Finisar OC-48 IR-1/STM S-16.1 Multirate 2x10 SFF
Contents
1. Parameter Symbol Min Typ Max Unit Ref Maximum Supply Voltage Vcc 0 5 4 5 V Storage Temperature Ts 40 85 C Case Operating Temperature Top 10 70 C Relative Humidity RH 0 85 1 Lead Soldering Temperature Time 260 10 C s HI Electrical Characteristics Top 10 to 70 C Vcc 3 00 to 3 60 Volts Parameter Symbol Min Typ Max Unit Ref Supply Voltage Vcc 3 00 3 60 V Supply Current Icc 200 300 mA Transmitter Input differential impedance Rin 100 Q 2 Single ended data input swing Vin pp 250 1200 mV Transmit Disable Voltage Vp Vee 1 3 Vcc V Transmit Enable Voltage VEN Vee Vee 0 8 V 3 Transmit Disable Assert Time 10 us Receiver Single ended data output swing Vout pp 300 400 800 mV 4 Data output rise time L 100 175 ps 5 Data output fall time te 100 175 ps 5 SD Assert VSD assert Vcc 0 5 Vcc V 6 SD De Assert N ap deassert Vee Vee 0 5 V 6 Power Supply Rejection PSR 100 mVpp 7 Total Generated Receiver Jitter Jrxp p 0 07 UI peak to peak Total Generated Receiver Jitter Jrxrms 0 007 UI rms Notes 1 Non condensing 2 AC coupled 3 Or open circuit 4 Into 100 ohm differential termination 5 20 80 6 T Signal Detect is LVTTL Logic 1 indicates normal operation logic 0 indicates no signal detected All transceiver specifications are compliant with a power supply sinusoidal modulation of 20 Hz to 1 52. Pin Symbol Name Description Logic Family MS MS Mounting Studs for mechanical attachment Chassis NA ground is internally isolated from circuit ground Connection to chassis ground is recommended 1 PD Receiver Power Monitor This pin must be connected to a Analog positive voltage supply Vcc preferably via a small Current resistor Supplies photocurrent and may be used to monitor received power 2 3 6 VEER Receiver Ground Common with Transmitter Ground NA 4 5 NC Not Connected 7 N rR Receiver Power Supply NA 8 SD Signal Detect Logic 1 indicates normal operation LVTTL 9 RD Receiver Inverted DATA out AC Coupled CML 10 RD Receiver Non inverted DATA out AC Coupled CML 11 Vecr Transmitter Power Supply NA 12 16 VEET Transmitter Ground Common with Receiver Ground NA 13 Tors Transmitter Disable LVTTL 14 TD Transmitter Non Inverted DATA in AC Coupled CML ECL 15 TD Transmitter Inverted DATA in AC Coupled CML ECL 17 Bmon Laser Bias Monitoring Analog Voltage 18 Bmon Laser Bias Monitoring Analog Bmon Bmon 10Q x laser bias current Voltage 19 Pmon Laser Power Monitoring Current implementation Analog connects this pin to ground Voltage 20 Pmon Laser Power Monitoring Analog Pmon Pmon 200Q x mon photodiode current Voltage MS Finisar Corporation December 16 2003 RevE Page 2 FTRJ1421S1XCL 2x10 Pin SFF Product Specification December 2003 Il Absolute Maximum Ratings Finisar
3. MHz up to specified value applied through the power supply filtering network shown on page 23 of the Small Form factor Pluggable SFP Transceiver MultiSource Agreement MSA September 14 2000 Finisar Corporation December 16 2003 RevE Page 3 FTRJ1421S1XCL 2x10 Pin SFF Product Specification December 2003 IV Optical Characteristics Top 10 to 70 C Vcc 3 00 to 3 60 Volts Finisar Parameter Symbol Min Typ Max Unit Ref Transmitter Output Opt Pwr 9 125 SMF Pour 5 0 dBm 1 Optical Wavelength 1270 1360 nm Spectral Width 20dB 0 1 nm Optical Extinction Ratio ER 8 2 dB Sidemode Supression ratio SSR min 30 dB Optical Rise Fall Time t te 160 ps 2 Relative Intensity Noise RIN 120 dB Hz Total Generated Transmitter Jitter Jrxp p 0 07 UI peak to peak Total Generated Transmitter Jitter Jrxrms 0 007 UI rms Receiver Average Rx Sensitivity 2 67Gb s Rgensi 0 18 dBm 3 Average Rx Sensitivity OC 48 Rgensi 0 18 dBm 3 Average Rx Sensitivity 2X Fibre Rgenso 0 21 dBm 4 Channel Average Rx Sensitivity Gigabit Rgens3 0 22 dBm 4 Ethernet Average Rx Sensitivity OC 12 Rgensa 0 22 dBm 5 Average Rx Sensitivity OC 3 Rgengs 10 23 dBm 5 Optical Center Wavelength c 1270 1600 nm SD Assert SD 23 19 dBm SD De Assert SDp 30 25 dBm SD Hysteresis 0 5 dB Notes 1 Class 1 Laser Safety per FDA CDRH and EN IEC 6
