P1RX6B-SX51-02A Product Specification Sheet ORIGINATOR: C. ENG P1RX6B-SX51-02A Product Spec Sheet DATE: 3/9/2012 DOCUMENT NO. DOC002323 SHEET 1 OF 8 CONFIDENTIAL INFORMATION REV A 1.0 Features • • • • • • 5 receive lanes and 1 transmit lane over a single multimode fiber Low power consumption (1.1W) Mechanical enclosure serves as heat sink while allowing for FCC part 15 Class A compliance No manipulating or compressing the data Small footprint High-speed CML outputs This device is EXTREMELY SENSITIVE to Electrostatic Discharge (ESD). At a minimum, all handling must be performed in accordance with an ANSI-compliant ESD Control Program (ANSI/ESD S20.20-2007) to mitigate possible ESD-induced damage. Reliability and life of the device will be adversely affected if these precautions are not met. This device is a Class 3R Laser device and can cause damage to eye sight if used improperly. Refer to ANSI Z136 for proper handling and usage of Class 3R devices. ORIGINATOR: C. ENG P1RX6B-SX51-02A Product Spec Sheet DATE: 3/9/2012 DOCUMENT NO. DOC002323 SHEET 2 OF 8 CONFIDENTIAL INFORMATION REV A 2.0 Absolute Maximum Ratings Parameter Symbol 1 Storage Temperature 2 3 Supply Voltage 4 Operating Surface Temperature 5 Operating Humidity 6 Input Voltage 3.0 Min Typ Max Tst Vcc Ta RH VIN Units °C V °C % V Optical Characteristics – High-speed Lanes Parameter (per lane) Symbol Min Typ Max Units Wavelength – Lane 0 778 nm Wavelength – Lane 1 800 nm Wavelength – Lane 2 825 nm 850 nm Wavelength – Lane 3 7 Data Rate SX51V SX51D Gb/s Peak Optical Input Power Pin dBm Peak Optical Modulation Power Pin dBm 8 OMA Sensitivity -16.00 Input Data Pattern dBm DC-balanced 1 Stresses listed may be applied without causing damage. Functionality at or above the values listed is not implied. Exposure to these values for extended periods may affect reliability. 2 Supply voltage must be present before input signal may be applied 3 Module must be powered down (OFF) before installation/removal. 4 See outline drawing for measurement point. Omron strongly recommends mounting with a heat sink. 5 Non condensing. Do not operate device if wet. 6 Supply voltage must be present before input signal may be applied. Driving the device in a power OFF state may result in permanent damage to the input pins. 7 Requires DC-balanced data pattern. 8 Optical Modulation Amplitude. Based on an unstressed input signal. ORIGINATOR: C. ENG P1RX6B-SX51-02A Product Spec Sheet DATE: 3/9/2012 DOCUMENT NO. DOC002323 SHEET 3 OF 8 CONFIDENTIAL INFORMATION REV A 4.0 Electrical Specifications – High-speed Lanes Parameter Symbol Low Frequency Cutoff Typ Max Units 175 kHz 9 TJ1 10 ps 10 VOD 500 mVp-p LOSSEN-ON -14.50 dBm Loss of Signal De-Assert Sensitivity LOSSEN-OFF -13.00 dBm Total Jitter (RMS), per lane Differential Output Voltage Loss of Signal Assert Sensitivity Loss of Signal Output Low 5.0 Min FCUTOFF 11 VLOS V Loss of Signal Output High VLOS V Operating Supply Voltage Vcc-Vee Operating Supply Current Icc 3.30 V mA Optical Characteristics – Bi-Directional Lanes Receive Parameter Symbol Min Wavelength - Lane 4 Typ Max 911 Units nm Data Rate Mb/s Peak Optical Input Power Pin dBm Peak Optical Modulation Power Pin dBm 12 OMA Sensitivity -15.00 Input Data Pattern dBm DC-balanced Transmit Parameter Symbol Average Optical Power - Lane 5 Min Pavg Typ Max Units -1.5 dBm 0.0 dBm Wavelength - Lane 5 980 nm Optical Rise/Fall Time 2000 Ps Optical Modulation Amplitude 9 Based on a jitter-free source Differential back-terminated CML outputs 11 This output is asserted low when a loss of signal is detected on all lanes 12 Optical Modulation Amplitude. Based on an unstressed input signal. 