P1TX4C-SX4-01MM Product Specification Sheet ORIGINATOR: C. ENG DATE: DOCUMENT NO. DOC002327 P1TX4C-SX4x-01MM Product Specification 7/8/2011 REV SHEET 1 OF 7 A 1.0 Features • • • • Multiple signals over one multimode fiber Integrated microcontroller for laser driver control ~ 0.5W power consumption Metal enclosure with SC optical interface 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 (per IEC 60825-1:2007) 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 DATE: DOCUMENT NO. DOC002327 P1TX4C-SX4x-01MM Product Specification 7/8/2011 REV SHEET 2 OF 7 A 2.0 Absolute Maximum Ratings Parameter Symbol 1 Storage Temperature 3.3V Supply Voltage 2 Operating Surface Temperature 3 Operating Humidity Durability – SC Connector Durability – Plug-down Connector 3.0 Min Typ Max Tst VCC1 Ta RH Units °C V °C % cycles cycles 200 50 Optical Characteristics Parameter (per Channel) 4 Average Optical Power, per Lane Symbol Pout Min Typ Max 0.0 Optical Modulation Amplitude Units dBm dBm Center Wavelength – Lane 0 778 nm Center Wavelength – Lane 1 800 nm Center Wavelength – Lane 2 825 nm Center Wavelength – Lane 3 850 nm 200 100 ps 5 Optical Rise/Fall Time P1TX4C-SX4V-01 P1TX4C-SX4D-01 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 See outline drawing for measurement point. 3 Non condensing, 80% RH. 4 I= 5mA, T=25C. Measured at the end of a 2m section of 62.5µ fiber. 5 Rise and fall times measured from 20 - 80% ORIGINATOR: C. ENG DATE: DOCUMENT NO. DOC002327 P1TX4C-SX4x-01MM Product Specification 7/8/2011 REV SHEET 3 OF 7 A 4.0 Electrical Specifications Parameter Symbol Min Typ Max Units 6 Data Rate per Wavelength P1TX4C-SX4V-01 P1TX4C-SX4D-01 Gb/s 7 Total Jitter (RMS) per lane TJ1 Input Differential Impedance 5.0 10 ps 100 ohm Input Differential Voltage mVp-p Single-ended Input Voltage Common mode input voltage (AC-coupled input) mVp-p 2.6 V Operating Supply Voltage Vcc-Vee 3.30 V Operating Supply Current Icc 140 mA Fiber Transmission Distance8 Data Rate Skew Limit OM1 OM2 OM3 Units 1.65 Gbps None 200 400 1000 m 2.42ns 200 400 400 m None 100 200 500 m 2.42ns 100 200 400 m 1.78ns 100 200 294 m 3.50 Gbps 6 Requires DC-balanced data pattern and a max run length of 80 bits. Measured with input signals conforming to HDMI rev 1.3a, section 4.2.4, figure 4-18. 7 Based on a jitter-free source. For optimal performance, clocks should be transmitted on Lane 0 8 Max distance considers the worst-case conditions. Actual distance may be up to 4x specified distance. ORIGINATOR: C. ENG DATE: DOCUMENT NO. DOC002327 P1TX4C-SX4x-01MM Product Specification 7/8/2011 REV SHEET 4 OF 7 A 6.0 Pin Numbers and Descriptions The TX-SX4 plugs into a 30 pin connector. For information on the specifications of the connector, contact Hirose (DF12(4.0)-30DP-0.5V(86)). 7.0 Pin # Signal Name Description 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 GND NC + IN0 NC - IN0 NC + IN1 NC - IN1 NC + IN2 NC - IN2 NC + IN3 NC - IN3 EN GND NC NC NC NC NC NC NC NC VCC GND VCC Ground No connect Ch 0 + Data Input No connect Ch 0 - Data Input No connect Ch 1 + Data Input No connect Ch 1 - Data Input No connect Ch 2 + Data Input No connect Ch 2 - Data Input No connect Ch 3 + Data Input No connect Ch 3 - Data Input Enable Ground No connect No connect No connect No connect No connect No connect No connect No connect Voltage Input Ground Voltage Input Ground No Connect9 Positive differential input for 778nm channel No Connect9 Negative differential input for 778nm channel No Connect9 Positive differential input for 800nm channel No Connect9 Negative differential input for 800nm channel No Connect9 Positive differential input for 825nm channel No Connect9 Negative differential input for 825nm channel No Connect9 Positive differential input for 850nm channel No Connect9 Negative differential input for 850nm channel 3.3V=normal operation, 0V turns off lasers Ground No Connect9 No Connect9 No Connect9 No Connect9 No Connect9 No Connect9 No Connect9 No Connect9 +3.3 volt input Ground +3.3 volt input Laser Safety The P1TX4C-SX4x-01 meets Class-3 requirements. 9 NC = No Connect. Do not connect anything to this PIN. ORIGINATOR: C. ENG DATE: DOCUMENT NO. DOC002327 P1TX4C-SX4x-01MM Product Specification 7/8/2011 REV SHEET 5 OF 7 A 8.0 Environmental Standards Omron Network Products designs and manufactures its products to minimize the negative impact on our environment. As such, the P1TX4C-SX4-01MM conforms to a variety of environmental and safety standards Standard RoHS ORIGINATOR: C. ENG Compliant Yes Certificate Available Yes DATE: DOCUMENT NO. DOC002327 P1TX4C-SX4x-01MM Product Specification 7/8/2011 REV SHEET 6 OF 7 A 9.0 Dimensions The SX4 TOSA is designed to work with a standard SC ferrule only. Insertion of any other type may result in damage. Dimensions (mm) and orientation are for reference only. Temperature measurement point ORIGINATOR: C. ENG DATE: DOCUMENT NO. DOC002327 P1TX4C-SX4x-01MM Product Specification 7/8/2011 REV SHEET 7 OF 7 A