What is an Optical Module?
The Optical Module is composed of optoelectronic devices, functional circuits and optical interfaces. The optoelectronic device includes two parts: transmitting and receiving. In short, the function of the optical module is photoelectric conversion. The transmitter converts the electrical signal into the optical signal, and then the receiver converts the optical signal into the electrical signal after transmission through the optical fiber.
1. Classification of optical modules
Optical modules are classified according to package form and speed. Common classifications include 1X9, SFP, SFP+, XFP, QSFP+, CFP, GBIC, CXP, X2, Xenpak, CFP2, CFP4, DAC, AOC and so on.
At present, the most commonly used are:
The transmission rate of SFP optical module is 100M and 1GB. Common rates are 155Mb/s, 622Mb/s, 1.25Gb/s, 2.5Gb/s, 4.25Gb/s.
The transmission rate is 10 Gigabit, which is 10Gb/s.
The transmission rate is 40G and 100G.
(4) CFP, CFP2, CFP4 optical module
The transmission rate is mainly 40G and 100G.
The cable is made of copper, and the transmission rate is 10G, 40G and 100G.
(6) AOC high speed optical cable
The transmission medium is optical fiber, and the transmission rate is 10G, 40G and 100G.
2. How to choose optical module?
When selecting optical modules, the following four factors need to be considered:
(1) Transmission distance:
The transmission distance supported by different optical modules is different. Generally speaking, the transmission distance of a multi-mode optical module is much shorter than that of a single-mode optical module, and the price is cheaper. For example, the transmission distance of a 10GBASE-SR SFP+ optical module can reach 300m, while the transmission distance of a 10GBASE-LR SFP+ optical module can reach 10km. Therefore, it is very important to figure out the transmission distance you want to reach. In addition, considering the attenuation and dispersion of the optical signal during transmission, it is recommended that you use an optical module that supports a transmission distance slightly greater than the actual requirement. For short-distance connections between devices in the rack, it is recommended that you use high-speed cable products that are cheaper than optical modules.
(2) Transmission mode:
There are three main data transmission modes for optical modules: simplex, half-duplex and full-duplex. Simplex transmission only supports data transmission in one direction; half-duplex transmission allows data transmission in two directions, but only in one direction at a time; full-duplex transmission allows data transmission in two directions at the same time.
(3) Transmission medium:
Copper cables and optical cables are the two most widely used transmission medium. Therefore, some optical modules are of electrical port design, and some optical modules are of optical port design. Generally speaking, optical port optical modules are commonly used in 10G and 40G Ethernet transmission applications, while electrical port optical modules are used in 100M and Gigabit Ethernet applications. Moreover, the transmission distance of optical port optical modules is generally farther than that of electrical port optical modules.
(4) Heat resistance:
The working environment temperature of the optical module should not be too high. If it exceeds the temperature that the optical module can withstand, a link failure is likely to occur. Therefore, optical modules with good heat resistance should be selected.
- |
- +1 赞 0
- 收藏
- 评论 0
本文由出山转载自T&S Blogs,原文标题为:What Is an Optical Module?,本站所有转载文章系出于传递更多信息之目的,且明确注明来源,不希望被转载的媒体或个人可与我们联系,我们将立即进行删除处理。
相关推荐
Comparison of Advantages and Disadvantages Between 40G QSFP+SR4 Optical Module and QSFP+ AOC Active Optical Cable
Both 40G QSFP+SR4 optical transceivers and 40G QSFP+ AOC active optical cables are widely used in 40G data center for short-distance interconnection. Since both can realize short-distance interconnection, what is the difference between them and their advantages and disadvantages? Let‘s reveal the answer to everyone below.
What is the Difference Between AOC and Optical Transceiver?
AOC active optical cable is an optical fiber with a module attached to each end, which is equivalent to a cable and a module.AOC active optical cable is also widely used by many customers because its cost is cheaper than that of two separate modules plus one optical fiber.
