DATA SHEET 10 GBPS 850NM PIN + PREAMP LC ROSA PACKAGE SFP+ APPLICATIONS HFD6180-421 FEATURES: High gain, non-inverting Designed specifically for SFP+ applications High performance GaAs PIN photodiode with separate transimpedance amplifier Low electrical parasitic TO46 package The HFD6180-421 uses a high-performance GaAs PIN photo-detector packaged with a transimpedance amplifier designed to meet performance requirements for 10Gbps data communication over multi-mode optical fiber at 850nm. Applications include Ethernet, Fiber Channel and ATM protocols. The optical assembly is designed to interface either 50m or 62.5m multi-mode fiber. The HFD6180-421 is designed to be paired with Advanced Optical Components HFE6x9x VCSEL 10Gbps TOSA products (see data sheets for HFE6x9x products at www.finisar.com/aoc.php). Data rates up to 10.7Gbps Separate detector bias pin can be used for receive power monitoring Low power dissipation Can drive SERDES directly Flex circuit interface fits all 10GB MSAs RoHS compliant (EU Directive on Restrictions of Hazardous Substances, 2002/95/EC) LC ROSA Part Number Description HFD6180-421 SFP+ LC ROSA, with flex. Low gain, non-inverting. HFD6180-421 10GBPS SFP+ 850NM PIN+PREAMP ABSOLUTE MAXIMUM RATINGS NOTICE: Stresses greater than those listed under "Absolute Parameter Rating Storage temperature -40oC to +95oC Case operating temperature -20oto +95oC Lead solder temperature 260oC, 10 seconds NOTICE: The inherent design of this component causes it Power Supply Voltage -0.3V to 3.6V 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 PIN Voltage 10V Incident Optical Power 0 dBm average, +4 dBm peak ESD Exposure (Human Body Model) 500V 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. HFD6180-421 ELECTRICAL-OPTICAL CHARACTERISTICS Vcc =3.3V, AC coupled to 50 (100 differential), -20oC < TA <95oC unless otherwise specified Parameters Test Condition Data Rate Input Optical Wavelength Symbol Typ. DR 0oC to 70oC p Supply Voltage Supply Current Min. PR=0W Max. Units Notes 10.7 GBd 1 830 850 870 nm 2.97 3.3 3.63 V 35 50 mA 0.5 0.6 A/W 10 3.6 V 10 ICC PD Responsivity Resp 0.45 PD Bias Voltage VPD 3.0 Optical Return Loss ORL 12 60 125 200 mV 2,3 1000 2000 3000 V/W 2,3 7.5 9 12.3 GHz 3,4 90 KHz 2,3 50 60 Differential Output Voltage Swing PR OMA = -12dBm Vo (pk-pk) Differential Conversion Efficiency PR OMA = -12dBm T -3dB Optical/Electrical Bandwidth PR OMA = -12dBm BW Low Frequency -3dB Cutoff PR = -10dBm BWLF dB Output Impedance Zout Sensitivity, OMA S -13.5 -12 dBm 5,9 -11.5 -9 dBm 6 30 50 ps 3,7 50 ps Stressed Sensitivity Per IEEE802.3ae Sstressed Rise/Fall Time PR OMA =-12dBm, (20%-80%) TR/TF Group Delay Overload Power Power Supply Rejection Ratio GVD 40 -50 POVLD AVE 0 POVLD OMA 2 PR =0W (Dark), Freq = 1000MHz PSRR dBm 30 dB 2,8 HFD6180-421 10GBPS SFP+ 850NM PIN+PREAMP 0.3UI of jitter added. The measurement technique is defined in IEEE 802.3ae. NOTES 1. The data rate can be increased to 12.5Gbps, but the sensitivity will be decreased by approximately 3dB. 2. PR is the average optical power at the fiber face. 3. PR OMA is the peak to peak optical power at the fiber face (Optical Modulation Amplitude) where ER is the extinction ratio (linear) of the optical source. 4. Bandwidth and Low Frequency Cutoff are measured with a small signal sinusoidal light source with -10dBm average power 5. Sensitivity is measured with an optical source with an extinction ratio of 3dB. 6. Stressed receiver sensitivity is measured with 3.5dB vertical eye closure (intersymbol interference) and with PINOUT Number Function 1 VCC 2 CASE 3 OUTP 4 OUTN 5 CASE 6 VPD 7. Rise/Fall times are corrected for optical source Rise/Fall times. The corrected value is calculated as the square root of the difference of the squares of the measured differential detector output and the source. 8. Value shown is with external power supply filtering. 9. For best sensitivity, a limiting amplifier may be required for operation. 10. The PD voltage must be connected to a positive 3.3V power supply (nominal). HFD6180-421 INTERFACE CONFIGURATION Optional RSSI implementation is shown in blue Optional 100 differential termination for high impedance limiting amplifiers is shown in red. HFD6180-421 10GBPS SFP+ 850NM PIN+PREAMP MOUNTING DIMENSIONS - LC ROSA WITH FLEX dimensions in mm (block tolerance: dims <12 +/- .125, >12 +/- .25) (for reference only): All dimensions are in inches. HFD6180-421 10GBPS SFP+ 850NM PIN+PREAMP 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: 1-214-509-3709 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. 9/07 Rev. 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