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Shenzhen Handar Optical Technology Company

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SFP 10g Optical Transceiver , Single Mode Fiber Transceiver For Data Center

SFP 10g Optical Transceiver , Single Mode Fiber Transceiver For Data Center

HD-SFP+/10G-LR

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Description :

10 ransceiver made in hina eatures uplex onnector upport hot pluggable etal with lower xcellent protection ransmitter and eceiver ypical enter avelength 1310nm ax link length up to 10 m on o ompliant and ead ree igital diagnostic compatible with 8472 ase peration emperature 5 70 ingle 3 3 power supply and ow power dissipation 1 0 escription 10 is specifically designed for the high performance integrated duplex data transmission over single mode optical fiber his transceiver module is compliant with the mall orm factor luggable lus ultisource Agreement 8431 ev4 1 his transceiver type is specifically optimized for transport of serial data at up to 10 3125 bps with link characteristics complied with 10 igabit thernet 10 A base 802 3ae and 10 ibre hannel 1200 5 Applications 10 A 10 thernet 1200 10 ibre hannel aximum atings arameter ymbol in yp ax nit otes aximum upply oltage cc3 0 5 4 0 torage emperature 40 85 perating umidity 5 95 aximum upply oltage cc3 0 5 4 0 ecommended perating onditions arameter ymbol in yp ax nit otes ower upply oltage cc 3 13 3 30 3 47 ower upply urrent cc 300 mA ase perating emperature op 5 70 ata ate 10 3125 b s 9 125um 652 max 10 m aud ate olerance 100 100 ppm 1 1 1 erformance pecifications ransmitter 5 c 70 2 97 cc 3 63 arameter ymbol in yp ax nit otes nput ifferential mpedance Zin 90 100 110 x_ ault ormal peration 0 3 0 4 ransmitter ault 2 4 cc _ isable ote 1 isable 2 0 cc 0 3 nable 0 3 0 8 Average aunch ptical ower out 8 2 0 5 d m ptical modulation amplitude A 5 2 2 d m xtinction atio 3 5 5 d ransmitter and ispersion enalty 3 2 d Average aunch power of off 30 d m ptical avelength 1260 1355 nm ide mode uppression atio 30 d elative ntensity oise A 12 130 d z ptical eturn oss olerance 12 d ye iagram ompatible with 802 3 2005 erformance pecifications eceiver 1 1 4 5 c 70 2 97 cc 3 6 arameter ymbol in yp ax nit otes ifferential ata utput wing out 300 800 m utput ifferential mpedance Zin 90 100 110 eceiver sensitivity max in A A 12 6 d m 10 12 2 31 eceiver ensitivity 14 4 d m verload 0 5 d m eceiver reflectance 12 d ptical enter avelength 1270 1600 nm os Assert 32 d m os e assert 18 d m os hysteresis 0 5 d in unction efinitions in um ame unction lug eq otes 1 ee odule ransmitter round 1 2 x_ A odule ransmitter ault 3 ote 1 3 x_ A ransmitter isable urns off transmitter laser output 3 ote 2 odule disables on high or open 4 A 2 wire erial nterface ata ine ame as 2 in 8074i 3 5 2 wire erial nterface lock ame as 1 in 8074i 3 6 A odule Absent connected to ee or ee in the module 3 7 0 ate elect 0 optionally controls module receiver 3 ote 3 8 x_ eceiver oss of ignal ndication n designated as x_ in designated as and in thernet designated as ignal etect 3 ote 4 9 1 ate elect 1 optionally controls module transmitter 1 ote 3 10 ee odule eceiver round 1 ote 5 11 ee odule eceiver round 1 ote 5 12 eceiver nverted ata utput 3 ote 6 13 eceiver on nverted ata utput 3 ote 6 14 ee odule eceiver round 1 ote 5 15 cc odule eceiver 3 3 upply 2 3 3 10 ote 7 16 cc odule ransmitter 3 3 upply 2 3 3 10 ote 7 17 ee odule ransmitter round 1 ote 5 18 ransmitter on nverted ata nput 3 ote 8 19 ransmitter nverted ata nput 3 ote 8 20 ee odule ransmitter round 1 ote 5 otes x_ ault is an open collector drain output which should be pulled up with a 4 7 10 resistor on the host board ull up voltage between 2 0 and cc 0 3 hen high output indicates a laser fault of some kind ow indicates normal operation n the low state the output will be pulled to 0 8 x_disable is an input that is used to shut down the transmitter optical