 10 5.5 6.0 7.5 0.5 0.5 70 SMF-28, 900µm loose tube 70 x 90 x 12 Unless otherwise noted, specifications listed in this section are guaranteed under single channel operation over operating wavelength range and operating case temperature range and without connectors. Input and Output Monitor PD Specifications Parameters Input Monitor PD Responsivity Output Monitor PD Responsivity Monitor PD Reverse Voltage Monitor PD Forward Current Dark Current (5V, 25°C) Unit µΑ / mW µΑ / mW V mA nA Min. 30 4 - Typ. 5 - Max. 75 25 20 10 1 Min. - Typ. 240 1.55 - Max. 60 370 2.0 2.0 Min. 9.5 Typ. 1.1 2.4 10 Max. 50 250 2.5 2.0 1.3 2.9 10.5 Features/Benefits - Package size (70 x 90 x 12mm) - Input monitor/isolator - Output monitor/isolator - User-friendly 20-pin interface - 980 nm pump laser - Low power consumption - Low cost Applications - Single-channel or narrow-band amplification - Metropolitan and access networks - Amplet for long haul networks - Optical cross-connect - Switch matrix - Optical add/drop module - Signal loss compensation in optical modules - Digital CATV Uncooled Pump Laser Specifications Parameters Pump Laser Threshold Current Pump Laser Forward Current (BOL) Pump Laser Forward Voltage Pump Laser Reverse Voltage Unit mA mA V V TEC Cooled Pump Laser Specifications Parameters Pump Laser Threshold Current Pump Laser Forward Current (BOL) Pump Laser Forward Voltage Pump Laser Reverse Voltage TEC Current (max. ∆T= 50°C) TEC Voltage (max. ∆T= 50°C) Thermistor Resistance (25°C) www.lightwaves2020.com Unit mA mA V V A V kΩ 29 Gain Block Pin Assignment Pin 1 3 5 7 9 11 13 15 17 19 Function Ground, optical power monitor PD Input monitor PD anode (+) Output monitor PD anode (+) Pump laser diode anode (+) Pump backfacet monitor PD cathode(-) TEC anode(+), (NC for uncooled) TEC anode(+), (NC for uncooled) TEC cathode(-), (NC for uncooled) Ground, pump laser diode Pump laser diode cathode(-) Pin 2 4 6 8 10 12 14 16 18 20 Function Input monitor PD cathode (-) Output monitor PD cathode (-) Thermistor Pump laser diode anode (+) Pump backfacet monitor PD anode (+) TEC anode(+),(NC for uncooled) TEC cathode(-), (NC for uncooled) TEC cathode(-), (NC for uncooled) Thermistor Pump laser diode cathode (-) Note1: Electrical connection is made via a male 20 PIN connector (2 rows of 10, pin pitch 2.0mm, 0.5x0.5mm), Samtec TMMH-110-01-G-DV-EC or equivalent. Note2: The gain block case is isolated with the pump laser diode case. Functional Diagram Input Isolator Tap Input Monitor Safety Information EDF Tap Isolator Output Output Monitor Pump LD Dimensions ESD Protection The laser diodes and photodiodes in the module can be easily destroyed by electrostatic discharge. Use wrist straps, grounded work surfaces, and anti-static techniques when operating this module. When not in use, the module shall be kept in a static-free environment. Unit: mm Ordering Information M O A P G N Signal Gain @ Pin= -30dBm 20 = 20dB 25 = 25dB 5 Pump U= uncooled C= cooled 1 Output Tap Ratio 1= 1% Input Tap Ratio 5= 5% This product information is subject to change without notice. 30 0 1 Connector 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC Pigtail Type 5= LC/UPC 1= 900µm loose tube 6= MU/UPC Fiber Length 1= 1.0 ± 0.1m 5= 1.5 ± 0.1m www.lightwaves2020.com MSA Compatible Full Function Pre-Amplifier EDFA Optical Characteristics Parameter Condition Operating Wavelength Range Input Optical Power (pin) Signal Gain nm dBm dB Noise Figure dB Polarization Dependent Gain Polarization Mode Dispersion Return Loss Operating Temperature Fiber Type Dimensions dB ps dB °C mm Pin= -30dBm, λ= 1562nm Pin= -30dBm, Pout= -5dBm Pin= -20dBm, Pout= -5dBm Pin= -10dBm, Pout= -5dBm Pump LD off Min. 1528 - 30 20 25 35 -5 Specification Typ. Max. 1562 - 10 5.5 6.0 7.5 0.5 0.5 70 SMF-28, 900µm loose tube 70 x 90 x 15 Unless otherwise noted, specifications listed in this section are guaranteed under single channel operation over operating wavelength range and operating case temperature range and without connectors. Electrical Characteristics Parameter Input Monitor Accuracy Output Monitor Accuracy Power Supply Voltage Power Consumption (uncooled) Power Consumption (cooled) Cold Start Settle Time Warm Start Settle Time Uni dB dB V W W s s Min. - 0.5 - 0.5 3.1 - Typ. 3.3 1 3 - Max. + 0.5 + 0.5 3.5 2 6 10 0.1 Features/Benefits - Firmware field upgradable - Multiple control modes (APC and ACC) - Comprehensive reporting - Digital interface with RS-232 - Low Noise Figure (NF) - Optimized as a pre-amp Applications - Single-channel or narrow-band amplification - Metropolitan and access networks - Amplet for long haul networks - Optical cross-connect - Switch matrix - Optical add/drop module - Signal loss compensation in optical modules - Digital CATV Fireware Function, Monitors and Alarms Parameter Firmware Functions Monitors Alarms Specification • Field upgradable • Automatic Output Power Control (APC) mode • Automatic Pump Current Control (ACC) mode • Reset • Disable • Mute • Total input optical power • Total output optical power • Pump status • Module temperature • Loss of signal alarm • Loss of output power alarm • Module temperature alarm • Pump temperature alarm • Pump bias current alarm www.lightwaves2020.com 31 Full Function Pin Assignment Pin 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 Function + 3.3V NC GND RS-232 Rx GND NC Amplifier disable input, (active high) Case temperature alarm, (active high) Pump temperature alarm, (active high) Loss of input alarm, (active high) Input power monitor ground Input power monitor GND NC + 3.3V Pin 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 Function + 3.3V NC GND RS-232 Tx GND RESET input, (active Low) Output power mute input,(active high) Common alarm, (active Low) Pump bias alarm, (active high) Loss of output alarm, (active high) Output power monitor ground Output power monitor GND NC + 3.3V Electrical connection is made via a female 30 PIN connector (2 rows of 15, pin pitch 2.0mm, 0.5x0.5mm), Samtec SMM-115-01-S-D or equivalent. Safety Information Dimensions ESD Protection The laser diodes and photodiodes in the module can be easily destroyed by electrostatic discharge. Use wrist straps, grounded work surfaces, and anti-static techniques when operating this module. When not in use, the module shall be kept in a static-free environment. IN Unit: mm (inch) Ordering Information M O A P F 5 1 1 Connector Default Mode Electronic Interface R= RS-232 Signal Gain @ Pin= -30dBm 20 = 20dB 25 = 25dB 1= APC 2= ACC Pump U= uncooled C= cooled Output Tap Ratio Fiber Length 1= 1.0 ± 0.1m 5= 1.5 ± 0.1m 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC 1= 1% This product information is subject to change without notice. 