Installing Transceivers and Optical Components on Avaya VSP Operating System Software Release 5.0 NN47227-301 Issue 05.
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Contents Chapter 1: Introduction............................................................................................................ 7 Purpose.................................................................................................................................. 7 Related resources................................................................................................................... 7 Documentation.................................................................................
Contents General SFP+ specifications............................................................................................ 52 Supported SFP+ transceivers........................................................................................... 53 SFP+ cable assembly specifications....................................................................................... 65 SFP+ direct attach cable specifications.............................................................................
Chapter 1: Introduction Purpose This document provides installation instructions and technical specifications for the following: • Small Form Factor Pluggable (SFP) • Small Form Factor Pluggable plus (SFP+) • Quad Small Form Factor Pluggable plus (QSFP+) VSP Operating System includes Avaya Virtual Services Platform 8200, Avaya Virtual Services Platform 8400, Avaya Virtual Services Platform 7200, and Avaya Virtual Services Platform 4000 Series.
Introduction Training Ongoing product training is available. For more information or to register, you can access the Web site at http://avaya-learning.com/. Viewing Avaya Mentor videos Avaya Mentor videos provide technical content on how to install, configure, and troubleshoot Avaya products. About this task Videos are available on the Avaya Support website, listed under the video document type, and on the Avaya-run channel on YouTube.
Related resources Procedure 1. In an Internet browser, go to https://support.avaya.com. 2. Type your username and password, and then click Login. 3. Under My Information, select SSO login Profile. 4. Click E-NOTIFICATIONS. 5. In the GENERAL NOTIFICATIONS area, select the required documentation types, and then click UPDATE. 6. Click OK. 7. In the PRODUCT NOTIFICATIONS area, click Add More Products. 8. Scroll through the list, and then select the product name. 9. Select a release version. 10.
Introduction 11. Click Submit. Support Go to the Avaya Support website at http://support.avaya.com for the most up-to-date documentation, product notices, and knowledge articles. You can also search for release notes, downloads, and resolutions to issues. Use the online service request system to create a service request. Chat with live agents to get answers to questions, or request an agent to connect you to a support team if an issue requires additional expertise.
Support 3. In the Search dialog box, select the option In the index named .pdx. 4. Enter a search word or phrase. 5. Select any of the following to narrow your search: • Whole Words Only • Case-Sensitive • Include Bookmarks • Include Comments 6. Click Search. The search results show the number of documents and instances found. You can sort the search results by Relevance Ranking, Date Modified, Filename, or Location. The default is Relevance Ranking.
Chapter 2: New in this document The following sections detail what is new in Installing Transceivers and Optical Components on VSP Operating System Software, NN47227-301. Release 5.0 Common document The Installing Transceivers and Optical Components on VSP Operating System Software, NN47227-301 document for VOSS 5.0 includes all VSP Operating System Software (VOSS) hardware platforms. For information on platform specific support, see: • Job aid on page 24. • Job aid on page 46. • Job aid on page 67.
Chapter 3: Optical routing design Optical routing design The Avaya optical routing system uses coarse wavelength division multiplexing (CWDM) in a grid of eight optical wavelengths. Use the Avaya optical routing system to maximize bandwidth on a single optical fiber. This chapter provides optical routing system information that you can use to help design your network.
Optical routing design Figure 1: Wavelength division multiplexing The Avaya optical routing system supports both ring and point-to-point configurations. The optical routing system includes the following parts: • CWDM SFPs • Optical add/drop multiplexers (OADM) • Optical multiplexer/demultiplexers (OMUX) • Optical shelf to house the multiplexers OADMs drop or add a single wavelength from or to an optical fiber.
Optical routing design Important: The attainable cable length can vary depending on the quality of the fiber-optic cable used. For more information about SFP transceivers, including technical specifications and installation instructions, see SFP on page 23. Small Form Factor Pluggable plus (SFP+) transceivers SFP+ transceivers are hot-swappable input and output enhancement components that allow 10 gigabit connections.
Optical routing design fiber systems have an associated maximum dispersion power penalty (DPPmax) specification, which applies to G.652 (dispersion unshifted) single mode fiber and the rated transceiver reach. The actual power penalty that you must use is DPPbudget = [link length(km) / transceiver maximum reach (km)] * DPPmax For example, if an 80 km transceiver is specified as having DPP < 3 dB, and if the actual link length will be 40 km, DPPbudget is one-half the maximum, or 1.5 dB.
