P/N: B-1x/1x-155(C)-F-SSC3x(-G5) 155 Mbps Bi-directional Receptacle Single Fiber Transceiver Features z z z z z z z z z z z z z Diplexer Single Mode Single Fiber 2x5 SFF SC Receptacle connector Wavelength Tx 1310nm/Rx 1530 nm (B-13/15-155(C)-F-SSC3x) Wavelength Tx 1530nm/Rx 1310 nm (B-15/13-155(C)-F-SSC3x) SONET OC-3 SDH STM-1 Compliant Single +3.3V Power Supply LVPECL Differential Inputs and Outputs (B-1x/1x-155-F-SSC3x) LVTTL Differential Inputs and Outputs (B-1x/1x-155C-F-SSC3x) Wave Solderable and Aqueous Washable Class 1 Laser Int. Safety Standard IEC-825 Compliant Uncooled Laser diode with MQW structure Complies with Telcordia (Bellcore) GR-468-CORE EMI Shielding Finger Optional RoHS compliance available Table 1 - Absolute Maximum Rating Parameter Symbol Min. Typical Max. Unit Power Supply Voltage Vcc 0 - 3.6 V Output Current Iout - - 30 mA - - - 260 C 1 Tstg Tstg 0 - 70 C 2 -40 - 85 C 3 Symbol Min. Typical Max. Unit Notes Power Supply Voltage Vcc 3.1 3.3 3.5 V 4 Operating Temperature (Case) Topr 0 - 70 C DR - 155 - Mbps Soldering Temperature Storage Temperature Storage Temperature Notes Note 1: 10 senconds on leads only Note 2: B-1x/1x-155(C)-F-SSC3(S) Note 3: B-1x/1x-155(C)-F-SSC3A(S) Table 2 - Recommended Operating Condition Parameter Data Rate Note 4: please refer to ordering information -1- DS-5750 Rev 0.0 2009-09-04 P/N: B-1x/1x-155(C)-F-SSC3x(-G5) 155 Mbps Bi-directional Receptacle Single Fiber Transceiver Table 3 - Transmitter Specifications (Optical) Parameter Symbol Min. Typical Max. Unit Notes Optical Transmit Power Po -14 - -8 dBm 5 Output Center Wavelength c 1260 1310 1360 nm 6 Output Center Wavelength c 1480 1530 1580 nm 7 - - 3 nm 8 ER 8.2 - - dB Output Spectrum Width Extinction Ratio Output Eye Compliant with ITU-T recommendation G.957/STM-1 Optical Rise/Fall Time Optical Isolation Relative Intensity Noise Total Jitter tr /tf - - 2 ns 9 - 30 - - dB 10 RIN - - -116 dB/Hz TJ - - 1.0 ns 11 Note 5: Output power is coupled into a 9/125 m single mode fiber Note 6: B-13/15-155(C)-F-SSC3x Note 7: B-15/13-155(C)-F-SSC3x Note 8: RMS () Note 9: 10% to 90% Values Note 10: Tx: 1310 nm/ Rx: 1550 nm Note 11: Measured with 223-1 PRBS with 72 ones and 72 zeros. Table 4 - Transmitter Specifications (Electrical) Parameter Symbol Min. Typical Max. Unit Notes Power Supply Current ICC - - 140 mA 12 Data Input Current-Low IIL -350 - - A Data Input Current-High IIH - - 350 A Differential Input Voltage VIH-VIL 300 - - mV Data Input Voltage-Low VIL-VCC -2.0 - -1.58 mV Data Input Voltage-High VIH-VCC -1.1 - -0.74 mV 13 Note 12: Maximum current is specified at Vcc=Maximum @ maximum temperature Note 13: These inputs are compatible with 10K, 10KH and 100K ECL and PECL inputs -2- DS-5750 Rev 0.0 2009-09-04 P/N: B-1x/1x-155(C)-F-SSC3x(-G5) 155 Mbps Bi-directional Receptacle Single Fiber Transceiver Table 5 - Receiver Specifications (Optical) Parameter Symbol Min. Typical Max. Unit Notes - - - -33 dBm 14 Maximum Input Power Pin -3 - - dBm Signal Detect-Asserted Pa - - -33 dBm 15 Signal Detect-Deasserted