32 Input Tap Ratio 5= 5% Pigtail Type 1= 900µm loose tube www.lightwaves2020.com Compact ASE Source Optical Specifications Parameters Unit Operating Wavelength Range Min. Typ. Max. nm 1528 - 1562 dBm 13 / 15 /17 - - dB - - ± 0.05 Lasting Stability 2 dB - - ± 0.15 Spectrum Flatness dB - - 10 Optical Return Loss dB 40 - - Power Supply V 3.1 3.3 3.5 W - - 3 Total Output Power Output Stability 1 Power Consumption uncooled cooled 3 3 Features/Benefits - Compact size (70 x 90 x 15mm) - Low cost - Standard electronic interface - Option for flattened spectrum W - - 6 Opterating Temperature °C -5 - 70 Applications Storage Temperature °C - 40 - 85 - Fiber optic component testing - Fiber sensor systems - Fiber gyroscope Fiber Pigtail - SMF-28, 900µm buffered Dimensions mm 70 x 90 x 15 1 After 30 minute warm-up, within 15 minutes at content temperature. 2 After 30 minute warm-up, within 1 hour at content temperature. 3 High stability models are also available upon request. Electrical PIN Assignment Pin 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 Dimensions Function + 3.3V NC GND RS-232 Rx GND NC ASE disable input, (active high) Case temperature alarm, (active high) Pump temperature alarm, (active high) NC NC NC GND NC + 3.3V Pin 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 Function + 3.3V NC GND RS-232 Tx GND Reset input, (active low) Output power mute input, (active high) Common alarm, (active low) Pump bias alarm, (active high) Loss of output alarm, (active high) Output power monitor ground Output power monitor GND NC + 3.3V Electrical connection is made via a female 30 PIN connector (2 rows of 15, pin pitch 2.0mm, 0.5x0.5mm), Samtec SMM-115-01-S-D or equivalent. Ordering Information E A S E N M Output Power 13 = 13dBm 15 = 15dBm 17 = 17dBm Electronic Interface R= RS-232 This product information is subject to change without notice. www.lightwaves2020.com 0 Pump U= uncooled C= cooled 0 1 Connector Fiber Length 1= 1.0 ± 0.1m 5= 1.5 ± 0.1m 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC Unit: mm(inch) 33 High Band Isolation 1310 / 1550nm Wideband Wavelength Division Multiplexer / Demultiplexer Specifications Features/Benefits Parameters - Low thermal drift spectrum - Wide passband - High isolation at transmission and reflection - Low insertion loss - Epoxy-free optical path - Totally passive Unit Performance 1550 Band Wavelength Range nm 1464 ~ 1618 1310 Band Wavelength Range nm 1270 ~ 1350 Insertion Loss of Passband* dB ≤ 1.0 Insertion Loss of Reflection* dB ≤ 1.0 Trasmission Isolation** dB ≥ 45 Reflection Isolation∗∗∗ dB ≥ 45 Applications PDL (all ports) dB ≤ 0.1 - CWDM networks - Metro, access, enterprise and PON networks - CATV fiber optic system Directivity dB ≥ 55 Optical Return Loss (all ports) dB ≥ 45 Dimensions * w/o connector ** @ 1350nm *** @ 1464nm Absolute Maximum Rating Parameters Unit Specification Maximum Optical Power dBm 25 Operation Temperature °C -5 ~ +70 Storage Temperature °C -40 ~ +85 Tensile Load N 5 Unit: mm Ordering Information W B W D H 5 5 H H 0 0 Connector WDM Type H= 1310±40 / 1464-1618nm Transmission Transmission Reflection Band Isolation Isolation 55= 1550nm H= 45dB This product information is subject to change without notice. 34 H= 45dB Fiber Type 0= SMF-28 Fiber Length 0= None 1= FC/UPC 2= FC/APC Pigtail Type 0= 250µm (as figure) 3= SC/UPC 4= SC/APC 1= 900µm 5= LC/UPC 6= MU/UPC 10= 1.0m 15= 1.5m www.lightwaves2020.com Compact 4-Channel Coarse Wavelength Division Multiplexer / Demultiplexer Module Specifications Features/Benefits Parameters Unit Mux Demux Mux Demux - Ultra wide passband - Compact size - Extreme low insertion loss and link loss - Wide operating temperature range - Excellent thermal stability Channel Number - - 4 Center Wavelength* - nm 1471, 1491, 1511, 1531, 1551, 1571, 1591, 1611 Channel Passband - nm ± 6.5 ± 6.5 ± 7.5** ± 7.5** Insertion Loss Max. dB 0.8 0.8 1.0 1.0 Passband Flatness Max. dB 0.3 0.3 0.3 0.3 Channel Isolation (adjacent) Min. dB N/A 30 N/A 30 Applications Channel Isolation (non-adjacent) Min. dB N/A 45 N/A 45 PDL Max. dB 0.2 0.2 PMD Max. ps 0.1 0.1 Return Loss Min. dB 45 45 - Metro, access and enterprise networks - CATV - 3G wireless telephony - PON and FTTx networks Directivity Min. dB 50 50 Dimension - mm 50 x 32 x 8 * Express channel is available upon request ** This product is available upon request Note : insertion loss and return loss values are without connectors. Dimensions Absolute Maximum Rating Parameters Unit Specification Maximum Optical Power dBm 25 Operation Temperature °C -20 ~ +70 Storage Temperature °C -40 ~ +85 Tensile Load N 5 Ordering Information M C W D M 4 C 1 Connector Shortest Wavelength e.g. 1471nm Module Type D= Demux M= Mux Passband 0= ±6.5nm 1= ±7.5nm Pigtail Type 1= 900µm All 1 m in length 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC This product information is subject to change without notice. Unit: mm www.lightwaves2020.com 35 Compact 8-Channel Coarse Wavelength Division Multiplexer / Demultiplexer Module Features/Benefits - Ultra wide passband - Compact size - Extreme low insertion loss and link loss - Wide operating temperature range - Excellent thermal stability Parameters Unit Mux Demux Mux Demux Channel Number - - 8 Center Wavelength - nm 1471, 1491, 1511, 1531, 1551, 1571, 1591, 1611 Channel Passband - nm ± 6.5 ± 6.5 ± 7.5** ± 7.5** Insertion Loss Max. dB 1.2 1.2 1.4 1.4 Passband Flatness Max. dB 0.3 0.3 0.3 0.3 Channel Isolation (adjacent) Min. dB N/A 30 N/A 30 Applications Channel Isolation (non-adjacent) Min. dB N/A 45 N/A 45 - Metro, access and enterprise networks PDL Max. dB 0.2 0.2 PMD Max. ps 0.1 0.1 Return Loss Min. dB 45 45 Directivity Min. dB 50 50 Dimension - mm - CATV - 3G wireless telephony - PON and FTTx networks 50 x 32 x 8 ** This product is available upon request Note : insertion loss and return loss values are without connectors. Dimensions Absolute Maximum Rating Parameters Unit Specification Maximum Optical Power dBm 25 Operation Temperature °C -20 ~ +70 Storage Temperature °C -30 ~ +85 Tensile Load N 5 Ordering Information M C W D M 8 C Connector Shortest Wavelength e.g. 1471nm Module Type D= Demux M= Mux Passband 0= ± 6.5nm 1= ± 7.5nm Pigtail Type 1= 900 µm All 1 m in length Unit: mm 36 This product information is subject to change without notice. www.lightwaves2020.com 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC Miniature 1x2 Single-Mode Optomechanical Switch Optical Specifications Parameters Unit Specifications Wavelength Range nm 1260~1360 or 1510~1610 1260~1360 and 1510~1610 Insertion Loss dB <0.5 (P grade), <0.7 (A grade) <0.8 (P grade), <1.0 (A grade) WDL dB < 0.2 < 0.3 PDL dB < 0.05 Return Loss dB > 55 Cross Talk dB > 60 Repeatability dB < ±0.02 Optical Power Handling mW 500 Switching Time ms < 3.0 (1.0 typical) Durability Features/Benefits - Small size - Low insertion loss - Wide wavelength range - Latch or non-latching options Applications cycles > 10 million Switching Voltage V 4.5 ~ 5.0 Operating Temperature ºC -5 ~ 70 Storage Temperature ºC -40 ~ 85 Packaging Dimensions mm 22 (L) x 12 (W) x 10(H) - Network switching - Network protection and restoration - Testing instrumentation - Configurable optical add/drop Dimensions Note: preliminary specifications may change without notice. Insertion loss and return loss are specified without connectors Electrical Configuration Latching Type Optical Path Pin 1 V+ - P1 - P2 P1 - P3 Electric Control Pin 5 Pin 6 Pin 10 GND GND V+ Pin 2-3 open close Status Sensor Pin 3-4 Pin 7-8 close close open open Pin 8-9 open close Pin 2-3 open close Status Sensor Pin 3-4 Pin 7-8 close close open open Pin 8-9 open close 0 0 Non-Latching Type Optical Path Pin 1 V+ - P1 - P2 P1 - P3 Electric Control Pin 10 GND - Ordering Information O S 1 2 0 0 0 0 Connector Fiber Type 0= SMF-28 Wavelength 13 = 1260 to 1360nm 15 = 1510 to 1610nm 35 = 1260 to 1360nm & 1510 to 1610nm Actuation Type N= non-latching L= natching Fiber Length 1= 1.0m 5= 1.5m 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC Pigtail Type 5= LC/UPC 0= 250µm bare fiber 6= MU/UPC Unit: mm This product information is subject to change without notice. www.lightwaves2020.com 37 Tunable Optical Filter Specifications Features / Benefits Unit C-band L-band S-band Nominal Wavelength nm 1520 - 1565 1570 - 1610 1485 - 1520 - Low insertion loss Maximum Insertion Loss dB < 2.7 - Low PDL PDL* dB < 0.1 - Cost-effective Optical Return Loss dB > 50 - <1.2nm @ 3dB down, 10nm @ 20dB down - 40nm wavelength tuning range - Operating wavelength: C, L or S band - Tuning with micrometer or stepper motor Parameters Bandwidth* * Tuning Resolution - continuously tunable for manual type Applications - Tuning components for tunable laser and white light source - Optical testing - Sensor source - Channel selection in WDM network 0.01 nm for stepper motor Operating Temperature °C 0 to 70 Storage Temperature °C -40 to 85 Dimension mm 24 x 50 x 15 (manual type) 24 x 75 x 15.4 ( stepper motor) Note: All specification referenced without connectors * Measured at the specified wavelength Dimensions Stepper motor Manual type Units: mm (inch) Ordering Information T O T F 0 1 2 0 0 0 Connector Fiber Type Type M= manual S= stepper motor 0= SMF-28 Wavelength C = C-band L = L-band S = S-band Fiber Length 1= 1.0m 5= 1.5m Pigtail Type 0= 250µm bare fiber 1= 900µm loose tube This product information is subject to change without notice. 38 www.lightwaves2020.com 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC Polarimeter Parameters Unit Specifications Operating Wavelength Range nm 1520 to 1610 Tap Ratio % 1 3 5 100 Insertion Loss (through port) dB 0.4 0.5 0.6 NA Operating Optical Power Range dBm PD Responsivity*** A/W > 0.9 Wavelength Dependent Responsivity** % ±2 PD Linearity % ±5 PD Dark Current @ -5V & 25°C nA < 1.0 GHz > 0.6 Total Capacitance @ f= 1MHz pF <8 Optical Return Loss dB > 50 Maximum Optical Power Handling mW 30 Maximum PD Forward Current mA 10 Maximum PD Reverse Voltage V 20 Bandwidth @ RL= 50Ω -15 to +15 -35 to +5 Features / Benefits - Compact size - No moving parts - Fast response - Low excess loss - Easy mounting onto PCB board Applications - SOP and DOP measurement and monitoring - Polarization tracking and stabilization - Polarization division multiplexing - PMD compensation - Fiber sensing *: The specification is defined without electric circuit. **: With Lightwaves2020’s electric circuit and calibration by using Agilent 8509C Polarization analyzer, the accuracy of ±0.02 for SOP and ±2% for DOP can be achieved. ***: PD responsivity excludes losses from splitting optical elements. Dimensions Environmental & Physical Item Unit Range Operating Temperature °C 0 to 70 Storage Temperature °C -40 to 85 %RH 10 to 90 - SMF-28e, 250µm bare fiber Relative Humidity (non-condensing) Fiber Pigtail or 900µm loose tube Dimension (H x W x D) mm 19 x 22 x 6.5 (excluding the boot) Ordering Information P R I M E 0 0 0 A 0 0 0 Connector Wavelength Fiber Type E= 1520 to 1610nm 0= SMF-28e This product information is subject to change without notice. www.lightwaves2020.com Fiber Length 1= 1.0m 5= 1.5m Pigtail Type 0= 250µm bare fiber 1= 900µm loose tube 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC Unit= mm 39 Liquid Crystal Based Polarization Controller Specifications Parameters Unit 3-Cell Option 4-Cell Operating Wavelength Range nm Features/Benefits Insertion Loss (w/o connector) dB ≤ 1.2 ≤ 1.5 - No-moving parts - Wide operating wavelength range - High extinction ratio - Low insertion loss - Low PDL - Low PMD - Low power consumption Wavelength Dependent Loss dB ≤ 0.5 ≤ 0.5 - PMD compensators - Polarization generators - Polarization multiplexers - Polarization scramblers - Polarization instrumentation ≥ 30 ≥ 30 ms Typ. 100 Typ.100 Polarization Mode Dispersion ps ≤ 0.1 ≤ 0.1 Optical Return Loss (w/o connector) dB ≥ 50 ≥ 50 Activation Loss ** dB ≤ 0.1 ≤ 0.1 Driving Voltage (w/o driver) V Description Driving Voltage (w/ driver) V Operating Temperature °C 0 ~ 65 Storage Temperature °C -40 ~ 85 Operating Humidity %RH 0 ~ 95 Cell 1 0o 3&8 Cell 2 45o 4&7 Cell 3 0o 5&6 Cell 4 45o 0 ~ 5VDC ** Defined to be the maximum variation in insertion loss as the polarization controller is adjusted to cover all polarization states. Absolute Maximum Ratings Unit dBm mW Specification ≥ 23 1 per cell Dimensions RTD (optional) 2&9 0 ~ 20 Peak to Peak, 10 KHz Square Wave 13.8 (0.543) 8.0 (0.315) 1 & 10 dB Response Speed @ 23°C Parameters Optical Input Power Power Consumption Pin Layout Pin No# Extinction Ratio 65.4 (2.575) 5.08 (0.2) Applications 1525 ~ 1615 7.5 (0.295) 1.82 (0.072) 10.16 (0.4) Pin 1 Unit: mm [inch] Pin 10 Ordering Information P C 0 1 0 2 Platform Thermal Sensor Option Driver 3= 3-cell LC 4= 4-cell LC 0= w/o RTD 1= w RTD D= no driver 1= w /driver This product information is subject to change without notice. 0 0 0 Pigtail Type of Input 0= 250 µm 1= 900 µm All 1 m in length Fiber Type of Output 0= SMF-28 1= PM Pigtail Type of Output 0= 250 µm 1= 900 µm 2= 400 µm All 1 m in length 40 www.lightwaves2020.com Connector 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC I N L I N E M O N I TO R I N G • Inline Wavelength and Power Monitor ........... 42 • Inline Optical Power Monitor .......................... 43 • Inline Optical Power Monitor with Display ...... 44 • Optical Channel Monitor ................................ 45 www.lightwaves2020.com 41 Compact Inline Optical Wavelength and Power Monitor Specifications Features / Benefits - Real time wavelength and power monitoring - Precise wavelength measurement - Wide dynamic range - Inline and network ready - Remote data storage/reporting - 10/100 base Ethernet interface - Compact and rugged design - Integrated USB interface Optical Parameters Unit Specification Wavelength Range nm 1260 to 1610 Tap Ratio % 3 Insertion Loss dB < 0.4 Wavelength Accuracy nm +/- 0.1** Optical Power Range for Wavelength dBm -15 to +23 Power Range dBm -40 to +23 dB +/- 0.1** dBm 23 Optical Power Accuracy Applications - On-site services - Network system installation - Network segment monitoring - CATV - FTTx - Manufacturing - Maintenance Maximum Input Optical Power **: The accuracy is at 1310nm and 1550nm, at 23°C. Environmental & Physical Item Unit Specification Operating Temperature °C 0 to 50 Storage Temperature °C -20 to 70 %RH 10 to 90 Relative Humidity (non-condensing) Fiber Pigtail - Power Supply (DC) V SMF-28e, 250µm bare fiber or 900µm loose tube +5 * Example: Optical network line tracking and troubleshooting Network engineer can connect the CIOM to a network line to keep track on the changes in optical wavelength and power. The CIOM can be configured to report alarms to a remote management station, through 802.3 Ethernet or GSM / GPRS wireless interface (optional), when a user-predefined alarm threshold is exceeded. Ordering Information L W P M A 5 0 0 3 0 1 0 Connector Fiber Type Tap Ratio 3= 3% This product information is subject to change without notice. 42 0= SMF-28e Fiber Length 1= 1.0m 5= 1.5m Pigtail Type 0= 250µm bare fiber 1= 900µm loose tube 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC www.lightwaves2020.com Miniature Inline Optical Power Monitor Specifications Parameter Unit Min. Typ. Max. Operating Wavelength Range nm 1525 - 1615 Tap Ratio % 1 3 5 Insertion Loss dB Features / Benefits 0.4 1% tap ratio 0.5 3% tap ratio 0.6 5% tap ratio Polarization Dependent Loss dB 0.05 0.1 Wavelength Dependent Loss dB 0.05 0.15 Polarization Mode Dispersion ps Return Loss dB 45 - dBm - 45 23 Optical Input Power Range Notes - Real time power monitoring - Low insertion loss - Wide dynamic range - Compact design - SMBus digital interface - Analog monitoring voltage output - 8-pin DIP electrical connector - +5V supply 0.1 Optical Power Accuracy dB Optical Responsivity Flatness dB ± 0.3 Optical Polarization Dependent dB 0.1 Applications +/- 0.1 * with respect to band center - Network monitoring - Optical module - FTTx testing - Manufacturing - Optical power measurement Responsivity Frequency Response Bandwidth MHz Electrical Interface 10 *: The accuracy is defined at 1550nm with input power > -30dBm, and at 23°C. 1. Vcc (+ 5V ) 2. SCL ( SMBus clock signal) 3. SDO ( SMBus data Signal) 4. Ground 5. Ground 6. Reset 7. Analog ground 8.Analog monitoring output ( 0 - 2V) Physical & Environmental Item Unit Range Operating Temperature °C 0 to 70 Storage Temperature °C -40 to 85 Relative Humidity (non-condensing) %RH Fiber Pigtail Dimension (H x W x D) Power Supply 10 to 90 - SMF-28e, 250µm bare fiber or 900µm loose tube mm 32.2 x 12.6 x 12 V +5 Ordering Information L O P M E 5 0 0 0 0 0 Connector Fiber Type Wavelength E = 1525 to1615nm This product information is subject to change without notice. www.lightwaves2020.com Tap Ratio 1= 1% 3= 3% 5= 5% 0= SMF-28e Fiber Length 1= 1.0m 5= 1.5m Pigtail Type 0= 250µm bare fiber 1= 900µm loose tube 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC 43 Miniature Inline Optical Power Monitor with LCD Display Specifications Parameter Features / Benefits - Real time power monitoring - Low insertion loss - Wide dynamic range - Compact design - RS232 interface - Digital LCD display - Analog monitoring voltage output - Battery / +5V DC power supply Applications - Network monitoring - Optical module - FTTx testing - Manufacturing - Optical power measurement Unit Min. Typ. Max. Operating Wavelength Range nm 1525 - 1615 Tap Ratio % 1 3 5 Insertion Loss dB 0.4 1% tap ratio 0.5 3% tap ratio 0.6 5% tap ratio Polarization Dependent Loss dB 0.05 0.1 Wavelength Dependent Loss dB 0.05 0.15 Polarization Mode Dispersion ps Return Loss dB 45 - dBm - 45 23 Optical Input Power Range Optical Power Accuracy Notes 0.1 dB +/- 0.1 * Optical Responsivity Flatness dB ± 0.3 Optical Polarization Dependent dB 0.1 with respect to band center Responsivity Frequency Response Bandwidth MHz 10 *: The accuracy is defined at 1550nm with input power > -30dBm, and at 23°C. Electrical Interface 1. Vcc (+5V) 2. TX 3. RX 4. Ground 5. Ground 6. Reset 7. Analog ground 8. Analog monitoring output ( 0-2V) Physical & Environmental Item Unit Range Operating Temperature °C 0 to 50 Storage Temperature °C -40 to 85 Relative Humidity (non-condensing) %RH Fiber Pigtail Dimension (H x W x D) Power Supply 10 to 90 - SMF-28e, 250µm bare fiber or 900µm loose tube mm 80 x 50 x 20 - Battery and +5V DC external Ordering Information L O P M E 5 0 0 0 1 0 Connector Wavelength E = 1525 to 1615nm Fiber Type 0= SMF-28e Tap Ratio 1= 1% 3= 3% 5= 5% This product information is subject to change without notice. 44 Fiber Length 1= 1.0m 5= 1.5m Pigtail Type 0= 250µm bare fiber 1= 900µm loose tube 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC www.lightwaves2020.com Optical Channel Monitor Specifications Parameters Unit Specification Absolute Power Accuracy dB +/- 0.75 Relative Power Accuracy dB +/- 0.5 Absolute Wavelength Accuracy pm +/- 75 Power Repeatability dB +/- 0.1 Polarization Dependent Loss dB 0.3 Optical Return Loss dB 45 Response Time (per channel) ms 100 (without OSNR), 500 (OSNR) - RS232 Interface Features / Benefits Power Consumption W <5 OSNR dB 20 OSNR Accuracy dB +/- 1.5 Input Wavelength Tolerance nm ITU +/- 0.1 dBm -40 to -10 Max. Adjacent Channel Power Imbalance dB 15 Max. Non-Adjacent Channel Power Imbalance dB 20 Mechanical Dimension mm 125 x 70 x 16 Input Power Range - 50GHz or 100GHz ITU grids, C-band, L-band or C+L bands - High adjacent channel isolation - Excellent temperature stability - Single port or multiple (2 to 4) port monitoring - High accuracy in power and wavelength measurements - Large dynamic range in power monitoring Applications - Real-time optical performance or channel monitoring of DWDM networks - Optical add/drop monitoring and diagnostics - Optical power or OSNR monitoring for gain equalization in DWDM networks - Real-time system error warning and alarming - EDFA gain balancing Dimensions Units: mm Ordering Information L O C M 5 0 0 0 0 Connector Fiber Type Wavelength C = C-band L = L-band 0= SMF-28e Port Number 1 = one port 2 = two port OSNR R = with OSNR N = w/o OSNR This product information is subject to change without notice. www.lightwaves2020.com Fiber Length 1= 1.0m 5= 1.5m Pigtail Type 0= 250µm bare fiber 1= 900µm loose tube 0= None 1= FC/UPC 2= FC/APC 3= SC/UPC 4= SC/APC 5= LC/UPC 6= MU/UPC 45 Liquid Crystal – a novel approach to control light-waves Lightwaves2020’s liquid crystal based Variable Optical Attenuator (LC-VOA) is based on our proprietary liquid crystal (LC) technology and Laser welding package technology, which features AC voltage controlled, no-moving parts and low power consumption. With laser welding process, the LC cell and optics are sealed in a compact coaxial package of φ7.2mm in diameter, which makes this small footprint ideal for integration onto circuit board. The LC cell, acting as a variable phase retarder, changes the phase of incoming optical wave while AC voltage is applied on the cell. This phase shift results in variation of optical coupling efficiency, which eventually causes optical attenuation. By the principle, the attenuation is just the result of optical phase shift other than movement of any mechanical parts. The LC-VOA can sustain office vibration and mechanical shock. The LC-VOA is driven by either a 0 ~ 30V peak to peak 10 KHz square wave or a 0 ~ 5V DC signal when using a Lightwaves2020’s driver. In addition, it offers the benefits of continuous attenuation control without backlash, high attenuation of more than 30 dB, low driving voltage, excellent PDL, low insertion loss, precision attenuation control without backlash, wide operating wavelength range covering S-, C- or L- band. The LC-VOA can be used for pre-emphasis of signals of DWDM lasers in long haul systems, power equalization in optical add/drop modules and optical cross-connects, as well as gain-tilt adjustment in erbium-doped fiber amplifiers. The VOA is designed and built to meet Telcordia standard. 46 www.lightwaves2020.com O P T I C A L C O AT I N G • Telecom Filters.................................................... 48 • Raman Filters...................................................... 49 • Fluorescence Filters............................................. 51 • Laser Line Filters................................................ 52 • Custom Coating Services.................................... 