output t is pulled up within the module with a resistor in the range 4 7 k to 10 k ts states are ow 0 0 8 ransmitter on 0 8 2 0 ndefined igh 2 0 3 465 ransmitter isabled pen ransmitter isabled 0 and 1 are module inputs and are pulled low to ee with 30 k resistors in the module 0 optionally selects the optical receive signaling rate coverage 1 optionally selects the optical transmit signaling rate coverage hese contacts can also be used for A 0 and A 1 if implementing 8079 ee 8079 for details 1 is commonly connected to ee or ee in the classic modules he host needs to ensure that it will not be damaged if this contact is connected to ee or ee in the module he module provides two inputs 0 and 1 that can optionally be used for rate selection 0 controls the receive path signalling rate capability and 1 controls the transmit path signalling rate capability he host and module may choose to use either both or none of these functions ecause contact 9 in the classic 8074i is connected to ee an host utilizing 1 must provide short circuit protection his rate select functionality can also be controlled by software as defined by 8472 ptionally the rate select methods of art 2 of 8079 may be used instead of the method described here by setting the management declaration bit A0h byte 93 bit 2 to 1 see 8472 x_ when high indicates an optical signal level below that specified in the relevant standard x_ is an open drain collector output but may also be used as an input by supervisory circuitry in the module or a nominally 3 3 cc_ ost using a resistive pull up to cc_ ost the resistor value shall be in the range 4 7 k to 10 k or a nominally 2 5 cc_ ost using a resistive pull up to cc_ ost the resistor value shall be in the range 4 7 k to 7 2 k he x_ signal is intended as a preliminary indication to the host in which the module is installed that the received signal strength is below the specified range uch an indication typically points to non installed cables broken ca bles or a disabled failing or a powered off transmitter at the far end of the cable Additional indications are provided by the host in which the module is installed to verify that the information being transmitted is valid correctly en coded and in the correct format uch additional indications are outside the scope of the module specification x_ may be an optional function depending on the supported standard f the x_ function is not implemented or is reported via the two wire inter face only the x_ contact shall be held low by the module and may be con nected to ee within the module x_ assert min and de assert max are defined in the relevant standard o avoid spurious transition of x_ a minimum hysteresis of 0 5 d o is recom mended ee and ee he module signal ground contacts which should be isolated from the module case and which may be internally connected within the module hese are the differential receiver outputs hey are A coupled 100 differential lines which should be terminated with 100 differential at the user he A coupling is done inside the module and is thus not required on the host board cc and cc are the receiver and transmitter power supplies hey are defined as 3 3 10 at the connector pin aximum supply current is 300mA ecommended host board power supply filtering is shown below hese are the differential transmitter inputs hey are A coupled differential lines with 100 differential termination inside the module he A coupling is done inside the module and is thus not required on the host board egulatory ompliance ompliant with A 8431 ev4 1 ompliant with 8472 ev4 4 ompliant with 802 3ae to the lectrical s compatible with 883 ethod 3015 7 to the uplex eceptacle compatible with 61000 4 2 1089 mmunity compatible with 61000 4 3 compatible with art 15 lass 55022 lass 22 lass aser ye afety compatible with A 21 1040 10 and 1040 11 60950 60825 1 2 o compliant with 2002 95 4 1 4 2 2005 747 10 ransceiver made in hina

Specification :

