Finisar FTLX8561E2 network transceiver module
Contents
1. Notes 1 Non condensing 2 HBM Exceeding any one of these values may permanently destroy the device Finisar Corporation October 2008 Rev B Page 4 FTLX8561E2 Product Specification October 2008 Finisar III Electrical Characteristics Recommended Operating Conditions Parameter p E Operating Case Temperature Case Temperature Transponder Total Power Consumption Supply Voltage 5 0 V Voes 475 50 525 V Ee e Jus 457 199 m amp ERuplyCumnti33V f ka 5 mA Supply Voltage APS Vecas 1152 12 1248 V Supply Current APS am so so ma D Measured at reference thermal location see Figure 2 See also Environmental Performance Electrical DC Characteristics Vccs 4 75 V to 5 25 V Vecs 3 14 V to 3 47 V Vcc dns 1 152 V to 1 248 V Tc 0 C to 70 C symbol mi Gp mec Ue 1 2 V CMOS 1 8 V CMOS Compatible I O DC Characteristics PRTAD LASI RESET TX ONOFF External Pull up Resistor for Open Drain Ryump 10 22 KQ Output High Voltage Va 1 J 1 V OuputLowVolage O Va 1 y Y OJ os V Jnput High Voltage BR os f is vV Input Low Voltage o Z o V 8H a i 139 H3 XAUI UO DC Characteristics TXLANE 0 3 RXLANE 0 3 Differential Input Amplitude pk pk Va xw 200 280 mV Differential Output Amplitude pk p2. Mounting Requirements The XENPAK rail system required to mount the XENPAK module is fully defined by the MSA Aqueous Wash Finisar XENPAK transponders are neither solderable nor aqueous washable and are not intended for these processes VI Regulatory Compliance Standard ESD EIA JESD22 A114 B Class la gt 500 V Electrostatic Discharge to the MIL STD 883D Electrical Pins HBM Method 3015 7 Immunity EN 61000 4 2 Discharges ranging from 2 kV to 25 kV to Against Electrostatic Discharge IEC 61000 4 2 the front end faceplate receptacle cause no ESD to the Module Receptacle damage to module under recommended conditions Immunity EN 61000 4 3 With a field strength of 10 V m noise Against Radio Frequency IEC 61000 4 3 frequency ranges from 10 MHz to 2 GHz No Electromagnetic Field effect on module performance between the specification limits Emission FCC 47 CFR Noise frequency range Electromagnetic Interference Part 15 Class B 30 MHz to 40 GHz EMI EN 55022 Class B Radiated emission does not exceed specified CISPR 22 limits when measured with module inside a shielding enclosure with a MSA conforming cutout Finisar Corporation October 2008 Rev B Page 8 FTLX8561E2 Product Specification October 2008 Finisar Eye Safety Finisar FTLX8561E2 transponders are Class 1 Laser Products They are certified per the following standards Feature Agency Standard Certificate Number FDA CDRH CDRH 21 C
3. dBm Signal Detect Hysteresis Pw 05 15 B Receiver Reflectance REFx 2 B Center Wavelength Range crx 840 860 m D Conforms to IEFE triple trade off between center wavelength RMS spectral width and minimum OMA Receiver sensitivity which is defined for an ideal input signal is informative only V General Specifications Optical Interface Standard Specifications Minimum Modal Bandwidth at Operating Range Standard Fiber Type 850 nm MHz km meters IEEE 62 5 um MMF 160 2 to 26 50 um MMF 50 um MMF 0 5 to 82 50 um MMF 2000 0 5 to 300 Notes 1 Operating range as defined by IEEE standards Longer reach possible depending upon link implementation Finisar Corporation October 2008 Rev B Page 7 FTLX8561E2 Product Specification October 2008 Finisar Environmental Performance Operating case temperature 0 C to 70 C Operating humidity 0 95 RH non condensing Fibers and Connectors The transponder has SC receptacles for both Tx and Rx The transponder is designed for multimode SC cables 0 polished endface PC 70 pin Connector The module interface connector is a 70 pin printed circuit board edge connection with a 0 5 mm pitch The appropriate mating connector for the customer PCB is a 70 pin SMT dual row right angled edge connector 0 5 mm pitch Tyco Electronics part number 1367337 1 Molex part number 74441 0003 or equivalent Rail and Mechanical