53 www.lightwaves2020.com 47 Telecom Filters Product Family Filter Types DWDM • • • • • • 50 GHz DWDM 100 GHz DWDM Low CD 100 GHz DWDM 200 GHz DWDM 100 GHz 4 skip0 Other customized DWDM filters CWDM • • • • • • • Standard CWDM (AOI = 1.8 deg) CWDM with extended blocking (1250 – 1650nm) 13.5 deg AOI CWDM 13.5 deg AOI CWDM with extended blocking (1250 – 1650nm) CWDM 4 skip0 CWDM 8 skip0 Other customized CWDM filters GFF • Any customized gain flattening filters Edge Filters • • Long pass filters Short pass filters Grin Lens and Fiber Tip Coating • • Tap filters on grin lens Filters on fiber tip Features / Benefits - Low insertion loss - Small ripples - High transmission isolation - High reflection isolation - Low polarization dependent loss (PDL) - Low temperature dependent wavelength shift - Telcordia compliant - Dielectric hard coating and excellent environmental stability and reliability Sample Spectra 1) 100 GHz DWDM filters 0 0 Transmittance (dB) -5 -0.5 -10 -1 -15 -1.5 -20 -2 -25 -2.5 -30 -3 -35 -3.5 -40 1536.5 2) 13.5 degree AOI CWDM filters CWDM (13.5 AOI) 0 -5 -4 1537 1537.5 Measured at AOI = 0 deg 1538 -10 T Wavelength (nm) 3) GFFs T R -15 -20 0 -25 Target -1 Measured 1550 1555 1560 1565 WVL (nm) 1570 1575 1580 -2 T (dB) -30 1545 -3 -4 -5 -6 1525 1530 1535 1540 1545 1550 1555 1560 1565 WVL (nm) 48 www.lightwaves2020.com Raman Filters Laser Line WVL BPF (AOI = 0deg) Peak Transmittance PN (ø25mm) <7 > 80% RB01-325-25 <7 > 80% RB01-355-25 2.0 <7 > 80% RB01-363-25 405.4 2.5 < 7.5 > 90% RB01-405-25 425.4 2.5 < 7.5 > 90% RB01-425-25 441.6 2.5 < 7.5 > 90% RB01-441-25 457.9 2.5 < 7.5 > 90% RB01-457-25 473.0 2.5 < 7.5 > 90% RB01-473-25 488.0 2.5 < 7.5 > 90% RB01-488-25 491.0 2.5 < 7.5 > 90% RB01-491-25 514.5 2.5 < 8.0 > 90% RB01-514-25 532.0 3.0 < 8.0 > 90% RB01-532-25 568.2 3.0 < 8.0 > 90% RB01-568-25 632.8 3.0 < 8.5 > 90% RB01-632-25 647.1 3.0 < 8.5 > 90% RB01-647-25 658.0 3.0 < 8.5 > 90% RB01-658-25 664.0 3.0 < 8.5 > 90% RB01-664-25 780.0 3.5 < 9.0 > 90% RB01-780-25 785.0 3.5 < 9.0 > 90% RB01-785-25 808.0 3.5 < 10 > 90% RB01-808-25 830.0 3.5 < 10 > 90% RB01-830-25 980.0 4.0 < 12 > 90% RB01-980-25 Pass Band Range PN (ø25mm) FWHM Slope (50%T to 6 OD) (nm) nm nm 325.0 2.0 355.0 2.0 363.8 - Using high purity optical substrates with low Raman effect ( data available upon request ) - High OD laser-line blocking for maximum laser rejection ( > 6 OD ) - Steep slopes to enable measuring the small Raman shifts ( 5 OD slope: BPF: < 4nm; LPF < 10nm; 45 deg dichroic: < 10nm ) - High transmittance in the pass band ( > 90% ) - Typical 6 OD Blocking Range: 0.85λ0 ~ 1.15λ0 - High laser damage threshold ( > 20J/cm2 @ 532nm ) - Superior environmental reliability LPF (AOI = 0deg) Laser Line WVL Blocking @ Laser Line (nm) OD nm T% 325.0 >6 329.2 - 450 > 90% RL01-325-25 355.0 >6 359.6 - 850 > 90% RL01-355-25 363.8 >6 368.5 - 850 > 90% RL01-363-25 405.4 >6 410.5 - 850 > 90% RL01-405-25 425.4 >6 430.8 - 850 > 90% RL01-425-25 441.6 >6 447.3 - 1000 > 90% RL01-441-25 457.9 >6 463.9 - 1000 > 90% RL01-457-25 473.0 >6 479.1 - 1000 > 90% RL01-473-25 488.0 >6 494.3 - 1100 > 90% RL01-488-25 491.0 >6 497.5 - 1100 > 90% RL01-491-25 514.5 >6 521.2 - 1200 > 90% RL01-514-25 532.0 >6 538.9 - 1200 > 90% RL01-532-25 568.2 >6 575.6 - 1200 > 90% RL01-568-25 632.8 >6 641.0 - 1200 > 90% RL01-632-25 647.1 >6 655.5 - 1200 > 90% RL01-647-25 658.0 >6 666.5 - 1200 > 90% RL01-658-25 664.0 >6 672.6 - 1200 > 90% RL01-664-25 780.0 >6 790.1 - 1200 > 90% RL01-780-25 785.0 >6 795.2 - 1200 > 90% RL01-785-25 808.0 >6 818.5 - 1200 > 90% RL01-808-25 830.0 >6 840.8 - 1200 > 90% RL01-830-25 980.0 >6 992.7 - 1200 > 90% RL01-980-25 1064.0 >6 1077.8 - 1700 > 90% RL01-1064-25 www.lightwaves2020.com 49 Dichroic (AOI = 45deg) Reflection @Laser Line Pass Band PN (ø25mm) (nm) R% Range T% 325.0 > 95% 329.2 - 450 > 90% RD01-325-25 355.0 > 95% 359.6 - 850 > 90% RD01-355-25 363.8 > 95% 368.5 - 850 > 90% RD01-363-25 405.4 > 95% 410.5 - 850 > 90% RD01-405-25 425.4 > 95% 430.8 - 850 > 90% RD01-425-25 532nm Raman Filters 100 90 Transmission (%) Laser Line WVL 80 70 441.6 > 95% 447.3 - 1000 > 90% RD01-441-25 457.9 > 95% 463.9 - 1000 > 90% RD01-457-25 473.0 > 95% 479.1 -1000 > 90% RD01-473-25 488.0 > 95% 494.3 - 1100 > 90% RD01-488-25 491.0 > 95% 497.5 - 1100 > 90% RD01-491-25 514.5 > 95% 521.2 - 1200 > 90% RD01-514-25 532.0 > 95% 538.9 - 1200 > 90% RD01-532-25 568.2 > 95% 575.6 - 1200 > 90% RD01-568-25 632.8 > 95% 641.0 - 1200 > 90% RD01-632-25 647.1 > 95% 655.5 - 1200 > 90% RD01-647-25 658.0 > 95% 666.5 - 1200 > 90% RD01-658-25 664.0 > 95% 672.6 - 1200 > 90% RD01-664-25 100 780.0 > 95% 790.1 - 1200 > 90% RD01-780-25 90 80 785.0 > 95% 795.2 - 1200 > 90% RD01-785-25 808.0 > 95% 818.5 - 1200 > 90% RD01-808-25 830.0 > 95% 840.8 - 1200 > 90% RD01-830-25 980.0 > 95% 992.7 - 1200 > 90% RD01-980-25 1064.0 > 95% 1077.8 - 1700 > 90% LPF BPF 60 50 40 Dichroic 30 20 10 0 500 550 600 650 700 750 800 Wavelength (nm) Transmission (%) 633nm Raman Filters RD01-1064-25 70 60 LPF 50 40 BPF Dichroic 30 20 10 0 600 650 700 750 800 850 900 Wavelength (nm) 808nm Raman Filters 100 90 80 70 60 50 40 30 20 10 0 LPF BPF Dichroic 750 800 850 900 950 1000 1050 Transmission (%) Transmission (%) 785nm Raman Filters 100 90 80 70 60 50 40 30 20 10 0 LPF BPF Dichroic 800 850 900 950 1000 1050 1100 Wavelength (nm) Wavelength (nm) Transmission (%) 1064nm Raman Filters 100 90 80 70 60 50 40 30 20 10 0 1050 LPF BPF Dichroic 1100 1150 1200 1250 1300 1350 Wavelength (nm) 50 www.lightwaves2020.com Fluorescence Filters Typical Fluorescence Filter Sets Exciter Fluorophore Emitter Dichroic CWL (nm) BW (nm) Reflection CWL (nm) BW (nm) CFP 438 20 483 30 426 - 450 CY3 531 30 593 75 499 - 555 CY5 628 60 692 70 594 - 651 DAPI 377 50 447 50 344 - 404 FITC 482 30 536 40 446 - 500 GFP 472 40 520 50 442 - 488 Texas Red 562 40 624 60 530 - 585 TRITC 543 50 593 55 499 - 555 YFP 500 20 542 30 488 - 513 (nm) Features: - High transmission: > 90% - High reflection (dichroic beam splitter): > 98% - Steep slope - Hard dielectric coating with superior environmental reliability and durability Sample Spectrum Fluorescence Excitation Filter: BPF370 YFP Fluorenscence Filter 100 0 100 90 80 70 Exciter 10 15 20 4/10/06 25 60 Emitter 60 T (%) T (%) 5 80 Dichroic 40 30 35 50 40 45 40 50 30 55 20 60 20 0 450 65 70 10 75 500 550 600 650 0 340 WVL (nm) 350 360 370 380 390 400 WVL (nm) Excellent Uniformity High Transmission Our fluorescence filters have high transmission, with transmittance higher than 85 % in UV, and larger than 90 % in visible. (See spectra at the right, measured at wafer level before AR is applied on the back). www.lightwaves2020.com 90 R140 80 R135 70 R130 60 T (%) As shown at the right, we are able to make those fluorescence filters with very