Delta Electronics OPEP-33-A4Q1RI User's Manual
Contents
1. Reserved Vendor Specific and User Accessible EEPROM 2 Wire Address A2h Address Bytes Name Description 120 122 3 Reserved 123 Password Byte 3 High order byte of 32 bit password 124 Password Byte 2 Second highest order byte of 32 bit password 125 Password Byte 1 Second lowest order byte of 32 bit password 126 Password Byte 0 Low order byte of 32 bit password 127 User EEPROM Select 1 selects user writable EEPROM at locations 128 247 128 247 1 User EEPROM User writable EEPROM 248 255 1 1 1 1 1 2 8 Vendor Specific DELTA ELECTRONICS INC Vendor specific control functions 13 Revision S3 12 20 2007 www deltaww com ARELTA OPEP 33 A4Q1RI 12 Regulatory Compliance Feature Test Method Reference Performance Electrostatic Discharge Human Body Model MIL STD 883E Method 3015 7 ESD to the Electrical HBM EIA JESD22 A114 Pins Machine Model MM EIA JESD22 A115 1 Satisfied with Electrostatic Discharge Contact Discharge IEC EN 61000 4 2 electrical ESD to the Simplex oe IEC EN 61000 4 2 characteristics of Air Discharge Receptacle product spec Radio Frequency IEC EN 61000 4 3 Electromagnetic Field ANo physitaldamage Immunity Electromagnetic PEE Pario Cleese Interference EMI Bee CISPR 22A FDA CDRH FDA 21CFR 1040 10 1040 11 CDRH File 0420993 ra aaa TUV IEC EN 608252. devices 92 94 Reserved 00 00 00 Reserved 95 gt OUININININININN NIA A A A A Checksum Checksum of bytes 0 94 DELTA ELECTRONICS INC Revision S3 12 20 2007 www deltaww com ARELTA OPEP 33 A4Q1RI A D Value 2 Wire Address A2h Address Name of Field Description 96 97 Temperature MSB LSB Internally measured module temperature 98 99 Supply Voltage MSB LSB Internally measured supply voltage in module 100 101 Tx Bias Current MSB LSB Internally measured Tx Bias current 102 103 Tx Optical Power MSB LSB No implemented for Burst Mode 104 105 Rx Received Power MSB LSB Measured Rx input power 106 109 Reserved Notes Temperature Signed twos complement value A2h Byte 96 Temperature MSB A2h Byte 97 Temperature LSB S 28 2 2 2 2 2 2 2 22 2 at o oF ov 28 Supply Voltage Tx Bias Current Tx Optical Power Rx Received Power Unsigned values A2h Byte 98 Vcc MSB A2h Byte 99 Vcc LSB A2h Byte 100 TX Bias MSB A2h Byte 101 TX Bias LSB A2h Byte 102 TX Power MSB A2h Byte 103 TX Power LSB A2h Byte 104 RX Power MSB A2h Byte 105 RX Power LSB 916 GA 213 212 ai 210 29 28 27 26 2 2 23 22 21 20 The digital value conversions are updated every 13ms nominal or 20ms max in rotation
3. 1 TUV Certificate IEC EN 60825 2 R50032471 TUV IEC EN 60950 Component Recognition UL CSA UL 60950 UL File E239394 Appendix A Document Revision Version No Date Description SO 2006 11 06 Preliminary Datasheet S1 2007 08 08 Change the PIN outline DDM accuracy and Differential Data Input Swing S2 2007 10 10 Update the DDM description and Receiver Saturation S3 2007 12 20 Update the DDM contents 14 Revision S3 12 20 2007 DELTA ELECTRONICS INC www deltaww com
4. 33 2 RX Power High Alarm 27 10 0 dBm 34 35 2 RX Power Low Alarm 00 OD 29 dBm 36 37 2 RX Power High Warning 13 94 3 dBm 38 39 2 RX Power Low Warning 00 19 26 dBm 40 55 16 Reserved Calibration Constants 2 Wire Address A2h Address Name of Field HEX Description 56 59 Rx_PWR 4 00 00 00 00 Set to zero for internally calibrated devices 60 63 Rx_PWR 3 00 00 00 00 Set to zero for internally calibrated devices 64 67 Rx_PWR 2 00 00 00 00 Set to zero for internally calibrated devices 68 71 Rx_PWR 1 3F 80 00 00 Set to 1 for internally calibrated devices 72 75 Rx_PWR 0 00 00 00 00 Set to zero for internally calibrated devices 76 77 TX l Slope 01 00 Set to 1 for internally calibrated devices 78 79 Tx_l Offset 00 00 Set to zero for internally calibrated devices 80 81 Tx_PWR Slope 01 00 Set to 1 for internally calibrated devices 82 83 Tx_PWR Offset 00 00 Set to zero for internally calibrated devices 84 85 T Slope 01 00 Set to 1 for internally calibrated devices 86 87 T Offset 00 00 Set to zero for internally calibrated devices 88 89 V Slope 01 00 Set to 1 for internally calibrated devices 90 91 V Offset 00 00 Set to zero for internally calibrated