Knowledge Sharing about SFP+ AOC
T&S can provide AOC and DAC cables required for the construction of large-scale data centers in 10G/40G/100G applications. The transmission media of AOC and DAC cables are different. For AOC, the signal transmits through light; for DAC, the signal transmits through electricity.
太辰光(T&S)光纤连接器选型指南
目录- 公司简介 Company profile 陶瓷插芯 Ceramic Ferrule 光纤连接器 Fiber Optic Cable Assembly 光纤元器件 Fiber Optic Components 波分复用器 WDM FBT光纤耦合器 FBT Coupler PLC分路器 PLC Splitter 光纤光栅 Fiber Bragg Grating 光纤模块、有源光缆及有源电缆 Fiber Optic Transceivers,AOC&DAC
型号- FOT-SC/APC,CG-XX/G652D/1.5M,D12F-SC/UPC/SM/∅0.9/L/L1M,SMC-P-1X2-163/15-10/90-FC/APC-1-G652D-∅3X60,FEN-SC-S4,FEN-SC-S5,MC-FC/APC-FC/UPC/SM/∅3/L,FEN-SC-S1,PM-FC/UPC(N)-FC/UPC(N)/1550/∅2/L-SA,FEN-SC-S2,FEN-SC-S3,ATIL-FC/APC/SM/05/NP/L,MPO/APC/12F-FC/UPC/SM/∅0.9-L/L1-RJ,PLC-1X8-A-09/L1-LC/UPC-09/L2-LC/UPC
太辰光(T&S)光纤通信产品选型指南
描述- 深圳太辰光通信股份有限公司成立于2000年,于2016年12月在深圳证券交易所创业板上市,证券代码300570,公司的主营业务为各种光通信器件及其集成功能模块的研发、生产和销售。光通信器件主要包括高密度光纤连接器、常规光纤连接器件、PLC光分路器、波分复用器等无源光器件、光模块、有源光缆等有源光器件以及陶瓷插芯、MT插芯,平面光波导晶圆和芯片等基础元器件。
型号- TSSLS-NCNEE3C,400G QSFP-DD TO 4X100G QSFP56 AOC,200G QSFP56 SR4,400G QSFP-DD TO 8X50G SFP56 DAC,TSSLS-NXXCE3T,TSQM4-NAAJB1C,TSQS-PC40G-XXM,TSD4Q-85M-XXXC,TS-RD1,TS-RD1-1U,TSD8S-85M-XXXC,TSQSQ-85G-XXXC,TSQ45-85G-XXXC,TSQM4-NAAJB1T,TS-FD2,TSSLS-NXXCE3C,TS-FD1-1U,TS-FD1,40G QSFP+TO 4X10G SFP+DAC,PD2-6M,TSSLS-NCNEH8C,40G QSFP+ TO 4X10G SFP+ AOC,TSQS-PC56G-XXM,FEN-LH-SMA,TS-FD2 SERIES,56G QSFP+DAC,40G QSFP+ ER4,TSQD-PC4HG-XXM,200G QSFP56 AOC,10G SFP+ ZR,FEN-LH-LC,100G QSFP28 PSM4,TSSLS-CXXEE3C,25G SFP28 SR,TSSLS-NAACBIT,TSSLS-NAAEAIT,TSQDQ-4PC1HG-XXM,100G QSFP28 AOC,TSSLS-NAACB1C,TSSLS-NAAEA1C,FEN-LH-SDL,10G SFP+ DWDM,MD2-1M24L,TSQL4-E11GH7C,TSQSS-PC2HG-XXM,TSQL4-F22JH4C,FES-LC-PA,25G SFP28 DAC,25G SFP28 CWDM,400G QSFP-DD DAC,400G QSFP-DD DR4,TSSLS-NCNCE3C,400G QSFP-DD TO 2X200G QSFP56 DAC,MD1-3M24L,TSSP-PC25G-XXM,TSD2Q-85L-XXXC,200G QSFP56 TO 4X50G SFP56 AOC,56G QSFP+ AOC,TSSP-PC56G-XXM,TSQS-PC2HG-XXM,100G QSFP28 SR4,10G SFP+ LR,TSQM4-NCNJC3C,TSQSS-PC1HG-XXM,TS-RD1 