Chapter 4: Safety and equipment care information This chapter contains important safety and regulatory information. Read this section before you install Small Form Factor Pluggable (SFP), Small Form Factor Pluggable plus (SFP+), and Quad Small Form Factor Pluggable plus (QSFP+). Fiber optic equipment care Use the information in this section to properly maintain and care for fiber optic equipment. Transceivers are static sensitive.
Safety and equipment care information Use the following 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.
Cleaning single connectors Danger: 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, if 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 connector.
Safety and equipment care information 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 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.
Cleaning receptacles 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 1. Remove or retract the shroud. 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.
Safety and equipment care information Warning: Risk of equipment damage To avoid contamination, only clean optical ports if you see evidence of contamination or reduced performance exists, 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 1.
Chapter 5: SFP This chapter provides installation procedures and specifications for Small Form Factor Pluggable (SFP) transceivers. SFP 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 SFP transceivers described in this section provide Ethernet at 1 gigabit per second (Gbps).
SFP Selecting 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 1. Determine the required reach. Depending on the product, SFP transceivers 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.
SFP transceivers Table 1: Compatible 1000BASE SFP transceivers Model Description Minimum software version VSP 4000 VSP 7200 VSP 8200 Part number VSP 8400 Important: Avaya supports SFP transceivers with the following part numbers: AA1419013-E5, AA1419014-E5, AA1419015-E5, and AA1419025-E5 to AA1419040-E5. However, Avaya strongly recommends using the newer DDI versions of these SFP transceivers. 1000BASE-SX SFP 850 nm LC connector 3.0.0.0 4.2.1 4.0.0 4.2.
SFP Model Description Minimum software version Part number VSP 4000 VSP 7200 VSP 8200 VSP 8400 RJ-45 connector 1000BASE-SX DDI SFP 850 nm, gigabit Ethernet, duplex LC connector 3.0.0.0 4.2.1 4.0.0 4.2.0 AA1419048-E6 1000BASE-LX DDI SFP 1310 nm, gigabit Ethernet, duplex LC connector 3.0.0.0 4.2.1 4.0.0 4.2.0 AA1419049-E6 1000BASE-XD DDI SFP 1310 nm, gigabit Ethernet, duplex LC connector 3.0.0.0 4.2.1 4.0.0 4.2.0 AA1419050-E6* 1550 nm, gigabit Ethernet, duplex LC connector 3.0.
SFP transceivers Model Description Minimum software version VSP 4000 VSP 7200 VSP 8200 Part number VSP 8400 Important: AA1419065–E6 remains available for purchase. 1000BASEBX10 DDI SFP 1310 nm (tx) and 1490 nm (rx) 3.0.0.0 4.2.1 4.0.0 4.2.0 AA1419069-E6 (10 km at 1310 nm ) and mating pair AA1419070-E6 (10 km at 1490 nm) 3.0.0.0 4.2.1 4.0.0 4.2.0 AA1419071-E6** This transceiver has reached end-of-sale (EOS).
SFP Before you begin • Verify that the SFP is the correct model for your network configuration. • Before you install the optical connector, ensure it is clean. Danger: 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 connect to a light source. Electrostatic alert: ESD can damage electronic circuits.
SFP transceivers Job aid Depending on the transceiver manufacturer, the SFP transceiver can use different types of locking and extractor mechanisms. The following figure shows the typical mechanism used on SFP transceivers; other locking mechanisms exist although they are not shown here. In the following figure, the SFP transceiver uses the bore plug. Pull the bail to release the device. Removing an SFP Remove an SFP to replace it or to commission it elsewhere.
SFP 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 connect to a light source. Electrostatic alert: ESD can damage electronic circuits. Do not touch electronic hardware unless you wear a grounding wrist strap or other static-dissipating device. Procedure 1. Disconnect the network fiber optic cable from the SFP connector. 2.
SFP specifications SFP labels The Avaya label on a typical SFP transceiver contains an Avaya serial number, a bar code, a manufacturer code, an interface type, and a part number. Figure 2: SFP label General SFP specifications The following table describes general SFP specifications. Table 2: General SFP specifications Parameter Description Dimensions (H x W x D) 8.5 x 13.4 x 56.4 millimeters (0.33 x 0.53 x 2.22 inches), unless otherwise stated.
