July 10, 2005 OC-192/STM-64 SFF Transponder (1550nm, 40km, 65km and 80km transmission) Members of Softac Family Standard Compliant with 300-PIN MSA Compliant with ITU-T G.691 Compliant with ITU-T G.959.1 Compliant with Telcordia GR-253 Compliant with IEEE 802.3ae Features Compliant with OIF SFI-4 interface 1550nm externally EA modulated laser Compliant with Telcordia GR-468-Core Wide dynamic range PIN or APD receiver Compliant with FDA 21CFR 1040.10 Class Ⅰ Support transmission distance of 40km, 65km and 80km Description Support multi-rate operation from 9.953Gb/s to 11.318 Gb/s The transponders are intended for 1550nm system 1:16 MUX/DEMUX integrated applications with reaches of up to 40km, 65km and 16-bit parallel 622.08Mbps LVDS data interface 80km, which is designed to provide high optical Selectable dual fixed-rate jitter clean-up which performance for SONET OC-192 / SDH STM-64. can be bypassed for multi-rate operation The transmitter converts the electrical data into Compliant with the 300 pin MSA in a compact 10Gbit/s size externally EA modulated laser with specified driving Compliant I2C MSA (Edition 4.0) interface for circuit. monitoring/control At the receiving side, the incoming data stream is Supply voltage: +1.8V, +3.3V, +5.0V, -5.2V received at 10Gb/s PIN or APD receiver, which Operating case temperature: -5℃ to +70℃ converts it into a 10Gb/s electrical data stream. optical signal, which uses 1550nm The MUX section multiplexes 16 parallel 622Mb/s electrical channels into a 10Gb/s series data stream Applications and sent it to the transmitter. And the DEMUX Metro network SDH / SONET system section demultiplexes the 10Gb/s electrical data 10 Gigabit Ethernet system stream into 16 parallel 622Mb/s electrical channels. Forward Error Correction (FEC) system The parallel data is sent out to and get from the Optical Transport Network (OTN) System 300-pin MSA (Multi Source Agreement) compliant connector. The transmitter and receiver reference clock rates are selectable for divide by 16 or 64. Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Page 1 of 14 OC-192/STM-64 1550nm Transponder 40km, 65km and 80km transmission Preliminary Data Sheet July 10, 2005 Block Diagram LsENABLE LsPOWMON LsBIASMON LsPOWALM LsBIASALM APC TxDIN[0:15]P/N TxPICLKP/N TxREFCLKP/N TxREFSEL TxRESET TxFIFORES TxRATESEL0/1 16 MUX with CMU Driver TxPCLKP/N TxMCLKP/N TxLOCKERR TxFIFOERR RxDOUT[0:15]P/N RxPOCLKP/N RxMCLKP/N RxREFCLKP/N RxREFSEL RxLCKREF RxRATESEL0/1 LsTEMPMON LsTEMPALM ATC Serial Monitor 16 DEMUX with CDR RX O-E Optical Monitor RxLOCKERR RxALIMINT TxALIMINT ALMINT +5.0V +3.3V +1.8V OC-192 Optical Output TX E-O -5.2V GND Figure 1, Block Diagram of Transponder Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Page 2 of 14 I2CDATA I2CCLOCK OC-192 Optical Iutput RxPOWMON RxPOWALM OC-192/STM-64 1550nm Transponder 40km, 65km and 80km transmission Preliminary Data Sheet July 10, 2005 Absolute Maximum Ratings Stresses in excess of the Absolute Maximum Ratings can cause permanent damage to the device. Table 1- Absolute Maximum Ratings Parameter Symbol Min. Max. Unit Storage Temperature TS -40 +85 °C Operating Case Temperature Tcm -10 +75 °C Vcc -0.5 +6.0 V Vdd1 -0.5 +4.2 V Vdd2 -0.5 +3.3 V Vee -7.0 +0.5 V RH 85 % ESD 2000 V Supply Voltage Operating Relative Humidity (non-condensing) Electro-Static Discharge PIN Input Optical Power +3 Pin APD +1 dBm Recommended Operating Conditions Specified performance is maintained over all conditions in the table below, and damage to the device may occur over an extended period of time. Table 2 - Recommended Operating Conditions Parameter Operating Case Temperature Supply Voltage Supply Current Power consumption Symbol Min. TC -5 Vcc +4.75 Vdd1 Typ. Max. Unit +70 °C +5.0 +5.25 V +3.15 +3.3 +3.45 V Vdd2 +1.71 +1.8 +1.89 V Vee -5.45 -5.2 -4.95 V Icc 90 150 mA Idd1 300 600 mA Idd2 700 750 mA Iee 450 500 mA Pd 5.0 6.5 W 50 mVp-p Power supply noise rejection Note: 1. An additional 0.2 W of power dissipation is required or single or dual rate jitter filter. Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Page 3 of 14 OC-192/STM-64 1550nm Transponder 40km, 65km and 80km transmission Preliminary Data Sheet July 10, 2005 Optical Interface Characteristics Table 3 - Optical Characteristics Parameter Symbol Min. Typical Max. Unit 1565 nm Notes Transmitter Centre Wavelength Output Power λC Normal-Power High-Power Output Power Stability Spectral Width (-20dB) Side Mode Suppression Ratio Extinction Ratio Chromatic Dispersion POUT ∆POUT Output Power at laser disable 40km 65/80km 1530 -1 0 +2 0 +2 +4 -0.5 dBm +0.5 dBm POUT -45 dBm ∆20 0.3 nm SMSR 35 ER 1 dB 8.2 9 10 11 40km dB 800 D 65km 1300 80km ps/nm 1600 Compliant with Telcordia GR-253-CORE and ITU-T Output Optical Eye G.691 Jitter Generation B1 0.3 UI 2 B2 0.1 UI 2 1600 nm Receiver Centre Wavelength Receiver Sensitivity Receiver Overload λC PIN 1290 PIN APD PIN PIN APD -19 -17 -26 -24 -1 0 -9 -6 Optical Path Penalty Reflection of Receiver dBm 3 dBm 3 2 dB -27 dB Jitter Tolerance Compliant with Telcordia GR-253 and ITU-T G.825 Jitter Transfer Compliant with Telcordia GR-253 and ITU-T G.825 Notes: 1. The optical power is launched into SMF. 2. Measured with a NRZ PRBS 231-1 test pattern @ 9.95328Gbps. 3. Measured with a NRZ PRBS 231-1 test pattern @ 9.95328Gbps, BER ≤1×10-12. Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Page 4 of 14 OC-192/STM-64 1550nm Transponder 40km, 65km and 80km transmission Preliminary Data Sheet July 10, 2005 Electrical Interface Characteristics Table 4 - LVDS Input/Output Specification Parameter Symbol Min. Input Differential Voltage VID 200 Input Differential impedance RID 80 Output Differential Voltage VOD 500 Output Common Mode Voltage VCMO Output Differential impedance ROD Typical Max. Unit Notes LVDS interface Rise Time/Fall time 80 mV 100 100 Trise/fall Clock Signal Duty Cycle 45 50 120 Ω 1000 mV 120 Ω 250 ps 55 % VP Common Mode Voltage (VCMI or VCMD) Differantial Voltage (VOD or VID) VN Definition of Differantial Voltage Levels Table 5 - Input Reference Clocks Parameter Symbol Min. Input Differential Voltage VID 400 Differential Input Impedance RID 80 Tw/To 45 Clock signal Duty Cycle Typical 100 Max. Unit 1800 mV 120 Ω 55 % Max. Unit Notes Table 6 - LVTTL Input/Output Pin Characteristics Parameter Symbol Min. Typical Input High Voltage VIH 2.0 Vdd V Input Low Voltage VIL GND 0.8 V Output High Voltage VOH 2.4 Vdd V Output Low Voltage VOL GND 0.4 V Notes Transponder Clock Interfaces and Control There are seven clock interfaces to the transponder. This section details the specific functions, capabilities, and limitations of each. Note that all clock rates shown are at STM-64/OC-192 rate, but should be scaled appropriately for other data rates. The LVPECL TxREFCLK, provided via the 300-pin interface, may be at 1/16 or 1/64 of the transmitted serial data rate. The TxREFCLK must be synchronous with the TxPICLK. There are several approaches to ensure this synchronous relationship. The two most common are Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Page 5 of 14 OC-192/STM-64 1550nm Transponder 40km, 65km and 80km transmission Preliminary Data Sheet