Avaya 100BASE-FX, LC, SFP
Contents
1. 56 TOGBASE LRAW AFP Specie aii 58 10GBASE ERIEW AFP esi e A AA 60 TOGBASE AZRI ZW AEP SBOOTDGSONE qu errata knd anaa UR UP REM E SDN UR Perl pUKKERM Od ADR EE 61 Installation SFPs and XFPs December 2010 Chapter 1 New in this release The following sections detail what s new in Avaya Ethernet Routing Switch 5000 Series Installation SFPs NN47200 302 for release 6 2 Features See the following sections for information about feature changes Support for additional SFPs The 5000 Series switches support eight additional SFPs in Release 6 2 See the following for more information T1 SFP specifications on page 29 e 1000BASE XD DDI 1310 nm SFP specifications on page 38 1000BASE XD DDI 1550 nm SFP specifications on page 39 1000BASE ZX DDI SFP specifications on page 40 e 1000BASE XD DDI CWDM SFP specifications on page 41 1000BASE ZX DDI CWDM SFP specifications on page 41 1000BASE BX40 DDI SFP specifications on page 43 e 1000BASE EX DDI SFP specifications on page 45 Installation SFPs and XFPs December 2010 5 New in this release 6 Installation SFPs and XFPs December 2010 Chapter 2 Introduction This document provides installation instructions and technical specifications for Small Form Factor Pluggable SFP transceivers For a list of supported SFPs see your latest product specific release notes Information contained in the Release Notes takes precedence over any information contain2. Safety and equipment care information a Important Do not let the IPA evaporate wipe it dry immediately Alcohols can leave a residue that is difficult to remove 5 Blow dry the connector surfaces with canned air 6 Inspect the connector to ensure it is clean and undamaged 7 Using care to not touch the clean ferrules gently push the shroud back onto the connector until it seats and locks in place Cleaning receptacles Clean connector receptacles or ports so that the optical signal is minimally attenuated by the connection Prerequisites You need an optical grade isopropyl alcohol IPA 98 or more pure You need cleaning swabs also called cleaning sticks or wands You need a high quality canned compressed air with extension tube Compressed air must be free of dust water and oil or filmy deposits or scratches on the surface of the connector can result A Caution Risk of equipment damage To avoid contamination optical ports must only be cleaned when there is evidence of contamination or reduced performance or during their initial installation To prevent oil contamination of connectors use only high quality canned compressed air Do not allow the air extension tube to touch the bottom of the optical port Procedure steps 1 Remove dust or debris by blowing canned air into the optical port of the device using the canned air extension tube 2 Clean the optical port by inserting a wand moistene
3. 38 Installation SFPs and XFPs December 2010 1000BASE XD DDI 1550 nm SFP specifications Table 16 1000BASE XD DDI 1310 nm SFP specifications Parameter Specifications Maximum electrical power consumption 1 0 W Connectors Duplex LC Cabling SMF 9 um Data rate 1 0 Gb s Line rate 8B 10B code 1 25 Gb s Link optical power budget 18 dB Transmitter characteristics Launch power 4 5 to 0 dBm Receiver characteristics Receiver sensitivity 22 5 dBm Maximum receiver power 0 dBm 1000BASE XD DDI 1550 nm SFP specifications The following table describes the 1000BASE XD DDI SFP This SFP operates at 1550 nm and has a reach of up to 40 km The part number is AA1419051 E6 A Caution Risk of equipment damage To prevent damage to the optical receiver ensure that at least 3 dB of attenuation is present between the transmit and receive ports Table 17 1000BASE XD DDI 1550 nm SFP specifications Parameter Specification Maximum electrical power consumption 1 0 W Connectors Duplex LC Cabling SMF 9 um Data rate 1 0 Gb s Line rate 8B 10B code 1 25 Gb s Link optical power budget 22 dB Maximum dispersion power penalty 2 dB at 40 km Installation SFPs and XFPs December 2010 39 SFP specifications Parameter Specification Transmitter characteristics Launch power 2 0 to 3 0 dBm Receiver characteristics
4. www avaya com support December 2010 Contents Chapter 1 New in E 5 EE fe PEL O T OA E E ee 5 Support Tor additonal SFP EE EE E E E E E A e TE E 7 Chapter 3 Safety and equipment care informatioON coooonnncnnncccnnnnonanannncnnnnnananannnnnnnnnnananans 9 Handling safety and environmental QUIBGINES E 9 Electrostatic discharge Dreventon eer EE is ene e TERT 9 Cacal IDO O A Maat Veet 10 Fiber optic cable care ise o Ke 10 Fiber optic CODHBCIGF APR eu i Lebe bebat ecl eadein i Habet In itte te Hae Ken ibas 1 mci pe de sip mes t 12 wccpnepesic quin ere 13 Cleaning receptacles SE Lites ads mel KE ime E ae HIE Mir rt AR 15 ESD and installation caution messages e ere o li ds da E WAITS MT 17 Chapter 4 Small form factor ERAS e 15 APA AA 19 Selec an SFP siones iii tee licita SEENEN TTE asia eg E ES UN coal ash e ETT 20 S gp 20 A eer 21 installing an SPP cocine 22 Jl oos IE E EEC E T ter etre mre erent TT eae mee eee rea AE OA b ndis idu D Let Ea eb TET 23 Removing am SFP A A ELM Ar ERN PUE 24 Chapter S E E n 27 SEP Ibn DUE UE EN NE NEM 28 General SFP SpecifiGatlon i cce etre dece tera dei tea deere Mimi UA FER I AE TOSS TEE 29 T1 SFP specifications T EE T Ee Eeer ao RE A 32 TODOUBASE T SEP Speci
5. 400 MHz km at 850 nm e 400 MHz km at 1300 nm 50 um ISO IEC OM3 Up to 220 m 1 9 dB 1500 MHz km at 850 nm includes laser launch bandwidth 500 MHz km at 1300 nm includes laser launch bandwidth In the table FDDI denotes Fiber Distributed Data Interface ISO denotes International Standards Organization IEC denotes International Electrotechnical Commission and OFL denotes Over Filled Launch The following table is based on the 802 3aq standard and specifies the measurement conditions for each fiber type Table 28 Launch conditions for each fiber type Parameter Minimum encircled flux Notes Optical launch for OM1 and 30 within 5 um radius Uses 62 5 ummode FDDI grade fiber conditioning patch cord 81 within 11 um radius Optical launch for OM2 and 30 within 5 um radius Uses 50 ummode 50 um 400 400 fiber conditioning patch cord 8196 within 11 um radius Optical launch for OM3 and 30 within 5 um radius 50 um fiber 81 within 11 um radius 10GBASE LR LW XFP specifications The 10GBASE LX XFP provides 10 GbE or OC 192 service at a nominal wavelength of 1310 nm This XFP can attain link lengths of up to 10 km The following table lists the transmitter and receiver specifications for the 10GBASE LR LW XFP The part number of this XFP is AA1403001 E5 For more information about the 10GBASE LX XFP including test and measurement information see the
6. IEEE 802 3ae standard 58 Installation SFPs and XFPs December 2010 10GBASE LR LW XFP specifications Table 29 IEEE 802 3ae 10GBASE LR LW XFP specifications Parameter Specifications MTBF 675 000 hours Center wavelength range 1260 to 1355 nm 1310 nm nominal Distance Up to 10 km Link optical power budget 9 4 dB Maximum transmitter and dispersion penalty 3 2 dB at 10 km Transmitter characteristics Line rate nominal 10GBASE LR 10 3125 Gb s 100 ppm 10 ASEIN 9 95328 Gb s 20 ppm OC 192 Average launch power 8 2 to 0 5 dBm Minimum side mode suppression ratio 30 dB Minimum launch power in OMA minus 6 2 dBm transmission and dispersion penalty TDP Minimum optical modulation amplitude 5 2 dBm Maximum average launch power of OFF 30 dBm transmitter Minimum extinction ratio 3 5 dB RIN420MA maximum 128 dB Hz Maximum optical return loss tolerance 12 dB Maximum transmitter reflectance 12dB Receiver characteristics Line rate nominal 10GBASE LR 10 3125 Gb s x 100 ppm 10 GbE 10GBASE LW 9 95328 Gb s 100 ppm OC 192 Average receive power for BER 10 12 14 4 dBm to 0 5 dBm Maximum average receive power for 1 5 dBm damage Maximum receiver sensitivity in OMA 12 6 dBm Maximum receiver reflectance 12 dB Stressed receiver sensitivity in OMA 10 3 dBm Receiver electrical 3 dB upper
7. LC connectors Model Product number Description 1000BASE T RJ 45 AA1419043 E6 CAT5 UTP up to 100 m Because the 1000BASE T device is all electrical there is no need for DDI support 1000BASE SX AA1419048 E6 850 nm up to 275 or 550 m 1000BASE LX AA1419049 E6 1310 nm up to 10 km 1000BASE XD AA1419050 E6 1310 nm up to 40 km 1000BASE XD AA1419051 E6 1550 nm up to 40 km 1000BASE ZX AA1419052 E6 1550 nm up to 70 km AA1419053 E6 to 1470 nm to 1630 nm up to 40 1000BASE XD CWDM AA1419060 E6 km Installation SFPs and XFPs December 2010 21 Small form factor pluggable transceivers Model Product number Description AA1419061 E6 to 1470 nm to 1630 nm up to 70 1000BASE ZX CWDM AA1419068 E6 km 1000BASE BX LC type AA1419069 E6 Bidirectional 1310 nm and AA1419070 E6 1490 nm up to 10 km The 1000BASE BX SFPs are paired devices for more information see 1000BASE BX10 DDI SFP specifications on page 42 1000BASE EX AA1419071 E6 1550 nm up to 120 km 1000BASE BX LC type AA1419076 E6 Bidirectional 1310 nm and AA1419077 E6 1490 nm up to 40 km The 1000BASE BX SFPs are paired devices for more information see 1000BASE BX40 DDI SFP specifications on page 43 For more information about specifications for these SFPs see SFP specifications on page 27 Installing an SFP Install an SFP to provide an interface between the switch and the network cable I