SERIES,TSSSS-85H-XXXC,TSQDQ-2PC2HG-XXM,50G SFP56 AOC,40G QSFP+ DAC,TS-FD1 SERIES,TSQSQ-85H-XXXC,TSQM4-NAALAIC,FEN-SC-FUNNEL-1,PD2-24L,FEN-SC-FUNNEL-2,TSQM4-NAAGB1C,TSQM4-NAAGBIT,TSSSS-85E-XXXC,40G QSFP+ LR4,TSSLS-CXXCE3C,FES-SC-PA,TSQS-PC1HG-XXM,200G QSFP-DD TO 2X100G QSFP28 AOC,100G QSFP28 TO 2X50G QSFP28 AOC,TSSLS-DXXEE4C,10G SFP+ DAC,25G SFP28 BIDI,TSSLS-NCNEE3T,100G QSFP28 LR4,TSQ4S-85L-XXXC,TSQSQ-85L-XXXC,100G QSFP28 DAC,TSDM4-NCNMC3C,25G SFP28 ER,10G SFP+ AOC,10G SFP+ BIDI,400G QSFP-DD TO 8X50G SFP56 AOC,800G QSFP-DD AOC,TSQM4-NCNGC3C,TSDR8-NAAMATC,TS-FD2-2U,10G SFP+ CWDM,10G SFP+SR,FEN-LC-2,25G SFP28 DWDM,TSSSS-85C-XXXC,TSDSD-85N-XXXC,100G QSFP28 TO 4X25G SFP28 AOC,TSQDS-8PC50G-XXM,800G QSFP-DD SR8,10G SFP+ ER,200G QSFP56 DAC,100G SFP-DD AOC,TSSLS-DXXCK8C,TSQ2Q-85J-XXXC,TSSLS-NCNCE3T,TSQSQ-PC2HG-XXM,TSD2Q-85M-XXXC,FEN-LH-SC,TSSLS-NXXEE3T,200G QSFP56 FR4,40G QSFP+ AOC,50G SFP56 DAC,100G QSFP28 TO 4X25G SFP28 DAC,100G QSFP28 ER4,FEN-SC-1,TSDSD-85M-XXXC,400G QSFP-DD FR4,TSDL4-E11MD3C,100G QSFP28 CWDM4,TSSLS-NXXEE3C,25G SFP28 LR,40G QSFP+PSM4,TSQL4-F22JE3C,400G QSFP-DD TO 2X200G QSFP56 AOC,TSTST-85K-XXXC,400G QSFP-DD AOC,TSQSQ-85J-XXXC,TSQ4S-85J-XXXC,TSD85-85L-XXXC,TSQL4-E11JE3C,TSDR8-NAANA1C,TSSLS-NCNCKBC,200G QSFP56 TO 4X50G SFP56 DAC,TSQL4-E11LD3C,400G QSFP-DD TO 4X100G QSFP56 DAC,200G QSFP-DD TO 8X25G SFP28 AOC,TSSLS-NCNCH4C,MD1-2M6M,200G QSFP56 TO 2X100G QSFP56 DAC,25G SFP28 AOC,PD1-24L,TSQL4-E11GE3C,400G QSFP-DD SR8,40G QSFP+SR4,TSQSS-PC40G-XXM,TSSLS-DXXCH4C,TSSP-PC192-XXM
Type Selection and Application of Fiber Transceiver
Although optical modules are a trend to replace fiber transceivers, there is still a relatively large user base for fiber transceivers. For example, fiber transceivers are still commonly used transmission products in monitoring systems.
Solutions for 40G QSFP+DAC/AOC Direct Connection Cable
Now, with the wide use of the 40G network, QSFP+ direct connection cable is also gradually popular. Now T&S introduces the common QSFP+ direct cable solutions in the market in detail through this article.
电子商城
登录 | 立即注册
提交评论