10 ransceiver made in hina eatures uplex onnector upport hot pluggable etal with lower xcellent protection ransmitter and eceiver ypical enter avelength 1310nm ax link length up to 10 m on o ompliant and ead ree igital diagnostic compatible with 8472 ase peration emperature 5 70 ingle 3 3 power supply and ow power dissipation 1 0 escription 10 is specifically designed for the high performance integrated duplex data transmission over single mode optical fiber his transceiver module is compliant with the mall orm factor luggable lus ultisource Agreement 8431 ev4 1 his transceiver type is specifically optimized for transport of serial data at up to 10 3125 bps with link characteristics complied with 10 igabit thernet 10 A base 802 3ae and 10 ibre hannel 1200 5 Applications 10 A 10 thernet 1200 10 ibre hannel aximum atings arameter ymbol in yp ax nit otes aximum upply oltage cc3 0 5 4 0 torage emperature 40 85 perating umidity 5 95 aximum upply oltage cc3 0 5 4 0 ecommended perating onditions arameter ymbol in yp ax nit otes ower upply oltage cc 3 13 3 30 3 47 ower upply urrent cc 300 mA ase perating emperature op 5 70 ata ate 10 3125 b s 9 125um 652 max 10 m aud ate olerance 100 100 ppm 1 1 1 erformance pecifications ransmitter 5 c 70 2 97 cc 3 63 arameter ymbol in yp ax nit otes nput ifferential mpedance Zin 90 100 110 x_ ault ormal peration 0 3 0 4 ransmitter ault 2 4 cc _ isable ote 1 isable 2 0 cc 0 3 nable 0 3 0 8 Average aunch ptical ower out 8 2 0 5 d m ptical modulation amplitude A 5 2 2 d m xtinction atio 3 5 5 d ransmitter and ispersion enalty 3 2 d Average aunch power of off 30 d m ptical avelength 1260 1355 nm ide mode uppression atio 30 d elative ntensity oise A 12 130 d z ptical eturn oss olerance 12 d ye iagram ompatible with 802 3 2005 erformance pecifications eceiver 1 1 4 5 c 70 2 97 cc 3 6 arameter ymbol in yp ax nit otes ifferential ata utput wing out 300 800 m utput ifferential mpedance Zin 90 100 110 eceiver sensitivity max in A A 12 6 d m 10 12 2 31 eceiver ensitivity 14 4 d m verload 0 5 d m eceiver reflectance 12 d ptical enter avelength 1270 1600 nm os Assert 32 d m os e assert 18 d m os hysteresis 0 5 d in unction efinitions in um ame unction lug eq otes 1 ee odule ransmitter round 1 2 x_ A odule ransmitter ault 3 ote 1 3 x_ A ransmitter isable urns off transmitter laser output 3 ote 2 odule disables on high or open 4 A 2 wire erial nterface ata ine ame as 2 in 8074i 3 5 2 wire erial nterface lock ame as 1 in 8074i 3 6 A odule Absent connected to ee or ee in the module 3 7 0 ate elect 0 optionally controls module receiver 3 ote 3 8 x_ eceiver oss of ignal ndication n designated as x_ in designated as and in thernet designated as ignal etect 3 ote 4 9 1 ate elect 1 optionally controls module transmitter 1 ote 3 10 ee odule eceiver round 1 ote 5 11 ee odule eceiver round 1 ote 5 12 eceiver nverted ata utput 3 ote 6 13 eceiver on nverted ata utput 3 ote 6 14 ee odule eceiver round 1 ote 5 15 cc odule eceiver 3 3 upply 2 3 3 10 ote 7 16 cc odule ransmitter 3 3 upply 2 3 3 10 ote 7 17 ee odule ransmitter round 1 ote 5 18 ransmitter on nverted ata nput 3 ote 8 19 ransmitter nverted ata nput 3 ote 8 20 ee odule ransmitter round 1 ote 5 otes x_ ault is an open collector drain output which should be pulled up with a 4 7 10 resistor on the host board ull up voltage between 2 0 and cc 0 3 hen high output indicates a laser fault of some kind ow indicates normal operation n the low state the output will be pulled to 0 8 x_disable is an input that is used to shut down the transmitter optical output t is pulled up within the module with a resistor in the range 4 7 k to 10 k ts states are ow 0 0 8 ransmitter on 0 8 2 0 ndefined igh 2 0 3 465 ransmitter isabled pen ransmitter isabled 0 and 1 are module inputs and are pulled low to ee with 30 k resistors in the module 0 optionally selects the optical receive signaling rate coverage 1 optionally selects the optical transmit signaling rate coverage hese contacts can also be used for A 0 and A 1 if