Pd -45 - - dBm 16 Signal Detect-Hysteresis - 1.0 - 4.0 dB Cross Talk - - - -33 dB 1480 - 1600 nm 17 1260 - 1360 nm 18 Sensitivity Wavelength of Operation Wavelength of Operation 23-1 -10 Note 14: Measured with 2 PRBS, BER = 10 . Note 15: Measured on transition: low to high, The SD level should be deasserted when fiber disconnected Note 16: The SD level should be deasserted when fiber is disconnected Note 17: B-13/15-155(C)-F-SSC3x Note 18: B-15/13-155(C)-F-SSC3x Table 6 - Receiver Specifications (Electrical) Parameter Symbol Min. Typical Max. Unit Notes ICC - - 100 mA 19 Data Output Voltage-Low VOL-VCC -2.0 - -1.58 V Data Output Voltage-High VOH-VCC -1.1 - -0.74 V Signal Detect Output Voltage-Low VSDL-VCC -2.0 - -1.58 V Signal Detect Output Voltage-High VSDH-VCC -1.1 - -0.74 V Signal Detect Output Voltage-Low VSDL-VCC - - 0.5 V Signal Detect Output Voltage-High VSDH-VCC 2.0 - - V Power Supply Current 20 21 22 Note 19: The current excludes the output load current Note 20: These outputs are compatible with 10K, 10KH and 100KECL and LVPECL outputs. Note 21: LVPECL, B-1x/1x-155-F-SLC3x Note 22: LVPECL, B-1x/1x-155C-F-SLC3x -3- DS-5750 Rev 0.0 2009-09-04 P/N: B-1x/1x-155(C)-F-SSC3x(-G5) 155 Mbps Bi-directional Receptacle Single Fiber Transceiver Connection Diagram Table 7 - Pin Definitions Pin Unit Notes 1 RxGND Directly connect this pin to the receiver ground plane 2 RxVcc +3.3V dc power for the receiver section 3 SD Active high on this indicates a received optical signal(LVPECL/LVTTL) 4 RD- Receiver Data Out Bar(LVPECL) 5 RD+ Receiver Data Out (LVPECL) 6 TxVcc +3.3V dc power for the transmitter section 7 TxGND Directly connect this pin to the tranmitter ground plane 8 TxDIS Transmitter disable(LVTTL) 9 TD+ Transmitter Data In (LVPECL) 10 TD- Transmitter Data In Bar (LVPECL) -4- DS-5750 Rev 0.0 2009-09-04 P/N: B-1x/1x-155(C)-F-SSC3x(-G5) 155 Mbps Bi-directional Receptacle Single Fiber Transceiver Recommended Circuit Schematic B-1x/1x-155-F-SSC3x(-G5) PHY DEVICE TERMINATE AT TRANSCEIVER INPUTS Vcc(+3.3V) Z=50 TD- LVPECL 100 Z=50 TD+ 130 130 Tx Disable TxGND TxVcc RD- RD+ Rx 6 TxDIS Tx 7 SD TD+ RxVcc 8 TD- 9 RxGND 10 1H Vcc(+3.3V) C2 C3 10F Vcc(+3.3V) 1H C1 1 2 3 4 LVTTL RD+ 5 Z=50 100 LVPECL RD- Z=50 130 Vcc(+3.3V) 130 Z=50 130 SD LVPECL 82 NOTE:C1=C2=C3=100nF TERMINATE AT DEVICE INPUTS The split-loaded terminations for ECL signals need to be located at the input of devices receiving those ECL signals. The power supply filtering is required for good EMI performance. Use short tracks from the inductor L1/L2 to the module Rx Vcc. A GND plane under the module is required for good EMI and sensitivity performance. -5- DS-5750 Rev 0.0 2009-09-04 P/N: B-1x/1x-155(C)-F-SSC3x(-G5) 155 Mbps Bi-directional Receptacle Single Fiber Transceiver Recommended Circuit Schematic B-1x/1x-155C-F-SSC3x(-G5) PHY DEVICE TERMINATE AT TRANSCEIVER INPUTS Vcc(+3.3V) Z=50 TD- LVPECL 100 Z=50 TD+ 130 130 Tx Disable TxGND TxVcc RD- RD+ Rx 6 TxDIS Tx 7 SD TD+ RxVcc 8 TD- 9 RxGND 10 1H Vcc(+3.3V) C2 C3 10F Vcc(+3.3V) 