10G SFP+ HSP31192-LR

万兆sfp+端口表示方式SFP+（Small Form-Factor Plus）是一种10G光模块接口，它是小型化的增强型版本，是SFP模块的改进型产品。

万兆SFP+端口是目前网络交换设备中常用的10G光模块接口。

在网络设备中，SFP+端口一般用于连接高容量的服务器、交换机和路由器。

SFP+端口的表示方式主要通过一些物理指标来描述，例如：光电接口的类型、工作波长、传输介质等等。

首先，SFP+模块的光电接口类型有SFP-10G-LR、SFP-10G-SR、SFP-10G-ER等等。

其中，SFP-10G-LR是长距离传输的光模块，可以覆盖10公里的传输距离；SFP-10G-SR则适用于短距离传输，其传输距离通常在300米左右；而SFP-10G-ER 可以实现更长的传输距离，可达到40公里。

其次，SFP+模块的工作波长通常有850nm、1310nm和1550nm等等。

例如，SFP-10G-SR模块的工作波长为850nm，适合在多模光纤中使用；而SFP-10G-LR模块的工作波长为1310nm，适合在单模光纤中使用。

此外，SFP+模块的传输介质一般有光纤和铜缆两种。

对于光纤介质，我们通常使用LC双绞线连接SFP+模块；而对于铜缆介质，一般使用RJ45接口连接。

因此，SFP+模块也可以根据连接介质的不同进行表示，例如SFP-10G-T表示使用铜缆介质传输的10G模块。

除了上述常见的表示方式外，还有一些其他特殊的SFP+端口表示方式。

例如，一些网络设备使用数字通道处理技术，可以将多个10G接口通过一条光纤进行传输，这时端口表示方式可能会采用类似"10x10"的形式，表示处理了10个10G的光信号。

总之，万兆SFP+端口的表示方式主要通过光电接口类型、工作波长和传输介质等物理指标进行描述。

这些表示方式对于网络设备的连接和光模块的选择都起到了重要的作用。

了解并掌握SFP+端口的相关表示方式，对于网络工程师和网络设备运维人员来说是非常重要的。

RP1000P2SFP系列万兆以太网适配器用户手册北京网迅科技有限公司版权声明本手册所有内容，其版权属于北京网迅科技有限公司（以下简称北京网迅）所有，未经北京网迅许可，任何单位和个人不得仿制，拷贝，转译或者任意引用。

版权所有 不得翻印文件更改历史记录初始信息文件名称RP1000P2SFP系列万兆以太网适配器用户手册初始版本号V1.00 发布日期2019.11编写人章圣表批准人杨友华更改记录版本号更改要点修改人批准人批准发布日期V1.00 初始版本章圣表杨友华2019.11.22 V1.01 驱动程序安装章节修改章圣表杨友华2020.6.1 V1.02 驱动程序安装章节修改高登奎杨友华2020.7.3 V1.03 驱动程序安装章节修改高登奎杨友华2021.1.7 V1.04 驱动程序安装章节修改高登奎杨友华2021.6.1V1.05 增加文件修改历史记录，驱动程序章节修改，增加产品型号章圣表杨友华2021.6.23V1.06 光模块支持列表增加两个型号章圣表杨友华2021.12.22 V1.07 光模块支持列表删除一个intel模块型号章圣表杨友华2022.3.23 V1.08 R1000P2SFP修改为RP1000P2SFP 章圣表杨友华2022.6.24 V1.09 增加各型号对PXE的支持姜堃杨友华2022.10.29 V1.10 增加MCTP over SMBus支持章圣表杨友华2022.12.19 V1.11 修改网卡尺寸误差值章圣表杨友华2023.03.20 V1.12光模块支持列表增加飞思卓光模块章圣表杨友华2023.7.19第1章 RP1000P2SFP系列万兆以太网适配器简介RP1000P2SFP系列万兆以太网适配器（以下简称以太网适配器）是基于北京网迅自主设计的企业级以太网控制器主芯片SP1000A，拥有自主知识产权，它能满足企业数据中心对网络最新需求，应用在服务器上，支持管理程序分流数据排序功能，通过有效地平衡网络负载在C P U核上，提高数据吞吐量和C P U使用率，，在多C P U处理器系统中表现出极佳的性能。

光模块波长光模块类型波长有850nm、1310nm和1550nm；CWDM系列的1270nm-1610nm的（间隔20nm）和DWDM系列的1528nm-1623nm（间隔0.8nm或者0.4nm）。

LC光模块的类型1、SFP光模块⼤部分SFP光模块设计都是LC光模块，包括⼀个百兆SFP光模块、千兆SFP光模块、百兆BIDI光模块、千兆BIDI光模块分析以及通过千兆CWDM光模块等。

2、BIDI光模块所有的光学模块BIDI属于LC光学模块，包括所选的光模块BIDI，BIDI SFP +光模块BIDI XFP光模块。

3、SFP+光模块Sfp-10g-sr 光学模块、 sfp-10g-lr 光学模块、 sfp-10g-er 光学模块、 sfp-10g-lrm 光学模块、 sfp-10g-zr 光学模块和 sfp-10g-lx4光学模块均为lc 光学模块。

4、XFP光模块⼤多数进⾏封装结构形式为XFP的光模块，其接⼝数据类型是LC接⼝，⽐如10G XFP光模块、BIDI XFP光模块、CWDM 光模块设计以及DWDM XFP光模块等。

5、QSFP+光模块40G LR4 QSFP+光模块的接⼝是LC双⼯，具有⾼密度、⾼速率、⼤容量、低成本、低功耗的优势，与单模光纤⼀起使⽤，最⾼传输距离可达10km。

QS FP28撮影フィルム100gbase-lr4光模块、100gbase-er4光模块、100g cwdm4光模块和100g swdm4光模块采⽤ lc 双⼯连接，但它们的传输距离因传输应⽤的不同⽽不同。