implementing 8079 ee 8079 for details 1 is commonly connected to ee or ee in the classic modules he host needs to ensure that it will not be damaged if this contact is connected to ee or ee in the module he module provides two inputs 0 and 1 that can optionally be used for rate selection 0 controls the receive path signalling rate capability and 1 controls the transmit path signalling rate capability he host and module may choose to use either both or none of these functions ecause contact 9 in the classic 8074i is connected to ee an host utilizing 1 must provide short circuit protection his rate select functionality can also be controlled by software as defined by 8472 ptionally the rate select methods of art 2 of 8079 may be used instead of the method described here by setting the management declaration bit A0h byte 93 bit 2 to 1 see 8472 x_ when high indicates an optical signal level below that specified in the relevant standard x_ is an open drain collector output but may also be used as an input by supervisory circuitry in the module or a nominally 3 3 cc_ ost using a resistive pull up to cc_ ost the resistor value shall be in the range 4 7 k to 10 k or a nominally 2 5 cc_ ost using a resistive pull up to cc_ ost the resistor value shall be in the range 4 7 k to 7 2 k he x_ signal is intended as a preliminary indication to the host in which the module is installed that the received signal strength is below the specified range uch an indication typically points to non installed cables broken ca bles or a disabled failing or a powered off transmitter at the far end of the cable Additional indications are provided by the host in which the module is installed to verify that the information being transmitted is valid correctly en coded and in the correct format uch additional indications are outside the scope of the module specification x_ may be an optional function depending on the supported standard f the x_ function is not implemented or is reported via the two wire inter face only the x_ contact shall be held low by the module and may be con nected to ee within the module x_ assert min and de assert max are defined in the relevant standard o avoid spurious transition of x_ a minimum hysteresis of 0 5 d o is recom mended ee and ee he module signal ground contacts which should be isolated from the module case and which may be internally connected within the module hese are the differential receiver outputs hey are A coupled 100 differential lines which should be terminated with 100 differential at the user he A coupling is done inside the module and is thus not required on the host board cc and cc are the receiver and transmitter power supplies hey are defined as 3 3 10 at the connector pin aximum supply current is 300mA ecommended host board power supply filtering is shown below hese are the differential transmitter inputs hey are A coupled differential lines with 100 differential termination inside the module he A coupling is done inside the module and is thus not required on the host board egulatory ompliance ompliant with A 8431 ev4 1 ompliant with 8472 ev4 4 ompliant with 802 3ae to the lectrical s compatible with 883 ethod 3015 7 to the uplex eceptacle compatible with 61000 4 2 1089 mmunity compatible with 61000 4 3 compatible with art 15 lass 55022 lass 22 lass aser ye afety compatible with A 21 1040 10 and 1040 11 60950 60825 1 2 o compliant with 2002 95 4 1 4 2 2005 747 10 ransceiver made in hina

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Shenzhen Handar Optical Technology Co.,LTD,Located in shenzhen,china,was founded in 2009,which is professionally engaging in researching & developing,manufacturing,and marketing fiber optical communication product. ? With several-year development,Handar has established a profession te
Business Type: Manufacturer/OEM

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HDMI Fiber Extender,Gigabit Media Converter,Fiber Optic Media Converter

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