1H C1 1 2 3 4 LVTTL RD+ 5 Z=50 100 LVPECL RD- Z=50 Vcc(+3.3V) Z=50 SD LVTTL NOTE:C1=C2=C3=100nF TERMINATE AT DEVICE INPUTS The split-loaded terminations for ECL signals need to be located at the input of devices receiving those ECL signals. The power supply filtering is required for good EMI performance. Use short tracks from the inductor L1/L2 to the module Rx Vcc. A GND plane under the module is required for good EMI and sensitivity performance. -6- DS-5750 Rev 0.0 2009-09-04 P/N: B-1x/1x-155(C)-F-SSC3x(-G5) 155 Mbps Bi-directional Receptacle Single Fiber Transceiver Recommended Board Layout Hole Pattern DIMENSION IN MILLIMETER (INCHES) NOTES: 1.THIS FIGURE DESCRIBE THE RECOMMAND CIRCUIT BOARD LAYOUT FOR THE SFF TRANSCEIVER. 2.THE HATCHED AREAS ARE KEEP-OUT AREAS RESERVED FOR HOUSING STANDOFF. NO METAL TRACES OR GROUND CONNECTION IN KEEP-OUT AREAS. 3.THE MOUNTING STUDS SHOULD BE SOLDERED TO CHASSIS GROUND FOR MECHANICAL INTEGRITY. -7- DS-5750 Rev 0.0 2009-09-04 P/N: B-1x/1x-155(C)-F-SSC3x(-G5) 155 Mbps Bi-directional Receptacle Single Fiber Transceiver Package Diagram B-1x/1x-155(C)-F-SSC3(A) Units: mm Housing Lead PIN 1 PIN 5 Stand-off Housing Lead Stud Stand-off -8- PIN 10 PIN 6 Stand-off DS-5750 Rev 0.0 2009-09-04 P/N: B-1x/1x-155(C)-F-SSC3x(-G5) 155 Mbps Bi-directional Receptacle Single Fiber Transceiver Package Diagram B-1x/1x-155(C)-F-SSC3S Units: mm B-1x/1x-155(C)-F-SSC3AS Matel Finger Stand-off PIN 1 PIN 5 Stand-off Housing Lead Stud PIN 10 PIN 6 Stand-off Housing Lead -9- DS-5750 Rev 0.0 2009-09-04 P/N: B-1x/1x-155(C)-F-SSC3x(-G5) 155 Mbps Bi-directional Receptacle Single Fiber Transceiver Order Information Table 8 - Order Information Part No. Part No. B-13/15-155-F-SSC3 B-13/15-155C-F-SSC3 B-15/13-155-F-SSC3 B-15/13-155C-F-SSC3 B-13/15-155-F-SSC3A B-13/15-155C-F-SSC3A B-15/13-155-F-SSC3A B-15/13-155C-F-SSC3A B-13/15-155-F-SSC3S B-13/15-155C-F-SSC3S B-15/13-155-F-SSC3S B-15/13-155C-F-SSC3S B-13/15-155-F-SSC3AS B-13/15-155C-F-SSC3AS B-15/13-155-F-SSC3AS B-15/13-155C-F-SSC3AS B-13/15-155-F-SSC3-G5 B-13/15-155C-F-SSC3-G5 B-15/13-155-F-SSC3-G5 B-15/13-155C-F-SSC3-G5 B-13/15-155-F-SSC3A-G5 B-13/15-155C-F-SSC3A-G5 B-15/13-155-F-SSC3A-G5 B-15/13-155C-F-SSC3A-G5 B-13/15-155-F-SSC3S-G5 B-13/15-155C-F-SSC3S-G5 B-15/13-155-F-SSC3S-G5 B-15/13-155C-F-SSC3S-G5 B-13/15-155-F-SSC3AS-G5 B-13/15-155C-F-SSC3AS-G5 B-15/13-155-F-SSC3AS-G5 B-15/13-155C-F-SSC3AS-G5 - 10 - DS-5750 Rev 0.0 2009-09-04 P/N: B-1x/1x-155(C)-F-SSC3x(-G5) 155 Mbps Bi-directional Receptacle Single Fiber Transceiver Part Numbering Definition: B - 1x/1x - 155(C) - F - S SC 3 Operating Temperature Shielding Finger -RoHS Wavelength : 13/15 = Tx Wavelength = 1310nm Rx Wavelength = 1530nm 15/13 = Tx Wavelength = 1530nm Rx Wavelength = 1310nm Communication Protocol (155Mbps) +3.3V SFF Transceiver Single mode fiber Connector options Intermediate Reach Operating Temperature Blank = Commercial temperature (0 to 70oC) A = Commercial temperature (-40 to 85oC) Shielding Finger Option Blank = No shielding finger S = with Shielding