COMMUNICATIONS MODULES & SUBSYSTEMS 10 Gb/s TDM/DWDM 300 Pin SFF MSA SR2/IR2/LR2 Transponder PH1 Series Key Features * Three configurations supporting SR2/IR2/LR2 applications * Supports dense wavelength division multiplexing (DWDM) applications (without wavelocker) * Microprocessor controls to support I2C * Integrated 16:1/1:16 mux/demux * Small form factor package (2.2" x 3.0" x 0.53") for high density applications * Low power consumption: 4.8 W typical, 6.8 W maximum for TDM applications * 70 C maximum operating temperature * High sensitivity PIN or APD receivers * SONET, FEC, Ethernet and Multirate Capable Versions * Forward, counter and line timing clocking modes Applications * * * * * Telecommunications Metropolitan Area Networks Subscriber loop Intra-office SONET/SDH High bit-rate data communications Compliance * Telcordia GR-253-Core JDSU 10 Gb/s PH1 Series transponders are intended for 1550 nm system applications with reaches of up to 80 km. The series includes three different transponders for SR2 (25 km), IR2 (40 km), and LR2 (80 km) TDM or DWDM applications. Each transponder accepts 16 bits of parallel digital data and converts it to a 10 Gb/s NRZ modulated optical signal. It also accepts a 10 Gb/s NRZ modulated optical signal and converts it into 16 bit wide parallel digital data. The PH1 series offers low DC power dissipation and is available in either a small form factor package (2.2 x 3 x 0.53 inches) or in a larger footprint (3.5 x 4.5 x 0.53 inches) package, depending on system thermal performance requirements. The transmit design uses an Electro-Absorptive Modulated Laser (EML) which, depending on the configuration, produces an average output power of between -4 dBm to 2 dBm (EOL). A PIN (-17 dBm typical sensitivity) or APD (-24 dBm typical sensitivity) receiver is available, based on system configurations. JDSU PH1 Series transponders are designed to support the following data rates: 9.953 Gb/s (SONET), 10.3125 Gb/s (Ethernet), 10.664 Gb/s (FEC Encoded), 10.709 Gb/s FEC, or 11.09 Gb/s EFEC. They meet all applicable SONET/SDH standards. NORTH AMERICA : 800 498-JDSU (5378) WORLDWIDE : +800 5378-JDSU WEBSITE : www.jdsu.com PH1 SERIES 2 Dimensions Diagram (Specifications in inches [mm] unless otherwise noted.) Configuration A FIBER PIGTAIL 39.37 NOM [1 METER] 0.52 MAX [13.2] 0.5250.010 [13.340.25] 2.20 MAX [56.1] 3.00 MAX [76.5] 2X 1.20 MAX [30.0] Configuration C 0.52 MAX [13.2] 2X 3.94 MAX [100.1] 3.31 MAX [84.1] 0.8350.010 [21.210.25] 3.50 MAX [88.9] 2X 1.10 MAX [27.9] FIBER PIGTAIL 41.73 NOM [1.06 METER] PH1 SERIES 3 Module Functional Block Diagram 1.8 V Supply Source Configuration Vdd2 (1.8VDC) (K 30) TxFIFOERR (K27) TxFIFORES Vdd (3.3VDC) Vcc (5VDC) Vee ( -5.2Vdc) (B30) TxLOCKERR (K24) TxRESET TxDin (15:0) 10 Gb/s Laser Driver Mux (G28, 29) TxPICLK (J21, K21) TxRATESEL(1: 0) (E28, 29) TxPCLK (C28, 29) TxMCLK 10 Gb/s CMU Laser TEC Control 10 Gb/s Serial Optic Output LsPOWMON (D18) LsBIASMON (F18) LsENABLE (F21) TxTRACE (J29) Laser Bias Control LsTEMPMON (D21) LsTEMPALM (F27) LsBIASALM (F24 C bus (A28, 29) TxREFCLK PLL (H30) TxLINETIMESEL Jitter Filter Bypass Configuration F RAM Transmitter Receiver De -Mux (E13,14) RxPOCLK (C13,14) RxMCLK Vdd (3.3Vdc) Vcc (5VDC) Vee ( -5.2Vdc) GND EML Laser (F30) TxREFSEL RxDout (15:0) Vdd2 (1.8 VDC optional) Regulator C ALMINT (H15) I2CDATA (K18) I2CCLOCK (K15) I2CADD(2:0) (D9,6,3) MOD_RESET (D12) EEPROM TIA PD 10 Gb/s Serial Optic Input (B 15) RxLOCKERR (A13,14) RxREFCLK (B9) RxLCKREF (B6) RxMUTEDout (F15) RxREFSEL 10 Gb/s Clock Recovery PD Bias Control RxPOWMON (F3) RxPOWALM (F6) APDTEMPMON (H3) (L1 version only) RxRATESEL(1:0) (J3,K3) RxMUTEPOCLK (K9) PH1 SERIES 4 PH1 (SR2) Specifications Parameter Transmitter Output power (EOL) Extinction ratio (EOL) Tx spectral range Sidemode suppression ratio Spectral power density Jitter generation Receiver PIN input power {BER = 10-12} (EOL) Maximum overload: PIN receiver {BER = 10-12} (EOL) Rx spectral range