SC光模块介绍：SC光模块主要就是⼀个接⼝为SC的光模块，这种光模块有单⼯和双⼯模式之分，与SC连接器可以⼀起进⾏使⽤。

SC光模块的接⼝的紧固⼯作⽅式是采⽤快速插拔销闩式，不须通过旋转，使⽤很⽅便。

SC光模块的特点：SC光模块属于早期的光模块，体积⽐SFP光模块/SFP+光模块要⼤，速率在10Gbps左右，且⽀持热插拔功能，性价⽐很⾼。

Cisco 10GBASE SFP+ModulesData sheet Cisco publicContentsProduct overview 3 Features and benefits 3 Cisco SFP-10G-T-X module 4 Cisco SFP-10G-SR-S module (S-Class) 4 Cisco SFP-10G-SR module 4 Cisco SFP-10G-SR-X module 5 Cisco SFP-10G-SR-I module 5 Cisco SFP-10G-LRM module 5 Cisco FET-10G module 5 Cisco SFP-10G-LR-S module (S-Class) 5 Cisco SFP-10G-LR module 5 Cisco SFP-10G-LR-X module 6 Cisco SFP-10G-LR10-I module 6 Cisco SFP-10G-ER-S module (S-Class) 7 Cisco SFP-10G-ER module 7 Cisco SFP-10G-ER-I module 7 Cisco SFP-10G-ZR-S module (S-Class) 7 Cisco SFP-10G-ZR module 7 Cisco SFP-10G-ZR-I module 8 Cisco SFP+ Twinax copper cables 8 Cisco SFP+ Active optical cables 9 Platform support 9 Product specifications 10 Warranty 19 Cisco environmental sustainability 19 Ordering information 20 Regulatory and standards compliance 21 Cisco Capital 22 Next steps 22 Document history 23A broad range of industry-compliant SFP+ modules for 10 Gigabit Ethernet deploymentsin diverse networking environments.Product overviewThe Cisco® 10GBASE SFP+ modules (Figure 1) give you a wide variety of 10 Gigabit Ethernet connectivity options for data center, enterprise wiring closet, and service provider transport applications.Figure 1.Cisco 10GBASE SFP+ modulesFeatures and benefitsCisco SFP+ modules offer the following features and benefits.●Industry’s smallest 10G form factor for greatest density per chassis●Hot-swappable input/output device that plugs into an Ethernet SFP+ port of a Cisco switch (no need topower down if installing or replacing)●Supports “pay-as-you-populate” model for investment protection and ease of technology migration●Digital optical monitoring capability for strong diagnostic capabilities●Optical interoperability with 10GBASE XENPAK, 10GBASE X2, and 10GBASE XFP interfaces on the samelink●Cisco quality Identification (ID) feature enables a Cisco platform to identify whether the module iscertified and tested by CiscoCisco SFP-10G-T-X moduleThe Cisco 10GBASE-T module (Figure 2) offers connectivity options at the following data rates:100M/1G/10Gbps. It has the SFP+ form factor and an RJ-45 interface so that CAT5e/CAT6A/CAT7 cables can be used to connect to end points with embedded 10GBASE-T ports. They are suitable for distances up to 30 meters and offers a cost-effective way to connect within racks and across adjacent racks.Figure 2.Cisco SFP+ 10GBASE-T module with RJ-45 connectorTable 1, details the specifications for the SFP-10G-T-X module, including cable type, distance, and data rates supported.Table 1.SFP-10G-T-X cabling specificationsCisco SFP-10G-SR-S module (S-Class)The Cisco 10GBASE-SR module supports a link length of 26 meters on standard Fiber Distributed Data Interface (FDDI)-grade Multimode Fiber (MMF). Using 2000 MHz*km MMF (OM3), up to 300-meter link lengths are possible. Using 4700 MHz*km MMF (OM4), up to 400 meter link lengths are possible. SFP-10G-SR-S does not support FCoE.Cisco SFP-10G-SR moduleThe Cisco 10GBASE-SR Module supports a link length of 26m on standard Fiber Distributed Data Interface (FDDI)-grade Multimode Fiber (MMF). Using 2000MHz*km MMF (OM3), up to 300m link lengths are possible. Using 4700MHz*km MMF (OM4), up to 400m link lengths are possible.Cisco SFP-10G-SR-X moduleThe Cisco SFP-10G-SR-X is a multirate* 10GBASE-SR, 10GBASE-SW and OTU2/OTU2e module for extended operating temperature range. It supports a link length of 26m on standard Fiber Distributed Data Interface (FDDI)-grade Multimode Fiber (MMF). Using 2000MHz*km MMF (OM3), up to 300m link lengths are possible. Using 4700MHz*km MMF (OM4), up to 400m link lengths are possible.* Except for version 1, which supports only 10GBASE-SR.Cisco SFP-10G-SR-I moduleThe Cisco SFP-10G-SR-I is a multirate 10GBASE-SR, 10GBASE-SW and OTU2/2e module for industrial operating temperature range. This module also supports CPRI datarate options 3, 4, 5, 6, 7, 7a, 8. It supports a link length of 26m on standard Fiber Distributed Data Interface (FDDI)-grade Multimode Fiber (MMF). Using 2000MHz*km MMF(OM3), up to 300m link lengths are possible. Using 4700MHz*km MMF (OM4), up to 400m link lengths are possible.Cisco SFP-10G-LRM moduleThe Cisco 10GBASE-LRM Module supports link lengths of 220m on standard Fiber Distributed Data Interface (FDDI) grade Multimode Fiber (MMF). To make sure that specifications are met over FDDI-grade, OM1 and OM2 fibers, the transmitter should be coupled through a mode conditioning patch cord. No mode conditioning patch cord is required for applications over OM3 or OM4. For additional information on mode conditioning patch cord requirements please see:https:///en/US/prod/collateral/modules/ps5455/product_bulletin_c25-530836.html.The Cisco 10GBASE-LRM Module also supports link lengths of 300m on standard Single-Mode Fiber (SMF, G.652).Cisco FET-10G moduleThe Cisco FET-10G Fabric Extender Transceiver supports link lengths up to 100m on laser-optimized OM3 or OM4 multimode fiber. It is supported on fabric links from a Nexus 2000 to a Cisco parent switch only. Note this product is not orderable individually. For more information refer to Nexus 2000 datasheet:https:///en/US/prod/collateral/switches/ps9441/ps10110/data_sheet_c78-507093.html.Cisco SFP-10G-LR-S module (S-Class)The Cisco 10GBASE-LR module supports a link length of 10 kilometers on standard Single-Mode Fiber (SMF) (G.652). SFP-10G-LR-S does not support FCoE.Cisco SFP-10G-LR moduleThe Cisco 10GBASE-LR Module supports a link length of 10 kilometers on standard Single-Mode Fiber (SMF, G.652).Cisco SFP-10G-LR-X moduleThe Cisco SFP-10G-LR-X is a multirate 10GBASE-LR, 10GBASE-LW, and OTU2/OTU2e module for extended operating temperature range. It supports a link length of 10 kilometers on standard Single-Mode Fiber (SMF, G.652).Cisco SFP-10G-LR10-I moduleThe Cisco SFP-10G-LR10-I supports a link length of 10 kilometers on standard Single-Mode Fiber (SMF, G.652). The SFP-10G-LR10-I is for industrial operating temperature range. The SFP-10G-LR10-I also supports CPRI datrates options 3, 4, 5, 6, 7, 7a, 8.Cisco SFP-10G-BXD-I and SFP-10G-BXU-I for 10Km (single-fiber bidirectional applications)The Cisco SFP-10G-BXD-I and SFP-10G-BXU-I SFPs operate on a single strand of standard SMF.A SFP-10G-BXD-I device is always connected to a SFP-10G-BXU-I device with a single strand of standard SMF with an operating transmission range up to 10 km.The communication over a single strand of fiber is achieved by separating the transmission wavelength of the two devices, as depicted in Figure 3. SFP-10G-BXD-I transmits a 1330-nm channel and receives a 1270-nm signal, whereas SFP-10G-BXU-I transmits at a 1270-nm wavelength and receives a 1330-nm signal. Note in Figure 3 the presence of a Wavelength-Division Multiplexing (WDM) splitter integrated into the SFP to split the 1270-nm and 1330-nm light paths. This module also supports CPRI datarate options 3, 4, 5, 6, 7, 7a, 8.*Figure 3.Bidirectional transmission of a single strand of SMFThe SFP-10G-BXD-I and SFP-10G-BXU-I SFPs also support Digital Optical Monitoring (DOM) functions according to the industry-standard SFF-8472 Multisource Agreement (MSA). This feature gives the end user the ability to monitor real-time parameters of the SFP, such as optical output power, optical input power, temperature, laser bias current, and transceiver supply voltage.*Version -02 of SFP-10G-BXD-I and SFP-10G-BXU-I supports the CPRI rates.Cisco SFP-10G-ER-S module (S-Class)The Cisco 10GBASE-ER module supports a link length of up to 40 kilometers on SMF (G.652). SFP-10G-ER-S does not support FCoE.Cisco SFP-10G-ER moduleThe Cisco 10GBASE-ER Module supports a link length of up to 40 kilometers on standard Single-Mode Fiber (SMF, G.652).Cisco SFP-10G-ER-I moduleThe Cisco 10GBASE-ER Industrial Temperature Module supports a link length of up to 40 kilometers on standard Single-Mode Fiber (SMF, G.652). The SFP-10G-ER-I for Industrial Operating Temperature Range is a multirate 10GBASE-ER, 10GBASE-EW and OTU2/2e module.Cisco SFP-10G-BX40D-I and SFP-10G-BX40U-I (for 40Km single-fiber bidirectional applications)The Cisco SFP-10G-BX40D-I and SFP-10G-BX40U-I SFPs operate on a single strand of standard SMF.A SFP-10G-BX40D-I device is always connected to a SFP-10G-BX40U-I device with a single strand of standard SMF with an operating transmission range up to 40 km.The communication over a single strand of fiber is achieved by separating the transmission wavelength of the two devices. SFP-10G-BX40D-I transmits a 1330-nm channel and receives a 1270-nm signal. The SFP-10G-BX40U-I transmits at a 1270-nm wavelength and receives a 1330-nm signal.The SFP-10G-BX40D-I and SFP-10G-BX40U-I SFPs support Digital Optical Monitoring (DOM) functions according to the industry-standard SFF-8472 Multisource Agreement (MSA). This feature gives the end user the ability to monitor real-time parameters of the SFP, such as optical output power, optical input power, temperature, laser bias current, and