SFP Autonegotiation Use Autonegotiation to allow the device to automatically negotiate the best common data rate and duplex mode to use between two Autonegotiation-capable Ethernet devices. 1000BASE-SX (LC) SFP specifications The 1000BASE-SX SFP transceiver provides 1000BASE-SX gigabit Ethernet connectivity at 850 nm using multimode optical fiber. This SFP supports only full-duplex operation. The part number is AA1419013-E5.
SFP specifications Table 4: IEEE 802.3z 1000BASE-SX (MT-RJ) SFP specifications Parameter Specifications Connectors Duplex MT-RJ Cabling • 62.5 µm MMF optic cable • 50 µm MMF optic cable Distance • up to 275 m using 62.5 µm MMF optic cable • up to 550 m using 50 µm MMF optic cable Wavelength 850 nm Link optical power budget 7.0 dB Transmitter characteristics Launch power –10 to –4.
SFP Parameter Specifications Launch power –9.5 to –3.0 dBm Receiver characteristics Receiver sensitivity –20 dBm Maximum input power –3.0 dBm 1000BASE-XD CWDM SFP specifications The 1000BASE-XD SFP transceiver provides CWDM gigabit Ethernet connectivity using single mode fiber. This SFP transceiver supports only full-duplex operation. The part numbers of the 40 km models range from AA1419025-E5 to AA1419032-E5*. * This transceiver has reached end of sale (EOS).
SFP specifications * This transceiver has reached end of sale (EOS). For more information about EOS transceivers and recommended replacements for your product, or to determine existing availability for EOS transceivers, see Locating end of sale notices on page 11. Important: For the 70 km CWDM SFP transceivers, a minimum attenuation of 10 dB must be present between the transmitter and receiver.
SFP 1000BASE-SX DDI SFP specifications The 1000BASE-SX DDI SFP transceiver has a reach of up to 550 m using 50 µm MMF, and of 275 m using 62.5 µm MMF. This SFP transceiver operates at 850 nm. The part number is AA1419048E6. The following table describes standards, connectors, cabling, and distance for the 1000BASE-SX DDI SFP transceivers.
SFP specifications Parameter Specifications 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*. * This transceiver has reached end of sale (EOS).
SFP Table 12: 1000BASE-XD DDI 1550 nm SFP transceiver specifications Parameter Specification Maximum electrical power consumption 1.0 W Connectors Duplex LC Cabling SMF, 9 μm Data rate 1.0 Gbps Line rate (8B/10B code) 1.25 Gbps Link optical power budget 22 dB Maximum dispersion power penalty 2 dB at 40 km Minimum attenuation between transmit and receive ports 3 dB Transmitter characteristics Launch power –2.0 to 3.
SFP specifications Parameter Specification Maximum dispersion power penalty 2 dB at 70 km Minimum attenuation between transmit and receive ports 5 dB Transmitter characteristics Launch power 0 to 5 dBm Receiver characteristics Receiver sensitivity –24 dBm Maximum receiver power –0 dBm 1000BASE-XD DDI CWDM (40 km) SFP specifications The following table describes specifications for 1000BASE-XD DDI CWDM SFP transceivers numbered AA1419053-E6 to AA1419060-E6*.
SFP 1000BASE-ZX DDI CWDM 70 km SFP specifications The following table describes specifications for CWDM SFP transceivers numbered AA1419061-E6 to AA1419068-E6*. Warning: Risk of equipment damage To prevent damage to the optical receiver, ensure that at least 8 dB of attenuation is present between the transmit and receive ports. * This transceiver has reached end of sale (EOS).
SFP specifications In the following 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, while the mating model transmits at 1490 nm and receives at 1310 nm. You can only connect a mating pair. The long wavelength optical transceivers used in these models provide variable distance ranges using single mode fiber optic cabling.
SFP Parameter Specification Maximum launch power –3.0 dBm Minimum launch power –9.0 dBm Receiver characteristics Maximum receiver sensitivity –19.5 dBm Maximum input power (maximum average receive power) –3.0 dBm 1000BASE-BX40 bidirectional SFP specifications The 1000BASE-BX40 SFP transceivers (part numbers AA1419076-E6 and AA1419077-E6) can attain a reach of up to 40 km. The minimum IL is 6 dB.