July 10, 2005 1) Locking the TxPICLK to the TxPCLK out of the transponder 2) Generating TxPICLK and TxREFCLK from the same clock on the line-card. The LVPECL RxREFCLK may be at 1/16 or 1/64 of the incoming data rate also. Table 7 - Reference Clock characteristics Parameter Symbol Min. Typical Max. Unit Notes MHz Serial data-rate is 9.953Gbps Transmitter TxREFCLKP Frequency 155.52/622.08 TxREFCLKN Frequency -100 tolerance Rise/Fall time +100 ppm 300 ps 60 % Tr/Tf Duty Cycle 40 50 Receiver RxREFCLKP Frequency 155.52/622.08 RxREFCLKN Frequency -100 tolerance Rise/Fall time Tr/Tf Duty Cycle 40 50 MHz +100 ppm 300 ps 60 % Serial data-rate is 9.953Gbps Table 8 - Transmitter/Receiver Parallel Data/Clock Interface Parameter Transmitter 16-bit parallel Date Input Transmitter Source Symbol Level Notes TxDin[0:15]P/N LVDS TxDin0:LSB, TxDin15:MSB TxPICLKP/N LVDS TxPCLKP/N LVDS RxDout[0:15]P/N LVDS RxPOCLKP/N LVDS synchronous ParallelInput Clock Transmitter Counter Clock Receiver 16-bit parallel Date Output Receiver Source synchronous Parallel Output Clock RxDout0:LSB, RxDout15:MSB Table 9 - Transmitter/Receiver Parallel Data/Clock Timing Parameter Symbol Min. Typical Max. Unit 60 % 300 ps Notes Transmitter Data/Clock Timing: SERDES Input Timing at SERDES pin TxPICLK TxDin Duty Cycle Tw/To 40 Rise and Fall time Tr/Tf Setup time Ts 300 ps Hold time Th 300 ps Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Page 6 of 14 20 – 80% OC-192/STM-64 1550nm Transponder 40km, 65km and 80km transmission Preliminary Data Sheet July 10, 2005 To Tw TxPICLKP TxDin[0:15]P/N Th Ts Ts: Measuring from the LHS inner data eye to the immediate rising edge of clock pulse Th: Measuring from the rising edge of clock pulse to the inner RHS of data eye Receiver Data/Clock Timing: SERDES Output Timing at SERDES pin RxPOCLK RxDout Duty cycle Tw/To Rise and Fall time Data/Clock skew 40 60 % Tr/Tf 300 ps Tcq_min, 250 ps Tcq_max 250 ps 20 – 80% To Tw RxPO CLKP Tcq_m ax R x D o u t[0 :1 5 ]P /N T c q _ m in Table 10 - Monitor Clock Parameter Symbol Level Transmitter monitor clock Notes The LVDS TxMCLK is either a 1/16 or 1/64 replica of the TxMCLKP/N LVDS clock used to time the serial data output. The rate of the TxMCLK is always the same as that of the TxREFCLK Receiver monitor clock RxMCLKP/N LVDS The LVDS RxMCLK is a 1/16 or 1/64 replica of the clock recovered from the incoming data Table 11 - Serial Data Rate selection (LVTTL with pull-up resistor) TxRATESEL1/ TxRATESEL0/ RxRATESEL1 RxRATESEL0 L L L H H L H H Function Tx/Rx Serial Data Rate Parallel Data Rate TxDIN[0:15]/RxOUT[0:15] TxPICLK/RxPOCLK 10.3125Gbps 644.54Mbps 644.54Mbps 11.049/11.095/ 690.56/693.43/ 690.56/693.43/ 11.318Gbps 707.37Mbps 707.37Mbps 10.519/10.664/ 657.43/666.51/ 657.43/666.51/ 10.709Gbps 669.32Mbps 669.32Mbps 9.95328Gbps 622.08Mbps 622.08Mbps Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Page 7 of 14 OC-192/STM-64 1550nm Transponder 40km, 65km and 80km transmission Preliminary Data Sheet July 10, 2005 Digital Control Signal Table 12 - Input Digital signals Function Symbol Module RESET Level MOD_RESET LVTTL DLOOPENB LVTTL Diagnostic Loop-back Line LLOOPENB Loop-back LVTTL Description Note L Module reset Reset both Tx and Rx section H Normal operation (LVTTL with pull-up resistor) L Enable H Normal operation L Enable H Normal operation 0,0 10.3125Gbps (LVTTL with pull-up resistor) (LVTTL with pull-up resistor) Transmitter Select serial data rate 0,1 TxRATESEL1, 0 LVTTL 1,0 11.049/11.095/ 11.318Gbps 10.519/10.664/ 10.709Gbps 1,1 9.95328Gbps L 1/64 data-rate H 1/16 data-rate L 1/16 data-rate