Improve Renewable Energy Efficiency

Improve Renewable Energy Efficiency

ergy that is generated from natural resources. This means that it is not depleted and is available nearly everywhere. Renewable energy sources include wind and solar power. These sources are categorized as clean energy since they do not use dirty methods or have consequences that are harmful to the environment. As a result, they are considered to be the most environmentally friendly … Continued

How Smart Campus Benefits For College Students

How Smart Campus Benefits For College Students

A smart campus is a community that uses technology to improve people’s lives. Smart campus services can make life easier for students, faculty, and staff and improve security, operations, and resource management. Smart campus features include wireless coverage and location-based services.Smart Campuses are becoming … Continued

What Is A Smart Building And How Can It Benefit You?

What Is A Smart Building And How Can It Benefit You?

A smart building solution is a facility designed to make its operations more efficient. This technology enables data to be collected from different building parts and transmitted securely to a cloud software or SaaS platform. The data is then recovered and analyzed by business applications and dashboards for experts. This data can help improve building … Continued

Edge Computing and IoT: How they fit together

Edge Computing and IoT: How they fit together

The IoT and Edge computing technologies work together to bring the cloud closer to the data generated by a device. By leveraging the power of small devices to send and receive data, companies can lower latency and improve response time. They can also make better use of data generated at the network’s edge. … Continued

What is Edge Networking and Why Does it Matter?

What is Edge Networking and Why Does it Matter?

By Nikita Griffin, Edge Network Engineer, Fiberroad Technology What Is Edge Networking? Edge Networking describes networking in which processes are moved closer to the users. This minimizes latency because devices communicate with distant servers, creating a delay. Edge devices have different processing power, electricity, and network connectivity requirements. To ensure data delivery and processing, edge … Continued

How Industrial Networks Make Smart City

How Industrial Networks Make Smart City

If you are new to the world of networking, you’ll be interested in learning more about industrial network switches. These switches provide high-density Ethernet connectivity and millisecond-level multicast traffic redundancy. They are ideal for critical city infrastructure, transportation, and surveillance applications. For both smart cities and IIoT, the combination of traditional and innovative communication technologies … Continued

What IPv6 Means for IIoT Networking

What IPv6 Means for IIoT Networking

The Industrial Internet of Things, or IIoT, is a core part of the fourth industrial revolution. It relies on devices communicating with each other to function, with the software governing how they interact. This article will discuss IIoT and its applications, focusing on IPv6 as a potential base protocol for Industrial Internet of things. … Continued

How Video Surveillance Systems Use The PoE Switch

How Video Surveillance Systems Use The PoE Switch

By Phillip Dodd, Technology Lead IIoT Engineering Infrastructure & Security, Fiberroad Technology Video surveillance systems are an increasingly popular way to keep an eye on a home or business. These systems monitor a property or building by monitoring activity via video cameras and broadcasting a picture or signal to a limited set of monitors. In … Continued

IIoT: A strong foundation for a Smart Lamppost

IIoT: A strong foundation for a Smart Lamppost

The smart lamppost is an essential element of the smart city. With IIoT installed, smart lampposts can provide more than just light and other integrated smart functions that benefit people nearby. A smart lamppost can provide wireless access, environmental monitoring, surveillance, lighting, and charging for electric vehicles. … Continued

How IIoT can optimise Smart Bus System

How IIoT can optimise Smart Bus System

vice contractors are responsible for getting to and from nodes safely and soundly. Besides picking up and dropping off citizens at designated stops along the bus route, bus contractors are also responsible for inspecting their vehicles before each journey to ensure the safety of passengers, pedestrians, and other drivers on the road. For contractors of a large fleet of buses, manually inspecting … Continued

IP over DWDM Architecture

IP over DWDM Architecture

Internet Protocol (IP) over DWDM’ is the concept of sending data packets over an optical layer using DWDM for its capacity and other operations. In the modern-day world, the optical layer has been supplemented with more functionality, which was once in the higher layers. This creates a vision of an all-optical network … Continued

IP over DWDM Architecture

IP over DWDM Architecture

Internet Protocol (IP) over DWDM’ is the concept of sending data packets over an optical layer using DWDM for its capacity and other operations. In the modern-day world, the optical layer has been supplemented with more functionality, which was once in the higher layers. This creates a vision of an all-optical network … Continued

IP over DWDM Architecture

IP over DWDM Architecture

Internet Protocol (IP) over DWDM’ is the concept of sending data packets over an optical layer using DWDM for its capacity and other operations. In the modern-day world, the optical layer has been supplemented with more functionality, which was once in the higher layers. This creates a vision of an all-optical network … Continued

IP over DWDM Architecture

IP over DWDM Architecture

Internet Protocol (IP) over DWDM’ is the concept of sending data packets over an optical layer using DWDM for its capacity and other operations. In the modern-day world, the optical layer has been supplemented with more functionality, which was once in the higher layers. This creates a vision of an all-optical network … Continued