5. BR Min 00 68 83 Vendor SN XX DEYYWWVVRSSSSS in ASCII character 84 91 Date Code XX YYMMDD in ASCII character 92 Diagnostic Monitoring Type 68 Implemented with internal calibration and received power measurement type by Avg power 93 Enhanced options 80 Alarm Warning flags monitor are implemented 94 SFF 8472 compliant 01 SFF 8472 compliant with revision 9 3 95 CC EXT XX Check sum of bytes 64 94 Vendor Specific ID Fields 96 127 Vendor Specific 00 Vendor specific EEPROM 128 256 Reserved 00 Reserved for future use DELTA ELECTRONICS INC 10 Revision S3 12 20 2007 www deltaww com Aneuta Digital Diagnostic Monitoring Interface 2 Wire Address A2h OPEP 33 A4Q1RI Alarm and Warning Thresholds 2 Wire Address A2h Address Bytes Name of Field HEX Real Value Unit 00 01 2 Temp High Alarm 64 00 100 C C 02 03 2 Temp Low Alarm DD 00 35 C C 04 05 2 Temp High Warning 5A 00 90 C C 06 07 2 Temp Low Warning E7 00 25 C C 08 09 2 Voltage High Alarm 94 70 3 8 N 10 11 2 Voltage Low Alarm 6D 60 2 8 V 12 13 2 Voltage High Warning 87 8C 3 47 V 14 15 2 Voltage Low Warning TA 44 3 13 V 16 17 2 Bias High Alarm 4E 20 40 mA 18 19 2 Bias Low Alarm 01 F4 1 mA 20 21 2 Bias High Warning 3A 98 30 mA 22 23 2 Bias Low Warning 01 F4 1 mA 24 25 2 TX Power High Alarm one E 1 rower aa eae No implemented for Burst Mode 30 31 2 TX Power Low Warning 32
6. exceeds high alarm level Vcc Low Alarm Set when internal supply voltage is below low alarm level TX Bias High Alarm Set when TX Bias current exceeds high alarm level TX Bias Low Alarm Set when TX Bias current is below low alarm level TX Power High Alarm No implemented for Burst Mode TX Power Low Alarm No implemented for Burst Mode RX Power High Alarm Set when Received Power exceeds high alarm level 7 6 5 4 3 2 1 0 Al 7 6 5 4 3 2 1 0 7 6 RX Power Low Alarm Set when Received Power is below low alarm level EA Reserved Alarm Z Reserved N Temp High Warning Set when internal temperature exceeds high warning level e gt Temp Low Warning Set when internal temperature is below low warning level a Vcc High Warning Set when internal supply voltage exceeds high warning level Vcc Low Warning Set when internal supply voltage is below low warning level TX Bias High Warning Set when TX Bias current exceeds high warning level TX Bias Low Warning Set when TX Bias current is below low warning level TX Power High Warning No implemented for Burst Mode TX Power Low Warning No implemented for Burst Mode RX Power High Warning Set when Received Power exceeds high warning level RX Power Low Warning Set when Received Power is below low warning level Reserved Warning