SFP specifications To attain the BER of 10-12, the minimum attenuation between the transmit and receive ports is 15 dB. * This transceiver has reached end of sale (EOS). For more information about EOS transceivers and recommended replacements for your product, or to determine existing availability for EOS transceivers, see Locating end of sale notices on page 11. Table 19: 1000BASE-EX DDI SFP transceiver specifications Parameter Specification Maximum electrical power consumption 1.
SFP Parameter Specifications Distance • Up to 2 km using 500 MHz-km MMF optic cable Wavelength 1300 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 –14 dBm April 2016 Installing Transceivers and Optical Components on Avaya VSP Operating System Software Comments on this document? infodev@avaya.
Chapter 6: SFP+ This chapter provides installation procedures and specifications for Small Form Factor Pluggable plus (SFP+) transceivers. SFP+ transceivers This section describes how to select and install Small Form Factor Pluggable plus (SFP+) transceivers. Use an SFP+ transceiver to connect a device motherboard to fiber optic or direct attach cables, up to 15 meters in length.
SFP+ • Avaya recommends the use of Avaya branded SFP and SFP+ transceivers as they have been through extensive qualification and testing. Avaya will not be responsible for issues related to non-Avaya branded SFP and SFP+ transceivers. Selecting an SFP+ Use an SFP+ transceiver to interface a port to a fiber optic cable. About this task Select the appropriate transceiver to provide the required reach.
SFP+ transceivers Hardware Descripti on Minimum software version Part number VSP 4000 VSP 7200 VSP 8200 VSP 8400 10GBASEER/EW SFP+ 40 km, 1550 nm SMF 3.0.0.0 4.2.1 4.0.0 4.2.0 AA1403013-E6 10GBASESR/SW SFP+ 400 m, 850 nm MMF 3.0.0.0 4.2.1 4.0.0 4.2.0 AA1403015-E6 10GBASESR/SW high temperature (0 °C to +85 °C) SFP+ 850 nm MMF 4.0.50.0 N/A N/A N/A AA1403015-E6HT 10GBASEZR/ZW SFP+ 70 km, 1550 nm SMF 3.0.0.0 N/A * 4.0.0 4.2.
SFP+ Hardware Descripti on Minimum software version Part number VSP 4000 VSP 7200 VSP 8200 VSP 8400 10GBASE-CX SFP+ 2-pair twinaxial copper cable that plugs into the SFP+ socket and connects two 10-gigabit ports 5 meter 3.0.0.0 N/A N/A N/A AA1403020-E6 10GBASE-ER CWDM DDI SFP+ 40 km, 1471 to 1611 nm 3.0.0.0 4.2.1 4.0.0 4.2.0 AA1403153-E6 to AA1403160-E6 10GBASE-ZR CWDM DDI SFP+ 70 km, 1471 to 1611 nm 4.0.50.0 4.2.1 4.0.0 4.2.
SFP+ transceivers Before you begin Important: Do not install an SFP+ transceiver in an SFP slot. The two transceivers look the same but function differently. Ensure the slot is an SFP+ slot. • Verify that the SFP+ transceiver is the correct model for your network configuration. • Before you install the optical connector, ensure it is clean. Danger: Risk of eye injury by laser Fiber optic equipment can emit laser or infrared light that can injure your eyes.
SFP+ Example Job aid Depending on the transceiver manufacturer, the SFP+ transceiver uses bail-latch type of locking and extractor mechanism. The following figure shows typical mechanism used on SFP+ transceivers; other locking and extractor mechanisms exist. SFP+ transceivers are similar to SFP transceivers in physical appearance. In the following figure, the SFP+ transceiver still contains the bore plug. Pull the bail to release the device.
SFP+ specifications Danger: 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 connect to a light source. Electrostatic alert: ESD can damage electronic circuits. Do not touch electronic hardware unless you wear a grounding wrist strap or other static-dissipating device. Procedure 1. Disconnect the network fiber optic cable from the SFP+ connector. 2.
SFP+ • Avaya recommends the use of Avaya branded SFP and SFP+ transceivers as they have been through extensive qualification and testing. Avaya will not be responsible for issues related to non-Avaya branded SFP and SFP+ transceivers. SFP+ labels The typical Avaya SFP+ transceiver has a label on the top and bottom or side of the transceiver. The following figures show example labels. Avaya does use alternate labels, depending on the size of the device and space available for label information.
