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Finisar 10GBASE-LRM X2, Specification Sheet, Page: 9 / 10

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Finisar 10GBASE-LRM X2 Specification Sheet Download Page 9

FTLX1341E2 Product Specification – October 2008 

 

 

©

 Finisar Corporation – October 2008  

Rev B 

Page 9 

 

Eye Safety 

 

Finisar FTLX1341E2 transponders are Class 1 Laser Products. They are certified per the following 
standards: 
 

Feature Agency 

Standard 

Certificate 

Number 

Laser Eye 

Safety 

FDA/CDRH  CDRH 21 CFR 1040 and Laser Notice 50

9210176-77 

Laser Eye 

Safety TÜV 

EN 60825-1: 1994+A11:1996+A2:2001 

IEC 60825-1: 1993+A1:1997+A2:2001 

IEC 60825-2: 2000, Edition 2 

R 72082131 

Electrical 

Safety 

TÜV 

EN 60950 

R 72082131 

Electrical 

Safety 

UL/CSA 

CLASS 3862.07 
CLASS 3862.87 

1439230 

 
Copies of the referenced certificates are available from Finisar Corporation upon request. 
 
 
 

VII.

 

DOM Parameters 

 

 
 
 
 
 
 
 
 

 
 

 

VIII.

 

Mechanical Specifications 

 

Values 

Parameter Symbol 

min. typ. max. 

Unit 

Module Retention Force (latch strength) 

F

RET

  

200 

 

Module Insertion Force 

F

IN

   40  N 

Module Extraction Force (with kick-out) 

F

EXT-K

  16  N 

Module Extraction Force (without kick-out) 

F

EXT

   25  N 

 

Pull Sleeve front face color is orange.

 

 
 
 

 

Values 

Parameter 

min. typ. max. Unit 

Transponder Temperature Monitor Accuracy

1)

 -5 

 

+5 

°C 

Laser Bias Current Monitor Accuracy

2)

 -10 

 

+10 

Transmit Power Monitor Accuracy

3)

 -3 

 

+3 

dB 

Receive Power Monitor Accuracy

3)

 -3 

 

+3 

dB 

 

1)  

0 to 70°C case temperature. 

2)  

0 to 12.5 mA. 

3)  

-8.2 dBm to +0.5 dBm.

 

 

 

 

 

Summary of Contents for 10GBASE-LRM X2

Page 1: ... via MDIO 2 wire bus 70 pin connector Separated signal chassis ground Mid Pak module variance for front panel mounting De latch mechanism with low extraction force APPLICATIONS IEEE 802 3aq 2006 10 Gb s Ethernet transmission on legacy multimode fiber The Finisar FTLX1341E2 transponder incorporates Electronic Dispersion Compensation EDC which provides correction for the severe modal dispersion that...

Page 2: ... RESET 1 2 V CMOS I 10 Reset Input Open Drain Compatible Input with 22 kΩ pull up to APS internal to transponder Logic high Normal Operation Logic low RESET Vendor Specific 11 15 16 24 Vendor Specific Pins Leave unconnected when not used TX ON OFF 1 2 V CMOS I 12 TX ON OFF Input Open Drain Compatible Input with 22 kΩ pull up to APS internal to transponder Logic high Transmitter On Logic low Transm...

Page 3: ... RX LANE 3 AC coupled Internally biased differential XAUI O O 50 51 Module XAUI Output Lane 3 Module XAUI Output Lane 3 DC Power GND 0 V DC 1 2 3 33 34 35 36 37 40 43 46 49 52 53 54 57 60 63 66 69 70 Ground connection for signal ground on the module APS 1 2 V 7 8 28 29 Input from Adaptive Power Supply APS SENSE 1 2 V 27 APS Sense Output Connected to the APS input inside transponder APS SET 25 Feed...

Page 4: ...tings Limit Values Parameter Symbol min max Unit Storage Temperature1 TS 40 85 C Supply Voltage 5 0 V V5 0 6 V Supply Voltage 3 3 V V3 0 4 V Supply Voltage APS Vaps 0 1 5 V Static Discharge Voltage All Pins2 STd 500 V Average Receive Optical Power RxP max 1 5 dBm Notes 1 Non condensing 2 HBM Stresses in excess of the absolute maximum ratings can cause permanent damage to the device ...

Page 5: ...Characteristics PRTAD LASI RESET TX_ONOFF External Pull up Resistor for Open Drain Rpullup 10 22 kΩ Output High Voltage2 Voh 1 V Output Low Voltage2 Vol 0 15 V Input High Voltage Vih 0 84 1 5 V Input Low Voltage Vil 0 36 V Input Pull down Current3 Ipd 20 120 µA MDIO I O Characteristics MDIO MDC MDIO Data Hold Time tHOLD 10 ns MDIO Data Setup Time tSU 10 ns Delay from MDC Rising Edge to MDIO Data C...

Page 6: ...put Impedance ZINXAUI 80 100 120 Ω Differential Return Loss1 S11 10 dB Input Differential Skew2 tSKEWIN 75 ps Jitter Amplitude Tolerance3 JXAUITOL 0 65 UIp p XAUI Output AC Characteristics RXLANE 0 3 Baud Rate Ethernet RXAUIOUT 3 125 Gbit s Baud Rate Variation RXAUIVAR 100 100 ppm XAUI Eye Mask far end According to IEEE 802 3ae Output Differential Impedance ZOUTXAUI 80 100 120 Ω Differential Outpu...

Page 7: ...ecursor 6 5 Symmetrical 6 0 Comprehensive Stressed Receiver Sensitivity OMA 10 3125Gb s Postcursor 6 5 dBm Optical Center Wavelength λC 1260 1355 nm Receiver Reflectance Rrx 12 dB Signal Detect Deassert Level PSDD 14 4 dBm Signal Detect Assert Level PSDA 25 0 dBm Signal Detect Hysteresis PSDH 0 5 1 5 dB Notes 1 Maximum RMS spectral width as specified by Figure 68 3 in IEEE802 3aq 2006 2 Optical ey...

Page 8: ...e standard host PCB footprint or equivalent For further details please refer to vendor supplied information Aqueous Wash Finisar X2 transponders are neither solderable nor aqueous washable and are not intended for these processes VI Regulatory Compliance Feature Standard Comments ESD Electrostatic Discharge to the Electrical Pins HBM EIA JESD22 A114 B MIL STD 883D Method 3015 7 Class 1a 500 V Immu...

Page 9: ...UL CSA CLASS 3862 07 CLASS 3862 87 1439230 Copies of the referenced certificates are available from Finisar Corporation upon request VII DOM Parameters VIII Mechanical Specifications Values Parameter Symbol min typ max Unit Module Retention Force latch strength FRET 200 N Module Insertion Force FIN 40 N Module Extraction Force with kick out FEXT K 16 N Module Extraction Force without kick out FEXT...

Page 10: ...rational behavior outlined in this specification describe the complete functionality of the 10G Transponder Contact Finisar for any items concerning the operational characteristics of this device 1 IEEE 802 3ae 2002 August 30 2002 2 IEEE Std 802 3aq 2006 3 X2 MSA Rev 2 0b January 30 2003 X For More Information Finisar Corporation 1389 Moffett Park Drive Sunnyvale CA 94089 1133 Tel 1 408 548 1000 F...

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