7. A ELECTRONICS INC www deltaww com ADELTA OPEP 33 A4Q1RI 10 Outline Dimensions Parameter Description Note Mechanical Dimensions 48 3x13 5x9 6 Connector Type SC UPC connector IEC 61754 4 Anema _ A XXXXXXXXXXXXXX S WNR nm TX RX XXXX nm E dT jy 4 etna AL 2 C ser Product b US Ti ith FDA radiation standards 21 CFR Subchapter J MIT a 359 457 1 lL oi L 1 1779 l f ba 0 E LL 4x178 0 ATO 0 G S DTi o o aad LUNITS IN mm 0 l R 2 DIMENSIONA RANCES 0 2 C s S _ 2 DIMENSIONAL TOLE i e m sie 9987 6 ns O p m S N 14 digits 8 XX XX XX XX X XXXXX DE 05 01 00 00001 S N 00001 99999 Rework Rework R or No rework 0 Vender NOTE Free or 00 Week 52Weeks Year 1H 2H 01 Year 2005 05 Vender CODE DELTA DE 8 Revision S3 12 20 2007 DELTA ELECTRONICS INC www deltaww com ANRELTA OPEP 33 A4Q1RI 11 Enhanced Digital Diagnostic Interface The memory map in the following describes an extension to the memory map defined in SFF 8472 The enhanced interface uses the two wire serial bus address 1010001X A2h to provide diagnostic information about the module s present operating conditions 2 wire address 1010000 X AOh 2 wire address 1010001 X A2h Alarm and Warning Thresholds 56 b
8. After getting digital value each measurement could be obtained by multiplying digital value by corresponding LSB value Temperature Temp Digital Value x LSBremp Temp Digital Value x z when Temperature lt 128 Temperature Temp Digital Value x LSBtemp Temp Digital Value x 7451 256 when Temperature 128 Vcc Vec Digital Value x LSBvec Vcc Digital Value x 100uV TX Bias Current TX Bias Current Digital Value x LSBrx sias TX Bias Current Digital Value x 2uA TX Power TX Power Digital Value x LSBrxpower TX Power Digital Value x 0 1uW RX Power RX Power Digital Value x LSBrxpower RX Power Digital Value x 0 7 uW 12 Revision S3 12 20 2007 DELTA ELECTRONICS INC www deltaww com Aneuta Status Bits and Alarm Warning Flag Bits 2 Wire Address A2h Address Name OPEP 33 A4Q1RI Description 110 TX Disable State No implemented 110 Soft TX Disable No implemented 110 Reserved 110 RX Rate Select State No implemented 110 Soft RX Rate Select No implemented 110 TX Fault State No implemented 110 Signal Detect State No implemented 110 Data_Ready_Bar No implemented 111 Reserved 112 Temp High Alarm Set when internal temperature exceeds high alarm level 112 Temp Low Alarm Set when internal temperature is below low alarm level Vcc High Alarm Set when internal supply voltage
9. BER lt 10 PRBS 2 1 NRZ This assurance should be met with asynchronous data flowing out of the optical transmitter of the system under test The output data pattern from the transmitter of the system under test is a repetition of alternate 0 1 pattern as defined for this measurement Note 2 When SD deasserted the data output is Low level fixed Note 3 These are 20 80 values Note 4 Measured at wavelength of 1490nm 5 Electrical Interface Characteristics Parameter in 3 5 Note Transmitter Total Supply Current Note 1 Differential line input Impedance Differential Data Input Swing Data Input Voltage High Data Input Voltage Low LVPECL BiasCNT Input Voltage High BiasCNT Input Voltage Low 0 8 Receiver Total Supply Current B Note 1 Differential Data Output Swing 1600 Note 2 Signal Detect Output Voltage High Vect0 3 LVTTL Signal Detect Output Voltage Low 0 8 Note 1 A TX B RX 300mA_ Not include termination circuit Note 2 Internally AC coupled but requires a 100Ohm differential termination at or internal to Serializer Deserializer LVTTL 4 Revision S3 12 20 2007 DELTA ELECTRONICS INC www deltaww com ARELTA OPEP 33 A4Q1RI 6 Transmitter Burst Mode Timing Characteristics Parameter Max BiasCNT Enable Duration Interval of BiasCNT Signal 1000000 BiasCNT Enable Duration BiasCN