8. Line rate 8B 10B code 1 25 Gb s Link optical power budget 30 dB Maximum dispersion power penalty 2 0 dB at 120 km Transmitter characteristics Launch power 0 to 5 0 dBm Receiver characteristics Receiver sensitivity 30 dBm Maximum receiver power 9 0 dBm Installation SFPs and XFPs December 2010 45 SFP specifications 46 Installation SFPs and XFPs December 2010 Chapter 6 10 Gigabit small form factor pluggable transceivers This section describes how to install and remove 10 gigabit small form factor pluggable XFP transceivers and lists some technical specifications for the supported XFP models E Important Avaya recommends that you only use Avaya qualified XFPs If you do choose to use other vendor XFPs be aware that Avaya does not support the use of other XFPs Navigation Selecting an XFP on page 47 Installing an XFP on page 49 Removing an XFP on page 50 XFP specifications on page 53 Selecting an XFP Use an XFP transceiver to interface a device motherboard to a fiber optic cable Select the appropriate transceiver to provide the required reach Procedure steps 1 Determine the required reach Depending on the product XFPs are available for cable distances of up to 300 meters m 10 kilometers km 40 km and 80 km 2 Determine wavelength restrictions or requirements 3 Use the following job aids to determine the appropriate XFP for your ap
9. MMF optic cable up to 550 m using 50 um MMF optic cable Wavelength 850 nanometers nm Link optical power budget 7 0 deciBels dB Transmitter characteristics Launch power 10 to 4 0 deciBels referenced to 1 milliwatt dBm Receiver characteristics Receiver sensitivity 17 dBm Maximum input power 0 dBm 1000BASE SX MT RJ SFP specifications The 1000BASE SX MT RJ type SFP provides gigabit Ethernet connectivity using MT RJ multimode fiber connectors The following table describes standards connectors cabling and distance for the 1000BASE SX MT RJ type SFP The part number for this model is AA1419014 E5 Table 10 IEEE 802 3z 1000BASE SX MT RJ SFP specifications Parameter Specifications Connectors Duplex MT RJ Cabling 62 5 um MMF optic cable 50 um MMF optic cable Distance upto275musing 62 5 um MMF optic cable up to 550 m using 50 um MMF optic cable Wavelength 850 nm Link optical power budget 7 0 dB 34 Installation SFPs and XFPs December 2010 1000BASE LX SFP specifications Parameter Specifications Transmitter characteristics Launch power 10 to 4 0 dBm Receiver characteristics Receiver sensitivity 17 dBm Maximum input power 0 dBm 1000BASE LX SFP specifications The 1000BASE LX SFP provides 1000BASE LX gigabit Ethernet connectivity at 1310 nanometers nm using single mode or multi
10. Maximum electrical power consumption 1 0 W Connectors Duplex LC Cabling SMF 9 um Data rate 1 0 Gb s Line rate 8B 10B code 1 25 Gb s Link optical power budget 17 dB Maximum dispersion power penalty 1 dB at 40 km Transmitter characteristics Launch power 4 0 to 1 0 dBm Receiver characteristics Receiver sensitivity 21 dBm Maximum receiver power 3 0 dBm 1000BASE ZX DDI CWDM SFP specifications The following table describes specifications for CWDM SFPs numbered AA1419061 E6 to AA1419068 E6 AN Caution Risk of equipment damage Installation SFPs and XFPs December 2010 41 SFP specifications To prevent damage to the optical receiver ensure that at least 8 dB of attenuation is present between the transmit and receive ports Table 20 1000BASE ZX CWDM SFP DDI 70 km specifications Parameter Specifications Maximum electrical power consumption 1 0 W Connectors Duplex LC Cabling SMF 9 um Data rate 1 0 Gb s Line rate 8B 10B code 1 25 Gb s Link optical power budget 24 dB Maximum dispersion power penalty 2 dB at 70 km Transmitter characteristics Launch power 0 to 5 0 dBm Receiver characteristics Receiver sensitivity 24 dBm Maximum receiver power 3 0 dBm 1000BASE BX10 DDI SFP specifications The 1000BASE BX bidirectional SFPs part numbers AA1419069 E6 and AA1419070 E6 provide gigabit Ethernet connectivity over a
11. Peak launch power 3 dBm Root mean square spectral width 2 4to4nm Launch power in OMA 4 5 to 1 5 dBm Maximum average launch power of OFF 30 dBm transmitter Minimum extinction ratio 3 5 dB Maximum relative intensity noise at OMA 128 dB Hz RIN420MA Optical return loss tolerance minimum 20 dB Receiver characteristics Maximum receive average power for 1 5 dBm damage Receiver reflectance maximum 12 dB For more information about the conditions used for the stressed receiver tests and other information see the IEEE 802 3aq standard The following table from IEEE 802 3aq describes the maximum channel insertion loss The channel insertion loss includes both attenuation and connector loss 1 5 dB therefore the maximum fiber attenuation is 0 2 to 0 4 dB Table 27 10GBASE LRM channel insertion loss and range Fiber type core diameter and OFL bandwidth Range Maximum channel insertion loss 62 5 um FDDI grade 160 MHz km at 850 nm 500 MHz km at 1300 nm Up to 220m 1 9 dB 62 5 um ISO IEC OM1 200 MHz km at 850 nm e 500 MHz km at 1300 nm Up to 220m 1 9 dB 50 um ISO IEC OM2 Up to 220 m e 500 MHz km at 850 nm e 500 MHz km at 1300 nm 1 9 dB 50 um Up to 100 m 1 7 dB Installation SFPs and XFPs December 2010 57 XFP specifications Fiber type core diameter Range Maximum channel and OFL bandwidth insertion loss e
12. Receiver sensitivity 24 dBm Maximum receiver power 0 dBm 1000BASE ZX DDI SFP specifications The following table describes the 1000BASE ZX DDI SFP This SFP operates at 1550 nm and has a reach of up to 70 km The part number is AA1419052 E6 A Caution Risk of equipment damage To prevent damage to the optical receiver ensure that at least 5 dB of attenuation is present between the transmit and receive ports Table 18 1000BASE ZX DDI 1550 nm SFP specifications Parameter Specifications Maximum electrical power consumption 1 0 W Connectors Duplex LC Cabling SMF 9 um Data rate 1 0 Gb s Line rate 8B 10B code 1 25 Gb s Link optical power budget 24 dB Maximum dispersion power penalty 2 dB at 70 km Transmitter characteristics Launch power 0 to 5 dBm Receiver characteristics Receiver sensitivity 24 dBm Maximum receiver power 0 dBm 40 Installation SFPs and XFPs December 2010 1000BASE XD DDI CWDM SFP specifications 1000BASE XD DDI CWDM SFP specifications The following table describes specifications for 1000BASE XD DDI CWDM SFPs numbered AA1419053 E6 to AA1419060 E6 A Caution Risk of equipment damage To prevent damage to the optical receiver ensure that at least 4 dB of attenuation is present between the transmit and receive ports Table 19 1000BASE XD CWDM SFP DDI 40 km specifications Parameter Specifications
13. an SFP Use an SFP transceiver to connect a device motherboard to a fiber optic or unshielded twisted pair network cable Select the appropriate transceiver to provide the required reach Procedure steps 1 Determine the required reach Depending on the product SFPs are available for cable distances of up to 100 meters m 550 m 10 kilometers km 40 km 70 km and 120 km 2 Determine the required media and connector type You need fiber optic cable for a reach over 100 m Possible media include CAT5 single mode fiber and multimode fiber Possible connectors include Lucent connector LC MT RJ and RJ 45 3 If the media is optical fiber determine wavelength restrictions or requirements To expand available bandwidth on a common optical fiber use Coarse Wavelength Division Multiplexing CWDM SFPs 4 Determine if you need digital diagnostic monitoring DDM Not all SFPs or products support DDM 5 Use the following job aids to determine the appropriate SFP for your application Installation SFPs and XFPs December 2010 19 Small form factor pluggable transceivers Job aid The following table describes the reach provided by various SFPs This table is informational only not all Avaya Ethernet switching and routing products support all the SFPs listed here SFP model Common application 1000BASE T Lowest cost gigabit Ethernet solution Up to 100 m reach over Category 5 CATS unshielded tw
14. at least 0 4 dB additional margin if you make component level measurements without the effect of CDR circuits 10GBASE LRM XFP specifications The 10GBASE LRM XFP provides 10 GbE service at a wavelength of 1310 nm This XFP can attain a reach of up to 220 m on 62 5 um multimode fiber This XFP provides built in electronic dispersion compensation The following table lists the transmitter and receiver specifications for the 10GBASE LRM XFP These parameters meet the IEEE 802 3aq 2006 standard The part number of this XFP is AA1403007 E6 In this table the OMA average launch power and peak power specifications apply at TP2 after patch cord loss is accounted for Table 26 IEEE 802 3aq 10GBASE LRM XFP specifications Parameter Specifications Data rate 10 0 Gb s Line rate 64B 66B code 10 3125 Gb s 100 ppm Center wavelength range 1260 to 1355 nm 1310 nm nominal Distance Up to 220 m for more information see Table 27 10GBASE LRM channel insertion loss and range on page 57 Link optical power budget 1 7 to 1 9 dB for more information see Table 27 10GBASE LRM channel insertion loss and range on page 57 Maximum transmitter waveform and 4 7 dB dispersion penalty TWDP Transmitter characteristics 56 Installation SFPs and XFPs December 2010 10GBASE LRM XFP specifications Parameter Specifications Average launch power 6 5 to 0 5 dBm