Jitter tolerance and jitter transfer System optical return loss Optical Path Optical path penalty at 1550 nm and with 1600 ps/nm dispersion Electrical Operating case temperature TDM power dissipation with jitter filter TDM power dissipation without jitter filter Minimum Typical Maximum -4 dBm 8.2 dB 1530 nm 30 dB - -2.5 dBm GR-253 compliant -1 dBm 1570 nm 0.1 mW/MHz -15.0 dBm -1 dBm 1280 nm 1600 nm -27 dB -16.0 dBm GR-253 compliant - - - 2 dB -5 C - 5.0 W 4.8 W 70 C 7.0 W 6.8 W Minimum Typical Maximum -1 dBm 8.2 dB 1530 nm -25 pm -100 pm 30 dB - 0.5 dBm GR-253 compliant 2 dBm 1570 nm 25 pm 100 pm 0.1 mW/MHz -15.0 dBm -1 dBm 1280 nm 1600 nm -27 dB -16.0 dBm GR-253 compliant - - - 2 dB -5 C - 5.0 W 4.8 W 5.8 W 5.6 W 70 C 7.0 W 6.8 W 7.8 W 7.6 W - PH1 (IR2) Specifications Parameter Transmitter Output power (EOL) Extinction ratio (EOL) Tx spectral range Wavelength stability over operating temperature (BOL setup, 100 GHz option) Wavelength stability over operating temperature (EOL setup, 100 GHz option) Sidemode suppression ratio Spectral power density Jitter generation Receiver PIN input power {BER = 10-12} (EOL) Maximum overload: PIN receiver {BER = 10-12} (EOL) Rx spectral range Jitter tolerance and jitter transfer System optical return loss Optical Path Optical path penalty at 1550 nm and with 1600 ps/nm dispersion Electrical Operating case temperature TDM power dissipation with jitter filter TDM power dissipation without jitter filter DWDM power dissipation with jitter filter DWDM power dissipation without jitter filter - PH1 SERIES 5 PH1 (LR2) Specifications Parameter Transmitter Output power (EOL) LP and LA options LH option Extinction ratio (EOL) Tx spectral range Wavelength stability over operating temperature (BOL setup, 100 GHz option) Wavelength stability over operating temperature (EOL setup, 100 GHz option) Sidemode suppression ratio Spectral power density Jitter generation Receiver APD input power {BER = 10-12} (EOL) Maximum overload: APD receiver {BER = 10-12} (EOL) Rx spectral range Jitter tolerance and jitter transfer System optical return loss Optical Path Optical path penalty at 1550 nm and with 1600 ps/nm dispersion Electrical Operating case temperature TDM power dissipation with jitter filter TDM power dissipation without jitter filter DWDM power dissipation with jitter filter DWDM power dissipation without jitter filter Minimum Typical Maximum 0 dBm 2 dBm 9.5 dB 1530 nm -25 pm -100 pm 30 dB - 2 dBm 4 dBm GR-253 compliant 4 dBm 6 dBm 1570 nm 25 pm 100 pm 0.1 mW/MHz -24 dBm -5 dBm 1280 nm 1600 nm -27 dB -17 dBm GR-253 compliant - - - 2 dB -5 C - 8.5 W 8.7 W 6.7 W 6.5 W 70 C 7.9 W 7.7 W 8.7 W 8.5 W - PH1 SERIES Ordering Information For more information on this or other products and their availability, please contact your local JDSU account manager or JDSU directly at 1-800-498-JDSU (5378) in North America and +800-5378-JDSU worldwide or via e-mail at customer.service@jdsu.com. Sample: PH1-SI2LATD5N00 PH1Code N S F 7 G M T P Rate OC-192 SONET without jitter filter OC-192 SONET with jitter filter 10.66 Gb/s FEC with jitter filter1 10.709 Gb/s FEC with jitter filter1 10 GbE with jitter filter1 Multi-rate (SONET, 10 GbE, 10.66, 10.709 with no jitter filter1 10.66 Gb/s FEC without jitter filter1 10.709 Gb/s FEC without jitter filter1 Code I2 S2 LA LP LH Application IR-2 per GR-253-Core SR-2 per GR-253-Core LR 3/4 1550 APD Rx LR with PIN Rx LR 3/4 APD Rx (High power) Code Connector/ Pigtail Length FC/UPC/1 m pigtail length LC/SPC/1 m pigtail length SC/UPC/1 m pigtail length F L S Code A C Temperature Range, Package -50 to 70 C case, 2.2" x 3.0" x 0.53" flat top package with no heat sink -50 to 70 C case, 3.5" x 4.0" x 0.53" package with flat top and integrated heat sink fins-down Code TD5 436 432 428 424 420 416 412 408 404 400 396 392 388 384 380 376 372 368 364 360 356 352 348 344 340 336 332 328 324 320 316 312 308 304 300 296 292 288 284 280 276 272 268 264 260 256 Format/ITU Channel/Wavelength2 