transceiver supply voltage.Cisco SFP-10G-ZR-S module (S-Class)The Cisco 10GBASE-ZR module supports link lengths of up to about 80 kilometers on standard SMF (G.652). This interface is not specified as part of the 10 Gigabit Ethernet standards and is, instead, built according to Cisco specifications. SFP-10G-ZR-S does not support FCoE.Cisco SFP-10G-ZR moduleThe Cisco SFP-10G-ZR is a multirate 10GBASE-ZR, 10GBASE-ZW, and OTU2/OTU2e module. It supports link lengths of up to about 80 kilometers on standard Single-Mode Fiber (SMF, G.652). This interface is not specified as part of the 10 Gigabit Ethernet standard and is instead built according to Cisco specifications.Cisco SFP-10G-ZR-I moduleThe Cisco SFP-10G-ZR-I is a multirate 10GBASE-ZR, 10GBASE-ZW, and OTU2/OTU2e module for industrial operating temperature range. The SFP-10G-ZR-I has a limiting electrical interface receiver, which does not require EDC PHY on the host board, it can be plugged into any SFP+ port. It supports link lengths of up to 70 kilometers on standard Single-Mode Fiber (SMF, G.652), assuming a fiber chromatic dispersion of20 ps/(nm*km). This interface is not specified as part of the 10 Gigabit Ethernet standard and is instead built according to Cisco specifications. The SFP-10G-ZR-I has a cold start at -40⁰C; the transceiver will be operational except optical traffic is not supported from -40⁰ to -28⁰C, all other low speed features (DOM, I2C, etc.) are operational. The module is fully operational from -28⁰C to 85⁰C.Cisco SFP+ Twinax copper cablesCisco SFP+ Copper Twinax (Figure 4) direct-attach cables are suitable for very short distances and offer a cost-effective way to connect within racks and across adjacent racks. Cisco offers passive Twinax cables in lengths of 1, 1.5, 2, 2.5, 3, 4 and 5 meters, and active Twinax cables in lengths of 7 and 10 meters.Figure 4.Cisco direct-attach twinax copper cable assembly with SFP+ connectorsCisco SFP+ Active optical cablesCisco SFP+ Active Optical Cables (Figure 5) are direct-attach fiber assemblies with SFP+ connectors. They are suitable for very short distances and offer a cost-effective way to connect within racks and across adjacent racks. Cisco offers Active Optical Cables in lengths of 1, 2, 3, 5, 7, and 10 meters.Figure 5.Cisco direct-attach active optical cables with SFP+ connectorsPlatform supportCisco SFP+ modules are supported on a wide range of Cisco switches and routers*:Table 2.Cisco Platforms* Not all devices listed support every module. For details about which modules run in which devices and other compatibility information, refer to the document “Cisco 10 Gigabit Ethernet Transceiver Modules Compatibility Matrix”:https:///en/US/docs/interfaces_modules/transceiver_modules/compatibility/matrix/OL_6974.html.Additional platforms may continually be added; please check the compatibility matrix for the latest information and for the Cisco compatible operating system for each platform.Connectors: Dual LC/PC connector (-SR, -LRM, -LR, -ER, -ZR and FET-10G).Note: Only connections with patch cords with PC or UPC connectors are supported. Patch cords withAPC connectors are not supported. All cables and cable assemblies used must be compliant with the standards specified in the standards section.Product specificationsTable 3 provides cabling specifications for the Cisco SFP+ modules.Table 3.SFP+ port cabling specifications*1 Minimum cabling distance for -SR, -LRM, -LR, -ER modules is 2m, according to the IEEE 802.3ae.*2 Links longer than 30km are considered engineered links as per IEEE 802.3ae.*3 Specified at transmission wavelength.*4 Requires 5 dB 1550nm fixed loss attenuator for < 20km. Attenuator is available as a spare. The part number is 15216 ATT LC 5=. *5 Requires 15dB attenuator if Link Distance < 5km.Requires 10dB attenuator if Link Distance is between 5km and 25km.Requires 5dB attenuator if Link Distance is between 25km and 45km.*6 Requires 15dB attenuator if Link Distance < 5km.Requires 10dB attenuator if Link Distance is between 5km and 15km.Requires 5dB attenuator if Link Distance is between 15km and 25km.Attenuator is available as a spare. The part numbers:●5dB - 15216 ATT LC 5=●10dB - 15216 ATT LC 10=●15dB - 15216 ATT LC 15=a - No FCoE support.b - Links up to 15 km are supported as engineered links as long as channel insertion loss < 6.2 dB. Table 4 lists the main optical characteristics for the Cisco SFP+ modules.Table 4.Optical transmit and receive specifications* Transmitter and receiver power is in average, unless specified.** The launch power shall be the lesser of the class 1 safety limit or the maximum receive power. Class 1 laser requirements are defined by IEC 60825-1: 2001.*** Both average and OMA specifications must be met simultaneously.Table 5 details optical specifications for the Cisco SFP-10G-ZR modules.Table 5.SFP-10G-ZR, SFP-10G-ZR-S optical parameters*Maximum chromatic dispersion for SFP-10G-ZR and SFP-10G-ZR-S is 1600 ps/nm.Note: Parameters are specified over temperature and at end of life unless otherwise noted. When shorter distances of single-mode fiber are used (<40km), an inline optical attenuator must be used to avoid overloading and damaging the receiver.Table 6.SFP-10G-ZR-I optical parameters*Maximum chromatic dispersion for SFP-10G-ZR-I is 1400 ps/nm.Note: Parameters are specified over temperature and at end of life unless otherwise noted. When shorter distances of single-mode fiber are used (<40km), an inline optical attenuator must be used to avoid overloading and damaging the receiver.Table 7 describes the bail latch color code for each type of optical SFP+ module. Table 7.SFP+ optical modules color codeTable 8 provides the maximum power consumption and operating temperature range ratings per Cisco SFP+ module.Table 8.SFP+ modules power consumption* The SFP-10G-ZR-I has a cold start at -40⁰C, the transceiver will be operational except optical traffic is not supported from -40⁰C to -28⁰C, all other low speed features(DOM, I2C, etc.) are operational. The module is fully operational -28⁰C to 85⁰C. DimensionsDimensions (H x W x D): 8.5 x 13.4 x 56.5mm. Cisco SFP+ connectors typically weigh 75 grams or less. Environmental Conditions and Power RequirementsOperating temperature range:●Commercial temperature range (COM): 0 to 70°C (32 to 158°F)●Extended temperature range (EXT): -5 to 85°C (23 to 185°F)●Industrial temperature range (IND): -40 to 85°C (-40 to 185°F)●Storage temperature range: -40 to 85°C (-40 to 185°F)Warranty●Standard warranty: 5 years●Expedited replacement available via a Cisco SMARTnet® Service support contractCisco environmental sustainabilityInformation about Cisco’s environmental sustainability polic ies and initiatives for our products, solutions, operations, and extended operations or supply chain is provided in the “Environment Sustainability” section of Cisco’s Corporate Social Responsibility (CSR) Report.Reference links to information about key environmental sustainability topics (mentioned in the “Environment Sustainability” section of the CSR Report) are provided in the following table:Cisco makes the packaging data available for informational purposes only. It may not reflect the most current legal developments, and Cisco does not represent, warrant, or guarantee that it is complete, accurate, or up to date. This information is subject to change without notice.Ordering informationTable 9 provides the ordering information for Cisco SFP+ modules and related cables. Table 9.Ordering informationRegulatory and standards complianceStandards:●GR-20-CORE: Generic Requirements for Optical Fiber and Optical Fiber Cable●GR-326-CORE: Generic Requirements for Single-Mode Optical Connectors and Jumper Assemblies●GR-1435-CORE: Generic Requirements for Multifiber Optical Connectors●IEEE 802.3: 10-Gigabit Ethernet●ITU-T G.709: Interfaces for the Optical Transport Network●ITU-T G.975: GFEC●ITU-T G.975.1: EFEC●SFP+ MSA SFF-8431 (Optical Modules, Active Optical Cables, and Passive Twinax cables)●SFP+ MSA SFF-8461 (Active Twinax cables)Safety:●Laser Class 1 21CFR-1040 LN#50 7/2001●Laser Class 1 IEC60825-1●Cable jacket of SFP+ copper modules is UL #E116441 Compliant●All length SFP+ copper cables are ELV and RoHS CompliantCisco CapitalFlexible payment solutions to help you achieve your objectivesCisco Capital makes it easier to get the right technology to achieve your objectives, enable business transformation and help you stay competitive. We can help you reduce the total cost of ownership, conserve capital, and accelerate growth. In more than 100 countries, our flexible payment solutions can help you acquire hardware, software, services and complementary third-party equipment in easy, predictable payments. Learn more.Next stepsLearn more about Cisco 10GBASE SFP+ fiber modules or 10GBase SFP+ copper modules (twinax cable) by contacting your sales representative or visiting https:///en/US/products/ps6574/index.html. For S-Class SFP+ 10 Gigabit Modules, refer to the link below:https:///c/en/us/products/interfaces-modules/transceiver-modules/datasheet-listing.html.Document historyPrinted in USA C78-455693-27 08/22。