15. figures shows a typical mechanisms used on SFP transceivers other locking and extractor mechanisms exist although they are not shown here In the following figure the SFP still has the bore plug installed Pull the bail to release the device Installation SFPs and XFPs December 2010 23 Small form factor pluggable transceivers The following figure shows the wrap around latch type extraction mechanism To remove the device push the collar towards the module Removing an SFP Remove an SFP to replace it or to commission it elsewhere 24 Installation SFPs and XFPs December 2010 Removing an SFP Prerequisites Wear an antistatic wrist strap A Warning Risk of eye injury by laser Fiber optic equipment can emit laser or infrared light that can injure your eyes Never look into an optical fiber or connector port Always assume that fiber optic cables are connected to a light source A Electrostatic alert Risk of equipment damage To prevent damage from electrostatic discharge always wear an antistatic wrist strap connected to an ESD jack Procedure steps 1 Disconnect the network fiber optic cable from the SFP connector 2 Affix dust covers over the fiber optic bore and connector 3 Depending on your SFP model to release the SFP press the locking and extractor mechanism 4 Slide the SFP out of the module SFP slot If the SFP does not slide easily from the module slot use a gentle side to side roc
16. page 38 1000BASE XD DDI 1550 nm SFP specifications on page 39 e 1000BASE ZX DDI SFP specifications on page 40 e 1000BASE XD DDI CWDM SFP specifications on page 41 1000BASE ZX DDI CWDM SFP specifications on page 41 1000BASE BX10 DDI SFP specifications on page 42 e 1000BASE BX40 DDI SFP specifications on page 43 1000BASE EX DDI SFP specifications on page 45 Installation SFPs and XFPs December 2010 27 SFP specifications SFP labels The Avaya label on a typical SFP contains an Avaya serial number a bar code a manufacturer code an interface type and a part number Part number SFP interface type SFP 1000 BASE xx AVAYA ANS Top view Bar code Serial number aun NN 21CFR J CLASS1 Side view Figure 1 SFP label General SFP specifications The following table describes general SFP specifications Table 1 General SFP specifications Parameter Description Dimensions H x W x D 13 4 x 8 50 x 56 4 millimeters mm 0 53 x 0 33 x 2 22 inches in unless otherwise stated Operating temperature 5 to 85C for ROHS E6 models 0 to 60C for RoHS E5 models Storage temperature 40 to 85C Maximum supply current 300 mA unless otherwise stated Maximum power consumption 1 0 W unless otherwise stated 28 Installation SFPs and XFPs December 2010 100BASE FX SFP specifications 100BASE FX SFP specifications The 100BASE FX
17. single fiber The following figure shows an example of a 1000BASE BX10 SFP pair The appearance of the connector can vary in shape and latch color AA1419069 Tx 1310 nm Rx 1490 nm Figure 2 1000BASE BX As shown in the previous figure the transmit Tx and receive Rx paths share the same fiber by using two different wavelengths One model transmits at 1310 nm and receives at 1490 nm 42 Installation SFPs and XFPs December 2010 1000BASE BX40 DDI SFP specifications while the mating model transmits at 1490 nm and receives at 1310 nm You can only connect a mating pair You can use 1000BASE BX SFPs to double the number of your fiber links For example if you install 20 fiber pairs with 20 conventional ports connected you can use 1000BASE BX SFPs to expand to 40 ports using the same fiber The long wavelength optical transceivers used in these models provide variable distance ranges using single mode fiber optic cabling The following table describes standards connectors cabling and distances for the 1000BASE BX SFP Table 21 IEEE 802 3ah 1000BASE BX10 SFP specifications Parameter Specifications Connectors Single fiber LC Data rate 1 0 Gb s Line rate 8B 10B code 1 25 Gb s Distance Up to 10 km Wavelength 1310 nm and 1490 nm Link optical power budget 11 0 dB Maximum transmitter and dispersion power 3 3 dB penalty Transmitter characteristics Maximum launch power
18. switch and other network devices Installing an XFP takes approximately three minutes Prerequisites Verify that the XFP is the correct model for your network configuration Before you install the optical connector ensure it is clean warning Risk of eye injury by laser Fiber optic equipment can emit laser or infrared light that can injure your eyes Never look into an optical fiber or connector port Always assume that fiber optic cables are connected to a light source A Electrostatic alert Risk of equipment damage To prevent damage from electrostatic discharge always wear an antistatic wrist strap connected to an ESD jack A Caution Risk of equipment damage Only trained personnel can install this product Procedure steps A Caution Risk of equipment damage XFPs are keyed to prevent incorrect insertion If the XFP resists pressure do not force it turn it over and reinsert it 1 Remove the XFP from its protective packaging 2 Grasp the XFP between your thumb and forefinger 3 Insert the XFP into the XFP slot on the module Apply a light pressure to the XFP until the device clicks and locks into position in the module Installation SFPs and XFPs December 2010 49 10 Gigabit small form factor pluggable transceivers 4 Remove the dust cover from the XFP optical bores and insert the fiber optic cable Job aid Depending on the transceiver manufacturer your XFP transceiver can ha
19. 3 0 dBm Minimum launch power 9 0 dBm Receiver characteristics Maximum receiver sensitivity 19 5 dBm Maximum input power maximum average 3 0 dBm receive power 1000BASE BX40 DDI SFP specifications The 1000BASE BX bidirectional SFPs part numbers AA1419076 E6 and AA1419077 E6 provide gigabit Ethernet connectivity over a single fiber The transmit and receive paths share the same fiber by using two different wavelengths One model transmits at 1310 nm and receives at 1490 nm while the mating model transmits at 1490 nm and receives at 1310 nm You can only connect a mating pair Installation SFPs and XFPs December 2010 43 SFP specifications You can use 1000BASE BX SFPs to double the number of your fiber links For example if you have 20 installed fiber pairs with 20 conventional ports connected you can use 1000BASE BX SFPs to expand to 40 ports using the same fiber The long wavelength optical transceivers used in these models provide variable distance ranges using single mode fiber optic cabling The 1000BASE BX SFPs part numbers AA1419076 E6 and AA1419077 E6 can attain a reach of up to 40 km The following table describes standards connectors cabling and distances for the 1000BASE BX SFP A Caution Risk of equipment damage Connect 1000BASE BX SFP AA1419076 E6 to 1000BASE BX SFP AA1419077 E6 using a single mode fiber with at least 6 dB of attenuation Damage can resul
20. 5 Gb s 100 ppm 10 GbE 10GBASE ZW 9 95328 Gb s 20 ppm OC 192 MTBF 675 000 hours Distance Up to 80 km Link optical power budget 24 dB Maximum transmitter and dispersion penalty 3 0 dB at 80 km G 652 fiber Transmitter characteristics Installation SFPs and XFPs December 2010 61 XFP specifications Parameter Specifications Center wavelength range 1530 to 1565 nm nominal 1550 nm Side mode suppression ratio minimum 30 dB Average launch power 0 to 4 0 dBm Optical modulation amplitude minimum 1 7 dBm Average launch power of OFF transmitter 30 dBm maximum Extinction ratio ER minimum 3 5 dB end of life maximum 7 0 dB start of life RIN420MA maximum 128 dB Hz Maximum optical return loss tolerance 26 dB Maximum transmitter reflectance 12 dB Receiver characteristics Wavelength range 1280 to 1575 nm Sensitivity specified for 1530 to 1565 nm Signaling speed nominal 10GBASE ZR 10 3125 Gb s 100 ppm 10 GbE 10GBASE ZW 9 95328 Gb s 100 ppm OC 192 Maximum average receiver sensitivity 24 dBm Maximum receive power for BER 10 1 and 7 0 dBm 9 dB ER Maximum average receive power for 5 0 dBm damage Receiver reflectance maximum 27 dB Receive electrical 3 dB upper cutoff 9 3 GHz frequency 62 Installation SFPs and XFPs December 2010
21. AVAYA Installation SFPs and XFPs Avaya Ethernet Routing Switch 5000 Series NN47200 302 03 02 December 2010 2010 Avaya Inc All Rights Reserved Notice While reasonable efforts have been made to ensure that the information in this document is complete and accurate at the time of printing Avaya assumes no liability for any errors Avaya reserves the right to make changes and corrections to the information in this document without the obligation to notify any person or organization of such changes Documentation disclaimer Avaya shall not be responsible for any modifications additions or deletions to the original published version of this documentation unless such modifications additions or deletions were performed by Avaya End User agree to indemnify and hold harmless Avaya Avaya s agents servants and employees against all claims lawsuits demands and judgments arising out of or in connection with subsequent modifications additions or deletions to this documentation to the extent made by End User Link disclaimer Avaya is not responsible for the contents or reliability of any linked Web sites referenced within this site or documentation s provided by Avaya Avaya is not responsible for the accuracy of any information statement or content provided on these sites and does not necessarily endorse the products services or information described or offered within them Avaya does not guarantee that these links w