IP over DWDM Architecture

IP over DWDM Architecture

Internet Protocol (IP) over DWDM’ is the concept of sending data packets over an optical layer using DWDM for its capacity and other operations. In the modern-day world, the optical layer has been supplemented with more functionality, which was once in the higher layers. This creates a vision of an all-optical network … Continued

IP over DWDM Architecture

IP over DWDM Architecture

Internet Protocol (IP) over DWDM’ is the concept of sending data packets over an optical layer using DWDM for its capacity and other operations. In the modern-day world, the optical layer has been supplemented with more functionality, which was once in the higher layers. This creates a vision of an all-optical network … Continued

IP over DWDM Architecture

IP over DWDM Architecture

Internet Protocol (IP) over DWDM’ is the concept of sending data packets over an optical layer using DWDM for its capacity and other operations. In the modern-day world, the optical layer has been supplemented with more functionality, which was once in the higher layers. This creates a vision of an all-optical network … Continued

IP over DWDM Architecture

IP over DWDM Architecture

Internet Protocol (IP) over DWDM’ is the concept of sending data packets over an optical layer using DWDM for its capacity and other operations. In the modern-day world, the optical layer has been supplemented with more functionality, which was once in the higher layers. This creates a vision of an all-optical network … Continued

Everything You Need to Know about 25G Optics

Everything You Need to Know about 25G Optics

With the development of data center with the broadband upgrade, optical module plays a more and more important role. We know that light modules have evolved over the years, The speed was increased from 10G to 800G, and the form factor was improved from 1X9 optical module to the current mainstream QSFP28, CFP2 optical module … Continued

Everything You Need to Know about 25G Optics

Everything You Need to Know about 25G Optics

With the development of data center with the broadband upgrade, optical module plays a more and more important role. We know that light modules have evolved over the years, The speed was increased from 10G to 800G, and the form factor was improved from 1X9 optical module to the current mainstream QSFP28, CFP2 optical module … Continued

Everything You Need to Know about 25G Optics

Everything You Need to Know about 25G Optics

With the development of data center with the broadband upgrade, optical module plays a more and more important role. We know that light modules have evolved over the years, The speed was increased from 10G to 800G, and the form factor was improved from 1X9 optical module to the current mainstream QSFP28, CFP2 optical module … Continued

Everything You Need to Know about 25G Optics

Everything You Need to Know about 25G Optics

With the development of data center with the broadband upgrade, optical module plays a more and more important role. We know that light modules have evolved over the years, The speed was increased from 10G to 800G, and the form factor was improved from 1X9 optical module to the current mainstream QSFP28, CFP2 optical module … Continued

Everything You Need to Know about 25G Optics

Everything You Need to Know about 25G Optics

With the development of data center with the broadband upgrade, optical module plays a more and more important role. We know that light modules have evolved over the years, The speed was increased from 10G to 800G, and the form factor was improved from 1X9 optical module to the current mainstream QSFP28, CFP2 optical module … Continued

Everything You Need to Know about 25G Optics

Everything You Need to Know about 25G Optics

With the development of data center with the broadband upgrade, optical module plays a more and more important role. We know that light modules have evolved over the years, The speed was increased from 10G to 800G, and the form factor was improved from 1X9 optical module to the current mainstream QSFP28, CFP2 optical module … Continued

Everything You Need to Know about 25G Optics

Everything You Need to Know about 25G Optics

With the development of data center with the broadband upgrade, optical module plays a more and more important role. We know that light modules have evolved over the years, The speed was increased from 10G to 800G, and the form factor was improved from 1X9 optical module to the current mainstream QSFP28, CFP2 optical module … Continued

Everything You Need to Know about 25G Optics

Everything You Need to Know about 25G Optics

With the development of data center with the broadband upgrade, optical module plays a more and more important role. We know that light modules have evolved over the years, The speed was increased from 10G to 800G, and the form factor was improved from 1X9 optical module to the current mainstream QSFP28, CFP2 optical module … Continued

Data Center 100G DWDM Connectivity

Data Center 100G DWDM Connectivity

Today, more than ever, it’s crucial to ensure your end user experiences service that is fast, powerful and available, as demand continues to spike amid the COVID-19 pandemic. The coronavirus has brought edge computing, and edge data centers further into focus as hundreds of millions of students and employees continue studying and working from home. … Continued

Data Center 100G DWDM Connectivity

Data Center 100G DWDM Connectivity

Today, more than ever, it’s crucial to ensure your end user experiences service that is fast, powerful and available, as demand continues to spike amid the COVID-19 pandemic. The coronavirus has brought edge computing, and edge data centers further into focus as hundreds of millions of students and employees continue studying and working from home. … Continued