DATA SHEETThe LinkRunner 10G has two Ethernet ports. The main test RJ-45 port supports Multi-Gig networks from 10/100/1000Mbps to 2.5/5/10G to verify link speed, SNR, and duplex advertised andconnected. It can request and verify PoE power under load from up to 90W PSE’s. Alternatively, it can interface to fiber networks via single/multi-mode SFP+ to test 1/10Gbps fiber-based Ethernet. The second RJ-45 management port connects to 10/100/1000Mbps Ethernet for remote control, and conducts network scanning and tests where needed. It is also the port for cable testing.In addition to fiber optic transceivers (SX, LX, SR, LR, ZX, singlemode, multimode, etc.) the SFP+ slot can be utilized with a variety of standards-based interfaces, such as TwinAx or other Direct Attach Copper (DAC) cables, and vendor-specific transceivers.As an Android-based device, LinkRunner 10G can use a variety of apps from the Link-Live app store for a variety of uses. The USB-A port provides connectivity for added USB adapters and third-party accessories such as printers, barcode scanners, fiber optic inspection cameras, and more. The use of a USB-based Wi-Fi adapter (such as the Edimax AC1200 for 802.11ac/b/g/n/) provides for connectivity and wireless testing using a third-party app.The USB-C port is compatible with higher-power USB-C chargers, as well as external power-packs for all-day portable use.Key FeaturesUSB-A Main Ethernet Test Ports (RJ-45 & SFP)Cable Test & ManagementPortsUSB-CLinkRunner ®10GAdvanced Ethernet TesterOverviewIntroducing the new LinkRunner 10G, the most cost-effective solution for 10 Gig network testing. LinkRunner 10G simplifies testing and configuration of copper and fiber Ethernet networks, streamlining workflows by combining essential functions of installation and triage in a single, ruggedized unit.This next-generation Android-based tester delivers complete network validation and troubleshooting, from the media (copper/fiber) to the application (layers 1-7), accelerating deployments, speeding problem identification, and improving the efficiency and effectiveness of network installers and operations teams.• Install, test, verify, and troubleshoot technology upgrades, Multi-Gig (NBASE-T) and 10G networks with advanced Android TM -based troubleshooting apps and purpose-built test hardware • Physical layer testing includes cable (TDR) testing, toning, wiremapping, and cable SNR (Signal-to-Noise Ratio) for Multi-Gig links • Compatibility with standards compliant SFPs enables test and validation of any wired media (copper or fiber) for a variety of use models • Validate up to 90W 802.3bt PSE with TruePower™ loaded Power over Ethernet (PoE) test• Serves as a peer to the EtherScope® nXG for line-rate performance testing to verify network capacity, performance and QoS, as well as service provider SLAs between sitesCost-Effective, Line-Rate 10Gig Ethernet TestingName, Company, Address, Email, Phone, WebsiteThe LinkRunner 10G has out-of-the-box AutoTest profiles with best practice pass/fail thresholds for quick assessment of network configurations and services.AutoTest Element Configurations include:• Switch port PoE validation up to 90W from PSE and TruePower™ load testing• 802.1x authentication• Link speed/duplex advertised vs. actual, Multi-Gig link SNR measurement • VLAN Tagged traffic detection & monitoring• Switch port identification with interface stats, connected devices and drill-down• DHCP availability, response time, automatic detection of 2nd DHCP offer, and connect log• DNS lookup (forward/reverse) availability and response time • Gateway availability and response time• Active connection test targets (Ping or TCP Connect)• End-user response time measurement via HTTPMultiple profiles can be created for complex networks with multiple VLANs supported per switch port, each with its own set of IP targets. These can then be organized into profile groups that execute each test against each profile in sequence. The result is that multiple VLANs can be verified and documented in one go. Since the pre-defined profiles can be executed individually, the profiles group serves as a resource for technicians to verify each specific VLAN during troubleshooting. With profile groups, engineers can transfer theirnetwork configuration and test knowledge to technicians, saving training time and effort.Multi-Gig Link ValidationWith the expanding deployment of Multi-Gig switching (typically to feed greater bandwidth to Wi-Fi 6 access points), users are finding that their cable plant may not support the desired speed. Cable quality, length,installation workmanship, and noise in the environment all can contribute to “downshifting” to lower-than-expected speeds.• Cabling SNR Measurement – LinkRunner 10G can now verify copper media for Multi-Gig capability (1 / 2.5 / 5 / 10Gig), and provide root cause diagnosis when link speed downshifting occurs.24-Hour Monitoring for Intermittent IssuesPeriodic AutoTest: In this mode, AutoTest runs at specified intervals (from 1 minute to 24 hours) and sends the results to Link-Live to view the results over time. This is an effective way to “monitor” aspects of your network for an extended period, or to help diagnose intermittent issues without having to manually execute multiple tests. Results are automatically timestamped and can be prefixed with a user-entered comment for grouping or organization. Test results can be quickly analyzed in Link-Live using the filtering and sortingfunctions. Email notifications can warn you when errors are found.Test profiles enable comprehensive, consistentinfrastructure testingHTTP test reveals cloud/web-based services response timesSimplifies tasks and empowers technicians to verifycomplex networks with next generation AutoTestNBASE-T switch network with VLAN and 802.1xauthentication Add & customize profiles forstandardized testingPeriodic AutoTest enables monitoring infrastructure forintermittent issuesCabling SNRmeasurement validatesMulti-Gig linksLinkRunner® 10GWindows-basedSo ware AgentLinkRunner® AT Test AccessoryREFLECTORS bi-directional round-trip10G copper/fiber wired performance tests for criticallinks and key devicesThe LinkRunner 10G works as a test peer with the EtherScope nXG Network Performance Test (NPT) to stress critical network links, such as switch ports to servers/storage/Wi-Fi access points, uplinks or WAN links, with up to four simultaneous data streams at up to 10G line-rate. It verifies the link’s compliance to service level agreements (SLA) based on throughput, packet loss, QoS, delay and jitter.This performance test can be run at up to full line-rate in order to measure the top-end bandwidth and quality of your network from end-to-end, or for particular network segments. It can also be utilized to bench-test switches for optimal configuration prior to rollout into production. For troubleshooting on a production network (where excessive test traffic could be detrimental), many users will configure the NPT feature with a low stream of traffic (even just 128Kbps) in order to characterize network quality, identify possible packet loss, delay and jitter, and validate QoS.Settings for data streams and thresholds for VoIP or video service can be stored and recalled where needed, saving configuration time.Fo r key servers/services in the cloud or Internet, engineers can pre-define tests and thresholds to verify their connectivity and performance using ping, TCP connect, HTTP, or FTP. Continuous testing with response time measurements is available to verify consistency and identify intermittent issues. These tests can be easily recalled by field technicians to reduce configuration time or mistakes, to get more done faster.Performance test with up to 4 streams and 4end pointsFrame loss, jitter, and latency chartediPerf throughput test withTCP or UDP framesHTTP test against awebserver with end-user-response-time analysisPEERS REFLECTORS bi-directionalLINE RATE IPERF TESTWi-Fi/Ethernet EtherScope nXG PEERS REFLECTORS bi-directionalround-tripIPERF TEST TCP Connect Test -TCP Connect Test showing response time over time (up to last 24-hours)EtherScope nXGPEERS bi-directionalThird-party apps, such as Wi-Fi Analyzer, can be used for WLAN visibility.Serving as a centralized test results and device management system, the free Link-Live cloud service transforms team workflows with the ability to quickly and easily log, document, and report test activity from all LinkSprinter®, LinkRunner AT, LinkRunner G2, LinkRunner 10G, AirCheck™ G2 handheld network testers.Once the instrument is connected to the Link-Live Cloud service, your test results are automatically uploaded to the dashboard for project management and reporting. You have the option of uploading additional files, screenshots, images, profiles, packet captures, location information, and commentsanytime. Also, certain NetAlly instruments with AllyCare Support can receive firmware updates “over the network” from Link-Live as they become available.An API is available to retrieve and integrate data from Link-Live into other management platforms, such as your trouble-ticket application or network management system. This gives you the ability to easily provide proof-of-performance and better manage jobs and staff efficiency.This unified dashboard of both wired and Wi-Fi network connectivity results enables you to:• Reduce results management overhead for multiple testers and users• Enables seamless collaboration between site personnel and remote experts • Attach photos, user comments to each result, adding context for future changes and troubleshooting• For asset management, ability to associate serial numbers of installed devices, and/or cable/walljack label to specific test resultsWi-Fi Network VisibilityWith the use of a USB-A based Wi-Fi adapter (such as the Edimax AC1200 for 802.11ac/b/g/n) provides for connectivity and wireless testing using a third-party apps, available for download from the Link-Live app store. While notnearly as powerful as the tools available in EtherScope nXG or AirCheck G2, this capability provides an essential level of visibility where needed. Note, other than the upload/attachment of screen captures, there is no integration from third-party apps with Link-Live. Information collected from these apps cannot Cable test with Wiremap detecting distance to fault, including cable shieldSimplify report generation across media types fornetwork deployment documentationimmediately upon power-up. The discovery provides quick security and health audits of the network devices across multiple VLANs and subnets.Devices are classified and correlated to provide complete visibility of their name, network addresses, VLAN, SSID, device type, and where available, traffic statistics. Engineers can name and set authorization status for devices discovered. Discovery results can be directly uploaded to the complimentaryLink-Live Cloud Service for storage, conduct detailed analysis of devicesdiscovered with filter and sort tools, or export to CSV/PDF files as documentation.LinkRunner’s discovery can be enriched by accessing SNMP MIBs of infrastructure devices. It shows details such as device configuration summary, interfaceconfiguration and traffic detail, SSIDs supported by WLAN Controllers, anddevices directly connected to switches. Community strings entered are concealed from view.Discover possible security risks caused by users and others: 2nd DHCP offers indicating possible rogue servers, unknown switches granting access to multiple devices.The LinkRunner 10G’s discovery automatically detects problems. Itshows possible cause(s) for each problem detected, and it has integrated troubleshooting tools to investigate further to get to root cause.graphs on utilization, errors, discards, half-duplex (HDX), RSTP, and recent reboots.Shows the switch/router path connecting the LinkRunner 10G to an IP device on across wired and Wi-Fi networks, and even beyond the local network, e.g., from the LinkRunner 10G’s test port to a server in the cloud or data center. The LinkRunner 10G offers built-in tools to conduct further analysis of the devices along the path: view configuration, interface traffic statistics, launch Telnet or browser, conduct port scan, ping and more.LinkRunner 10G permits a remote engineer to control the EtherScope nXG “out of band” (using VNC) to collaborate with technicians on-site, or to troubleshoot remotely where there is no local staff.But connecting to distant sites via VNC on different networks is difficult or impossible, particularly behind NAT firewalls. With the AllyCare-enabled web remote control, users can instantly connect to remote units through the Link-Live Cloud Service – anywhere in the world – for collaborative and remote troubleshooting.Path Analysis shows the device & interfaces that UDP/TCP traffictraversesShows the interfaces of devices present in path analysisDevice detail showing VLAN, interfaces, uptime, & more with drill-downAllyCare-Enabled Features Deliver Advanced Troubleshooting CapabilitiesThe following features below are only available to customers with AllyCare support on their LinkRunner 10G. Visit /allycare/Interface traffic statistics - correlated for 24 hours to detect intermittent eventsNo more struggling to keep manually drawn maps up to date! LinkRunner 10G (with AllyCare support) automatically discovers both your wired and Wi-Fi networks for instant mapping in NetAlly’s Link-Live Cloud Service.These comprehensive, up-to-the-minute-accurate network diagramsshow your network as it is NOW, integrating Layer 2 and Layer 3 topology information, including these connections: switch to host, switch to AccessPoint, AP to Wi-Fi client, switch to switch, switch to router, and router torouter hops.Now, users can now interact with the network in a flexible map-based user interface to quickly visually identify configuration and topology issues, speeding troubleshooting, and automatically create network documentation.The LinkRunner 10G’s patented discovery engine gathers data from its wired connection (via SNMP and other methods) and from the air (observing Wi-Fi traffic) to generate comprehensive network connectivity maps.Easy to use filters and map controls allow you to see exactly what you want, and how you want it displayed. Quickly identify network and device configuration errors, and see ‘unknown’ switches and rogue devices. Element icons are color-coded to identify errors or warnings; double-clicking on any map element brings up its detailed discovery information, including status, problems, interface information, and more.The importance of visualizing your networkThe faster engineers can “see” what is going on in their network, to know who is on the network and where they are connected, and what the path is from “here to there”, the faster they can get to root cause whentroubleshooting performance issues. This is especially true for maintenance organizations or system integrators who often troubleshoot an “unknown” network. The problem is that traditional methods (CLI or elementmanagers) take too long and present complex data that’s often hard to interpret and difficult to correlate.Documentation is an essential step for any project, such as pre-deployment network assessments and new technology rollouts, but it can take too much time to complete. From the graphical map-based user interface, one click sends the map data through a Visio file generator, pre-populating the diagram with all discovered devices, links, and corresponding configuration information, saving hours of manual effort, allowing further customization.Ideal for enterprises or service organizations, LinkRunner 10G’s mapping function saves hours of manual labor, allowing documentation to keep up as the network changes, or provide instant maps for client projects.Filters allow you to choose the types of devices and network configurations to be shown.Simple controls allow for instant customization of the map’s appearance and displayed data Link-Live makes it easy to collaborate and share maps to anyone who needs access, with no added licensing costs. One click exports your map to Microsoft Visio® where youcan easily add notations and modify your map.Models and AccessoriesLR10G-100 LinkRunner 10G Advanced Ethernet TesterIncludes: (1) LR10G mainframe with Li-ION battery, G3-PWRADAPTER, SFP+MR-10G850, Inline RJ-45 coupler, WireView wire mapper #1, Quick Start Guide, and small softcase.G3-PWRADAPTER AC Charger replacement/spare for EXG-200 mainframe with country power cordsEU-WIFI-BT-USB Edimax n150 Wi-Fi & Bluetooth USB Adapter for EuropeCertifications and Compliance©2020 NetAlly. NetAlly® is a registered trademark of LinkRunner® LLC dba NetAlly. Third-party trademarks mentioned are the property of their respective owners./products/linkrunner10gSpecifications (continued)。