22. OR WHOM YOU ARE INSTALLING DOWNLOADING OR USING THE SOFTWARE HEREINAFTER REFERRED TO INTERCHANGEABLY AS YOU AND END USER AGREE TO THESE TERMS AND CONDITIONS AND CREATE A BINDING CONTRACT BETWEEN YOU AND AVAYA INC OR THE APPLICABLE AVAYA AFFILIATE AVAYA Copyright Except where expressly stated otherwise no use should be made of materials on this site the Documentation s and Product s provided by Avaya All content on this site the documentation s and the product s provided by Avaya including the selection arrangement and design of the content is owned either by Avaya or its licensors and is 2 Installation SFPs and XFPs protected by copyright and other intellectual property laws including the sui generis rights relating to the protection of databases You may not modify copy reproduce republish upload post transmit or distribute in any way any content in whole or in part including any code and software Unauthorized reproduction transmission dissemination storage and or use without the express written consent of Avaya can be a criminal as well as a civil offense under the applicable law Third party components Certain software programs or portions thereof included in the Product may contain software distributed under third party agreements Third Party Components which may contain terms that expand or limit rights to use certain portions of the Product Third Party Terms I
23. SFP provides 100 Mb s Ethernet Carrier Sense Multiple Access with Collision Detection CSMA CD connectivity using multimode optical fiber The part number for this model is AA1419074 E6 The 100BASE FX SFP is supported on the 5600 Series switches but not on the 5500 Series switches The following table describes the 100BASE FX SFP specifications Table 2 100BASE FX SFP specifications Parameter Specifications Maximum electrical power consumption 1 5 W Connectors Duplex LC Lucent connector Cabling 62 5 um MMF optic cable 50 um MMF optic cable Distance Up to 2 km using 500 MHz km MMF optic cable Wavelength 1310 nm Link optical power budget 10 dB Transmitter characteristics Maximum launch power 14 dBm Minimum launch power 23 5 to 20 dBm Receiver characteristics Receiver sensitivity 33 5 dBm Maximum input power T1 SFP specifications The T1 SFP provides full duplex Fast Ethernet to T1 connectivity The part number for this model is AA1419075 E6 Installation SFPs and XFPs December 2010 29 SFP specifications d Important The switch displays the interface speed of the T1 E1 SFP as a 100 Mb s connection even though the interface is operating at the appropriate WAN speed The system uses this value for STP path cost and MLT utilization LES Important Avaya recommends that you enable egress traffic shaping on the p
24. Serial Number Barcode of Manufacture Figure 3 XFP label General XFP specifications The following table describes general XFP specifications Table 24 General XFP specifications Parameter Specifications Dimensions H x W x D 0 49 x 0 72 x 2 79 inches in 12 5 x 18 35 x 71 1 millimeters mm Connectors Duplex LC ultra physical contact UPC Storage temperature 40 to 85C Operating temperature 0 to 70C 10GBASE SR XFP specifications The 10GBASE SR SFP provides 10 GbE service at 850 nm The following table lists the specifications for the 10GBASE SR XFP The part number of this XFP is AA1403005 E5 For more information about the 10GBASE SR XFP including test and measurement information see the IEEE 802 3ae standard The 10GBASE SR XFP is supported by the Ethernet Routing Switch 5530 not by the 5510 or 5520 and by the Ethernet Routing Switch 5600 Series 54 Installation SFPs and XFPs December 2010 A Caution Risk of equipment damage 10GBASE SR XFP specifications To prevent damage to the optical receiver ensure that at least 1 dB of attenuation is present between the transmit and receive ports Table 25 IEEE 802 3ae 10GBASE SR XFP specifications Parameter Specifications Data rate 10 0 Gb s Line rate 64B 66B code 10 3125 gigabits per second Gb s 100 parts per million ppm Mean Time Between Failures MTBF 675 000 hours Cen
25. ation siii adi aca o la OE SX LG SEP A CR A Ronda dd 33 IQUOBASE 0 RT GE Te TOTNM MIDA LA EE 35 1000BASE XD CWDM SFP specifications T bd reed ada ranita ia ee ER TOBROBASE ZX CWDM E 36 1000BASE SX DDI SFP specifications TREE TREE T Ee Tl TOBOBASE LX DDI EE 38 1000BASE XD DDI 1310 nm SFP specifications pated edness Levis Mid epa idt a pbA EE TOBOBASE XD DDI 1590 nm SEP E 39 1000BASE ZX DDI SFP specifications ee Tem TE I 1000BASE XD DDI CWDM SFP specifications eeeesiiseseeeeee ees ete nnns taa aaa ane cana ar nan RE AA RRRR Rod IA sneen ne 41 1000BASE ZX DDI CWDM SFP specifications EE ENEE e EE 41 TOBOB S SEXTO DDI SEP ESMAS sr e a ni RR cai cbe CR gea 42 1000BASE BX40 BDI SEP SPCC aCe suicidas Sitter ERU isis iia EE E Installation SFPs and XFPs December 2010 3 4 TODOBASESEX DDI SFP Spec i E A AA A A enda d 45 Chapter 6 10 Gigabit small form factor pluggable transceivers 47 Selecting an AFP M 47 JOB BHO EE 47 Iistallinig an AFP corrio 49 A A padecen d nian is uni farbe ruta uen za ded 50 i es Bt em 50 Ghapt r 7 STEEKAUL 53 KRP IODE mE C TTE RPM IP PE mE 53 General MEP specication DTE 54 TOGBASE SR AED EEC ADIOS aiiai EAAS aureus hasan EPA DE ded AEA 54 10GB ASE LEM duris
26. ault settings The Ethernet Routing Switch 5000 Series switches automatically configure the following T1 SFP parameters after the system powers up Transmit Line Build Out TLBO set according to cable length Framed or Unframed Insert framing word into the frame 1 bit for each T1 frame or do not insert framing word into the frame Line code Binary 8 Zero Substitution B8ZS or Alternate Mark Inversion AMI Clock Use Rx clock or internal clock for Tx clock Avaya recommends internal clock for Tx clock Framing D4 or Extended Super Frame ESF depends on the framing word required by the T1 equipment at the far end Table 7 T1 SFP default parameters Parameter Default setting TLBO 0 0 ft 133 ft 1 framed 0 B8ZS 1 Tx clock ESF Framed or unframed Line code Tx clock source ech Framing Rx sensitivity Yellow alarm normal operation Fault propagation normal operation Tx disabled behavior Alarm Indications Signal AIS Transmit AIS 1 limited long haul 0 0 2 0 normal operation 32 Installation SFPs and XFPs December 2010 1000BASE T SFP specifications LES Important You must configure the T1 SFP module to match the parameters of the T1 equipment at the far end If you must change the parameters contact Avaya Technical Support 1000BASE T SFP specifications The 1000BASE T SFP p
27. connector and coupling are at the time of connection A damaged or dirty connector can damage a connector with which it pairs A connector must be absolutely clean before you insert it into a transmitter or receiver Never clean an optical connector while it carries light Optical power can cause ignition of the cleaning material when it contacts the end of the optical connector and destroy the connector Typical cleaning materials for example tissues saturated with alcohol combust almost instantaneously after you expose them to optical power levels of 15 dBm or higher Visually inspect the connector to determine cleanliness and to determine if it needs replacing You must replace a connector that has a scratch across the core or a scratch that appears to end in the core The proper connector cleaning method depends on the connector contaminants Judge cleanliness by visual inspection with a fiber microscope First inspect the connector and then clean as required A Warning Risk of eye injury When you inspect a connector ensure that light sources are off The light source in fiber optic cables can damage your eyes If you suspect only the possibility of dust particles for example which can occur when you leave a connector uncapped in a clean environment use high quality canned air or a reel cleaner for example a Cletop to clean the connector A reel cleaner is a good choice to ensure that no dust contaminates the connecto
28. cutoff 12 3 GHz frequency Installation SFPs and XFPs December 2010 59 XFP specifications Examples of an OFF transmitter are as follows no power supplied to the PDM laser shutdown for safety conditions activation of a PMD global transmit disable or other optional transmitter shut down condition 10GBASE ER EW XFP specifications The following table lists the transmitter and receiver specifications for the 10GBASE ER EW XFP The reach for this XFP is up to 40 km at a wavelength of 1550 nm The part number of this XFP is AA1403003 E5 For more information about the 10GBASE EX XFP including test and measurement information and more specifications see the IEEE 802 3ae standard Table 30 IEEE 802 3ae 10GBASE ER EW XFP specifications Parameter Specifications Line rate nominal 10GBASE ER 10 3125 Gb s 100 ppm 10 GbE 10GBASE EW 9 95328 Gb s 20 ppm OC 192 MTBF 675 000 hours 1530 to 1565 nm nominal 1550 nm Up to 40 km 15 dB 3 0 dB at 40 km Center wavelength range Distance Link optical power budget Transmitter and dispersion power penalty Transmitter characteristics Launch power 4 7 to 4 0 dBm Minimum side mode suppression ratio 30 dB Minimum launch power in OMA minus 2 1 dBm transmission and dispersion penalty TDP Minimum optical modulation amplitude 1 7 dBm Maximum average launch power of OFF 30 dBm transmitter Minimum extinc
