4CH CWDM Mux Demux

The 4CH CWDM Mux Demux is a passive CWDM device that multiplexes and de-multiplexes four ITU grid CWDM channels over one fiber. It is available in a variety of port configurations (1310nm/upgrade ports available), fiber type, and input connector. It has low insertion loss and high isolation and can be used with a variety of 1G/10G Ethernet, SAN, OTN and SDH/SONET services.

Cost-effective

As telecommunication companies expand optical fiber network infrastructure, bandwidth requirements increase. It is often cost-efficient to deploy CWDM networks, which are easy to install and provide more data transmission capacity than traditional DWDM systems. In addition, CWDM network systems are compatible with existing fibers. This makes them a good choice for carriers that need to increase bandwidth without investing in new equipment or building a new optical fiber network.

4 channel cwdm systems are ideal for smaller metro/regional markets that require moderate traffic growth. The system can provide four times more capacity over a single fiber and offers lower deployment costs than an 8 channel system. In addition, the system can be easily upgraded to an 8 channel system later on if required.

EDGE Optics’ premium CWDM Mux/Demux units combine multiple wavelengths for transmission over a single duplex LC fiber cable. The passive devices use industry-leading CWDM technology to enable multiple data rates and services over one fiber link. Unlike active WDM solutions, the Mux/Demux modules are transparent to line protocols and data rates. This allows them to be used with colored transceivers supporting 1G/10G Ethernet, SDH/SONET and 8/4/2/1G Fiber Channel.

CWDM is also the perfect solution for PON networks. It can be deployed as a cost-efficient way to add additional bandwidth by simply adding more lambdas to the existing PON system. This can be done with minimal service interruptions, and requires no additional active electronics.

Scalable

A 4 channel CWDM system is ideal for smaller metro/regional networks that require moderate traffic growth. It allows you to add Gigabit Ethernet, Fibre Channel and T1 links without disrupting existing services. It is also easy to upgrade to a 4ch-cwdm higher capacity system when needed. This scalability makes a 4 channel CWDM system the perfect choice for a cost-effective network.

iConverter CWDM modules are protocol and rate transparent, allowing multiple services up to 10Gbps to be transported over one common fiber link. They are available in both single-fiber Channel Ports and dual-fiber Common Ports. Each channel port supports two different wavelengths, with one for transmit (TX) and the other for receive (RX). They also support a wide range of multiplexing modes.

The passive CWDM solution from 10Gtek helps telecommunications service providers deliver Gigabit Ethernet and Fibre Channel to enterprise customers. It includes CWDM gigabit interface converters (GBICs) and Small Form-Factor Pluggables (SFPs), and offers high-performance CWDM optics. It also provides greater signal isolation for improved reliability. This is achieved by using glue-free production and semi-automatic packaging to eliminate optical path loss. Its low insertion loss also reduces power requirements and the cost of signal transmission. This enables a wide variety of telecommunications topologies, from point-to-point to protected rings.

Reliability

CWDM Mux Demux is a passive device for expanding network capacity. It can be used to multiplex or demultiplex signals in accordance with ITU-T G.694.2. It is a reliable and cost-effective option for point-to-point, amplified ring and star configurations. It uses free space technology and is compatible with CWDM optical transceivers and OADMs. Its four wavelength ports are located in the high CWDM band channels (1471/1491nm & 1591/1611nm). Its Extension port can be used to add eight additional wavelengths. The unit can also be configured as a Mux or Demux with one port for each function. Gigalight’s 4CH CCWDM MUX/DEMUX is an ideal solution for cost-effective and long-distance transmission applications.

Unlike DWDM, which uses a more complex signal-processing system, the CCWDM system is a simpler, more economical solution for telecommunication networks. It also offers a flexible channel configuration and low insertion loss. This passive device can be easily upgraded as network traffic grows.

CCWDM modules are based on TFF thin film filter, which has the advantage of mature production process, stable performance, and environmental Internet of things stability. The modules are characterized by their low insertion loss, high channel isolation, and stable output power. They can be used to replace CWDM products in telecommunications, enterprise networks, PON networks, and CATV. They also feature a compact package size. Moreover, they can be installed on a single fiber and require no power.

Flexibility

The 4ch-cwdm is a passive CWDM device that maximizes the capacity of a single-fiber optical network. It is designed to provide a flexible pay-as-you-grow solution for high-bandwidth applications. It is available in different configurations to meet your network needs, including a range of ports and fiber types. You can choose from point-to-point, star, and ring architectures. You can also select from multiple options for OADM modules, depending on your application.

CWDM Mux/Demux devices are ideal for multi-service networks in metro enterprise, cable TV, 3G telephony, datacomm WAN, and metro access applications. These devices use wavelength-division multiplexing to transmit many signals over a single optical fiber. CWDM technology separates different channels by 20nm wavelengths to ensure that all channels are transmitted simultaneously over the same strand of optical fiber.

These devices come in a variety of packaging types, including an ABS box bundle or LGX package. They can also be mounted in a 1U rack. These CWDM Mux/Demux units are a great option for increasing the capacity of your existing CWDM network, without disrupting the current traffic. They are compatible with CWDM OADMs, and can be used in linear, star, or ring architectures. In addition, they are available in a variety of port configurations, including 1, 2, 4, and 8-channel models. They also have low insertion loss, low PDL, and high isolation.