10 ORIGINATOR: C. ENG P1RX6B-SX51-02A Product Spec Sheet DATE: 3/9/2012 DOCUMENT NO. DOC002323 SHEET 4 OF 8 CONFIDENTIAL INFORMATION REV A 6.0 Electrical Specifications – Bi-Directional Lanes Receive Parameter Symbol Low Frequency Cutoff Total Jitter (RMS) 13 14 Differential Output Voltage Min Typ Max FCUTOFF 35 kHz TJ1 25 ps VOD 835 mVp-p LOSSEN-ON -15.5 dBm Loss of Signal De-Assert Sensitivity LOSSEN-OFF -13.5 dBm Loss of Signal Assert Sensitivity Loss of Signal Output Low 15 Loss of Signal Output High Transmit Parameter VLOS V VLOS V Symbol Min Typ Data Rate per Lane Input Differential Impedance Differential Input Voltage – Lane 2,16 5 Input Data Pattern 7.0 Units 100 Max Units 155 Mb/s ohm mVp-p DC-balanced Laser Safety The P1RX6-SX51-02 meets Class-3R requirements.17 protection and handling practices per ANSI Z136.1. Please use proper eye 13 Based on a jitter-free source Differential back-terminated CML outputs 15 This output is asserted low when a loss of signal is detected on all lanes 16 Differential CML compatible inputs 17 Lane 4 data input with 50% duty cycle 14 ORIGINATOR: C. ENG P1RX6B-SX51-02A Product Spec Sheet DATE: 3/9/2012 DOCUMENT NO. DOC002323 SHEET 5 OF 8 CONFIDENTIAL INFORMATION REV A 8.0 Pin Numbers and Descriptions18 The RX Data Module contains a 30 pin connector (DF12-30DS-0.5V(86)). For information on the specifications of the mating connector (DF12(4.0)-30DP0.5V(86)), contact Hirose. Pin # Signal Name Description 1 GND Ground 2 LOSHI High Speed LOS Loss of Signal – High Speed Channels 3 + TD0 Ch 0 + Data Output Positive differential output for 778nm lane 4 LOSBI Ch 4 LOS Loss of Signal – Bi-Directional Channel 5 - TD0 Ch 0 - Data Output Negative differential output for 778nm lane 6 Reset Reset 7 + TD1 Ch 1 + Data Output Positive differential output for 800nm lane 8 UART UART_TX Reserved for future use 9 - TD1 Ch 1 - Data Output Negative differential output for 800nm lane 10 UART UART_RX Reserved for future use 11 + TD2 Ch 2 + Data Output Positive differential output for 825nm lane 19 Microcontroller Reset 12 NC No connect Reserved for future use 13 - TD2 Ch 2 - Data Output Negative differential output for 825nm lane 14 NC No connect Reserved for future use 15 + TD3 Ch 3 + Data Output Positive differential output for 850nm lane 16 ENBI Enable 17 - TD3 Ch 3 - Data Output Negative differential output for 850nm lane 18 NC No connect Reserved for future use 19 GND Ground 20 Enable – Bi-directional laser 20 NC No connect Reserved for future use 21 - IN5 Ch 5 - Data Input Negative differential input for 980nm lane 22 NC No connect Reserved for future use 23 + IN5 Ch 5 - Data Input Positive differential input for 980nm lane 24 NC No connect Reserved for future use 25 + TD4 Ch 4 - Data Output Positive differential output for 911nm lane 26 NC No connect Reserved for future use 27 - TD4 Ch 4 - Data Output Negative differential output for 911nm lane +3.3 volt input 2 28 VCC Voltage Input 29 GND Ground 30 VCC 2 Voltage Input +3.3 volt input 18 Verify pin assignments and polarity before powering on device Reset must be pulled high for normal operation 20 Enable to be pulled up to VCC for normal operation 19 ORIGINATOR: C. ENG P1RX6B-SX51-02A Product Spec Sheet DATE: 3/9/2012 DOCUMENT NO. DOC002323 SHEET 6 OF 8 CONFIDENTIAL INFORMATION REV A 9.0 Environmental Standards Omron Network Products designs and manufactures its products to minimize the negative impact on our environment. As such, the P1RX6B-SX51-02 conforms to a variety of environmental and safety standards Standard RoHS REACH FCC Part 15 Class A ORIGINATOR: Compliant Yes Yes Yes C. ENG P1RX6B-SX51-02A Product Spec Sheet Certificate Available Yes Yes No DATE: 3/9/2012 DOCUMENT NO. DOC002323 SHEET 7 OF 8 CONFIDENTIAL INFORMATION REV A 10.0 Dimensions The SX51-02 data module is designed to work with a standard SC ferrule only. Insertion of any other type may result in damage. Dimensions and orientation are for reference only. Customers can request final, detailed dimensions, or a CAD drawing, through your Omron sales representative. Temperature Measurement Point Dimensions are in mm ORIGINATOR: C. ENG P1RX6B-SX51-02A Product Spec Sheet DATE: 3/9/2012 DOCUMENT NO. DOC002323 SHEET 8 OF 8 CONFIDENTIAL INFORMATION REV A