29. d a lens grade lint free tissue for example Kimwipes You need an optical grade isopropyl alcohol IPA 98 or more pure You need a high quality canned compressed air with extension tube Compressed air must be free of dust water and oil or filmy deposits or scratches on the surface of the connector can result You need a fiber optic microscope to inspect connectors Ad Warning Risk of eye injury When you inspect a connector ensure that light sources are off The light source in fiber optic cables can damage your eyes To avoid getting debris in your eyes wear safety glasses when you work with the canned air duster To avoid eye irritation on contact wear safety glasses when you work with isopropyl alcohol Procedure steps 1 To remove or retract the shroud do one of the following On removable shroud connectors hold the shroud on the top and bottom at the letter designation apply medium pressure and then pull it free from the connector body Do not discard the shroud On retractable shroud connectors hold the shroud in its retracted position 2 Remove dust or debris by applying canned air to the cylindrical and end face surfaces of the connector 3 Gently wipe the cylindrical and end face surfaces of both ferrules using a tissue saturated with optical grade isopropyl alcohol 4 Gently wipe the cylindrical and end face surfaces with a dry tissue Installation SFPs and XFPs December 2010 13
30. d with alcohol into the receptacle and rotating it Each cleaning wand must only be used to clean one optical port 3 Dry the optical port by inserting a dry wand into the receptacle and rotating it E Important Do not let the IPA evaporate wipe it dry immediately Alcohols can leave a residue that is difficult to remove 14 Installation SFPs and XFPs December 2010 Product safety warnings and information 4 Remove lint by blowing compressed air into the optical port 5 Reconnect the optical connector and check for proper function If you are not reinstalling the connector be sure to use a protective cap If problems persist ensure that the connector or receptacle is free from damage Product safety warnings and information The products described in this guide meet requirements of IEC 60950 3rd edition CSA 22 2 No 60950 3rd edition UL 60950 3rd edition EN60950 3rd edition EN60825 1 A11 A2 ESD and installation caution messages This section provides electrostatic discharge ESD and installation caution messages A Electrostatic alert Risk of equipment damage To prevent damage from electrostatic discharge always wear an antistatic wrist strap connected to an ESD jack A Electrostatic alert ATTENTION Risque d endommagement de l quipement Pour pr venir tout dommage d une d charge lectrostatique vous devez toujours porter un un bracelet antistatique connect une prise ESD A E
31. ea Networks MAN The system uses a grid of eight CWDM optical wavelengths in both ring and point to point configurations All components are color coded by wavelength ae Important The attainable cable length can vary depending on the quality of the fiber optic cable used 20 Installation SFPs and XFPs December 2010 Selecting an SFP Model and connector Product number Description 1000BASE SX LC AA1419013 E5 850 nm up to 275 or 550 m 1000BASE SX MT RJ AA1419014 E5 850 nm up to 275 or 550 m 1000BASE LX LC AA1419015 E5 1310 nm up to 10 km 1000BASE XD CWDM LC AA1419025 E5 to 1470 nm to 1610 nm up to 40 AA1419032 E5 km 1000BASE ZX CWDM LC AA1419033 E5 to 1470 nm to 1610 nm up to 70 AA1419040 E5 km 100BASE FX LC AA1419074 E6 1310 nanometers nm up to NOTE Only the 5600 Series 2km switches support this SFP 1 544 Mb s Fast Ethernet to T1 RJ 48C AA1419075 EG T1 remote bridge For more information about specifications for these SFPs see SFP specifications on page 27 Job aid You can use a Digital Diagnostic Indicating DDI SFP in an Ethernet Routing Switch module that supports SFPs The switch supports the optical functions of the SFP A future release will provide access to the DDI information The SFPs described in this section are all RoHS E6 compliant The following table lists and describes the Avaya SFP models with DDI capability All these SFPs use
32. ector can result You need a fiber optic microscope to inspect connectors AX warning Risk of eye injury When inspecting a connector ensure that light sources are off The light source used in fiber optic cables can damage your eyes To avoid getting debris in your eyes wear safety glasses when working with the canned air duster To avoid eye irritation on contact wear safety glasses when working with isopropyl alcohol Procedure steps 1 Remove dust or debris by applying canned air to the cylindrical and end face surfaces of the connector 2 Gently wipe the cylindrical and end face surfaces with a tissue dampened with optical grade isopropyl alcohol 3 Gently wipe the cylindrical and end face surfaces with a dry tissue amp Important Do not let the IPA evaporate wipe it dry immediately Alcohols can leave a residue that is difficult to remove 12 Installation SFPs and XFPs December 2010 Care of fiber optic equipment 4 Dry the connector surfaces by applying canned air 5 Inspect the connector to ensure it is clean and undamaged To prevent contamination do not touch the connector surfaces after cleaning and cover connectors with dust caps if you are not going to use them right away Cleaning duplex connectors Clean connectors so that the optical signal is minimally attenuated by the connector This procedure is appropriate when you suspect more than dust contamination Prerequisites You nee
33. ed in this document Navigation e Safety and equipment care information on page 9 Small form factor pluggable transceivers on page 19 SFP specifications on page 27 10 Gigabit small form factor pluggable transceivers on page 47 XFP specifications on page 53 Installation SFPs and XFPs December 2010 7 Introduction 8 Installation SFPs and XFPs December 2010 Chapter 3 Safety and equipment care information This section contains important safety and regulatory information Read this section before you install small form factor pluggable SFP transceivers or 10 gigabit SFP XFP transceivers Navigation Handling safety and environmental guidelines on page 9 Care of fiber optic equipment on page 10 Product safety warnings and information on page 15 Handling safety and environmental guidelines Before you install an SFP or XFP read the following handling safety and environmental guidelines SFPs and XFPs are static sensitive For more information about how to prevent damage from electrostatic discharge ESD see Electrostatic discharge prevention on page 9 Dust contamination can reduce the performance of optical parts in SFPs and XFPs When you store an SFP or XFP or after you disconnect it from a fiber optic cable always keep a dust cover over the optical bore Dispose of this product according to all national laws and regulations Electrostatic discharge pre
34. ifications Parameter Specifications Connectors Duplex LC Cabling SMF 9 um Data rate 1 0 Gb s Line rate 8B 10B code 1 25 Gb s Operating temperature range 0 to 60C Link optical power budget 17 dB Transmitter characteristics Launch power 4 0 to 1 0 dBm Receiver characteristics Receiver sensitivity 21 dBm Maximum input power 3 0 dBm 1000BASE ZX CWDM SFP specifications The 1000BASE ZX SFPs provides CWDM gigabit Ethernet connectivity using single mode fiber These SFPs support full duplex operation only The part numbers of the 70 km models range from AA1419033 E5 to AA1419040 E5 36 Installation SFPs and XFPs December 2010 1000BASE SX DDI SFP specifications LES Important For the 70 km CWDM SFPs a minimum attenuation of 10 dB must be present between the transmitter and receiver Table 13 1000BASE ZX CWDM 70 km SFP specifications Parameter Specifications Connectors Duplex LC Cabling SMF 9 um Data rate 1 0 Gb s Line rate 8B 10B code 1 25 Gb s Operating temperature range 0 to 60C Link optical power budget 20 dB Transmitter characteristics Launch power 3 0 to 2 0 dBm Receiver characteristics Receiver sensitivity 23 dBm Maximum input power 3 0 dBm 1000BASE SX DDI SFP specifications The following table describes the 1000BASE SX DDI SFP which has a reach of up to 550 m using 50 um MMF a
35. ill work all the time and has no control over the availability of the linked pages Warranty Avaya provides a limited warranty on this product Refer to your sales agreement to establish the terms of the limited warranty In addition Avaya s standard warranty language as well as information regarding support for this product while under warranty is available to Avaya customers and other parties through the Avaya Support Web site http www avaya com support Please note that if you acquired the product from an authorized Avaya reseller outside of the United States and Canada the warranty is provided to you by said Avaya reseller and not by Avaya Licenses THE SOFTWARE LICENSE TERMS AVAILABLE ON THE AVAYA WEBSITE HTTP SUPPORT AVAYA COM LICENSEINFO ARE APPLICABLE TO ANYONE WHO DOWNLOADS USES AND OR INSTALLS AVAYA SOFTWARE PURCHASED FROM AVAYA INC ANY AVAYA AFFILIATE OR AN AUTHORIZED AVAYA RESELLER AS APPLICABLE UNDER A COMMERCIAL AGREEMENT WITH AVAYA OR AN AUTHORIZED AVAYA RESELLER UNLESS OTHERWISE AGREED TO BY AVAYA IN WRITING AVAYA DOES NOT EXTEND THIS LICENSE IF THE SOFTWARE WAS OBTAINED FROM ANYONE OTHER THAN AVAYA AN AVAYA AFFILIATE OR AN AVAYA AUTHORIZED RESELLER AND AVAYA RESERVES THE RIGHT TO TAKE LEGAL ACTION AGAINST YOU AND ANYONE ELSE USING OR SELLING THE SOFTWARE WITHOUT A LICENSE BY INSTALLING DOWNLOADING OR USING THE SOFTWARE OR AUTHORIZING OTHERS TO DO SO YOU ON BEHALF OF YOURSELF AND THE ENTITY F