TxPICLK H 1/32 data-rate Enable internal L Enable H Normal operation 0,0 Delays 915ps 0,1 Delays 1015ps 1,0 Delays 715ps 1,1 Delays 815ps L Normal operation H Laser disabled L MUX reset H Normal operation L MUX FIFO reset Select the frequency of TxREFSEL LVTTL TxREFCLK Select the frequency of Line Timing TxPICLKSEL TxLINETIMSEL Select delay of TxPICLK TxSKEWSEL0,1 Enable/Disable Laser Asynchronous system reset (LVTTL with pull-up resistor) LVTTL LVTTL LVTTL LsENABLE LVTTL TxRESET LVTTL (LVTTL with pull-up resistor) (LVTTL with pull-down resistor) On multi-rate units without jitter clean up, this pin is ignored. (LVTTL with pull-up resistor) (LVTTL with pull-up resistor) (LVTTL with pull-down resistor) (LVTTL with pull-up resistor) Internally the FIFO reset is MUX reset FIFO TxFIFORES LVTTL connected to TxRESET and TxFIFOERR. TxFIFOERR will H initiate a FIFO reset Normal operation (LVTTL with pull-up resistor) Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Page 8 of 14 OC-192/STM-64 1550nm Transponder 40km, 65km and 80km transmission Preliminary Data Sheet July 10, 2005 Receiver 0,0 Select data rate Select 0,1 TxRATESEL0,1 LVTTL 1,0 the frequency RxREFSEL LVTTL of RxMCLKSEL LVTTL to RxLCKREF of RxREFCLK Select the frequency RxMCLK Lock RxPOCLK LVTTL RxREFCLK Mutes the RxDOUT[0:15] Mutes RxMUTEDOUT LVTTL the receiver output RxMUTEMCLK LVTTL monitor clock Mutes receiver clock RxMUTEPOCLK 11.049/11.095/ 11.318Gbps 10.519/10.664/ 9.95328Gbps L 1/64 data-rate H 1/16 data-rate L 1/64 data-rate H 1/16 data-rate L Lock to RxREFCLK H Normal operation L RxDOUT[0:15] H Normal operation L Mutes the RxMCLK H Normal operation (LVTTL with pull-up resistor) RxPOCLK (LVTTL with pull-up resistor) Normal operation Rx L Asynchronous reset H Normal operation system reset (LVTTL with pull-up resistor) Mutes the LVTTL LVTTL (LVTTL with pull-up resistor) Mutes the H RxRESET (LVTTL with pull-down resistor) (LVTTL with pull-up resistor) RxPOCLK synchronous (LVTTL with pull-up resistor) 10.709Gbps 1,1 L parallel output 10.3125Gbps (LVTTL with pull-up resistor) Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Page 9 of 14 OC-192/STM-64 1550nm Transponder 40km, 65km and 80km transmission Preliminary Data Sheet July 10, 2005 Digital Alarm Signal Table 13 - Alarms Digital signals Function Symbol Level Description Note Common Digital Signal Any alarm from Indicates all alarm active ALMINT LVTTL L both transmitter and receiver H Normal operation L Alarm active H Normal operation Activation Time: 10ms Deactivation Time: 10ms Transmitter Loss of Tx PLL lock TxLOCKERR LVTTL L MUX FIFO error TxFIFOERR LVTTL H L Laser bias out of range LsBIASALM Alarm active (FIFO overflow) Normal operation Activation Time: 1ms Deactivation Time: 1ms TxError is internally connected to TxFIFO RES. (Default) Customer may have control of TXFIFO RES without internal loopback (Optional) Alarm active Alarm when laser bias changes by a (laser bias factor of 2 from beginning of life or if current alarm) LVTTL Loss of transmitter PLL lock monitor reaches maximum level corresponding to approximate150mA. H Normal operation Activation Time: 10 ms Deactivation Time: 10 ms Laser temperature out LsTEMPALM LVTTL of range Laser power output out of LsPOWALM LVTTL range Tx alarms TxALMINT LVTTL L Alarm active H Normal operation L Alarm active H Normal operation L Alarm from transmitter H Normal operation L Alarm active H Normal operation L Alarm active H Normal operation Laser temperature 5°C from nominal, Activation Time : 10ms Deactivation Time : 10ms Output power degrades 3dB below the BOL