Data Center 100G DWDM Connectivity

Data Center 100G DWDM Connectivity

Today, more than ever, it’s crucial to ensure your end user experiences service that is fast, powerful and available, as demand continues to spike amid the COVID-19 pandemic. The coronavirus has brought edge computing, and edge data centers further into focus as hundreds of millions of students and employees continue studying and working from home. … Continued

Data Center 100G DWDM Connectivity

Data Center 100G DWDM Connectivity

Today, more than ever, it’s crucial to ensure your end user experiences service that is fast, powerful and available, as demand continues to spike amid the COVID-19 pandemic. The coronavirus has brought edge computing, and edge data centers further into focus as hundreds of millions of students and employees continue studying and working from home. … Continued

Data Center 100G DWDM Connectivity

Data Center 100G DWDM Connectivity

Today, more than ever, it’s crucial to ensure your end user experiences service that is fast, powerful and available, as demand continues to spike amid the COVID-19 pandemic. The coronavirus has brought edge computing, and edge data centers further into focus as hundreds of millions of students and employees continue studying and working from home. … Continued

Data Center 100G DWDM Connectivity

Data Center 100G DWDM Connectivity

Today, more than ever, it’s crucial to ensure your end user experiences service that is fast, powerful and available, as demand continues to spike amid the COVID-19 pandemic. The coronavirus has brought edge computing, and edge data centers further into focus as hundreds of millions of students and employees continue studying and working from home. … Continued

Data Center 100G DWDM Connectivity

Data Center 100G DWDM Connectivity

Today, more than ever, it’s crucial to ensure your end user experiences service that is fast, powerful and available, as demand continues to spike amid the COVID-19 pandemic. The coronavirus has brought edge computing, and edge data centers further into focus as hundreds of millions of students and employees continue studying and working from home. … Continued

Data Center 100G DWDM Connectivity

Data Center 100G DWDM Connectivity

Today, more than ever, it’s crucial to ensure your end user experiences service that is fast, powerful and available, as demand continues to spike amid the COVID-19 pandemic. The coronavirus has brought edge computing, and edge data centers further into focus as hundreds of millions of students and employees continue studying and working from home. … Continued

200G Coherent Single-Fiber Bi-Direction

200G Coherent Single-Fiber Bi-Direction

Popularly, Because of the additional cost of narrow linewidth integrated tunable laser assemblies (ITLA) and Cross talk from back reflections when it operates at a different wavelength than its transmitter. The popular 100G/200G DCO-CFP2 can’t support bi-directional in a single fiber. But now we tell “Can”. Solution Highlights BiDi (single fiber operation) utilizing dual lasers … Continued

200G Coherent Single-Fiber Bi-Direction

200G Coherent Single-Fiber Bi-Direction

Popularly, Because of the additional cost of narrow linewidth integrated tunable laser assemblies (ITLA) and Cross talk from back reflections when it operates at a different wavelength than its transmitter. The popular 100G/200G DCO-CFP2 can’t support bi-directional in a single fiber. But now we tell “Can”. Solution Highlights BiDi (single fiber operation) utilizing dual lasers … Continued

200G Coherent Single-Fiber Bi-Direction

200G Coherent Single-Fiber Bi-Direction

Popularly, Because of the additional cost of narrow linewidth integrated tunable laser assemblies (ITLA) and Cross talk from back reflections when it operates at a different wavelength than its transmitter. The popular 100G/200G DCO-CFP2 can’t support bi-directional in a single fiber. But now we tell “Can”. Solution Highlights BiDi (single fiber operation) utilizing dual lasers … Continued

200G Coherent Single-Fiber Bi-Direction

200G Coherent Single-Fiber Bi-Direction

Popularly, Because of the additional cost of narrow linewidth integrated tunable laser assemblies (ITLA) and Cross talk from back reflections when it operates at a different wavelength than its transmitter. The popular 100G/200G DCO-CFP2 can’t support bi-directional in a single fiber. But now we tell “Can”. Solution Highlights BiDi (single fiber operation) utilizing dual lasers … Continued

200G Coherent Single-Fiber Bi-Direction

200G Coherent Single-Fiber Bi-Direction

Popularly, Because of the additional cost of narrow linewidth integrated tunable laser assemblies (ITLA) and Cross talk from back reflections when it operates at a different wavelength than its transmitter. The popular 100G/200G DCO-CFP2 can’t support bi-directional in a single fiber. But now we tell “Can”. Solution Highlights BiDi (single fiber operation) utilizing dual lasers … Continued

200G Coherent Single-Fiber Bi-Direction

200G Coherent Single-Fiber Bi-Direction

Popularly, Because of the additional cost of narrow linewidth integrated tunable laser assemblies (ITLA) and Cross talk from back reflections when it operates at a different wavelength than its transmitter. The popular 100G/200G DCO-CFP2 can’t support bi-directional in a single fiber. But now we tell “Can”. Solution Highlights BiDi (single fiber operation) utilizing dual lasers … Continued