4. ee 079 a 079 1090000090090 700 LL nga L m 079 070 x16 121 032 004 x20 39 TYP gt m 7 ERS LE Fj 7 FES Fo E PLPLL LL DL AALA AMONA IHE ERL LLANE A T 0 590 0 620 Section B B 600 a 560 004 400 004 Detail A Minimum Recommended Pitch is 0 600 Finisar Corporation December 16 2003 RevE Page 9 FTRJ1421S1XCL 2x10 Pin SFF Product Specification December 2003 Finisar XI References l Small Form Factor SFF Transceiver Multisource Agreement MSA January 6 1998 2 Small Form Factor Pluggable SFP Transceiver Multi Source Agreement MSA September 2000 3 Bellcore GR 253 and ITU T G 957 Specifications Transmitter Optical Output Power complies with SONET OC 48 requirements only 4 IEEE Std 802 3 2002 Edition Clause 38 PMD Type 1000BASE LX IEEE Standards Department 2002 Transmit Optical Output has a minimum Extinction Ratio of 8 2 dB only 5 Fibre Channel Draft Physical Interface Specification FC PI 13 0 American National Standard for Information Systems Neither IEEE 802 3 nor FC PI 13 0 specifies a 1310nm DFB single mode interface The FTRJ1421S1XCL complies with these standards except for receiver sensitivity and transmit output power See Section IV for details XII For More Inform
5. 0825 regulations With worst case extinction ratio Measured with a PRBS 2 1 test pattern interspersed with 72 With worst case extinction ratio Measured with a PRBS 27 1 test pattern 2 Unfiltered 20 80 3 consecutive ones and 72 consecutive zeros 4 5 With worst case extinction ratio Measured with a PRBS 27 1 test pattern Finisar Corporation December 16 2003 RevE Page 4 FTRJ1421S1XCL 2x10 Pin SFF Product Specification December 2003 Finisar V General Specifications Parameter Data Rate Bit Error Rate OC 48 Max Supported Link Length on 9 125um SMF OC 48 Max Supported Link Length on 9 125um SMF 2X Fibre Channel Max Supported Link Length on 9 125um SMF Gigabit Ethernet Max Supported Link Length on 9 125um SMF OC 12 Max Supported Link Length on 9 125um SMF OC 3 Notes 1 SONET OC 48 IR 1 SDH STM S 16 1 compliant Compatible with Gigabit Ethernet 1x 2x Fibre Channel SONET OC 12 and OC 3 Supports FEC at 2 67Gb s 2 Tested with a PRBS 2 1 test pattern interspersed with 72 consecutive ones and 72 consecutive zeros 3 Attenuation of 0 55 dB km is used for the link length calculations per GR 253 CORE Distances are indicative only Please refer to the Optical Specifications in Table IV to calculate a more accurate link budget based on specific conditions in your application VI Environmental Specifications Finisar 1310nm SFP transceivers have an extended
6. Finisar Product Specification OC 48 IR 1 STM S 16 1 Multirate 2x10 SFF Transceiver FTRJ1421S1xCL PRODUCT FEATURES e Up to 2 67Gb s bi directional data links e Standard 2x10 pin SFF footprint MSA compliant e Analog diagnostics functions e Uncooled 1310nm DFB laser transmitter e Duplex LC connector e Very low jitter e Metal enclosure for lower EMI e Single 3 3V power supply e Low power dissipation lt 700 mW typical e Extended operating temperature range 10 C to 70 C APPLICATIONS SONET OC 48 IR 1 SDH STM S 16 1 e SONET OC 12 IR 1 SDH STM S 4 1 SONET OC 3 IR 