DATA SHEET 10GBPS 850NM VCSEL LC TOSA PACKAGE SFP+ APPLICATIONS HFE6192-X61 FEATURES: HFE6192-261 normal polarity HFE6192-361 inverted polarity High performance VCSEL Low electrical parasitic TO package with flexible interface Data rates from DC to 12.5Gbps Differential, Cathode or Anode driven versions available The HFE6192-x61 uses a high-performance Vertical Cavity Surface Emitting Laser (VCSEL) designed to meet performance requirements for 10Gbps data communication over multimode optical fiber. Applications include Ethernet, Fibre Channel and ATM protocols. The optical assembly is designed to interface either 50m or 62.5m multimode fiber and ensure launch conditioning requirements compatibility with enhanced bandwidth fiber as specified by TIA 455-203. The HFE6192-x61 incorporates a power monitoring photodiode that can be used for temperature compensation, average power control, and for compliance with Class 1 eye safety limits. Complete isolation between the VCSEL, Monitor Photodiode and Case Mechanically compatible with all 10Gbps MSAs LC TOSA Part Number Description HFE6192-261 SFP+ 10Gb Differentially Driven, attenuated, LC TOSA, with 50 flex, normal pin polarity HFE6192-361 SFP+ 10Gb Differentially Driven, attenuated, LC TOSA, with 50 flex, inverted pin polarity HFE6192-X61 SFP+ 10GBPS 850NM VCSEL ABSOLUTE MAXIMUM RATINGS INVISIBLE LASER RADIATION DO NOT VIEW DIRECTLY WITH OPTICAL INSTRUMENTS 10mW at 820 - 860nm CLASS 1M LASER PRODUCT COMPLIES WITH IEC/EN 60825-1 Ed1.2:2001 COMPLIES WITH 21 CFR 1040.10 AND 1040-10.11 EXCEPT FOR DEVIATION PURSUANT TO LASER NOTICE NO.50 DATED 26 JULY 2001 Advanced Optical Components 600 Millennium Drive, Allen, TX 75013 LASER RADIATION AVOID EXPOSURE TO BEAM CLASS 1M LASER PRODUCT Parameter Rating Storage temperature -40oC to +85oC Case operating temperature 0 to +85oC Lead solder temperature 260oC, 10 seconds Reverse Power Supply Voltage 5V Peak continuous forward current 12mA ESD Exposure (Human Body Model) 150V NOTICE: Stresses greater than those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operations section for extended periods of time may affect reliability. NOTICE: The inherent design of this component causes it to be sensitive to electrostatic discharge (ESD). To prevent ESD-induced damage and/or degradation to equipment, take normal ESD precautions when handling this product HFE6192-X61 ELECTRICAL-OPTICAL CHARACTERISTICS TA = 25oC unless otherwise stated VCSEL Parameters Test Condition Symbol Min. Typ. 600 Fiber coupled optical power IF = 6.5mA peak 50/125m fiber POC 400 Coupling Efficiency IF = 6.5mA PO_PCT 70 ITH Threshold Current TA=0 to 70C ITH Slope Efficiency POC=0.6mW Slope Efficiency Temperature T =0 to 70C A Variation 0.05 /T 0.075 Peak Wavelength IF=6.5mA P P Temperature Variation TA=0 to 70C P/T RMS Spectral Bandwidth IF=6.5mA Laser Forward Voltage IF=6.5mA VF 1.6 1.8 Laser Reverse Voltage IR =10A VR 5 10 Rise/Fall Time Bias above threshold 20%-80% TR TF Relative Intensity Noise IF=6.5mA RIN12 Series Resistance IF=6.5mA R Series Resistance Temperature Variation IF=6.5mA Total Capacitance IF=6.5mA CT Encircled Flux Diameter IF(avg)=6.5mA EF Photodiode Parameters 840 Test Condition mA 2 0.2 mW/mA 3 %/C nm nm/C 0.4 nm 2.4 V V 40 40 ps 4 -130 dB/Hz 5 75 Ohms -0.2 %/C pF 6 7 Symbol POC=0.6mW, VR=3V Monitor Current Temperature Variation POC=0.6mW Tracking Ratio Variation (Open Bore) POB=-2.5dBm Dark Current POC=0mW, VR=3V IDARK PD Reverse Voltage POC=0mW, IR=10A BVRPD PD Capacitance VR=0V, Freq=1MHz VR=3V, Freq=1MHz CPD TA=0 to 70C 1 0.5 Monitor Current TA=0 to 70C mA 0.06 R/T 1 2 860 60 Notes W -0.4 41 Units % 1 Threshold Current Temperature Variation Max. IPD Min. Typ. Max. Units 50 150 300 A Ipd/IT TR 0.0 -0.5 30 %/C +0.5 dB 20 nA 115 75 40 Notes V 100 55 pF 8 HFE6192-X61 SFP+ 10GBPS 850NM VCSEL NOTES 1. PO_PCT is defined as the ratio of the coupled power into a 50/125 micron fiber to the total power output from the optical front end as measured on a large area detector. 