36. isted pair UTP 1000BASE SX Well suited for campus local area networks LAN and intrabuilding links Up to 275 or 550 m reach fiber dependent over a fiber pair 1000BASE LX Up to 10 km reach over a single mode fiber SMF pair Up to 550 m reach over a multimode fiber MMF pair 1000BASE XD Up to 40 km reach over a single mode fiber pair 1000BASE ZX Up to 70 km reach over a single mode fiber pair 1000BASE BX10 Up to 10 km reach Bidirectional over one single mode fiber The 1000BASE BX10 SFPs are paired devices for more information see 1000BASE BX10 DDI SFP specifications on page 42 1000BASE BX40 Up to 40 km reach Bidirectional over one single mode fiber The 1000BASE BX40 SFPs are paired devices for more information see 1000BASE BX40 DDI SFP specifications on page 43 1000BASE EX Up to 120 km reach over a single mode fiber pair Job aid SFPs are hot swappable input and output enhancement components designed for use with Avaya products to allow gigabit Ethernet ports to link with other gigabit Ethernet ports over various media types The SFPs described in this section do not have Digital Diagnostic Interface capability and are RoHS E5 compliant The system also supports CWDM SFPS CWDM technology consolidates multiple optical channels on a common optical fiber CWDM uses multiple wavelengths to expand available bandwidth CWDM SFPs support high speed data communications for Metropolitan Ar
37. king motion while firmly pulling the SFP from the slot 5 Store the SFP in a safe place until needed ap Important If you discard the SFP be sure to dispose of it according to all national laws and regulations Installation SFPs and XFPs December 2010 25 Small form factor pluggable transceivers 26 Installation SFPs and XFPs December 2010 Chapter 5 SFP specifications This section provides technical specifications for the supported small form factor pluggable SFP models Use this information to aid in proper network design The specifications in this section meet or exceed those specified in the applicable IEEE standards where they exist In these specifications unless otherwise noted receiver sensitivity is the minimum average input optical power for which the receiver is guaranteed to meet the bit error rate BER of 10712 Navigation SFP labels on page 28 General SFP specifications on page 28 T1 SFP specifications on page 29 e 100BASE FX SFP specifications on page 29 1000BASE T SFP specifications on page 33 e 1000BASE SX LC SFP specifications on page 33 1000BASE SX MT RJ SFP specifications on page 34 e 1000BASE LX SFP specifications on page 35 1000BASE XD CWDM SFP specifications on page 36 1000BASE ZX CWDM SFP specifications on page 36 e 1000BASE SX DDI SFP specifications on page 37 e 1000BASE LX DDI SFP specifications on page 38 1000BASE XD DDI 1310 nm SFP specifications on
38. lation SFPs and XFPs December 2010 Chapter 7 XFP specifications This section provides technical specifications for the supported 10 gigabit SFP XFP models Use these specifications to aid in network design The specifications in this section are a subset of the IEEE 802 3ae and 802 3aq specifications For more information see these standards documents All Avaya XFPs meet or exceed these standards E Important Avaya recommends that you only use Avaya qualified XFPs If you do choose to use other vendor XFPs be aware that Avaya does not support the use of other XFPs Navigation XFP labels on page 53 General XFP specifications on page 54 1OGBASE SR XFP specifications on page 54 e 1OGBASE LRM XFP specifications on page 56 1OGBASE LR LW XFP specifications on page 58 1OGBASE ER EW XFP specifications on page 60 1OGBASE ZR ZW XFP specifications on page 61 XFP labels As shown in the following figure the Avaya label on a typical XFP contains a Avaya serial number a bar code a manufacturer code an interface type and a part number Installation SFPs and XFPs December 2010 53 XFP specifications Operating wavelength XFP interface type Avaya PEC Port Indicator P A N X 10k T M AVA Vendor part number E eg 2D Serial Number Bar code Optional Safety 1 WI NIE MT Serial Number Certification Logos U S FDA CDRH LASER Safety Classification Country of origin Year amp Month 1D
39. lectrostatic alert ACHTUNG Risiko eines Gerateschadens Risiko eines Gerateschadens Um Schaden durch elektrostatische Entladung zu verhindern tragen Sie bei der Instandhaltung dieses Produkts immer ein antistatisches Band am Handgelenk welches mit einer ESD Buchse verbunden ist Installation SFPs and XFPs December 2010 15 Safety and equipment care information A Electrostatic alert PRECAUCION Riesgo de dano del equipo Para prevenir el da o producido por una descarga electrost tica use siempre una pulsera antiest tica conectada a un enchufe ESD A Electrostatic alert CUIDADO Risco de danos ao equipamento Para evitar danos com descarga eletrost tica sempre use uma pulseira antiest tica que esteja conectada a uma tomada ESD A Electrostatic alert ATTENZIONE Rischio di danni all apparecchiatura Per evitare danni derivanti da scariche elettrostatiche indossare sempre un polsino antistatico collegato a una presa ESD A Caution Risk of equipment damage Only trained personnel can install this product A Caution ATTENTION Risque d endommagement de l quipement L installation doit tre effectu e exclusivement par un personnel qualifi A Caution ACHTUNG Risiko eines Gerateschadens Nur geschultes Personal kann dieses Produkt installieren A Caution PRECAUCION Riesgo de dano del equipo S lo el personal capacitado puede instalar este producto 16 Installation SFPs and XFP
40. llowing precautions to avoid damaging the glass fiber Do not kink knot or vigorously flex the cable Do not bend the cable to less than a 40 mm radius Do not stand on fiber optic cable keep the cable off the floor Do not pull fiber optic cable harder than you do a cable containing copper wire of comparable size Do not allow a static load of more than a few pounds on a section of the cable Place protective caps on fiber optic connectors that are not in use Store unused fiber optic patch cables in a cabinet on a cable rack or flat on a shelf Frequent overstressing of fiber optic cable causes progressive degeneration that leads to failure If you suspect damage to a fiber optic cable either due to mishandling or an abnormally high error rate observed in one direction reverse the cable pairs If the high error rate appears in the other direction replace the cable 10 Installation SFPs and XFPs December 2010 Care of fiber optic equipment A Caution Risk of equipment damage Do not crush fiber optic cable If fiber optic cable is in the same tray or duct with large heavy electrical cables it can be damaged by the weight of the electrical cable Fiber optic connector care Before connecting fiber optic connectors to transmission equipment test equipment patch panels or other connectors ensure fiber optic connectors are clean The performance of an optical fiber connector depends on how clean the
41. mode optical fiber The 1000BASE LX SFP supports full duplex operation only The part number for this model is AA1419015 E5 The following table describes standards connectors cabling and distance for the 1000BASE LX SFP Table 11 IEEE 802 3z 1000BASE LX SFP specifications Parameter Specifications Connectors Duplex LC Cabling 50 micrometer um multimode fiber MMF 62 5 um multimode fiber 9 um single mode fiber SMF Distance Up to 550 meters m using MMF Up to 10 kilometers km using SMF Wavelength 1310 nm Link optical power budget 10 5 dB Transmitter characteristics Launch power 9 5 to 3 0 dBm Receiver characteristics Receiver sensitivity 20 dBm Maximum input power 3 0 dBm Installation SFPs and XFPs December 2010 35 SFP specifications 1000BASE XD CWDM SFP specifications The 1000BASE XD SFPs provides CWDM gigabit Ethernet connectivity using single mode fiber These SFPs support full duplex operation only The part numbers of the 40 km models range from AA1419025 E5 to AA1419032 E5 E Important For the 40 km CWDM SFPs a minimum attenuation of 4 dB must be present between the transmitter and receiver To avoid receiver saturation you must insert a minimum attenuation of 4 dB when you test the CWDM SFP in loopback mode or use short runs of fiber with no intermediate CWDM OADM or CWDM OMUX Table 12 1000BASE XD CWDM 40 km SFP spec
42. n los ojos por l ser El equipo de fibra ptica puede emitir una luz l ser o infrarroja que da e sus ojos Nunca mire un puerto de fibra ptica o conector Siempre asuma que los cables de fibra ptica est n conectados a una fuente de luz Ad Warning AVISO O laser pode causar ferimentos no olho O equipamento de fibra tica pode emitir laser ou luz infravermelha que pode causar danos a sua vista Nunca olhe para dentro da fibra tica ou da porta do conector Tenha sempre em mente que os cabos de fibra tica est o ligados a uma fonte de luz A warning AVVISO Rischio di ustioni agli occhi dovute al laser Le apparecchiature con fibre ottiche possono emettere raggi laser o infrarossi in grado di provocare ferite agli occhi Non guardare mai all interno di una porta di connessione o una fibra ottica Tenere sempre presente che i cavi a fibra ottica sono collegati a una sorgente luminosa Installation SFPs and XFPs December 2010 Chapter 4 Small form factor pluggable transceivers This section describes how to select and install small form factor pluggable SFP transceivers Use an SFP to connect a device motherboard to a fiber optic or unshielded twisted pair network cable The SFPs described in this section provide Ethernet at 1 gigabit per second Gb s Navigation Selecting an SFP on page 19 Installing an SFP on page 22 Removing an SFP on page 24 SFP specifications on page 27 Selecting
