Introduction to Fiber Optic Connectors
The main function of the optical fiber connector is to
quickly connect two optical fibers so that the optical signal can be
continuous to form an optical path. Optical fiber connectors are movable
and reusable, and they are also the most indispensable and most used
passive components in optical communication systems.
Through the optical fiber connector, the two end faces of the optical fiber can be precisely butted together, so that the light energy output by the transmitting fiber can be coupled to the receiving optical fiber to the maximum extent, and the influence of the system due to its intervention needs to be minimized. Because the outer diameter of the optical fiber is only 125μm, and the light-passing part is smaller, the single-mode fiber is only about 9 μm, and the multi-mode fiber is 50 μm and 62.5 μm, so the connection between the fibers needs to be precisely aligned.
Ⅰ. The core component of Fiber Optic Connectors: the ferrule
Through
the function of the optical fiber connector, it can be seen that the
core component that affects the performance of the connector is the
ferrule. The quality of the ferrule directly affects the precise center
docking of the two fibers. Ferrules are made of ceramic, metal, or
plastic. Ceramic ferrules
are widely used, and the main material is zirconium dioxide, which has
the characteristics of good thermal stability, high hardness, high
melting point, wear resistance, and high processing accuracy. The sleeve
is another important part of the connector, and the sleeve plays the
role of alignment to facilitate the installation and fixation of the
connector. The inner diameter of the ceramic sleeve is slightly smaller
than the outer diameter of the ferrule, and the slotted sleeve clamps
the two ferrules to achieve precise alignment.
Ⅱ. The basic parameters of fiber optic connectors: insertion loss, return loss
Due to the difference in the end face of the ferrule, the performance of the connector loss is also different. The optical performance of a fiber optic connector is mainly measured by two basic parameters, insertion loss and return loss. So, what is insertion loss?
Insertion Loss (usually referred to as IL) is the optical power loss caused by the connection. It is mainly used to measure the optical loss between two fixed points in the optical fiber, which is usually caused by the lateral deviation between the two optical fibers, the longitudinal gap in the optical fiber joint, the quality of the end face, etc. The unit is expressed in dB, and the smaller the value, the better, the general requirement should not be greater than 0.5dB.
Return Loss (usually referred to as RL) refers to the parameter of signal reflection performance, which describes the power loss of optical signal return/reflection. Generally, the larger the better, the value is usually expressed in dB. The typical RL value of the general APC connector is about -60dB, and the typical RL value of the PC connector is about -30dB.
In addition to the two optical performance parameters of insertion loss and return loss, the performance of fiber optic connectors should also pay attention to the interchangeability, repeatability, tensile strength, and operating temperature of fiber optic connectors when selecting a good optical fiber connector, times of plugging and unplugging, etc.
Ⅲ. Types of fiber optic connectors
Connectors are divided by connection method: LC, SC, FC, ST, MU, MT, MPO/MTP, etc., by fiber end face: FC, PC, UPC, APC.
1. LC connector
The LC type connector (Lucent connector) is made with a modular jack (RJ) latch mechanism for easy operation. The size of the pins and sleeves used by the LC connector is half the size of ordinary SC, FC, etc., which is 1.25mm, so its appearance size is only half of SC/FC.
2. SC connector
The connector of SC connector (Standard Connector) is a snap-on standard square connector, and the fastening method is a plug-in latch type, which does not need to be rotated. This type of connector is made of engineering plastic, which is low in price and convenient for plugging and unplugging.
3. FC connector
The size of the FC optical fiber connector and the SC connector is the same, the difference is that the FC adopts a metal sleeve, and the fastening method is a turnbuckle. The structure is simple, the operation is convenient, the manufacture is easy, the durability is durable, and it can be used in a high vibration environment.
4. ST connector
The outer shell of the ST fiber optic connector (Straight Tip) is circular, using a 2.5mm annular plastic or metal shell, and the fastening method is turnbuckle, which is often used in fiber optic distribution frames.
MTP/MPO fiber optic connector is a special type of multi-fiber connector. The structure of the MPO connector is more complicated. It connects 12 or 24 fibers in a rectangular fiber ferrule. Usually used in high-density connection scenarios, such as data centers.
In addition to the above, the connector types include MU connectors, MT connectors, MTRJ connectors, E2000 connectors, etc. SC is probably the most commonly used fiber optic connector today, mainly due to its low-cost design.
LC fiber optic connector is also a commonly used fiber optic connector, especially for connection with SFP and SFP+ fiber optic transceivers.
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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
FEN-LH-SC FEN-LH-LC FEN-LH-SMA FEN-LH-SDL Large Hole Ferrule
型号- FEN-LH-SMA,FEN-LH-SC,FEN-LH-LC,FEN-LH-SDL
Detailed Introduction of Fiber Jumper Interface Types PC, APC, UPC
In order to make the end faces of the two optical fibers better contact, the ferrule end faces of the fiber jumpers are usually ground into different structures. Common grinding methods are PC, APC, UPC. PC/APC/UPC represents the front face structure of the ceramic ferrule.
Analysis of Key Technologies of Fiber Optic Connectors
The fiber optic connector is to realize the accurate transmission of optical signals to achieve the purpose of communication. Fiber optic connectors have strict requirements on processing and assembly, especially multi-core fiber optic connectors have strict requirements on size and dimensional tolerances.
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