10. T Interval of BiasCNT Signal BiasCNT Data Input Optical Output X X OFF Low X OFF High Floating Other Present Laser bias and modulation signal output X Don t care Other Less than 7 5dBm peak High Logic high level Low logic low level Floating No Data Input Present Data Input OFF Optical Power is less than 45dBm BiasCNT H L Optical Output E Within 15 of steady state K ra Ton t T off 7 Digital Diagnostic Monitor Accuracy Parameter Accuracy Unit Calibration Note Transceiver Internal Temperature 3 C ie Internal TC 20 85 C Power Supply Internal Voltage 3 V Internal Vcc 3 3V 5 TX Bias Current 10 mA Internal Specified by nominal bias value TX Optical Power 3dB dBm Internal Not support in burst ONU RX Optical Power 3dB dBm Internal 26 to 3dBm Note Temperature and Voltage is measured internal to the transceiver 5 Revision S3 12 20 2007 DELTA ELECTRONICS INC www deltaww com OPEP 33 A4Q1RI Aneuta 8 Pin Description Tx Rx Pin No O Pin Name Description 1 VeeR Receiver Ground 2 VcecR 3 3V Receiver Power Supply Rx 3 oO SD Normal Optical Input indicated by logic High and No Optical Input indicated by logic Low 4 O RD n Inverted Receiver Data Output AC Coupled 5 O RD Non Inverted Receiver Data Outpu
11. ZEU OPEP 33 A4Q1RI 1 25Gbps Upstream 1 25Gbps Downstream Intelligent GE PON ONU Transceiver Description DELTA s GE PON ONU transceiver OPEP 33 A4Q1RI is designed for Gigabit Ethernet Passive Optical Network transmission The module is contained in a SFF package with standard SC receptacle connector The module consists 1310nm FP laser InGaAs PIN Preamplifier and WDM filter in a high integrated optical sub assembly and it receives up to 1 25Gbps of continuous data at 1490nm and transmits 1 25Gbps of burst mode data at 1310nm DELTA ELECTRONICS INC FEATURES RoHS compliant 6 Digital Diagnostic SFF 8472 MSA compliant Support extended operating Case temperature from 20 C to 85 C EEE802 3ah Gigabit Ethernet compliant SFF package with SC Receptacle 6 1310nm Burst Mode 1 25Gbps transmitter and 1490nm Continuous Mode 1 25Gbps receiver 6 Integrated with WDM filter to cut 1550nm and 1650nm optical signal off 6 Single 3 3V power supply with LVPECL electrical signal interface LVTTL Bias Control input and Rx Signal Detect output 6 Laser Class 1 Product which comply with the requirements of IEC 60825 1 and IEC 60825 2 Application IEEE 802 3ah 1000BASE PX10 U 6 GE PON ONU Burst Mode Application FTTx WDM Broadband Access 6 OPEP 33 A4Q1RI data link up to 10km in 9 125um single mode fiber Revision S3 12 20 2007 www deltaww com NELTA OPEP 33 A4Q1RI 1 Absolute Maximum Ra
12. ber with master connector B O L Before of Life E O L End of Life Note 2 These are unfiltered 20 80 values Note 3 Measure at 2 1 NRZ PRBS pattern 2 Revision S3 12 20 2007 DELTA ELECTRONICS INC www deltaww com Aneuta Note 4 Transmitter spectral limits OPEP 33 A4Q1RI RMS spectral width max Center Wavelength 1000Base PX10 U nm nm 1260 2 09 1270 2 52 1280 3 13 1290 1295 1297 1329 3 50 1331 1340 1350 3 06 1360 2 58 Note 5 Transmitter eye mask definition Normalized Amplitude 0 XL X2 1 X2 1 X1 Normalized Time 4 Specification of Receiver Parameter Transmitter Spectral Limits 1260 1280 1300 1320 Center Wavelength nm 1340 1360 1380 1 Note Input Optical Wavelength PIN PD Receiver Sensitivity Note 1 Input Saturation Power Overload Signal Detect Assert Power Signal Detect Deassert Power Note 2 Signal Detect Hysteresis Data Output Rise Fall time Note 3 Receiver Reflectance 1480 to 1500nm Note 4 Optical Isolation 1260 to 1360nm from External 1550 to 1560nm Source 1640 to 1665nm DELTA ELECTRONICS INC 3 Revision S3 12 20 2007 www deltaww com ARELTA OPEP 33 A4Q1RI Note 1 Measured with Light source 1dBm 1490nm ER 9dB