good uniformity. For instance, the center wavelength variation over a 3” x 3” wafer is less than 0.5 nm. This will result in much better image, especially in a system with large NA an large beam size. Fluorescence Emission Filter: BPF430 100 04/11/06 R125 50 R120 40 R115 30 R100 20 R95 10 0 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500 WVL (nm) 51 Laser Line Filters Wavelength Tpeak (%)* FWHM (nm) Features / Benefits 375 nm filter with 5 OD blocking from 200 - 1200nm 375nm Filter 60 50 > 80 2.0 355.0 > 80 2.0 375.0 > 85 2.0 387.0 > 90 2.0 473.0 > 90 2.5 488.0 > 90 2.5 491.0 > 90 2.5 532.0 > 90 3.0 561.0 > 90 3.0 632.8 > 90 3.0 647.1 > 90 3.0 670.0 > 90 3.0 40 T (%) - High transmission: > 90% - Steep slope (roll-off to 5 OD): < 1% of laser wavelength - Wide blocking range (customer application specific) - Negligible temperature dependence of laser wavelength - Hard dielectric coating with superior environmental reliability and durability (for telecom application, meeting Telecordia standards) 325.0 30 20 10 0 350 355 360 365 370 375 380 385 390 395 400 780.0 > 90 3.0 Sample Spectrum 785.0 > 90 3.0 355 nm filter with 5 OD blocking from 200 - 1200nm 808.0 > 90 3.0 830.0 > 90 3.0 976.0 > 90 3.5 980.0 > 90 3.5 1047.1 > 80 2.0 1064.0 > 90 4.0 WVL (nm) 785 nm Filter * Note: Typical values. For very wide range blocking, contact Lightwaves2020 for detailed specs. 52 www.lightwaves2020.com Custom Coating Service Lightwaves2020’s optical coating division develops optical thin film filters and related optical components for various high end applications, from medical imaging, spectroscopic instrumentation, raman lasers, high power lasers, optical sensing, aerospace, and military & defense as well as telecommunications. Equipped with state-of-the-art optical coating systems and its industry-leading and proprietary optical thin film technology, Lightwaves2020 manufactures and supplies cuttingedge optical thin film products for demanding applications in wavelength range from 200nm to 2500nm. Lightwaves2020 always works closely with its customers in the design-in for new product development. In conjunction with Lightwaves2020’s other technologies in liquid crystal, fiber optics, test and measurement, system integration, and automation, we are able to provide a complete and cost effective optical solution for various applications. Applications - Aerospace Biomedical optics Displays Fiber optics (telecommunications) High power lasers Military and defense Optical sensing Optical spectroscopic instrumentations Raman lasers Scientific instrumentations UV optics Products - Band Pass Filters - Beam Splitters - Biomedical Spectroscopy Imaging Filters - CWDM Filters - Dichroic Filters - DWDM Filters - Edge Filters - Fluorescence Filters - Gain Flattening Filters - Laser Line Filters - Near IR Spectroscopy Band Pass Filters - Other Telecom Filters - Raman Filters - UV Filters www.lightwaves2020.com 53 54 www.lightwaves2020.com I N S T R U M E N TAT I O N • Handheld Network Link Tester........................... 56 • Handheld Wavelength and Power Meter............. 57 • Handheld Polarization Synthesizer...................... 58 • Handheld Polarimeter.......................................... 59 • Tunable Laser Source.......................................... 60 www.lightwaves2020.com 55 Handheld Network Link Tester Specifications Parameters Variable Input Output Optical Attenuator Power Meter Power Controller 1520 to 1610nm 1520 to 1610nm 1520 to 1610nm 1550 nm 1550 nm 1550 nm Attenuation Range 3.0 to 60dB - - Features / Benefits Input Power Range - +23 to –50dBm - - Handheld, lightweight design - High power capability - Highly accurate, low wavelength sensitivity - Cost-effective, efficient, portable, and reliable - Built-in standard USB 2.0 interface - Sleek, stylish design via rugged, durable housing - Brilliant 3.5” color TFT display - BluetoothTM ready - One CF type II card expansion slot - One SD / MMC card expansion slot - Built-in data storage management - Touch screen and user friendly GUI Output Power Range 2 - - +20 to –50 dBm 2.5 dB typical 2.5 dB typical 2.5 dB typical 3.0 dB maximum 3.0 dB maximum 3.0 dB maximum ± 0.02dB typical ± 0.02dB typical ± 0.02 dB typical ± 0.05dB maximum ± 0.05dB maximum ± 0.05dB maximum ± 0.15dB ± 0.15dB ± 0.15dB Resolution 0.05dB 0.05dB 0.05dB Thermal Stability ± 0.5dB ± 0.5dB ± 0.5dB Measurement Accuracy 1 ± 0.5dB ± 0.3dB ± 0.3dB < 2s - < 2s Wavelength Range Calibration Wavelengths Insertion Loss 1 Repeatability Linearity Response Time General Performances Applications - Manufacturing - Maintenance - Administration (local or on-site) - R&D / laboratory - Quality assurance Operating Temperature 0 to 40°C Storage Temperature -20 to 60°C Relative Humidity (non-condensing) 10 to 90%RH Maximum Input Optical Power 23 dBm Size (H x W x D) 88 x 192 x 35 Weight ~ 1.5lb Optical Connector SC / UPC Electric Power Supply Batteries or AC Communication RS-232 Tone Detection Continuous, 270Hz, 1KHz, 2KHz NOTE: 1. At room temperature and without connector. 2. Input optical power must be 3dBm higher than required output optical power. Ordering Information L W 1 0 1 2 a This product information is subject to change without notice. 