数据手册MODULETEK:SFP-10/25G-CWDM-LR-xxxx-x-E1210/25Gb/s SFP28CWDM10km光收发模块产品简介ModuleTek的SFP-10/25G-CWDM-LR-xxxx-x-E12光收发模块基于25G以太网IEEE802.3cc标准，可以支持10G和25G双速率应用。

符合SFF-8402、SFF-8432和SFF-8472标准，为25G以太网应用提供快速可靠的接口。

该产品通过2线串行总线实现SFF-8472要求的数字诊断功能。

产品特性CDR使能时，支持24.3G-26.5Gb/s双向数据传输能力CDR旁路时，支持9.95G-10.31Gb/s双向数据传输能力符合IEEE802.3cc标准符合SFF-8402标准符合SFF-8432标准符合SFF-8472标准发射机和接收机具有内部CDR功能可热插拔的SFP28封装CWDM DFB激光发射器和PIN接收器双LC接口具有数字诊断功能在单模光纤上传输距离可达10公里单电源供电3.3V符合RoHS标准工作温度范围（外壳温度）：商业温度等级：0◦C至70◦C扩展温度等级：−20◦C至85◦C应用25GBASE-LR以太网10GBASE-LR以太网CPRI和eCPRI无线网络摩泰光电用心做好每一次服务1订购信息型号产品ID 描述拉环颜色SFP-10/25G-CWDM-LR-1270-C-E12M605004W127010/25GBASE CWDM 1270nm ，LC 接口，单模光纤上传输距离可达10公里，商业温度水蓝色3245C 半色色标SFP-10/25G-CWDM-LR-1290-C-E12M605004W129010/25GBASE CWDM 1290nm ，LC 接口，单模光纤上传输距离可达10公里，商业温度桃红色Red U 半色色标SFP-10/25G-CWDM-LR-1310-C-E12M605004W131010/25GBASE CWDM 1310nm ，LC 接口，单模光纤上传输距离可达10公里，商业温度橄榄色581U 半色色标SFP-10/25G-CWDM-LR-1330-C-E12M605004W133010/25GBASE CWDM 1330nm ，LC 接口，单模光纤上传输距离可达10公里，商业温度黄绿色7488C 全色色标SFP-10/25G-CWDM-LR-1350-C-E12M605004W135010/25GBASE CWDM 1350nm ，LC 接口，单模光纤上传输距离可达10公里，商业温度天蓝色2925C 全色色标SFP-10/25G-CWDM-LR-1370-C-E12M605004W137010/25GBASE CWDM 1370nm ，LC 接口，单模光纤上传输距离可达10公里，商业温度粉红色2385C 全色色标SFP-10/25G-CWDM-LR-1270-E-E12M605005W127010/25GBASE CWDM 1270nm ，LC 接口，单模光纤上传输距离可达10公里，扩展温度水蓝色3245C 半色色标SFP-10/25G-CWDM-LR-1290-E-E12M605005W129010/25GBASE CWDM 1290nm ，LC 接口，单模光纤上传输距离可达10公里，扩展温度桃红色Red U 半色色标SFP-10/25G-CWDM-LR-1310-E-E12M605005W131010/25GBASE CWDM 1310nm ，LC 接口，单模光纤上传输距离可达10公里，扩展温度橄榄色581U 半色色标SFP-10/25G-CWDM-LR-1330-E-E12M605005W133010/25GBASE CWDM 1330nm ，LC 接口，单模光纤上传输距离可达10公里，扩展温度黄绿色7488C 全色色标SFP-10/25G-CWDM-LR-1350-E-E12M605005W135010/25GBASE CWDM 1350nm ，LC 接口，单模光纤上传输距离可达10公里，扩展温度天蓝色2925C 全色色标SFP-10/25G-CWDM-LR-1370-E-E12M605005W137010/25GBASE CWDM 1370nm ，LC 接口，单模光纤上传输距离可达10公里，扩展温度粉红色2385C 全色色标注：1.产品ID 为我司产品标准型号的简写订货号如需了解更多信息或订购上述产品，请联系：电子邮件：*******************摩泰光电官网：产品一般规格参数符号最小值典型值最大值单位备注数据速率1DR124.326.5Gb/s1数据速率2DR29.9510.31Gb/s2误码率1BER15x10−53误码率2BER210−124工作温度T C070◦C5 -2085◦C5储存温度T STO−4085◦C6工作电流（商业温度）I CC250390mA7工作电流（扩展温度）I CC250450mA7工作电压V CC 3.14 3.3 3.46V功耗(商业温度)P C0.9 1.3W功耗(扩展温度)P E0.9 1.4W最大电压V MAX−0.54V7注：1.IEEE802.3cc2.IEEE802.3ae3.使用25.78Gb/s，PRBS231-1信号测试4.使用10.31Gb/s，PRBS231-1信号测试5.外壳表面温度6.环境温度7.电接口传输距离数据速率光纤类型距离范围(km)备注10.3Gb/s或25.78Gb/s9/125um单模光纤101注：1.在25G速率应用下，要求主机具有RS-FEC功能光学特性—发射机V CC=3.14V to3.46V，T C参数符号最小值典型值最大值单位备注发射光功率1(24.33−25.78Gb/s)P TX117dBm1发射光功率2(9.95−10.31Gb/s)P TX217dBm1光中心波长λCλC-6.5λCλC+6.5nm发射机色散代价(25.78Gb/s)TDP 2.7dB消光比ER 3.5dB光谱宽度(-20dB)Δλ1nm边模抑制比SMSR30dB发射机反射率−12dB关闭发射机时的输出光功率P OUT_OFF−30dBm1注：1.平均光功率光学特性—接收机V CC=3.14V to3.46V，T C参数符号最小值典型值最大值单位备注光中心波长λC12601390nm1接收机过载P OL2dBm接收灵敏度@25.78Gb/s R X_SEN1−13.3dBm2接收灵敏度@10.31Gb/s R X_SEN2−14.2dBm3接收机反射率TR RX−26dBLOS信号生效LOS A−30dBmLOS信号失效LOS D−17dBmLOS信号迟滞区间LOS H0.5dB注：1.λC=1271,1291,1311,1331,1351,13712.平均光功率，使用25.78Gb/s，PRBS231-1信号测试，BER5x10−5；3.平均光功率，使用10.31Gb/s，PRBS231-1信号测试，BER10−12；电气特性—发射机V CC=3.14V to3.46V，T C参数符号最小值典型值最大值单位备注差分输入阻抗R IN100Ω差分输入摆幅V IN PP250900mV发射机关闭电压V D2V CC V发射机使能电压V EN V EE V EE+0.8V电气特性—接收机V CC=3.14V to3.46V，T C参数符号最小值典型值最大值单位备注差分输出摆幅V OUT PP300850mVLOS信号生效V LOS A2V CC HOST VLOS信号失效V LOS D V EE V EE+0.8VA0H 的寄存器说明IIC 地址字节大小寄存器名称寄存器描述取值(HEX)01IdentifierSFP/SFP+/SFP280311Extended Identifier使用IIC 接口0421Connector使用LC 连接器073-108Transceiver 25G Base LR 0000000000000000111Encoding 使用NRZ 编码方式03121BR,Nominal 25.78Gb/s 的标称速率FF 131Rate Identifier 无速率选择功能00141Length(9μm)-km 在单模光纤传输10km 0A 151Length (9μm)-100m 在单模光纤传输10km 64161Length (50μm)-10m 在多模光纤的传输距离00171Length (62.5μm)-10m 在多模光纤的传输距离00181Length (Copper)在铜缆的传输距离00191Reserved未定义0020-3516Vendor name MODULETEK 4D 4F 44554C 4554454B 20202020202020361Transceiver 25G Base LR 0337-393Vendor OUI 无厂商OUI 00000040-5516Vendor PN厂商产品型号由厂商定义56-594Vendor Revision Number厂商产品版本号由厂商定义60-612Wavelength 激光器的波长根据实际应用的器件波长定义621Reserved 未定义00631CC_BASE 0-62字节的校验和由厂商定义64-652Transceiver Options1.使用内部CDR2.Rx_LOS 信号监控3.Tx_FAULT 信号监控4.Tx_DIS 信号监控081A 661BR,max 103%for 25.78Gbit/s67671BR,min NA 0068-8316Vendor SN 厂商序列号由厂商定义84-918Date code 日期代码由厂商定义921Monitoring TypeDOM 信息内部校准接收光功率测量使用平均光功率68931Enhanced Options 1.发射光与接收光Alarm 与Warning 监控2.Tx_DIS 信号监控与控制3.Rx_LOS 信号监控4.Tx_FAULT 信号监控F0941Compliance 按照12.0版本的SFF-8472定义08951CC_EXT 64-94字节的校验和由厂商定义96-12732Vendor Specific 厂商自定义区域由厂商定义128-255128Vendor Specific厂商自定义区域由厂商定义数字诊断功能SFP-10/25G-CWDM-LR-xxxx-x-E12支持SFF-8472中定义的2线串行通信协议，该产品通过地址为0xA2的2线接口访问数字诊断信息。