finger RoHS compliance available G5 = RoHS 5/6-compliant product (lead exemption) - 11 - DS-5750 Rev 0.0 2009-09-04 P/N: B-1x/1x-155(C)-F-SSC3x(-G5) 155 Mbps Bi-directional Receptacle Single Fiber Transceiver Warnings Handling Precautions: This device is susceptible to damage as a result of electrostatic discharge (ESD). A static free environment is highly recommended. Follow guidelines according to proper ESD procedures. Laser Safety: Radiation emitted by laser devices can be dangerous to human eyes. Avoid eye exposure to direct or indirect radiation. Legal Notice IMPORTANT NOTICE! All information contained in this document is subject to change without notice, at Source Photonics' sole and absolute discretion. Source Photonics warrants performance of its products to current specifications only in accordance with the company's standard one-year warranty; however, specifications designated as "preliminary" are given to describe components only, and Source Photonics expressly disclaims any and all warranties for said products, including express, implied, and statutory warranties, warranties of merchantability, fitness for a particular purpose, and non-infringement of proprietary rights. Please refer to the company's Terms and Conditions of Sale for further warranty information. Source Photonics assumes no liability for applications assistance, customer product design, software performance, or infringement of patents, services, or intellectual property described herein. No license, either express or implied, is granted under any patent right, copyright, or intellectual property right, and Source Photonics makes no representations or warranties that the product(s) described herein are free from patent, copyright, or intellectual property rights. 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. Source Photonics customers using or selling products for use in such applications do so at their own risk and agree to fully defend and indemnify Source Photonics for any damages resulting from such use or sale. THE INFORMATION CONTAINED IN THIS DOCUMENT IS PROVIDED ON AN "AS IS" BASIS. Customer agrees that Source Photonics is not liable for any actual, consequential, exemplary, or other damages arising directly or indirectly from any use of the information contained in this document. Customer must contact Source Photonics to obtain the latest version of this publication to verify, before placing any order, that the information contained herein is current. Contact U.S.A. Headquarters 20550 Nordhoff Street Chatsworth, CA 91311 USA Tel: +1-818-773-9044 Fax: +1-818-773-0261 sales@sourcephotonics.com China Building #2&5, West Export Processing Zone No. 8 Kexin Road, Hi-Tech Zone Chengdu, 611731, China Tel: +86-28-8795-8788 Fax: +86-28-8795-8789 sales@sourcephotonics.com.cn Taiwan 9F, No 81, Shui Lee Rd. Hsinchu, 300, Taiwan R.O.C. Tel: +886-3-5169222 Fax: +886-3-5169213 sales@sourcephotonics.com.tw (c) Copyright Source Photonics, Inc. 2007~2008 All rights reserved - 12 - DS-5750 Rev 0.0 2009-09-04