4. FR 1040 and Laser Notice 50 9210176 77 Safety Laser Eye TUV EN 60825 1 1994 A11 1996 A2 2001 R 72052602 safety IEC 60825 1 1993 A1 1997 A2 2001 IEC 60825 2 2000 Edition 2 Safety Electrical UL CSA CLASS 3862 07 1439230 Safety CLASS 3862 87 Copies of the referenced certificates are available at Finisar Corporation upon request VII DOM Parameters ee Gp me ee HEN Ee C 0 0 95 Transmit Power Monitor Accuracy 3 43 dB 2 3 D 0 to 70 C case temperature 0 to 12 5 mA 3 8 2 dBm to 40 5 dBm VIII Mechanical Specifications Parameter Symbol Values min typ max Module Retention Force latch strength Frer 200 N Module Insertion Force O m 40 J N Module Extraction Force with kick out Fxrx 16 N Module Extraction Force without kick out Fexr sd 25 PT N Pull Sleeve front face color 1s beige Finisar Corporation October 2008 Rev B Page 9 FTLX8561E2 Product Specification October 2008 Finisar Package Outline 4 97 INSTALLED wer SCREWLENGTH k I FS c Figure 2 XENPAK Mechanical Dimensions IX References The following references are provided for informational purposes only The parameters and operational behavior outlined in this specification describe the complete functionality of the 10G Transponder Contact Finisar for any items concerning the operati
5. Finisar Product Specification RoHS 6 Compliant 10Gb s 850nm Multimode XENPAK Transponder FTLX8561E2 PRODUCT FEATURES Hot pluggable XENPAK form factor Total power consumption 2 2 W maximum RoHS 6 compliant lead free Temperature range 0 C to 70 C Transmission distance of 300m Uncooled 850nm VCSEL laser SC connector multimode fiber Full duplex transmission mode Digital Optics Monitoring DOM Power supply 5 0 V 3 3 V Adaptable Power Supply APS 1 2 V XAUI electrical interface 4x 3 125 Gb s Ethernet Management and control via MDIO 2 APPLICATIONS wire bus 10GBASE SR 10G Ethernet 70 pin connector Separated signal chassis ground PRODUCT SELECTION FILXS 561E2 Finisar Corporation October 2008 Rev B Page FTLX8561E2 Product Specification October 2008 Finisar I Pin Descriptions Signal Name Management and Monitoring Ports external 10 22 kQ pull up to the APS on host CMOS CMOS CMOS CMOS CMOS CMOS LASI Open Drain Link Alarm Status Interrupt Output Open Drain Compatible Output with 10 20 kQ pull up on host Logic high Normal Operation Logic low Status Flag Triggered RESET Open Drain I 10 Reset Input Open Drain Compatible Input with 22 KQ pull up to APS internal to transponder Logic high Normal Operation Logic low RESET Vendor Specific 11 15 16 24 Vendor Specific Pins Leave unconnected when not used TX ON OFF Open Drain I 12 TX ON OFF Inp
6. PS SET 25 Feedback input from APS Connected to GND through a 1180 resistor inside the transponder 3 3 V 3 3 V DC 5 6 30 31 DC Power Input 3 3 V DC Nominal Reserved 26 Reserved for APD Reserved B Reserved U O Finisar Corporation October 2008 Rev B Page 3 FTLX8561E2 Product Specification October 2008 Finisar Electrical Pad Layout GN GNO RESERVED RESERVED GAD TX LANES 1 2 3 5 amp B B TX LAME2 RESET To VERD SPECIFE ME TKONOFF LIMES RESERVED GND MOG DETECT TXLANED JU ELLEN 4 Toward Bezel e VEND SPECIFIC MDIO Dac CERTA PATADS Pata PRTADIT RXLANE2Z PRTADO EXUAMES VEND SPECIFIC APS SET RESERVED een APS SENSE GND AP CAR LANEG E CAPS AX LANEO GND j L55W RESERVED ETE RESERVED GND 8855 GNO Lene CERD Top of Transceiver PCB Bottom of Transceiver PCB as viewed through top Fig 1 XENPAK Transponder Electrical Pad Layout II Absolute Maximum Ratings Limit Values Parameter Symbol _Symbol_ min ome Unit Oeste Cas Tengen 9 9 a Supply Voltage 5 0V v 0 6 J V SuplyVolage33V V 0 4 J V Supply Voltage APS Ve 0 15 V Static Discharge Voltage All Pin STu 500 V Average Receive Optical Power RXegs 15 dBm