Activation Time : 10ms Deactivation Time : 10ms Activation Time: 10 ms; Deactivation Time: 10 ms Receiver Loss of Rx PLL lock RxLOCKERR LVTTL Loss of receiver average power RxPOWALM LVTTL alarm Rx alarms RxALMINT LVTTL L H Alarm from transmitter Normal operation Activation Time: 1ms Deactivation Time: 1ms Activation Time: <1ms Deactivation Time: <1ms Activation Time: 10 ms; Deactivation Time: 10 ms Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Page 10 of 14 OC-192/STM-64 1550nm Transponder 40km, 65km and 80km transmission Preliminary Data Sheet July 10, 2005 Analog Monitoring Signal Table 14 - Monitor Signals Function Symbol Min. Typ. Max. Unit 0.53 V Transmitter Normalized laser power monitor voltage BOL 0.47 LsPOWMON Laser power monitor voltage slope 0.5 0.25 V change for 50% power variation (mW) Laser bias monitor voltage offset LsBIASMON Laser bias monitor voltage slope Normalized laser temperature Monitor voltage Laser temperature Monitor voltage slop LsTEMPMON 0.2 0 2 V 18 20 22 mV/mA 2.4 2.5 2.6 V 23 25 27 mV/℃ Receiver Input optical power monitor PIN 0.08 0.10 0.12 voltage offset @-10dBm APD 0.60 0.80 1.00 Input optical power monitor PIN 0.8 1.0 1.26 voltage slope APD 7.9 8.0 8.1 RxPOWMON Input optical power monitor error -1.5 +1.5 mV V/mW dB I2C Serial Interface Table 14 – I2C Interface Function I2C Address Symbol Level I2CAD0 LVTTL I2CAD1 LVTTL I2CAD2 LVTTL I2C Clock I2CCLOCK I2C Data I2CDATA Description Note I2C address input for module (LVTTL with pull-down addressing (LSB) resistor) I2C address input for module (LVTTL with pull-down addressing resistor) I2C address input for module (LVTTL with pull-down addressing (MSB) resistor) Open I2C clock input/output for collector remote access Open I2C data input/output for collector remote access Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Page 11 of 14 N/A N/A OC-192/STM-64 1550nm Transponder 40km, 65km and 80km transmission Preliminary Data Sheet July 10, 2005 Pin Definitions Table 15 - Pin Function Definitions K J H G F E D C B A 1 +5V RxTRACE GND RxDout12P NUC RxDout8P GND RxDout4P GND RxDout0P 2 +5V FFU GND RxDout12N NUC RxDout8N GND RxDout4N GND RxDout0N FFU GND RxPOWMON GND I2CAD0 GND RxDTV GND 3 RxRATESEL0 RxRATESEL1 4 +3.3V NUC GND RxDout13P +3.3V RxDout9P GND RxDout5P GND RxDout1P 5 +3.3V NUC GND RxDout13N +3.3V RxDout9N GND RxDout5N GND RxDout1N 6 Rx_Reset NUC DLOOPENB GND RxPOWALM GND I2CAD1 GND RxMUTE Dout GND 7 +3.3V FFU GND RxDout14P +3.3V RxDout10P GND RxDout6P GND RxDout2P 8 +3.3V FFU GND RxDout14N +3.3V RxDout10N GND RxDout6N GND RxDout2N NUC FFU GND FFU GND I2CAD2 GND RxLCKREF GND 9 RxMUTEPOCLK 10 -5.2V APS Sense GND RxDout15P -5.2V RxDout11P GND RxDout7P GND RxDout3P 11 -5.2V APS Set GND RxDout15N -5.2V RxDout11N GND RxDout7N GND RxDout3N 12 RxMUTEMCLK NUC FFU GND FFU GND MOD RESET GND RxMCLKSEL GND 13 -5.2V FFU GND FFU -5.2V RxPOCLKP GND RxMCLKP GND RxREFCLKP 14 -5.2V RxALMINT GND FFU -5.2V RxPOCLKN GND RxMCLKN GND RxREFCLKN 15 I2CCLOCK NUC ALMINT GND RxREFSEL GND FFU GND RxLOCKERR GND 16 +5V TxALMINT GND TxDin12P NUC TxDin8P GND TxDin4P GND TxDin0P 17 +5V FFU GND TxDin12N NUC TxDin8N GND TxDin4N GND TxDin0N 18 I2CDATA NUC FFU GND LsBIASMON GND LsPOWMON GND TxSKEWSEL0 GND 19 +3.3V FFU GND TxDin13P +3.3V TxDin9P GND TxDin5P GND TxDin1P 20 +3.3V FFU GND TxDin13N +3.3V TxDin9N GND TxDin5N GND TxDin1N 21 TxRATESEL0 TxRATESEL1 FFU GND LsENABLE GND LsTEMPMON GND TxSKEWSEL1 GND 22 +3.3V FFU GND TxDin14P +3.3V TxDin10P GND TxDin6P GND TxDin2P 23 +3.3V FFU GND TxDin14N +3.3V TxDin10N GND TxDin6N GND TxDin2N 24 TxRESET NUC FFU GND LsBIASALM GND FFU