TDM 1550 nm C-band DWDM channels,100 GHz spacing, 1563.86 nm/191.7 GHz C-band DWDM channels,100 GHz spacing, 1563.05 nm/191.8 GHz C-band DWDM channels,100 GHz spacing, 1562.23 nm/191.9 GHz C-band DWDM channels,100 GHz spacing, 1561.42 nm/192.0 GHz C-band DWDM channels,100 GHz spacing, 1560.61 nm/192.1 GHz C-band DWDM channels,100 GHz spacing, 1559.79 nm/192.2 GHz C-band DWDM channels,100 GHz spacing, 1558.98 nm/192.3 GHz C-band DWDM channels,100 GHz spacing, 1558.17 nm/192.4 GHz C-band DWDM channels,100 GHz spacing, 1557.36 nm/192.5 GHz C-band DWDM channels,100 GHz spacing, 1556.55 nm/192.6 GHz C-band DWDM channels,100 GHz spacing, 1555.75 nm/192.7 GHz C-band DWDM channels,100 GHz spacing, 1554.94 nm/192.8 GHz C-band DWDM channels,100 GHz spacing, 1554.13 nm/192.9 GHz C-band DWDM channels,100 GHz spacing, 1553.33 nm/193.0 GHz C-band DWDM channels,100 GHz spacing, 1552.52 nm/193.1 GHz C-band DWDM channels,100 GHz spacing, 1551.72 nm/193.2 GHz C-band DWDM channels,100 GHz spacing, 1550.92 nm/193.3 GHz C-band DWDM channels,100 GHz spacing, 1550.12 nm/193.4 GHz C-band DWDM channels,100 GHz spacing, 1549.32 nm/193.5 GHz C-band DWDM channels,100 GHz spacing, 1548.51 nm/193.6 GHz C-band DWDM channels,100 GHz spacing, 1547.72 nm/193.7 GHz C-band DWDM channels,100 GHz spacing, 1546.92 nm/193.8 GHz C-band DWDM channels,100 GHz spacing, 1546.12 nm/193.9 GHz C-band DWDM channels,100 GHz spacing, 1545.32 nm/194.0 GHz C-band DWDM channels,100 GHz spacing, 1544.53 nm/194.1 GHz C-band DWDM channels,100 GHz spacing, 1543.73 nm/194.2 GHz C-band DWDM channels,100 GHz spacing, 1542.94 nm/194.3 GHz C-band DWDM channels,100 GHz spacing, 1542.14 nm/194.4 GHz C-band DWDM channels,100 GHz spacing, 1541.35 nm/194.5 GHz C-band DWDM channels,100 GHz spacing, 1540.56 nm/194.6 GHz C-band DWDM channels,100 GHz spacing, 1539.77 nm/194.7 GHz C-band DWDM channels,100 GHz spacing, 1538.98 nm/194.8 GHz C-band DWDM channels,100 GHz spacing, 1538.19 nm/194.9 GHz C-band DWDM channels,100 GHz spacing, 1537.40 nm/195.0 GHz C-band DWDM channels,100 GHz spacing, 1536.61 nm/195.1 GHz C-band DWDM channels,100 GHz spacing, 1535.82 nm/195.2 GHz C-band DWDM channels,100 GHz spacing, 1535.04 nm/195.3 GHz C-band DWDM channels,100 GHz spacing, 1534.25 nm/195.4 GHz C-band DWDM channels,100 GHz spacing, 1533.47 nm/195.5 GHz C-band DWDM channels,100 GHz spacing, 1532.68 nm/195.6 GHz C-band DWDM channels,100 GHz spacing, 1531.90 nm/195.7 GHz C-band DWDM channels,100 GHz spacing, 1531.12 nm/195.8 GHz C-band DWDM channels,100 GHz spacing, 1530.33 nm/195.9 GHz C-band DWDM channels,100 GHz spacing, 1529.55 nm/196.0 GHz C-band DWDM channels,100 GHz spacing, 1528.77 nm/196.1 GHz C-band DWDM channels,100 GHz spacing, 1527.99 nm/196.2 GHz Code 2 5 1 N Channel Width 25 GHz 1 50 GHz 1 100 GHz Not used Code Custom Options Please consult JDSU 1. Future option. 2. Please consult JDSU for other DWDM channel option. Telcordia is a registered trademark of Telcordia Technologies Incorporated. All statements, technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate. However, the accuracy or completeness thereof is not guaranteed, and no responsibility is assumed for any inaccuracies. The user assumes all risks and liability whatsoever in connection with the use of a product or its application. JDSU reserves the right to change at any time without notice the design, specifications, function, fit or form of its products described herein, including withdrawal at any time of a product offered for sale herein. JDSU makes no representations that the products herein are free from any intellectual property claims of others. Please contact JDSU for more information. JDSU and the JDSU logo are trademarks of JDS Uniphase Corporation. Other trademarks are the property of their respective holders. (c)2006 JDS Uniphase Corporation. All rights reserved. 10143062 Rev. 002 05/06 PH1.DS.CMS.AE NORTH AMERICA : 800 498-JDSU (5378) WORLDWIDE : +800 5378-JDSU WEBSITE : www.jdsu.com