2. Operation outside of the specified range may result in the threshold current exceeding the maximums defined in the electro-optical characteristics table. ITH is the maximum deviation from the 25C value. 3. Slope efficiency is defined as PO/IF at a total power output of 0.6mW. Slope efficiency is intentionally lowered to the value shown by attenuation. 4. Rise and fall times are sensitive to drive electronics. Rise and fall times are measured 20%-80% using a 1GHz square wave AC coupled to the VCSEL using a bias-T. The DC current is adjusted to achieve a minimum OMA of -4dBm. Corrections are made for finite detector bandwidth. 5. RIN12 is measured using the OMA technique with 12dB return. 6. Total capacitance is measured with the VCSEL forward biased using a Network analyzer at 1GHz. 7. Encircled flux is measured per TIA-455-203. 8. To prevent VCSEL damage, short the VCSEL anode and cathode during BVR testing of the photodiode. PINOUT Number HFE6192-261 HFE6192-361 1 PDK PDK 2 GND GND 3 LDA LDK 4 LDK LDA 5 GND GND 6 PDA PDA 6 1 HFE6192-X61 MOUNTING DIMENSIONS - LC TOSA WITH FLEX Dimensions in inches HFE6192-X61 TYPICAL PERFORMANCE CURVES RMS Spectral Width is defined and measured using TIA-455-127 25oC Threshold Current vs. Temperature: Threshold current varies parabolically with temperature; thus it can be nearly constant for a limited temperature range. 85oC HFE6192-X61 SFP+ 10GBPS 850NM VCSEL ADVANCED OPTICAL COMPONENTS AOC CAPABILITIES Finisar's ADVANCED OPTICAL COMPONENTS division was formed through strategic acquisition of key optical component suppliers. The company has led the industry in high volume Vertical Cavity Surface Emitting Laser (VCSEL) and associated detector technology since 1996. VCSELs have become the primary laser source for optical data communication, and are rapidly expanding into a wide variety of sensor applications. VCSELs' superior reliability, low drive current, high coupled power, narrow and circularly symmetric beam and versatile packaging options (including arrays) are enabling solutions not possible with other optical technologies. ADVANCED OPTICAL COMPONENTS is also a key supplier of Fabrey-Perot (FP) and Distributed Feedback (DFB) Lasers, and Optical Isolators (OI) for use in single mode fiber data and telecommunications networks ADVANCED OPTICAL COMPONENTS' advanced capabilities include: 1, 2, 4, 8, and 10Gbps serial VCSEL solutions 1, 2, 4, 8, and 10Gbps serial SW DETECTOR solutions VCSEL and detector arrays 1, 2, 4, 8, and 10Gbps FP and DFB solutions at 1310 and 1550nm 1, 2, 4, 8, and 10Gbps serial LW DETECTOR solutions Optical Isolators from 1260 to 1600nm range Laser packaging in TO46, TO56, and Optical subassemblies with SC, LC, and MU interfaces for communication networks VCSELs operating at 670nm, 780nm, 980nm, and 1310nm in development LOCATION Allen, TX - Business unit headquarters, VCSEL wafer growth, wafer fabrication and TO package assembly. Fremont, CA - Wafer growth and fabrication of 1310 to 1550nm FP and DFB lasers. Sensor packages include surface mount, various plastics, chip on board, chipscale packages, etc. Custom packaging options Shanghai, PRC - Optical passives assembly, including optical isolators and splitters. SALES AND SERVICE Finisar's ADVANCED OPTICAL COMPONENTS division serves its customers through a worldwide network of sales offices and distributors. For application assistance, current specifications, pricing or name of the nearest Authorized Distributor, contact a nearby sales office or call the number listed below. Phone:1-866-MY-VCSEL USA (toll free) 1-214-509-2700 USA (Direct dial) 44 (0) 174 336 5533 Europe 886-935-409898 China & Taiwan 81-90-4437-1130 Japan 82-11-220-6153 Asia Pacific & Korea Fax: 1-2140509-3709 USA Email: support@adopco.com WEB: www.finisar.com/aoc.php (c)2007 Finisar Corporation. All rights reserved. Finisar is a registered trademark of Finisar Corporation. Features and specifications are subject to change without notice. 8/07 Rev. C