7. ew wo Total Jitte Tx o Deterministic Jitter DI oy Ul Power On Reset AC Characteristics Power On Reset and TX _ ONOFF According to XENPAK MSA Issue 3 0 2002 9 18 Characteristics MDIO I O AC Characteristics MDIO MDC MDIO Data Hold Time Hin E ee MDIO Data Setup Time 100 a Delay from MDC Rising Edge to a AY MDIO Data Change MDC Clock Rate fux 25 MH P 100 MHz to 2 5 GHz 2 At crossing point Per IEEE Std 802 3ae At near end No pre equalization 1 UI 320 ps Finisar Corporation October 2008 Rev B Page 6 FTLX8561E2 Product Specification October 2008 Finisar IV Optical Characteristics Vecs 4 75 V to 5 25 V Vecs 3 14 V to 3 47 V Voc aps 1 152 V to 1 248 V Tc 0 C to 70 C BER 1E 12 Bit Rate 10 3125 EEUZR WE WENN Transmitter Launch PowerinOMA aom 28 5 mm a fum 3 j a a NE Center Wavelength Range Acn dB Relative Intensity NosejOMA rN __ s dWHz Acconineio IEEE G00 4a8 at 19 jm 28676 at 4 5 pm c 307 Optical Retum Loss Tolerance ORL Tr Average Launch Power of OFF Po orr 30 dBm Transmitter Receiver Stressed Receiver Sensitivity in OMA Pws lt 75 dBm Receiver Sensitivity in OMA Pw J I1 dBm Average Receive Power Pmms 4 dBm Signal Detect DeassertLevel Ps 145 dBm Signal Detect Assert Level Pw 180
8. k Vow xai 800 1600 mV MDIO I O DC Characteristics MDIO MDC Output Low Voltage Va 03 02 V Output Low Current la 20 mA Input High Voltage Vg 084 J 15 V Input Low Voltage Ww 03 036 V IputCapaciane Cw S 10 pF Load Capacitance Com 40 pF External Pull up Resistance Row 20 Q D For 1 8 V CMOS V4 7 1 65 V min Va 0 15 V max V7 1 17 V min Vi 0 63 V max 2 Roull up 10 KO to 1 8 V dyes V AC coupled JoL 100 pA Finisar Corporation October 2008 Rev B Page 5 FTLX8561E2 Product Specification October 2008 Finisar Electrical AC Characteristics Vccs 4 75 V to 5 25 V Vcc3 3 14 V to 3 47 V Vcc aps 1 152 V to 1 248 V Te 0 C to 70 C Symbol min typ max Unit XAUI Input AC Characteristics TXLANE 0 3 Baud Rate Rx AUIIN Gbit s Fibre Channel 3 1875 Ethernet 3 125 Baud Rate Tolerance Rrouxaus 100 100 ppm Hasan 80 10 00 Hielo Dogg a 19 1 1 d put Differential Skew y isn Jitter Amplitude Tolerance Jeno XAUITOL XAUI Output AC Characteristics RXLANE 0 3 Baud Rate Rx AUIOUT Gbit s Fibre Channel 3 1875 Ethernet 3 125 Baud Rate Variation Rxauvag 100 10 ppm According to IEEE 80030 Output Differential Sk
9. onal characteristics of this device IEEE Std 802 3ae 2002 clause 52 IOGBASE SR XENPAK MSA Issue 3 0 X For More Information Finisar Corporation 1389 Moffett Park Drive Sunnyvale CA 94089 1133 Tel 1 408 548 1000 Fax 1 408 541 6138 sales finisar com www finisar com Finisar Corporation October 2008 Rev B Page 10
10. ut Open Drain Compatible Input with 22 kQ pull up to APS internal to transponder Logic high Transmitter On Logic low Transmitter Off I enna kd retro Od through a 1 kQ resistor to Ground Ex LI EE Reserved I 67 Reserved For Future Use TX LANE 3 AC coupled I 65 Module XAUI Input Lane 3 TX LANE 3 Internally biased I 64 Module XAUI Input Lane 3 TXLANE2 differential I 62 Module XAUI Input Lane 2 I I TX LANE 1 58 Module XAUI Input Lane 1 TX LANE 0 55 Module XAUI Input Lane 0 Finisar Corporation October 2008 Rev B Page 2 Receive Functions Reserved Reserved RX LANE 0 AC coupled FTLX8561E2 Product Specification October 2008 Finisar 38 39 41 42 RX LANE 1 differential 44 Module XAUI Output Lane 1 RXLANE 4AUI 45 Module XAUI Output Lane 1 47 48 RX LANE 3 50 51 GND 1 2 3 33 34 Ground connection for signal ground 53 54 57 60 APS SENSE PL2 V 27 APS Sense Output Connected to the APS input inside transponder 5 0 V 5 0 V DC 4 32 DC Power Input 5 0 V DC Nominal Reserved For Future Use Reserved For Future Use Module XAUI Output Lane 0 RX LANE 0 Internally biased Module XAUI Output Lane 0 RX LANE 2 Module XAUI Output Lane 2 RX LANE 2 Module XAUI Output Lane 2 Module XAUI Output Lane 3 RX LANE 3 Module XAUI Output Lane 3 DC Power 35 36 37 40 on the module 43 46 49 52 63 66 69 70 APS 7 8 28 29 Input from Adaptive Power Supply A
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