GND FFU GND 25 -5.2V NUC GND TxDin15P -5.2V TxDin11P GND TxDin7P GND TxDin3P 26 -5.2V NUC GND TxDin15N -5.2V TxDin11N GND TxDin7N GND TxDin3N 27 TxFIFORES NUC LLOOPENB GND LsTEMPALM GND FFU GND TxPICLKSEL GND 28 -5.2V FFU GND TxPICLKP -5.2V TxPCLKP GND TxMCLKP GND TxREFCLKP 29 -5.2V TxTRACE GND TxPICLKN -5.2V TxPCLKN GND TxMCLKN GND TxREFCLKN 30 TxFIFOERR NUC LINETIMESEL GND TxREFSEL GND LsPOWALM GND TxLOCKERR GND FFU: Reserved for Future Use NUC: No Use Connection Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Page 12 of 14 OC-192/STM-64 1550nm Transponder 40km, 65km and 80km transmission Preliminary Data Sheet July 10, 2005 Mechanical Design Diagram The mechanical design diagram is shown in Figure 2. Figure 2, Mechanical Diagram Ordering Information FAM Wavelength 5: 1550nm Function 0: Without jitter filter 1: With jitter filter Receptacle C: LC S: SC F: FC M: MU Package T: 300-PIN Distance Others 40: 40km Reserved by vendor 65: 65km H: High Optical Power 80: 80km Data rate X1: Multi-rate from 9.95328G to 10.709G (without jitter filter) X2: 9.95328G (single jitter-filter) X3: 10.3125G (single jitter-filter) X4: 10.644G (single jitter-filter) X5: 10.709G (single jitter-filter) XA: 9.95328&10.709G (dual jitter-filter) XB: 9.95328&10.3125G (dual jitter-filter) Part No. Product Description FAM-50X1S-T40 1550nm, 10Gbps, 40km, PIN, SC connector, Without jitter-filter. FAM-50X1S-T65 1550nm, 10Gbps, 65km, APD, SC connector, Without jitter-filter. FAM-50X1S-T80 1550nm, 10Gbps, 80km, APD, SC connector, Without jitter-filter. FAM-50X1S-T80H 1550nm high power laser, 10Gbps, 80km, APD, SC connector, Without jitter-filter. Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Page 13 of 14 OC-192/STM-64 1550nm Transponder 40km, 65km and 80km transmission Preliminary Data Sheet July 10, 2005 Related Documents For further information, please refer to the following documents: Application Note for Fiberxon 10G Transponder I2C Serial Interface Specifications Reference Document for 300 pin Multi Source Agreement for 10 Gigabit Transponders (SERDES Transceivers), Edition 4, August 14, 2002 I2C Reference Document for 300-PIN MSA 10G and 40G Transponders, Edition 4, July 24, 2002. Obtaining Document You can visit our website: http://www.fiberxon.com Or contact with Fiberxon, Inc. America Sales Office listed at the end of documentation to get the latest documents. © Copyright Fiberxon Inc. 2005 All Rights Reserved. All information contained in this document is subject to change without notice. The products described in this document are NOT intended for use in implantation or other life support applications where malfunction may result in injury or death to persons. The information contained in this document does not affect or change Fiberxon’s product specifications or warranties. Nothing in this document shall operate as an express or implied license or indemnity under the intellectual property rights of Fiberxon or third parties. All information contained in this document was obtained in specific environments, and is presented as an illustration. The results obtained in other operating environment may vary. THE INFORMATION CONTAINED IN THIS DOCUMENT IS PROVIDED ON AN ”AS IS” BASIS. In no event will Fiberxon be liable for damages arising directly from any use of the information contained in this document. Contact U.S.A. Headquarter: 5201 Great America Parkway, Suite 340 Santa Clara, CA 95054 U. S. A. Tel: 408-562-6288 Fax: 408-562-6289 Or visit our website: http://www.fiberxon.com Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Page 14 of 14