SFP+ specifications Parameter Specifications Connectors LC ultra physical contact (UPC) Storage temperature –40 to 85 ºC Operating temperature 0 to 70 ºC for RoHS -E6 models up to 85 ºC for high temperature models Supported SFP+ transceivers The following section provides specifications for the supported SFP+ transceivers. 10GBASE-LR/LW SFP+ specifications The 10GBASE-LR/LW SFP+ transceiver provides 10 GbE or OC-192 service at a nominal wavelength of 1310 nm.
SFP+ Parameter Specifications Maximum receiver sensitivity in OMA –12.6 dBm Maximum receiver reflectance –12 dB Stressed receiver sensitivity in OMA –10.3 dBm 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 shutdown condition.
SFP+ specifications Parameter Specifications Maximum receiver sensitivity in OMA –12.6 dBm Maximum receiver reflectance –12 dB Stressed receiver sensitivity in OMA –10.3 dBm 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 shutdown condition.
SFP+ Parameter Specifications Maximum receiver reflectance –26 dB Stressed receiver sensitivity in OMA –11.3 dBm Receive electrical 3 dB upper cutoff frequency (maximum) 12.3 GHz The following list shows examples of an OFF transmitter: • No power supplied to the PDM. • Laser shutdown for safety conditions. • Activation of PMD_global_transmit_disable or other optional transmitter shutdown condition.
SFP+ specifications Parameter Specifications 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 dBm Minimum extinction ratio 3.0 dB Maximum optical return loss tolerance –12 dB Receiver characteristics Average receive power for BER 10-12 –9.9 to –1.0 dBm Receiver damage threshold 0 dBm Maximum receiver sensitivity in OMA –11.
SFP+ Parameter Specifications Using 50 µm MMF optic cable: • 400 MHz-km fiber: 2 to 66 m • 500 MHz-km fiber: 2 to 82 m • 2000 MHz-km fiber (OM3): 2 to 300 m • 4700 MHz-km fiber (OM4): 2 to 400 m Link optical power budget 7.3 dB Maximum transmitter and dispersion penalty 3.9 dB at 300 m Operating case temperature range 0 °C to +85 °C Transmitter characteristics Root-mean-square spectral width 0.05 to 0.40 nm Launch power –7.3 to –1.0 dBm Minimum extinction ratio 3.
SFP+ specifications Table 28: 10GBASE-ZR/ZW SFP+ specifications Parameter Specifications Line rate (nominal) 10GBASE-ZR 10.3125 Gbps ±100 ppm (10 GbE) Distance Up to 70 km * Link optical power budget 24 dB Dispersion power penalty 3.0 dB at 70 km (G.652 fiber) Minimum attenuation between transmit and receive ports 11 dB Transmitter characteristics Center wavelength range 1530 to 1565 nm, nominal 1550 nm Average launch power 0 to 4.0 dBm Optical modulation amplitude (minimum) –1.
SFP+ 10GBASE-ER CWDM DDI SFP+ specifications The following table lists the part numbers of the 10GBASE-ER CWDM DDI SFP+ with corresponding wavelengths.
SFP+ specifications 10GBASE-LRM SFP+ specifications The 10GBASE-LRM SFP+ transceiver provides 10 GbE service at a wavelength of 1310 nm. This SFP+ transceiver can attain a reach of up to 220 m on 62.5 μm multimode fiber. The following table lists the transmitter and receiver specifications for the 10GBASE-LRM SFP+ transceiver. These parameters meet the IEEE 802.3aq-2006 standard. The part number of this SFP + transceiver is AA1403017-E6.
SFP+ Table 33: 10GBASE-LRM channel insertion loss and range Fiber type (core diameter and OFL bandwidth) Range Maximum channel insertion loss 62.5 μm (FDDI grade) Up to 220 m 1.9 dB Up to 220 m 1.9 dB Up to 220 m 1.9 dB Up to 100 m 1.7 dB Up to 220 m 1.9 dB • 160 MHz-km at 850 nm • 500 MHz-km at 1300 nm 62.
SFP+ specifications Part number Center wavelength assignment Reach Minimum insertion loss AA1403162-E6 1491 nm 70 km 10 dB AA1403163-E6 1511 nm 70 km 10 dB AA1403164-E6 1531 nm 70 km 10 dB AA1403165-E6 1551 nm 70 km 10 dB AA1403166-E6 1571 nm 70 km 10 dB AA1403167-E6 1591 nm 70 km 10 dB AA1403168-E6 1611 nm 70 km 10 dB Tx and Rx The following table lists the transmitter and receiver specifications for the 10GBASE-ZR CWDM DDI SFP+ transceiver.
