originator: c. eng date: 7/8/2011 document no. doc002327 rev a p1tx4c-sx4x-01mm product specification sheet 1 of 7 p1tx4c-sx4-01mm product specification sheet
originator: c. eng date: 7/8/2011 document no. doc002327 rev a p1tx4c-sx4x-01mm product specification sheet 2 of 7 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, a ll 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 p recautions are not met. this device is a class 3r laser device (per iec 608 25-1:2007) and can cause damage to eye sight if use d improperly. refer to ansi z136 for proper handling and usage of class 3r devi ces.
originator: c. eng date: 7/8/2011 document no. doc002327 rev a p1tx4c-sx4x-01mm product specification sheet 3 of 7 2.0 absolute maximum ratings parameter symbol min typ max units storage temperature 1 tst c 3.3v supply voltage vcc1 v operating surface temperature 2 ta c operating humidity 3 rh % durability C sc connector 200 cycles durability C plug-down connector 50 cycles 3.0 optical characteristics parameter (per channel) symbol min typ max units average optical power, per lane 4 pout 0.0 dbm optical modulation amplitude dbm center wavelength C lane 0 778 nm center wavelength C lane 1 800 nm center wavelength C lane 2 825 nm center wavelength C lane 3 850 nm optical rise/fall time 5 p1tx4c-sx4v-01 p1tx4c-sx4d-01 200 100 ps 1 stresses listed may be applied without causing dama ge. 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 62.5 fiber. 5 rise and fall times measured from 20 - 80%
originator: c. eng date: 7/8/2011 document no. doc002327 rev a p1tx4c-sx4x-01mm product specification sheet 4 of 7 4.0 electrical specifications parameter symbol min typ max units data rate per wavelength 6 p1tx4c-sx4v-01 p1tx4c-sx4d-01 gb/s total jitter (rms) per lane 7 t j1 10 ps input differential impedance 100 ohm input differential voltage mvp-p single-ended input voltage mvp-p common mode input voltage (ac-coupled input) 2.6 v operating supply voltage vcc-vee 3.30 v operating supply current icc 140 ma 5.0 fiber transmission distance 8 data rate skew limit om1 om2 om3 units none 200 400 1000 m 1.65 gbps 2.42ns 200 400 400 m none 100 200 500 m 2.42ns 100 200 400 m 3.50 gbps 1.78ns 100 200 294 m 6 requires dc-balanced data pattern and a max run len gth of 80 bits. measured with input signals confor ming 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 o n lane 0 8 max distance considers the worst-case conditions. actual distance may be up to 4x specified distance.
originator: c. eng date: 7/8/2011 document no. doc002327 rev a p1tx4c-sx4x-01mm product specification sheet 5 of 7 6.0 pin numbers and descriptions the tx-sx4 plugs into a 30 pin connector. for info rmation on the specifications of the connector, contact hirose (df12(4.0)-30dp-0.5v(86)). pin # signal name description 1 gnd ground ground 2 nc no connect no connect 9 3 + in0 ch 0 + data input positive differential inp ut for 778nm channel 4 nc no connect no connect 9 5 - in0 ch 0 - data input negative differential inp ut for 778nm channel 6 nc no connect no connect 9 7 + in1 ch 1 + data input positive differential inp ut for 800nm channel 8 nc no connect no connect 9 9 - in1 ch 1 - data input negative differential inp ut for 800nm channel 10 nc no connect no connect 9 11 + in2 ch 2 + data input positive differential in put for 825nm channel 12 nc no connect no connect 9 13 - in2 ch 2 - data input negative differential in put for 825nm channel 14 nc no connect no connect 9 15 + in3 ch 3 + data input positive differential in put for 850nm channel 16 nc no connect no connect 9 17 - in3 ch 3 - data input negative differential in put for 850nm channel 18 en enable 3.3v=normal operation, 0v turns off la sers 19 gnd ground ground 20 nc no connect no connect 9 21 nc no connect no connect 9 22 nc no connect no connect 9 23 nc no connect no connect 9 24 nc no connect no connect 9 25 nc no connect no connect 9 26 nc no connect no connect 9 27 nc no connect no connect 9 28 vcc voltage input +3.3 volt input 29 gnd ground ground 30 vcc voltage input +3.3 volt input 7.0 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: 7/8/2011 document no. doc002327 rev a p1tx4c-sx4x-01mm product specification sheet 6 of 7 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 s tandards standard compliant certificate available rohs yes yes
originator: c. eng date: 7/8/2011 document no. doc002327 rev a p1tx4c-sx4x-01mm product specification sheet 7 of 7 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 o nly. temperature measurement point
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