13. t AC Coupled 6 VecT 3 3V Transmitter Power Supply 7 VeeT Transmitter Ground 8 BiasCNT Positive pulse which control the ONU burst mode operation 9 TD p Non Inverted Transmitter Data Input Tx 10 TD n Inverted Transmitter Data Input 11 VeeT Transmitter Ground 12 NC Not Connect 13 O SDA I2C Serial Data Input Output LVTTL Mod Def 2 14 SCL 12C Serial Clock Input LVTTL Mod Def 1 MS Mounting Studs Connect this pin to Chassis ground HL EMI Shielding Leads connect this pin to Chassis Signal ground DELTA ELECTRONICS INC 6 Revision S3 12 20 2007 www deltaww com Aneta OPEP 33 A4Q1RI 9 Recommended Interface Circuit DELTA GEPON ONU Module luH 3 3Vo 6 e T T T 10uF 100nF 100nF luH LYYYYY gt VW VW BiasCNT Coupled interface Transmitter SerDes IC l 10uF Protocol IC Z0 50ohm 100ohm Z0 50ohm Receiver SD 3 3V L RES RES SDA EEPROM SCL RES is the internal 4 7K to 10K Ohms pull up resistor Coupled i 1 interface DC Coupled interface TO e ee i AC Coupled interface 100nF N T o e 20 500hm g D pong Guam e me DEA _ Z0 50ohm gt O 20 50ohm 100nF Host DELTA 150ohm 1500hm Board o FZ0 500im e a J achn Sisa 33V0 V 7 Revision S3 12 20 2007 DELT
14. tings Parameter Symbol Min Typ Max Unit Note Storage Temperature Ts 40 85 C Storage Ambient Humidity HA 5 95 Power Supply Voltage Vcc 0 3 4 V Signal Input Voltage 0 3 Vcc 0 3 N Receiver Damage Threshold 2 dBm Lead Soldering Temperature T sop 260 C Lead Soldering Time tsoip 10 sec 2 Recommended Operating Conditions Parameter i Note Operating Case Temperature Note 1 Ambient Humidity Non condensing Power Supply Voltage Power Supply Current Power Supply Noise Rejection 100Hz to 1MHz Data Rate 100ppm Transmission Distance 10 Note 1 Measured on topside of case front center 3 Specification of Transmitter Parameter Max Note Average Launched Power B O L 0 5 4 Note 1 Average Launched Power E O L 1 4 5 Note 1 Launched power Peak 7 5 Extinction Ratio 9 Center Wavelength 1260 1310 1360 FP Laser Spectrum Width RMS Compliant with IEEE 802 3ah Note 4 Transmitter OFF Output Power 45 Laser Burst On Time 32 Laser Burst Off Time 32 Optical Rise Fall Time t t 260 Note 2 Total Jitter ty 128 Note 3 Optical Return Loss Tolerance ORLT 15 Relative Intensity Noise RIN 50MA 113 Optical Transmitter Reflectance 6 Transmitter and Dispersion Penalty TDP 2 8 Output Eye Mask Compliant with IEEE 802 3ah X1 X2 1 2 Y3 0 22 0 375 0 20 0 20 0 30 Note 1 Launched power avg is power coupled into a single mode fi
15. ytes Serial ID Defined by SFP MSA 96 bytes Cal Constants 40 bytes Real Time Diagnostic Interface 24 bytes Vender Specific 32 bytes Vender Specific User Writable EEPROM Reserved in SFP MSA 120 bytes 128 bytes Vender Specific 8 bytes 9 Revision S3 12 20 2007 DELTA ELECTRONICS INC www deltaww com Aneuta EEPROM Serial ID Memory Contents 2 Wire Address A0Oh OPEP 33 A4Q1RI Address Name of Field Hex Description Base ID Fields 00 __ Identifier 80 Vendor specific 01 Ext Identifier 04 Serial ID module supported 02 Connector 01 SC connector 00 00 00 80 03 10 Transceiver Codes 00 00 00 00 BASE PX 11 Encoding 01 Compatible with 8B 10B encoding code 12 BR Nominal OD Nominal 1250Mbps 13 Reserved 00 14 Length 9um km OA 10km 9 125um fiber 15 iLength Qum 100m 64 10000m 9 125um fiber 16 18 Length for MMF 00 Undefined in MMF 19 Reserved 00 20 35 Vanor Mame atom 4C BA DELTA ASCII character 36 Channel Spacing 00 Undefined 37 39 Vendor OUI 00 Undefined 4F 50 45 50 40 55 Vendor P N ot ad R OPEP 33 A4Q1RI ASCII character 52 49 20 20 56 59 Vendor P N Rev 41 20 20 20 A ASCII character 60 61 Laser Wavelength 05 1E 1310nm in Hex byte 62 DWDM Wavelength Fraction 00 Undefined 63 CC_BASE XX Check sum of bytes 0 62 Extended ID Fields 64 65 Options 00 00 66 BR Max 00 67
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