How to Plan the Future 5G Fiber Network?
The real 5G fiber optic network is gradually being rolled out and faces many challenges.
Ⅰ. 5G fiber optic has the following capacity requirements
1. 4G uses traditional macro base stations with antennas and remote radio units (RRUs) installed on top of towers. In some cases, such as in high-density urban areas that are difficult to cover, high-density coverage is achieved by supplementing more base stations.
2. 5G fiber optic-enhanced mobile broadband will rely on a dense network of small base stations and macro base stations for deployment, aiming to support higher frequency bandwidths for higher capacity demands.
3. 4G/5G requires a large number of the new macro base stations and small base station nodes to implement higher-order partitioning and MIMO, increase the number of fiber connections required at the top of the tower, and meet the front haul and back haul requirements of 5G higher density outdoor small cells.
Therefore, the original copper cable has long exceeded its data transmission capacity and will be gradually replaced by optical fiber. It is particularly important to have a complete optical fiber network to support high-traffic, high-speed, and low-latency transmission.
Ⅱ. The main solutions for 5G fiber optic networks
1. Discrete FTTA/FTTN deployment
Traditional solutions for bringing fiber optic cables and power into macro and outdoor small cells include discrete fiber-to-the-antenna (FTTA) and fiber-to-the-node (FTTN) solutions. The discrete approach offers good design flexibility.
At the same time, the introduction of 5G in standalone/non-standalone architectures has intensified the fronthaul requirements for small cell radio nodes, which highlights the need for more efficient and economical FTTA/FTTN solutions. Additionally, deploying 5G fiber optic with mmWave spectrum requires multiple fiber optic cable connections at each node to provide sufficient backhaul capacity due to the large amount of bandwidth that needs to be supported.
2. Hybrid FTTA/FTTN solution
Installation time, cost, and tower loading become problems as the number of antennas and nodes required increases. Many networks have now moved to hybrid FTTA/FTTN solutions, where one or more power cords and multiple fiber optic cables are bundled within the same outer jacket to form a hybrid trunk and hybrid patch cord.
As the number of RRUs deployed has increased, various hybrid FTTA solutions have emerged. These include solutions that support individual sector cabling, as well as a variety of transit systems that provide options for speeding installation and lightening tower loads.
3. Optical cable to node suitable for C-RAN outdoor small base station
Various FTTA/FTTN solutions also play a unique role in the growing deployment of Centralized RAN (C-RAN) fronthaul architectures including outdoor small cells. This method can take different forms: the fronthaul of the outdoor small base station can be directly accessed using external optical fibers from the central equipment room or the front end. Another architecture is to use shared optical cable resources to connect small cells. In both cases, multiple fiber optic cables are required to connect directly from the small base station to the central facility, and low-voltage grid power is also required.
In many cases, environmentally ruggedized multifiber connectors will be used to connect small cell nodes to adjacent cable demarcation points, such as wired terminations in handholes. So, in addition to FTTN cabling, fiber optic splice boxes (FOSCs) and multi-service terminals (MSTs and similar MHTs) will come into play.
With the deployment of 5G and the overlay facilities to support 5G fiber optic, the number of new fiber optic cables required is expected to be enormous. At the same time, specific base station requirements such as installation speed, tower loading, etc., suggest that network owners and operators may need to expand their FTTA/FTTN toolbox if they wish to continue to meet installation schedules and budgets. This means it is essential to be familiar with the discrete and hybrid solutions available and understand the unique value proposition of each solution.
As a fiber optical accessories supplier, T&S communication today takes a leading role in OEM and ODM service for optical fiber termination solutions. Based on T&S Communications’s excellent comprehensive capabilities, T&S Communication is dedicated to bringing fiber optical components with superior performance to next-generation communications in a green, pragmatic, and cost-effective manner.
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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
太辰光新型光纤超声传感器,用于捕捉局部放电事件中产生的超声波信号,探测距离可长达1.0m
太辰光始终重视核心技术研究和技术体系建设,着眼用户需求进行技术融合和产品应用开发,不断实现核心技术创新和产品技术突破,其新推出的光纤超声传感器是一种采用法布里-珀罗(F-P)谐振腔作为敏感单元的新型光纤器件,可用于捕捉局部放电事件中产生的超声波(频率≥20 kHz 的声波)信号。
太辰光推出的保偏光纤连接器,具有高消光比≥23dB、高pitch精度、偏转角≤±3°的优势
保偏光纤连接器作为一种特殊类型的连接器,广泛应用于光纤传感、干涉测量、相干光传输及长距离双向光传输系统中。相比于常见的单芯保偏连接器,多芯保偏连接器可以传输多个保偏光信号,同时保持其偏振方向不变。
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
数据中心光互联技术及应用研讨会圆满落幕,太辰光介绍了自主研发的高密度、高可靠、低插损光背板连接技术
数据中心光互联技术及应用研讨会圆满落幕2020-09-23 11:23:199月10日,主题为“数据中心光互联技术及应用”的研讨会在深圳国际会展中心顺利召开,政府部门、中国联通、太辰光的领导和业内著名的技术专家、嘉宾参与会议研讨。
【产品】太辰光推出SEN-T-04型温度传感器,适用于电力电缆、石化管道、储油罐、地铁消防等领域温度监测
SEN-T-04型温度传感器是太辰光利用光想光栅固有的温度敏感特性感测温度,光纤光栅采用特殊方式封装,增加了传感器对温度的敏感性,防水性能好,响应速度快,特别适用于电力电缆、石化管道、储油罐、地铁消防、隧道防火、水利工程等领域的温度监测。
太辰光收购两家国内高新技术企业并成立中日合资公司,专注研发制造传感用光纤光栅和各类光纤光栅传感器及传感监测系统和解决方案
太辰光成立于2000年,2016 年深交所A股上市。太辰光是全球知名光通信器件生产商,也是全球最大的陶瓷插芯和光纤连接器生产企业之一,公司早年成立光纤光栅传感事业部,专注研发制造传感用光纤光栅和各类光纤光栅传感器及传感监测系统和解决方案。
【元件】太辰光通信推出新型光纤智能螺栓,直接将光栅应变片直接粘贴在螺栓孔内其灵敏度相比于传统方案至少提高5倍
太辰光公司开发的新型光纤智能螺栓是直接将光栅应变片直接粘贴在螺栓孔内,让光栅应变片能够快速“感受”螺栓内部的应变,其灵敏度相比于传统方案(即毛细钢管方案)至少提高5倍。此外,光纤智能螺栓还自带温补功能,很好解决了温度与应变交叉敏感问题,使得测量更加准确。
MTP®/MPO光纤连接器生产商、光器件研发制造专家太辰光签约世强,全线产品符合 IEC和 TIA标准
2022年1月1日,太辰光(股票代码:300570)与世强签订合作协议,授权世强代理旗下全线产品,太辰光的光互联基础元器件、PLC晶圆、陶瓷插芯、MT插芯、光连接器件等产品已上线平台,搜索“太辰光”即可查询相关资讯、申请免费样品。
太辰光光纤柔性板荣获2023年光连接大会“最具影响力产品奖”,实现了有限空间内的高密度、高集成、高可靠光纤连接
光纤在线2023年光连接大会“年度最具影响力光通信产品颁奖盛典“在苏州吴江顺利落幕,现场揭晓 “最具影响力产品奖”、”最具影响力企业奖”、“年度创新产品奖”三类奖项,共26家公司获奖。太辰光参评的光纤柔性板荣获“最具影响力产品奖”。
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