User Guide Array TN-SFP-10G-xx and TN-CWDM-10G-xxxSeries Cisco Compatible 10G Small FormFactor Pluggable (SFP+)Transceiver Modules•SFP+ Optical Transceiver with LC connector•10G small Form-Factor Pluggable (SFP+) MSA compatible•Compliant with IEEE 802.3ae 10GBASE-SR/LR/LW•SFF-8472 Digital Diagnostic Function (DMI)•Single +3.3 V Power Supply•RoHS Compliant (all models)•Class 1 Laser International Safety Standard IEC 60825 CompliantContentsIntroduction (1)Description (2)Specifications and Standards (2)Optical Specifications (2)TN-SFP-10G-x-xx Series (3)TN-SFP-10G-T (4)Transition Networks Verified Host Devices (TN-SFP-10G-T) (4)TN-CWDM-10G-1xx0-40 Series (5)TN-CWDM-10G-1xx0-80 Series (6)TN-SFP-10G-xx and TN-CWDM-10G-xxx Series (6)Application: Fiber Connections with SFPs (7)SFP Unpacking (7)SFP Installation (8)Cautions (8)Installing an SFP Module (8)Fiber Cable Physical Characteristics (9)Recommended Cable Type for TN-SFP-10G-T (9)Typical TN-SFP-10G-T Power Consumption at Various Distances (9)TN-SFP-10G-T Power Consumption/Surge Current Caution (9)Connecting Fiber Cables (9)Removing an SFP Module (10)Diagnostic Monitoring Interface (DMI) (11)DDMI (Digital Diagnostics Monitoring Interface) (12)Contact Us (13)For More Information (13)Compliance Information (13)Record of Revisions (15)IntroductionT ransition Networks’ TN-SFP-10G-xx and TN-CWDM-10G-xxx TN-SFP-10G-xx and TNCWDM-10G-xxx series Cisco Compatible 10G Small Form Factor Pluggable (SFP+) transceiver modules are designed to install in any SFP+ port. TheseSFP+ modules allow an interface to the network through the SFP+ connector, and are designed for bi-directional, serial-optical data communications, at speeds up to 10.5 Gbps.33499 Rev. D https:// Page 1 of 15DescriptionThe Transition Networks TN-SFP-10G-xx series 10G SFP+ transceiver modules are designed to install in any SFP+ port allowing for 10GBase-X interfaces to the network through the SFP+ connector. The TN-SFP-10Gxx transceivers are Cisco compatible and are designed for bi-directional serial-optical data communication such as 10G Ethernet at speeds up to 10.3 Gbps.Transition Networks’ SFP and SFP+ modules fully comply with the Multi-Sourcing Agreement (MSA). This compliance allows our SFP+ modules to be used in all other MSA compliant SFP+ platforms. In addition, Transition Networks SFP modules are also compatible with all Cisco SFP+ based routers and switch es, as well as Cisco’s IOS software. Transition Networks SFP and SFP+ modules ARE NOT Cisco OEM brand modules.TN-CWDM-10G-1xx0-40 Series: The Transition Networks TN-CWDM-40G-1xx0-40 10G modules are Cisco Compliant* and are designed for bi-directional serial-optical data communications such as 10G Ethernet. Each X2/XFP/SFP+ operates at a nominal CWDM wavelength. There are 8 wavelengths available in 20nm steps from 1470nm to 1610nm.TN-SFP-10G-xR Series: The Transition Networks TN-SFP-10G-xR series 10G SFP+ transceiver modules are designed to install in any SFP+ port allowing for 10GBase-X interfaces to the network through the SFP+ connector. The TN-SFP-10G-xR transceivers are Cisco Compliant* and are designed for bi-directional serial optical data communication such as 10G Ethernet at speeds up to 10.3 Gbps.Specifications and StandardsThe TN-SFP-10G-xxx and TN-CWDM-10G-xxx are designed to meet these standards and specifications:Optical SpecificationsThe Optical Specs for all Tra nsition Networks’ SFPs are listed on the Transition Networks SFP Specifications page at https:///wp-content/uploads/2016/05/SFP-Specifications.pdf.33499 Rev. D https:// Page 2 of 15TN-SFP-10G-x-xx SeriesCisco Compatible 10GBase SFP+ Modules; 10GBase-X, SFP+ With DMI (LC).33499 Rev. D https:/// Page 3 of 15TN-SFP-10G-TTransition Networks Verified Host Devices (TN-SFP-10G-T)33499 Rev. D https:// Page 4 of 15TN-CWDM-10G-1xx0-40 SeriesCisco Compatible CWDM SFP+ Modules; 10GBase-LR/LW/10G Fiber Channel, SFP+ with DMI Single Mode (LC).See the series online datasheet.33499 Rev. D https:/// Page 5 of 15TN-CWDM-10G-1xx0-80 SeriesCisco Compatible CWDM SFP+ Modules; 10GBase-LR/LW/10G Fiber Channel, SFP+ with DMI Single Mode (LC). See the series online datasheet.TN-SFP-10G-xx and TN-CWDM-10G-xxx Series33499 Rev. D https:// Page 6 of 15Application: Fiber Connections with SFPsSFPs are used with 10G Ethernet Switches and Routers, Metro Edge Switching, etc.SFP UnpackingSFPs can be packaged and shipped in a Single package or in a Pack (e.g., TN-SFP-10G-LR-PK is a Pack of 20 TN-SFP-10G-LR SFPs). Before you start installing the TN-SFP-xxx, verify that the package contains the following items: o One TN-SFP-xxx deviceo One printed Documentation Postcardo One printed Caution statementPlease notify your sales representative immediately if any of the above items is missing or damaged. Save the packaging for possible future use.33499 Rev. D https:/// Page 7 of 1533499 Rev. D https:// Page 8 of 15SFP InstallationCautions• The SFP module is keyed to only be installed one way. If forced the wrong way, damage may occur.• Avoid getting dust or other contaminants into the fiber bore of the SFP transceiver module, as this will cause theoptics to not operate properly.• Clean the optic surfaces of the optical fiber before you plug them back in to the optical bores of another SFPmodule. See Fiber Optic Association Cleaning Fiber Optic Connections page.• Each port must match the wavelength specifications on the other end of the cable, and the cable must not exceedthe specified cable length for reliable communications.Installing an SFP Module1. Attach an ESD-preventive wrist strap to your wrist and to the ESD ground connector or a bare metal surface on yourchassis.2. Remove the SFP transceiver module from its protective packaging. Note: Do not remove the optical bore dust plugsuntil directed to do so in a later procedure.3. Check the slot orientation. Note that for some dev ices (e.g., S4224) some slots are “upside down” compared toother slots.4. Position the SFP device at the desired installation slot, with the label facing correctly.5. Carefully slide the SFP device into the slot, aligning it with the internal installation guides.6. Ensure that the SFP device is firmly seated against the internal mating connector. To verify that the SFP is seated andlatched properly. a ) Grasp the SFP by the sides and try to remove it without releasing the latch. b) If the SFP can not be removed, it is installed and seated properly. If the SFP can be removed, reinsert it and press harder with your thumb; repeat if necessary until it is latched securely into the socket.7. Connect the fiber cable to the fiber port connector of the SFP device. Make sure the SFP release latch is in the up(closed) position when you insert the cable connector into the SFP.8. Remove the dust plug from the connector. Save the dust plug for future use.9. Attach an appropriate cable into the SFP module port.10. Attach the other end of the cable into the other device.11. Observe the status LED(s). See the related manual for details.Triangleindicates bottomof SFP cageSFP Module Label side topof SFP moduleBaleClasp SwitchFully Inserted SFP SwitchFiber Cable Physical CharacteristicsThe fiber cable physical characteristics must meet or exceed IEEE 802.3ae specifications:•S ingle mode fiber (recommended): 9 μm•Multimode fiber (recommended): 62.5/125 μm•Multimode fiber (optional): 100/140, 85/140, 50/125 μmWarning: Visible and invisible laser radiation when open. DO NOT stare into laser beam or view directly with optical instruments. Failure to observe this warning could result in damage to your eyes or blindness.Recommended Cable Type for TN-SFP-10G-T•Common Industry Acronym: FFTP (not SSTP or SFTP)•ISO/IEC 11801Name: F/FTP•Cable Shielding Type: Foil•Twisted Pair Shielding Type: FoilTypical TN-SFP-10G-T Power Consumption at Various Distances•10m :2.4W•20m : 2.5W•30m : 2.6WTN-SFP-10G-T Power Consumption/Surge Current CautionCAUTION: Power consumption and surge current are higher than the specified valuesin the SFP MSA. Contact host device manufacturer before plugging TN-SFP-10G-T intothe SFP+ slot.Connecting Fiber CablesTo install the fiber