1 SDH STM S 1 1 e Gigabit Ethernet 1x 2x Fibre Channel Finisar s FTRJ1421S1xCL Small Form Factor SFF transceivers are compatible with the Small Form Factor Multi Sourcing Agreement MSA They comply with SONET OC 48 IR 1 SDH STM S 16 1 standards and are compatible with Gigabit Ethernet as specified in IEEE Std 802 3 Fibre Channel FC PI 13 0 SONET OC 12 and SONET OC 3 standards PRODUCT SELECTION FTRJ1421SxCL x G 2 Grounding Pins Short EMI shield M 6 Grounding Pins Short EMI shield K 2 Grounding Pins Long EMI shield H 6 Grounding Pins Long EMI shield Finisar Corporation December 16 2003 RevE Page 1 FTRJ1421S1XCL 2x10 Pin SFF Product Specification December 2003 I Pin Descriptions Finisar
7. ation Finisar Corporation 1308 Moffett Park Drive Sunnyvale CA 94089 1133 Tel 1 408 548 1000 Fax 1 408 541 6138 sales finisar com ww finisar com Finisar Corporation December 16 2003 RevE Page 10
8. gure below shows the equivalent circuit 3 Pin 1 is used to monitor the received photocurrent It must be connected to a positive voltage Finisar Corporation December 16 2003 RevE within the range specified above The current that flows into this pin is the received photocurrent The received power is given by the photocurrent multiplied by the photodiode responsivity Vcc Vcc Vpd Monitor pene y7 A Photodidoe ve Ipd 3 KQ 3 KQ Bmon Pmon 10 Q 200 Q Bmon 0 Pmon 3KQ 3KQ A A Receiver g bias mon Photodidoe Analog monitoring function connections Page 6 FTRJ1421S1XCL 2x10 Pin SFF Product Specification December 2003 Finisar IX Mechanical Specifications Finisar s OC 48 STM 16 Small Form Factor SFF transceivers comply with the standard dimensions defined by the Small Form Factor Multi Sourcing Agreement MSA FTRJ1421S1GCL dimensions are in inches 2 pin version Finisar Corporation December 16 2003 RevE Page 7 FTRJ1421S1XCL 2x10 Pin SFF Product Specification December 2003 Finisar 07 x18 FTRJ1421S1MCL dimensions are in inches 6 pin version Finisar Corporation December 16 2003 RevE Page 8 FTRJ1421S1XCL 2x10 Pin SFF Product Specification December 2003 Finisar X PCB Layout and Bezel Recommendations 055 004 x8 A NN Toe Jf N T 140 a Z K 7 N PCB Layout for 6 Gnd Option N Fa E 000000900 a U we Le
9. operating temperature range from 10 C to 70 C case temperature Parameter Symbol Min Typ Max Units Ref Case Operating Temperature Storage Temperature VII Regulatory Compliance Finisar transceivers are Class 1 Laser Products and comply with US FDA regulations These products are certified by T V and CSA to meet the Class 1 eye safety requirements of EN IEC 60825 and the electrical safety requirements of EN IEC 60950 Copies of certificates are available at Finisar Corporation upon request Finisar Corporation December 16 2003 RevE Page 5 FTRJ1421S1XCL 2x10 Pin SFF Product Specification December 2003 Finisar VIII Analog Diagnostics Functions T 10 to 70 C Vcc 3 00 to 3 60 Volts Parameter Symbol Min Typ Max Unit Ref Transmitter Monitor photodiode current monitor Pmon 0 Vcc V 1 Pmon Laser bias current monitor Bmon 0 Vcc V 2 Bmon Receiver Received photocurrent Rpd 0 1 mA 3 Photodiode responsivity R 0 5 0 9 1 0 A W Applied voltage at PD pin Vpd 2 4 Vcc V 3 Notes 1 Pins 19 and 20 provide an analog voltage output proportional to the monitor photodiode current per the following formula Igas V Pmon Pmon 200Q The figure below shows the equivalent circuit 2 Pins 17 and 18 provide an analog voltage output proportional to the laser bias current per the following formula laras V Bmon Bmon 10Q The fi
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