SFP+ 10GBASE-BX SFP+ specifications The 10GBASE-BX SFP+ provides 10 Gigabit Ethernet (GbE) service with single mode bidirectional transceivers. One transceiver transmits at 1270 nm and receives at 1330 nm and the mating transceiver transmits at 1330 nm and receives at 1270 nm. Note: Transceivers AA1403169-E6 and AA1403170-E6 must be used only as a pair.
SFP+ cable assembly specifications SFP+ cable assembly specifications This section provides cable assembly specifications for Small Form Factor Pluggable plus (SFP+) transceivers. SFP+ direct attach cable specifications This section provides technical specification for the supported direct attach cable (DAC).
Chapter 7: QSFP+ This chapter provides installation procedures and specifications for 40-gigabit Ethernet Quad Small Form Factor Pluggable plus (QSFP+) transceiver modules. QSFP+ transceivers This section describes how to select, install, and remove Quad (4-channel) Small Form Factor Pluggable plus (QSFP+) transceiver modules. Use a QSFP+ transceiver to connect a device motherboard to fiber optic or direct attach cables. QSFP+ transceivers support 40 gigabit per second (Gbps) connections.
QSFP+ transceivers basic displays the corresponding vendor names instead of leaving the vendor name blank as in the releases prior to VOSS 4.2.1. • Avaya recommends the use of Avaya branded SFP and SFP+ transceivers as they have been through extensive qualification and testing. Avaya will not be responsible for issues related to non-Avaya branded SFP and SFP+ transceivers. Selecting a QSFP+ Use a QSFP+ transceiver to interface a port to a fiber optic cable.
QSFP+ Cable type Cable length Minimum software version Part number VSP 4000 VSP 7200 VSP 8200 VSP 8400 Passive copper DAC 1 meter N/A 4.2.1 4.0.0 4.2.0 AA1404029-E6 Passive copper DAC 3 meter N/A 4.2.1 4.0.0 4.2.0 AA1404031-E6 Passive copper DAC 5 meter N/A 4.2.1 4.0.0 4.2.0 AA1404032-E6 40GBASELR4 QSFP+ 10 km N/A 4.2.1 4.0.0 4.2.0 AA1404001-E6 40GBASESR4 4x10GBASESR QSFP+ 100 meters with OM3 fiber cable N/A 4.2.1 4.0.0 4.2.
QSFP+ transceivers Cable type Cable length Minimum software version VSP 4000 VSP 7200 VSP 8200 Part number VSP 8400 Rx can damage the receiver. If you use a short jumper, short fiber cable, or loopback cable, you must ensure the following to avoid permanent receiver damage: You must have an attenuat or that results in a minimu m of 9 dB insertion loss between the transmitt er and receiver.
QSFP+ Danger: 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 connect to a light source. Electrostatic alert: Risk of equipment damage ESD can damage electronic circuits. Do not touch electronic hardware unless you wear a grounding wrist strap or other static-dissipating device.
QSFP+ transceiver specifications Removing a QSFP+ transceiver Remove a QSFP+ transceiver to replace it or to commission it elsewhere. Before you begin Danger: 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 connect to a light source.
QSFP+ QSFP+ transceiver labels A label can be located on either the top or bottom of the typical Avaya QSFP+ transceiver. The following figure shows an example label. Avaya uses alternate labels, depending on the size of the device and space available for label information. Figure 5: 40GBASE–SR4 QSFP+ transceiver label example The following table identifies the numbered items in the preceding figure. Table 37: Figure notes for a 40GBASE–SR4 QSFP+ transceiver label 1. Avaya logo 2.
QSFP+ transceiver specifications Table 38: General QSFP+ specifications Parameter Specification Dimensions (H x W x D) 8.5 x 18.35 x 72.4 mm (0.33 x 0.72 x 2.85 in.), unless otherwise stated. Note: The length of the pull tab latch varies depending on the vendor and the body, with a length of 125 to 132 mm (4.92 to 5.20 in.).