cable, do the following:1.Locate the appropriate fiber cable.2.Install the cable as shown below.33499 Rev. D https:/// Page 9 of 15Removing an SFP ModuleCaution: Be careful when removing the SFP or SFP+ from a device. Some SFP transceiver module temperatures may exceed 160°F (70°C) and be too hot to touch with bare hands. Note: Do not remove and replace the SFP modules more often than necessary; excessive SFP removing and replacing can shorten the SFPs useful life.1.Attach an ESD-preventive wrist strap to your wrist and to the ESD ground connector or a bare metal surface on yourchassis.2.For future reattachment of fiber-optic cables, note which connector plug is send (TX) and which is receive (RX).3.Remove the SFP transceiver module:a. If the SFP transceiver module has an actuator button latch, gently press the actuator button on the front of theSFP transceiver module until it clicks, and the latch mechanism releases the SFP transceiver module from the socket connector. Grasp the actuator button between your thumb and index finger, and carefully pull the SFP transceiver module straight out of the module slot.b. If the SFP transceiver module has a bail clasp latch, pull the latch out and down to eject the SFP transceivermodule from the socket connector. If the bail clasp latch is obstructed and you cannot use your index finger to open it, use a small, flat-blade screwdriver or other long, narrow instrument to open the bail clasp latch. Grasp the SFP transceiver module between your thumb and index finger, and carefully remove it from the socket.4.Replace the Dust Plug.5.Place the removed SFP/SFP+ transceiver module in an antistatic bag or other protective package.33499 Rev. D https:// Page 10 of 15Diagnostic Monitoring Interface (DMI)The following DMI port screen and explanation table contains brief definitions of the DMI support offered on some (SFP Transceiver Modules. For further information, see the help option on Transition Networks Focal Point ION System, and other GUIs. Note: This feature is not available on all devices and may vary between products. See the related manual for more information.TN-SFP distances, TX power, RX power, and link budgets can be found on Transition Networks website. The fiber optic transmitters on this device meet Class I Laser safety requirements per IEC-825/CDRH standards and comply with 21 CFR1040.10 and 21CFR1040.11. WARNING: Visible and invisible laser radiation when open. Do not stare into the beam or view the beam directly with optical instruments. Failure to observe this warning could result in an eye injury or blindness. IMPORTANT: Copper based media ports such as Twisted Pair (TP) Ethernet, USB, RS232, RS422, RS485, DS1, DS3, Video Coax, etc., are intended to be connected to intra-building (inside plant) link segments that are not subject to lightening transients or power faults. Copper-based media ports such as Twisted Pair (TP) Ethernet, USB, RS232, RS422, RS485, DS1, DS3, Video Coax, etc., are NOT to be connected to inter-building (outside plant) link segments that are subject to lightening transients or power faults.DDMI (Digital Diagnostics Monitoring Interface)DDMI (Digital Diagnostics Monitoring Interface) provides enhanced digital DMI for optical transceivers which allows real time access to device operating parameters.The following DMI port screen and explanation table contains brief definitions of the DDMI support offered on some Small Form Factor Pluggable (SFP) Transceiver Modules. For further information, see the help option or User Guide for the relate product4. Note: This feature is not available on all devices and may vary between products. See the related manual for more information.The Transceiver Information and DDMI Information sections are described below.Contact UsTechnical Support: Technical support is available 24-hours a day: US and Canada: 1-800-260-1312; International: 00-1-952-941-7600Main Officetel: +1.952.941.7600 | toll free: 1.800.526.9267 | fax: 952.941.2322******************** | ************************** | ******************************AddressTransition Networks10900 Red Circle DriveMinnetonka, MN 55343, U.S.A.Web: https://For More InformationTechnical information in this document is subject to change without notice. For more information see our online Optical Devices Product Catalog or our SFP Specifications page.Compliance InformationClass I Laser ComplianceThis product has been tested and found to comply with the limits for FDA Class I laser for IEC60825, EN60825, and21CFR1040 specifications.Declaration of ConformityTranslated Safety WarningsWarning Class I laser product. Advarsel Laserprodukt av klasse I.Waarschuwing Klasse-I laser produkt. Aviso Produto laser de classe I.Varoitus Luokan I lasertuote. ¡Advertencia! Producto láser Clase I.Attention Produit laser de classe I Varning! Laserprodukt av klass I.Warnung Laserprodukt der Klasse I. Aviso Produto a laser de classe I.Avvertenza Prodotto laser di Classe I. Advarsel Klasse I laserprodukt.FCC RegulationsThis equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications.Operation of this equipment in a residential area is likely to cause harmful interference, in which case the user will be required to correct the interference at the user's own expense.Canadian RegulationsThis digital apparatus does not exceed the Class A limits for radio noise for digital apparatus set out on the radio interference regulations of the Canadian Department of Communications.Le présent appareil numérique n'émet pas de bruits radioélectriques dépassant les limites applicables aux appareils numériques de la Class A prescrites dans le Règlement sur le brouillage radioélectrique édicté par le ministère des Communications du Canada.European RegulationsWarning : This is a Class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures.Achtung ! : Dieses ist ein Gerät der Funkstörgrenzwertklasse A. In Wohnbereichen können bei Betrieb dieses Gerätes Rundfunkstörungen auftreten. In diesem Fäll is der Benutzer für Gegenmaßnahmen verantwortlich.Attention ! :Ceci est un produit de Classe A. Dans un environment domestique, ce produit risque de créer des interférences radioélectriques, il appartiendra alors à l'utilsateur de prende les measures spécifiques appropriées.In accordance with European Union Directive 2002/96/EC of the European Parliament and of the Council of 27 January 2003, Transition Networks will accept post usage returns of this product for proper disposal. The contact information for this activity can be found in the 'Contact Us' portion of this document.Der Anschluss dieses Gerätes an ein öffentlickes Telekommunikationsnetz in den EGMitgliedstaatenverstösst gegen die jeweligen einzelstaatlichen Gesetze zur Anwendung der Richtlinie 91/263/EWG zur Angleichung der Rechtsvorschriften der Mitgliedstaaten über Telekommunikationsendeinrichtungen einschliesslich der gegenseitigen Anerkennung ihrer Konformität.CAUTION: RJ connectors are NOT INTENDED FOR CONNECTION TO THE PUBLIC TELEPHONE NETWORK.Failure to observe this caution could result in damage to the public telephone network.Der Anschluss dieses Gerätes an ein öffentlickes Telekommunikationsnetz in den EGMitgliedstaatenverstösst gegen die jeweligen einzelstaatlichen Gesetze zur Anwendung der Richtlinie 91/263/EWG zur Angleichung der Rechtsvorschriften der Mitgliedstaaten über Telekommunikationsendeinrichtungen einschliesslich der gegenseitigen Anerkennung ihrer Konformität.UL RecognizedTN-SFP-10G-SR TN-SFP-10G-LR TN-GLC-T-MGTN-GLC-LH-SMTN-GLC-LX-SM-RGD TN-GLC-SX-MM TN-GLC-SX-MM-RGDTN-GLC-BX-UTN-GLC-BX-DTN-GLC-LHX-SMTN-SFP-GE-LTN-SFP-GE-STN-GLC-FE-100FXTN-GLC-BX-U-20TN-GLC-BX-D-20TN-GLC-LH-SMDTN-GLC-TTN-GLC-FE-100LXTN-SFP-OC3MTN-SFP-OC3STN-SFP-SXTN-SFP-LX1TN-SFP-LXB11TN-SFP-LXB12Record of RevisionsTrademarks: All trademarks and registered trademarks are the property of their respective owners.Copyright restrictions: © 2003-2020 Transition Networks. All rights reserved. No part of this work may be reproduced or used in any form or by any means - graphic, electronic or mechanical - without written permission from Transition Networks.。