43. nd of 275 m using 62 5 um MMF This SFP operates at 850 nm The part number of this SFP is AA1419048 E6 Table 14 1000BASE SX SFP DDI 550 m specifications Parameter Specifications Maximum electrical power consumption 1 watt W Connector Duplex LC Cabling MMF Data rate 1 0 Gb s Line rate 8B 10B code 1 25 Gb s Link optical power budget 7 5 dB Transmitter characteristics Installation SFPs and XFPs December 2010 37 SFP specifications Parameter Specifications Launch power 9 5 to 4 0 dBm Receiver characteristics Receiver sensitivity 17 dBm Maximum receiver power 0 dBm 1000BASE LX DDI SFP specifications This SFP can attain a reach of up to 10 km and operates at 1310 nm The part number of this SFP is AA1419049 E6 Table 15 1000BASE LX DDI SFP specifications Parameter Specifications Maximum electrical power consumption 1 0 watt W Connectors Duplex LC Cabling SMF 9 um Data rate 1 0 Gb s Line rate 8B 10B code 1 25 Gb s Link optical power budget 9 5 dB Transmitter characteristics Launch power 9 5 to 3 0 dBm Receiver characteristics Receiver sensitivity 19 0 dBm Maximum receiver power 3 0 dBm 1000BASE XD DDI 1310 nm SFP specifications The following table describes the 1000BASE XD DDI SFP This SFP operates at 1310 nm and has a reach of up to 40 km The part number is AA1419050 E6
44. nformation regarding distributed Linux OS source code for those Products that have distributed the Linux OS source code and identifying the copyright holders of the Third Party Components and the Third Party Terms that apply to them is available on the Avaya Support Web site http www avaya com support Copyright Trademarks The trademarks logos and service marks Marks displayed in this site the documentation s and product s provided by Avaya are the registered or unregistered Marks of Avaya its affiliates or other third parties Users are not permitted to use such Marks without prior written consent from Avaya or such third party which may own the Mark Nothing contained in this site the documentation s and product s should be construed as granting by implication estoppel or otherwise any license or right in and to the Marks without the express written permission of Avaya or the applicable third party Avaya is a registered trademark of Avaya Inc All other trademarks are the property of their respective owners Downloading documents For the most current versions of documentation see the Avaya Support Web site http www avaya com support Contact Avaya Support Avaya provides a telephone number for you to use to report problems or to ask questions about your product The support telephone number is 1 800 242 2121 in the United States For additional support telephone numbers see the Avaya Web site http
45. nstalling an SFP takes about three minutes Prerequisites Verify that the SFP is the correct model for your network configuration Before you install the optical connector ensure it is clean N warning Risk of eye injury by laser Fiber optic equipment can emit laser or infrared light that can injure your eyes Never look into an optical fiber or connector port Always assume that fiber optic cables are connected to a light source A Electrostatic alert Risk of equipment damage 22 Installation SFPs and XFPs December 2010 Installing an SFP To prevent damage from electrostatic discharge always wear an antistatic wrist strap connected to an ESD jack A Caution Risk of equipment damage Only trained personnel can install this product Procedure steps 1 Remove the SFP from its protective packaging 2 Grasp the SFP between your thumb and forefinger 3 As shown in the following figure insert the device into the slot on the module A Caution Risk of equipment damage SFPs are keyed to prevent incorrect insertion If the SFP resists pressure do not force it turn it over and reinsert it Apply a light pressure to the device until it clicks and locks into position 4 Remove the dust cover from the optical bore and insert the fiber optic connector Job aid Depending on the transceiver manufacturer your SFP transceiver can have various types of locking and extractor mechanisms The following
46. or crossover cable You can use an off the shelf straight through cable to directly connect the T1 SFP module and the far end T1 equipment if the far end has the pinout shown in the following table Table 5 RJ 48C pinouts opposite Tx and Rx connection Pin Description Transmit Tx ring Transmit tip Transmit shield Receive Rx ring Receive tip Receive shield Not used OP NI O oO BI OJN Not used If the far end connection does not match the connections shown in this table Table 5 RJ 48C pinouts opposite Tx and Rx connection on page 31 then you must use a crossover cable The following table shows the crossover connections Table 6 RJ 48C crossover cable connections Terminal A Terminal B Pin Description Pin Description 1 Receive ring 1 Transmit ring 2 Receive tip 2 Transmit tip 3 Receive shield 3 Transmit shield 4 Transmit ring 4 Receive ring 5 Transmit tip 5 Receive tip Installation SFPs and XFPs December 2010 31 SFP specifications Terminal A Terminal B Pin Description Pin Description 6 Transmit shield 6 Receive shield 7 Not used 7 Not used 8 Not used 8 Not used You can use a short crossover cable with a straight through cable adapter to connect to a straight through cable Do this to convert a straight through cable to a crossover cable T1 SFP def
47. ort to 1 544 Mbps when using the T1 SFP to guarantee appropriate Quality of Service and traffic prioritization The following table describes the T1 SFP specifications Table 3 Fast Ethernet to T1 remote bridge specifications Parameter Specifications Maximum power consumption 1W Dimensions Height 13 8 mm 0 54 in Width 15 8 mm 0 62 in Depth 75 9 mm 2 99 in Standards Compliant with G 703 G 775 G 823 T1 403 IEEE 802 3 Connectors RJ 48C Cabling CAT5 with RJ 48C pin connection Distance Up to 2874 m over 22 AWG cable You can reduce the distance when you use common 24 AWG UTP CAT5 5E cable Line code Binary 8 Zero Substitution B8ZS or Alternate Mark Inversion AMI The T1 SFP uses an RJ 48C connector see the following figure which is similar to an RJ 45 connection but with different pinouts 875654321 The following table describes the RJ 48C pinouts Table 4 RJ 48C pinouts Pin Description 1 Receive ring 2 Receive tip 30 Installation SFPs and XFPs December 2010 T1 SFP specifications Pin Description Receive shield Transmit ring Transmit tip Transmit shield Not used o oO ha Ww Not used The T1 equipment at the far end of the T1 connection must also use an RJ 48C jack After you determine the pinout of the RJ 48C jack at the far end determine if you need a straight through
48. plication Job aid XFPs are hot swappable input and output enhancement components designed for use with Avaya products to allow 10 gigabit Ethernet ports to link with other 10 gigabit Ethernet ports Installation SFPs and XFPs December 2010 47 10 Gigabit small form factor pluggable transceivers All Avaya XFPs use Lucent connectors LC to provide precision keying and low interface losses The following table lists and describes the Avaya XFP models For more information about specifications for these XFPs see XFP specifications on page 53 Not all products support all XFPs Model Wavelength Cable Size Bandwidth Maximum number and nanometers micrometer megaHertz distance product nm um times km number MHz km 10GBASE 850 MMF 62 5 160 22m SR ES 62 5 500 66 m 50 500 82m 50 2000 300 m 10GBASE 1310 SMF ITU G N A N A 10 km LR LW 652 AA1403001 E5 10GBASE 1550 SMF ITU G N A N A 40 km ER EW 652 AA1403003 E5 10GBASE 1300 MMF 62 5 FDDI 500 220m LRM grade AA1403007 EG 62 5 ISO 500 IEC OM1 50 ISO IEC 500 OM2 50 ISO IEC 500 includes OM3 laser launch bandwidth 50 400 100 m 10GBASE 1550 SMF ITU G N A N A 80 km ZR ZW 652 AA1403006 E5 Installation SFPs and XFPs December 2010 Installing an XFP Installing an XFP Install an XFP to provide a 10 gigabit Ethernet interface between the
49. r If the connector is visibly dirty or you suspect it to be contaminated by chemicals for example matching gel use high quality alcohol and canned air to clean the connector This method is the most thorough cleaning method In some cases a reel cleaner can suffice The more surface manipulation you apply to the connector the more likely the connector is to become damaged Installation SFPs and XFPs December 2010 11 Safety and equipment care information When you insert a connector ferrule into a connector or adapter ensure that the ferrule tip does not touch the outside of the mating connector or adapter This can produce scratches and dirt deposits on the connector To help prevent connectors from collecting dust cover them when not in use To avoid the transfer of oil or other contaminants from your fingers to the end face of the ferrule handle connectors with care Do not touch the connector end face Cleaning single connectors Clean connectors so that the optical signal is minimally attenuated by the connector This procedure is appropriate when you suspect more than dust contamination Prerequisites You need a lens grade lint free tissue for example Kimwipes You need an optical grade isopropyl alcohol IPA 98 or more pure You need a high quality canned compressed air with extension tube Compressed air must be free of dust water and oil or filmy deposits or scratches on the surface of the conn