QSFP+ Parameter Specification Distance Up to: • 328 feet (100 meters) – with OM3 fiber cable. • 492 feet (150 meters) – with OM4 fiber cable. Transmitter characteristics Signaling rate, each lane 10.3125 Gbps RMS spectral width 0.65 nanometers maximum Average launch power, each lane Optical modulation amplitude (OMA), each lane Min Max Units –8.0 –1.0 dBm Min Max Units –5.6 3 dBm Maximum transmitter and dispersion penalty (TDP), each lane 3.
QSFP+ transceiver specifications Parameter Specification Transmitter characteristics Line rate 10 Gbps Signaling rate, each lane 10GBase 10.3125 Gbps Data rate, total 40GBase 41.25 Gbps Lane wavelength ranges 1264.5 nanometers to 1277.5 nanometers 1284.5 nanometers to 1297.5 nanometers 1304.5 nanometers to 1317.5 nanometers 1324.5 nanometers to 1337.5 nanometers Total average optical power 8.3 dBm Minimum average optical power, each lane at 10.3125 Gbps.
QSFP+ Parameter Specification Stressed receiver sensitivity, each lane at 10.3125 Gbps. –9.6 dBm Receive input optical power (damage threshold per lane) 3.3 dBm 40GBASE-LM4 QSFP+ specifications This transceiver operates up to 80 meters on 50 µm MMF cable plant and is compliant with channel insertion loss specified in IEEE standard 802.3-2012, Table 52-10, for 2000 (OM3) or 4700 MHz*km (OM4) 50 um multimode fiber. Note: Channel insertion loss includes connectors.
QSFP+ transceiver specifications Parameter Specification Minimum optical return loss 20 dB Maximum link distance 80 m Receiver characteristics Maximum average receive power, each lane 4.3 dBm Maximum input optical power Tolerates direct Tx to Rx connection Stressed receiver sensitivity –5.0 dBm 40GBASE-ER4 QSFP+ specifications The following table lists the transmitter and receiver specifications for the 40GBASE-ER4 QSFP+ transceiver with corresponding wavelengths.
QSFP+ Average optical power, each lane at 10.3125 Gbps Min. Max. Units –2.7 4.5 dBm Difference in optical power between any two lanes 4.7 dB OMA Minimum side mode suppression ratio 30 dBm Optical modulation amplitude Min. Max. Units 0.3 5 dBm Maximum average optical power of OFF transmitter, each lane –30 dBm Launch power in OMA minus TDP, each lane, (min.) –0.5 dBm Minimum extinction ratio at 10.3125 Gbps 5.
QSFP+ cable assembly specifications cable or configuration changes. Cable cuts are the dominant cause of link failure and have been observed to occur on average 4.39 times per thousand sheath miles per year. Table 42: 40GBASE-ER4 operating ranges Required operating range 2 m to 30 km 2 m to 40 km Interoperation 40GBASE-ER4 and 40GBASE-LR4 QSFP+ transceivers can interoperate with a properlyengineered link.
QSFP+ Note: The Avaya VSP 4000 does not support 40 Gbps QSFP+ transceivers because the VSP 4000 devices do not have any QSFP+ ports. However, the VSP 4000 series supports the four SFP+ 10-gigabit ends of the Direct Attach Breakout Cable (BOC) assembly. The following table identifies the part numbers for specific cable assembly lengths. Cable type Cable length Minimum software version Part number VSP 4000 VSP 7200 VSP 8200 VSP 8400 Passive copper breakout cable 1 meter 4.2.1 4.2.1 4.2.0 4.2.
QSFP+ cable assembly specifications Important: Not all Avaya products support all cable lengths. April 2016 Installing Transceivers and Optical Components on Avaya VSP Operating System Software Comments on this document? infodev@avaya.
Chapter 8: Translations of safety messages Class A electromagnetic interference warning statement Warning: Risk of electromagnetic interference This device is a Class A product. Operation of this equipment in a residential area is likely to cause harmful interference, in which case users are required to take appropriate measures necessary to correct the interference at their own expense. Warning: AVERTISSEMENT Le périphérique est un produit de Classe A.
Electrostatic discharge caution statement Warning: AVVISO Questo dispositivo è un prodotto di Classe A. Il funzionamento di questo apparecchio in aree residenziali potrebbe causare interferenze dannose, nel cui caso agli utenti verrà richiesto di adottare tutte le misure necessarie per porre rimedio alle interferenze a proprie spese. Electrostatic discharge caution statement Electrostatic alert: ELECTROSTATIC ALERT ESD can damage electronic circuits.