56 www.lightwaves2020.com Handheld Wavelength and Power Meter Specifications Optical Parameters Unit Specification Wavelength Range nm 1260 to 1620 Wavelength Accuracy nm +/- 0.1* Wavelength Display Resolution nm 0.01 Optical Power Range in Wavelength Measurement dBm -35 to +15 Power Range dBm -60 to +15 Optical Power Accuracy dB +/- 0.1* Optical Power Resolution dB 0.01 dBm 20 - SC / UPC Maximum Input Optical Power Optical Connector *: The accuracy is at 1310 nm and 1550 nm, at 23 °C. Environmental & Physical Item Unit Specification Operating Temperature °C 0 to 40 Storage Temperature °C - 20 to 70 %RH 10 to 90 mm 88 x 192 x 35 lb 1.2 VDC 9, batteries or adapter Relative Humidity (Non-Condensing) Size (H x W x D) Weight With Jacket Power Supply Features / Benefits - Handheld, lightweight design - Quickly and accurately measures wavelengths and power - Cost-effective, efficient, portable, and reliable - Easy and convenient for on-site applications - Built-in standard USB 2.0 interface - Sleek, stylish design via rugged, durable housing - Brilliant 3.5" color TFT display - BluetoothTM ready - One CF type II expansion slot - One SD / MMC expansion slot - Built-in data storage management - Touch screen and user-friendly GUI Applications - Manufacturing - Maintenance - Administration (local and on-site) - Network installation and monitoring - CATV - FTTx - R & D / laboratory Ordering Information L W 1 0 4 1 a This product information is subject to change without notice. www.lightwaves2020.com 57 Handheld Polarization Synthesizer Specifications Optical Parameters Unit Specification Features / Benefits Wavelength Range nm 1520 to 1610* - Handheld, lightweight design - Track and lock polarization (SOP) - Insensitive to small fluctuation of input SOP - Wide-range wavelength detection and measurement - Low insertion loss - Real-time display of Poincaré sphere - Cost-effective, efficient, portable, and reliable - Built-in standard USB 2.0 interface - Sleek, stylish design via rugged, durable housing - Brilliant 3.5" color TFT display - BluetoothTM ready - One CF type II expansion slot - One SD / MMC expansion slot - Built-in data storage management - Touch screen and user-friendly GUI Input Power Range dBm -20 to 10 Insertion Loss dB < 1.5 Return Loss dB > 50 PMD ps < 0.1 SOP Tracking Accuracy ° <2 SOP Resolution - ± 0.02 second < 3.0 Applications - Manufacturing - Maintenance - Administration - R& D / laboratory SOP Settling Time Optical Connector - SC / UPC * : Other ranges available Environmental & Physical Item Unit Specification Operating Temperature °C 0 to 40 Storage Temperature °C -20 to 70 %RH 10 to 90 mm 88 x 192 x 35 lb 1.2 VDC 9, batteries or adapter Relative Humidity (Non-Condensing) Size (H x W x D) Weight With Jacket Power Supply Ordering Information L W 1 0 3 2 a This product information is subject to change without notice. 58 www.lightwaves2020.com Handheld Polarimeter Specifications Optical Parameters Unit Specification Wavelength Range nm 1520 to 1610 Input Power Range dBm -35 to +5 SOP Accuracy degree < 2.0 DOP Accuracy degree < +/- 5.0%, (+/- 2.0% typical) dB > 50 - SC / UPC Return Loss Optical Connector Environmental & Physical Item Unit Specification Operating Temperature °C 0 to 40 Storage Temperature °C -20 to 70 %RH 10 to 90 mm 88 x 192 x 35 lb 1.2 VDC 9, batteries or adapter Relative Humidity (non-condensing) Size (H x W x D) Weight With Jacket Power Supply Ordering Information L W 1 0 2 2 Features / Benefits - Handheld, lightweight design - Large, dynamic range of measurement - No moving parts and unlimited data logging - Customized calibration options - Precise, real-time display of SOP and Poincare sphere - Cost-effective, efficient, portable, and reliable - Built-in standard USB 2.0 interface - Sleek, stylish design via rugged, durable housing - Brilliant 3.5” color TFT display - BluetoothTM ready - One CF type II expansion slot - One SD / MMC expansion slot - Built-in data storage management - Touch screen and user-friendly interface Applications - Manufacturing - Maintenance - Administration (local or on-site) - R&D / laboratory - Quality assurance a This product information is subject to change without notice. www.lightwaves2020.com 59 High Power Tunable Laser Source Features / Benefits - High output power - Ηigh side-mode suppression ratio - Narrow line width - High degree of polarization - Very stable and repeatable - Free of hop - Digital display - RS232 interface Specifications Parameters Unit Specifications nm 1525 - 1565 Nominal Output Power dBm 17 Output Power Stability dB/hr < 0.01 Degree of Polarization % 100 Side-Mode Suppression Ratio dB > 60 Applications Line Width nm < 0.05 - Optical components testing - In-site optical monitoring in thin film coating - Fiber sensing Wavelength Accuracy nm < 0.01 Tuning Resolution nm 0.01 Driving Voltage (AC) V 90 to 240 Driving Current A < 0.5 Operating Temperature °C -5 to 50 Storage Temperature °C -20 to 85 Relative Humidity %RH 5 to 90 Optical Connector - FC/APC mating sleeve mm 257 x 103 x 313 Operating Wavelength Range Dimensions Ordering Information L W 2 0 2 3 a This product information is subject to change without notice. 60 www.lightwaves2020.com www.lightwaves2020.com 61 P R O D U C T FA M I LY I N D E X Product page Optical Power Monitor Product page Optical Switch • Miniature Optical Power Monitor 12 • Unidirectional MOPM 13 • Multi-Channel MOPM Array 14 • WDM Power Monitor 16 Variable Optical Attenuator • Single Channel VOA 17 • 8-Channel VOA Array 19 EDFA • 1x2 Miniature Optomechanical Switch 37 Tunable Filter • Tunable OPtical Filter 38 Polarization Products • Polarimeter 39 • Polarization Controller 40 Inline Monitoring • Inline Wavelength and Power Monitor 42 • Ultra-Compact Booster Gain Block 20 • Inline Optical Power Monitor 43 • Compact Booster Gain Block 21 • Inline Optical Power Monitor With Display 44 • Compact Booster Full Function 22 • Optical Channel Monitor 45 • Compact Pre-Amplifier Gain Block 23 • Compact Pre-Amplifier Full Function 24 • Telecom Filters 48 • MSA Booster Gain Block 25 • Raman Filters 49 • MSA Booster Full Function 27 • Fluorescence Filters 51 • MSA Pre-Amplifier Gain Block 29 • Laser Line Filters 52 • MSA Pre-amplifier Full Function 31 • Custom Coating Services 53 ASE Source • ASE Source Optical Coating Instrumentation 33 Compact WDM • Handheld Network Link Tester 56 • Handheld Wavelength and Power Meter 57 • Ultra-High Isolation 1310 / 1550 WDM 34 • Handheld Polarization Synthesizer 58 • Compact 4-Channel MCWDM 35 • Handheld Polarimeter 59 • Compact 8-Channel MCWDM 36 • Tunable Laser Source 60 62 www.lightwaves2020.com NOTE www.lightwaves2020.com 63 NOTE 64 www.lightwaves2020.com