200G Coherent Single-Fiber Bi-Direction

200G Coherent Single-Fiber Bi-Direction

Popularly, Because of the additional cost of narrow linewidth integrated tunable laser assemblies (ITLA) and Cross talk from back reflections when it operates at a different wavelength than its transmitter. The popular 100G/200G DCO-CFP2 can’t support bi-directional in a single fiber. But now we tell “Can”. Solution Highlights BiDi (single fiber operation) utilizing dual lasers … Continued

200G Coherent Single-Fiber Bi-Direction

200G Coherent Single-Fiber Bi-Direction

Popularly, Because of the additional cost of narrow linewidth integrated tunable laser assemblies (ITLA) and Cross talk from back reflections when it operates at a different wavelength than its transmitter. The popular 100G/200G DCO-CFP2 can’t support bi-directional in a single fiber. But now we tell “Can”. Solution Highlights BiDi (single fiber operation) utilizing dual lasers … Continued

Optical Amplifier Gain Optimization

Optical Amplifier Gain Optimization

EDFA is an optical amplifier that uses a doped optical fiber as a gain medium to amplify an optical signal. The signal which is to be amplified and a pump laser are multiplexed into the doped fiber, and the signal is amplified through interaction with the doping ions. EDFA is the best known and most … Continued

CWDM MUX/DEMUX

CWDM MUX/DEMUX

Fiberroad offers high channel isolation, very low insertion loss (1.7 dB including connectors) CWDM multiplexers/demultiplexers (MUX/DMUX). Low insertion loss becomes critical at 10 Gb/s bitrates or long distances where margins in power budgets are small. Our standard range of products include Fiberroad  modular CWDM system C1, with 8+1 channel CWDM MUX/DMUX and C1-4, a 4 … Continued

俄罗斯某骨干网DWDM传输方案

俄罗斯某骨干网DWDM传输方案

Site1——Site12,全程总距离521km,采用2芯光缆,新建40波DWDM密集波分复用传输系统, 单通道10G,总容量400G;Site2——Site11为光放大站 … Continued

某市大数据传输升级扩容改造方案

某市大数据传输升级扩容改造方案

由于数据增长比较快,现有传输已不能满足大数据传输需求,需新增8路10G 业务,但光缆纤芯资源不足,需要在现有网络上进行网络改造,实现扩容需求 … Continued

CWDM城域网传输方案

CWDM城域网传输方案

在A-B两点之间搭建8波的粗波分复用系统;节省光纤,提高光纤资源的利用率,为客户解决光纤资源紧缺问题;为客户解决,大数据传输升级扩容问题 … Continued

OEO 放大传输方案

OEO 放大传输方案

客户网络现状 A——B站距离165km; 距离A站90km处可加一中继放大站点 A——中继站点为双芯光缆、中继站——B站为单芯光缆; A、B站各有一台多模交换机; 客户需求 由于业务需求,客户需在A——B站之间新建一路千兆业务 方案描述 A站点采用OEO把客户多模信号转换为单模长距信号,传输至中继站; 中继站采用OEO对信号进行中继放大再生,并实现单、双纤转换传输至B站; B站采用OEO对信号进行放大再生,并实现单双纤转换、单多模转换; 方案优势 利用OEO把多模转换为单模,实现长距传输; OEO采用3R设计,可对信号进行再生放大、波形整形,时钟在定时,保证信号高质量传输; 利用OEO进行单双纤转换,节省光缆资源,帮助客户节省成本

OEO光放大器在网监行业中的应用介绍

OEO光放大器在网监行业中的应用介绍

根据公安部曾颁布第82号令即《互联网安全保护技术措施规定》,要求所有互联网单位或服务提供者需要部署保障互联网网络安全和信息安全。网监系统全称网络信息监测系统 ,通过对所有网络的内容进行解析,能够及时阻止内部的计算机通过互联网发生的敏感信息泄露,快速定位追查源头,防止违规事件发生;能够对整个网络及计算机用户上网行为、网络流量进行监控,帮助网络高效、稳定、安全的运行,避免计算机的用户通过访问非法站点、传递和发布非法信息行为,使滥用网络资源、泄露敏感信息等事件的违规行为防患于未然,对计算机用户的网络行为、内容检测是必要的手段。 解决方案 光路科技数据链路采集系统由主用链路光分路器、复制链路OEO光放大器、复制链路光分路器组成,示意图如下: 光路科技通过在原有链路中串接分光口将原链路上的光信号复制出来,并再加光放大器进光信号进行加强 主用链路光分路器采用1:2分光,分光比为70:30; 复制链路光放大器采用OEO方式,对信号进行再生放大; 复制链路光分路器采用1:4分光,各支路按平均分光;