Translations of safety messages Electrostatic alert: AVVISO ELETTROSTATICO Le scariche elettrostatiche (ESD) possono danneggiare i circuiti elettronici. Non toccare i componenti elettronici senza aver prima indossato un braccialetto antistatico o un altro dispositivo in grado di dissipare l'energia statica. Laser eye safety danger statement Danger: Risk of eye injury by laser Fiber optic equipment can emit laser or infrared light that can injure your eyes.
Laser eye safety connector inspection danger statement O laser pode causar ferimentos no olho O equipamento de fibra ótica pode emitir laser ou luz infravermelha que pode causar danos a sua vista. Nunca olhe para dentro da fibra ótica ou da porta do conector. Tenha sempre em mente que os cabos de fibra ótica estão ligados a uma fonte de luz.
Translations of safety messages Danger: PERIGO Risco de ferimento nos olhos Ao inspecionar um conector, verifique se as fontes luminosas estão desligadas. A fonte luminosa usada nos cabos de fibra ótica pode causar danos a seus olhos. Danger: PERICOLO Rischio di lesioni agli occhi Quando si esamina un connettore, assicurarsi che le sorgenti di luce siano spente. La sorgente di luce utilizzata nei cavi a fibre ottiche potrebbero danneggiare gli occhi.
Optical fiber damage warning statement arbeiten. Zum Schutz vor Augenirritationen tragen Sie eine Schutzbrille, wenn Sie mit Isopropanol arbeiten. Danger: PELIGRO Riesgo de lesiones Cuando inspeccione un conector, controle que las fuentes de luz estén apagadas. La fuente de luz que utilizan los cables de fibra óptica puede ocasionar daños en la vista. Cuando trabaje con el pulverizador de aire envasado, utilice gafas de seguridad para evitar el ingreso de residuos en los ojos.
Translations of safety messages Warning: AVERTISSEMENT Risques d'endommagement de l'équipement N'exercez pas de pression sur les câbles de fibres optiques. Ne placez pas de câbles de fibres optiques dans la même caisse ou dans le même fourreau que des câbles électriques lourds car leur poids risquerait de les endommager. Warning: WARNUNG Risiko von Geräteschäden Das Glasfaserkabel darf nicht zerdrückt werden.
Optical fiber connector damage warning statement To prevent further contamination, clean fiber optic equipment only when you see evidence of contamination. To prevent contamination, cover the optical ports of all active devices with a dust cap or optical connector. To avoid the transfer of oil or other contaminants from your fingers to the end face of the ferrule, handle connectors with care.
Translations of safety messages Warning: AVISO Risco de danos ao equipamento Para evitar contaminação futura, limpe o equipamento ótico apenas quando houver evidência de contaminação. Para evitar a contaminação, verifique se as portas óticas de todos os dispositivos ativos estão cobertas com uma proteção contra pó ou conector ótico. Para evitar a transferência de óleo ou outro agente contaminador de seus dedos para a extremidade final da ponteira, manuseie os conectores com cuidado.
SFP damage warning statement Die SFPs sind so konstruiert, dass ein falsches Einsetzen verhindert wird. Lässt sich ein SFP auch auf Druck hin nicht einsetzen, versuchen Sie nicht, es gewaltsam einzusetzen, sondern drehen Sie es um, und setzen Sie es erneut ein. Warning: ADVERTENCIA Riesgo de daños en los equipos Los módulos SFP cuentan con cuñas que no permiten insertarlos de forma incorrecta. Si el módulo SFP opone resistencia a la presión, no lo fuerce; gírelo e insértelo nuevamente.
Glossary attenuation The decrease in signal strength in an optical fiber caused by absorption and scattering. Avaya command line interface (ACLI) A textual user interface. When you use ACLI, you respond to a prompt by typing a command. After you enter the command, you receive a system response. bit error rate (BER) The ratio of the number of bit errors to the total number of bits transmitted in a specific time interval.
media media A substance that transmits data between ports; usually fiber optic cables or category 5 unshielded twisted pair (UTP) copper wires. metropolitan area network (MAN) A broadband network that covers an area larger than a Local Area Network. multimode fiber (MMF) A fiber with a core diameter larger than the wavelength of light transmitted that you can use to propagate many modes of light. Commonly used with LED sources for low speed and short distance lengths.