50. rovides gigabit Ethernet connectivity using a single eight pin RJ 45 connector The 1000BASE T SFP only operates at 1 gigabit per second 1 Gb s and does not support 100BASE T or 10BASE T interfaces The part number for this model is AA1419043 E6 s Important Avaya recommends setting all 1000BaseT ports to auto negotiate in accordance with the IEEE 802 3ab standard By default SFPs inserted into certain product specific modules are set for autonegotiation True The maximum current requirement of the SFP is 375 milliamperes mA at 5 volts V The following table describes the 1000BASE T SFP specifications Table 8 IEEE 802 3z 1000BASE T SFP specifications Parameter Specifications Standards IEEE 802 3z IEEE 802 3ab Connectors RJ 45 Cabling CAT5E or better UTP Distance Up to 100 m 1000BASE SX LC SFP specifications The 1000BASE SX SFP provides 1000BASE SX gigabit Ethernet connectivity at 850 nm using multimode optical fiber This SFP supports full duplex operation only The part number for this model is AA1419013 E5 The following table describes standards connectors cabling and distance for the 1000BASE SX SFP Installation SFPs and XFPs December 2010 33 SFP specifications Table 9 IEEE 802 3z 1000BASE SX LC SFP specifications Parameter Specifications Connectors Duplex LC Cabling 62 5 um MMF optic cable 50 um MMF optic cable Distance upto275musing 62 5 um
51. s December 2010 Product safety warnings and information A Caution CUIDADO Risco de danos ao equipamento Somente pessoal treinado pode instalar este produto A Caution ATTENZIONE Rischio di danni all apparecchiatura Questo prodotto pu essere installato solo da personale esperto Laser safety warnings This section provides laser safety warnings 8769EB A warning Risk of eye injury by laser Fiber optic equipment can emit laser or infrared light that can injure your eyes Never look into an optical fiber or connector port Always assume that fiber optic cables are connected to a light source N warning AVERTISSEMENT Risques de blessure oculaire par lumi re laser L quipement de fibres optiques peut mettre une lumi re laser ou infrarouge nuisible a vos yeux Ne regardez jamais en direction de fibres optiques ou d un port connecteur Supposez toujours que les cables de fibres optiques sont connect s a une source de lumi re warning WARNUNG Risiko einer Augenverletzung durch Laser Glasfasergerate konnen Laserstrahlen oder ultraviolettes Licht aussenden das Ihre Augen verletzen kann Schauen Sie nie direkt in einen Glasfaserleiter oder Verbindungsanschluss Gehen Sie immer davon aus dass Glasfaserkabel mit einer Lichtquelle verbunden sind Installation SFPs and XFPs December 2010 17 Safety and equipment care information 18 warning ADVERTENCIA Riesgo de lesi n e
52. t if insufficient attenuation is provided or if the same 1000 BASE BX SFPs are connected Table 22 IEEE 802 3ah 1000BASE BX40 SFP specifications Parameter Specifications Connectors Single fiber LC Data rate 1 0 Gb s Line rate 8B 10B code 1 25 Gb s Distance Up to 40 km with SMF Wavelength 1310 nm and 1490 nm Link optical power budget 20 0 dB Maximum transmitter and dispersion power 3 3 dB penalty Transmitter characteristics Maximum launch power 3 0 dBm Minimum launch power 3 0 dBm Receiver characteristics Maximum receiver sensitivity 23 dBm Maximum input power maximum average 3 0 dBm receive power 44 Installation SFPs and XFPs December 2010 1000BASE EX DDI SFP specifications 1000BASE EX DDI SFP specifications The following table describes the 1000BASE EX DDI SFP This SFP operates at 1550 nm and has a reach of up to 120 km The part number of this SFP is AA1419071 E6 A Caution Risk of equipment damage To prevent damage to the optical receiver ensure that at least 14 dB of attenuation is present between the transmit and receive ports To attain the BER of 10712 the minimum attenuation between the transmit and receive ports is 15 dB Table 23 1000BASE EX DDI SFP specifications Parameter Specifications Maximum electrical power consumption 1 2W Connectors Duplex LC Cabling SMF 9 um Data rate 1 0 Gb s
53. ter wavelength range 840 to 860 nanometers nm nominal 850 nm Distance Using 62 5 um MMF optic cable 160 MHz km fiber 2 to 26 m 200 MHz km fiber 2 to 33 m Using 50 um MMF optic cable 400 MHz km fiber 2 to 66 m 500 MHz km fiber 2 to 82 m 2000 MHz km fiber 2 to 300 m Link optical power budget 7 3 dB Maximum transmitter and dispersion penalty 3 9 dB at 300 m Transmitter characteristics Root mean square spectral width 0 05 to 0 40 nm Launch power 7 3 to 1 0 deciBels referenced to 1 milliwatt dBm damage Maximum average launch power of OFF 30 dBm transmitter Minimum extinction ratio 3 0 dB Maximum relative intensity noise zOMA 128 dB per Hertz dB Hz Maximum optical return loss tolerance 12 dB Receiver characteristics Average receive power for BER 10 12 9 9 to 1 0 dBm Maximum average receive power for 0 dBm Installation SFPs and XFPs December 2010 55 XFP specifications Parameter Specifications Maximum receiver sensitivity in OMA 11 1 dBm Maximum receiver reflectance 12 dB Stressed receiver sensitivity in OMA 7 5 dBm Receiver electrical 3 dB upper cutoff 12 3 gigaHertz GHz frequency The stressed sensitivity values are for system level BER measurements which include the effects of clock and data recovery CDR circuits Avaya recommends that you allocate
54. tion ratio 3 0 dB Maximum RIN420MA 128 dB Hz Maximum optical return loss tolerance 21 dB Receiver characteristics Installation SFPs and XFPs December 2010 10GBASE ZR ZW XFP specifications Parameter Specifications Average receive power for BER 10712 15 8 dBm to 1 0 dBm Maximum receive power for damage 4 0 dBm Maximum receiver sensitivity in OMA 14 1 dBm Maximum receiver reflectance 26 dB Stressed receiver sensitivity in OMA 11 3 dBm Receive electrical 3 dB upper cutoff 12 3 GHz frequency maximum Examples of an OFF transmitter are as follows no power supplied to the PDM laser shutdown for safety conditions activation of a PMD global transmit disable or other optional transmitter shut down conditions 10GBASE ZR ZW XFP specifications The following table lists the transmit and receive specifications for the 10GBASE ZR ZW XFP The reach is up to 80 km at a wavelength of 1550 nm The part number of this XFP is AA1403006 E5 For more information about the 10GBASE ZX XFP including test and measurement information and more specifications see the IEEE 802 3ae standard A Caution Risk of BER increase For proper XFP operation ensure that at least 11 dB of attenuation is present between the transmit and receive ports Table 31 10GBASE ZR ZW XFP specifications Parameter Specifications Line rate nominal 10GBASE ZR 10 312
55. ve various types of locking and extractor mechanisms The following figure shows a typical bail type mechanism used on XFP transceivers Pull the bail down to release the device Removing an XFP Remove an XFP to replace it or to commission it elsewhere A Warning Risk of eye injury by laser Fiber optic equipment can emit laser or infrared light that can injure your eyes Never look into an optical fiber or connector port Always assume that fiber optic cables are connected to a light source A Electrostatic alert Risk of equipment damage To prevent damage from electrostatic discharge always wear an antistatic wrist strap connected to an ESD jack 50 Installation SFPs and XFPs December 2010 Removing an XFP Procedure steps Disconnect the network fiber cable from the XFP connector Affix a dust cover over the optical connector Pull the bail mechanism on the XFP to release the XFP Slide the XFP out of the module XFP slot A O N gt If the XFP does not slide easily from the module slot use a gentle side to side rocking motion while firmly pulling the XFP from the slot 5 Replace the port dust cover or EMI plug in the module 6 Store the XFP in a safe place until needed amp Important If you discard the XFP be sure to dispose of it according to all national laws and regulations Installation SFPs and XFPs December 2010 51 10 Gigabit small form factor pluggable transceivers 52 Instal
56. vention To prevent equipment damage observe the following electrostatic discharge ESD precautions when you handle or install the components Ground yourself and the equipment to an earth or building ground Use a grounded workbench mat or foam that dissipates static charge and a grounding wrist strap The wrist strap must touch the skin and be grounded through a one megaohm resistor Do not touch anyone who is not grounded Installation SFPs and XFPs December 2010 9 Safety and equipment care information Leave all components in their ESD safe packaging until installation and use only a static shielding bag for all storage transport and handling Clear the area of synthetic materials such as polyester plastic vinyl or styrofoam because these materials carry static electricity that damages the equipment Care of fiber optic equipment You must keep fiber optic equipment connections clean and damage free Use the information in this section to properly maintain and care for fiber optic equipment Care of fiber optic equipment navigation Fiber optic cable care on page 10 Fiber optic connector care on page 11 Cleaning single connectors on page 12 Cleaning duplex connectors on page 13 Cleaning receptacles on page 14 Fiber optic cable care Although the glass fiber in fiber optic cable is protected with reinforcing material and plastic insulation it is subject to damage Use the fo
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