华为光模块型号命名规则光模块命名规则：S系列和E系列交换机光模块命名简介：常用的参数：1. 封装- SFP，小型可插拔型封装- eSFP，增强型SFP,带电压、温度、偏置电流、发送光功率、接收光功率监控功能。

接口和SFP相同。

- SFP+，10G光模块，接口和SFP/eSFP相同- XFP，10G光模块，比SFP+更宽更长- QSFP，40G光模块，比SFP+更大- CFP，40G/100G光模块- QSFP28，100G光模块2. 速率- FE（100Mbps)，GE（1000Mbps），10G（10000Mbps），40G（40000Mbps），100G（100000Mbps）3. 距离（Km）- SX <= 2/1/0.4(FE/GE/XG)，LX/BX <=15/10 (FE/GE、XG)， LH40 <=40，LH80 <=80，ZX <=100- USR <= 0.1，SR <=0.4，LR <=10，ER <=40，ZR <=80- SR4/iSR4 <=0.15，eSR4 <=0.4，LR4 <=104. 多模、单模- SM 单模, MM 多模- 距离>=10Km的模块是单模5. 波长（nm）- 850，1310，1550，1471等举例：eSFP-GE-SX-MM850 eSFP封装的千M模块，距离1KM，多模，波长850nm 其他杂项：常用光模块拉手颜色黑 850nm蓝 1310 nm紫色 1490nm黄色 1550nmsfp small form-factor pluggable 小尺寸可插拔esfp enhanced small form-factor pluggable 增强的小尺寸可插拔sc-蓝色大方口fc-圆形螺纹接口st-圆形带卡口lc-蓝色小方口。

光纤通信技术在信息传递中占有举足轻重的地位，它很大程度上提高了数据的传输速度，成为了我国的主要通信传输技术。

在光纤通信技术中光模块是一个很重要的组成部分，而在光模块的参数上我们会经常看到SFP-10G-SR 的字样，如果接触光模块比较多的朋友就会比较清楚的了解它的意思，但是一些入行不久的朋友就有可能会被参数弄的云里雾里了。

下面就让飞速光纤（）帮你讲解下SFP-10G-SR 是什么吧。

SFP-10G-SR 是什么？简单来说SFP-10G-SR 是一种十分常见的光模块型号，思科、华为等大厂都有生产，主要应用于交换机与路由器上，我们可以将它其中的三个要素分开来看。

SFP（Small Form-factor Pluggable）指的是热插拔小封装模块，它可以看做GBIC 的升级版，尺寸只有拇指大小，能够大幅度提高端口密度。

SFP 遵从IEEE802.3、SFF-8472协议，并且能够通过I2C 使用数字诊断功能。

10G 代表的是它的传输速率最高能够达到10.3Gbps，适用于万兆以太网，10G 光纤网络已经在电信网中普及开来了，10G 交换机也被越来越多的人所使用。

SR 代表的是光模块的传输距离，10G IEEE 标准中比较常见的是SR、LR、LRM、ER 和ZR。

它们代表的传输距离由短到长，可以通过下面这个表格查看一下。

SFP-10G-SR 的生产厂家有很多，其中具有代表性的就是思科（Cisco）了，并且思科（Cisco）SFP-10G-SR 是什么？我们还需要考虑一些其他因素，比如兼容性和成本。

市面上有很多第三方厂家生产的兼容思科（Cisco）SFP-10G-SR光模块，但是并不都是兼容性较好的，不一定能够在交换机的SFP接头使用，在选购光模块时，必须先保证它与交换机是兼容的。

第二个因素就是成本问题了，很多用户都会选择原装光模块，在资金充足的情况下当然是最好的。

飞速光纤（）提供的SFP-10G-SR光模块性价比高，质量好，成为了越来越多人的选择。