CCWDM MUX/DEMUX 4 or 8 Channel 1470 to 1610nm Dense WDM Transceiver for Fiber Optic Networks Industrial Grade

Low-Profile Design: 1U Rack Space for Multi-Channel Deployment‌

The 4/8 Channel CCWDM MUX/DEMUX utilizes Thin-Film Filter (TFF) technology and free-space cascading to multiplex/demultiplex multiple optical channels. Its compact design allows deployment within a standard 1U rack space, reducing volume by over 60% compared to traditional CWDM modules. The plug-and-play modular design eliminates the need for additional cooling equipment, significantly simplifying installation.

Product Specifications‌
Parameter‌    ‌4-Channel Model‌    ‌8-Channel Model‌
Wavelength Spacing    20nm (ITU-T G.694.2 standard)    20nm (ITU-T G.694.2 standard)
Operating Wavelength Range    1470-1610nm (8-band prioritized)    1470-1610nm (8-band prioritized)
Typical Insertion Loss    ≤5.0dB (including fiber connectors)    ≤5.5dB (including fiber connectors)
Number of Channels    4    8
Package Size    50×30×6mm³    50×30×6mm³
Interface Type    LC/UPC Duplex    LC/UPC Duplex
Monitoring Port    Supports 1% signal extraction    Supports 1% signal extraction
Compliance    ITU-T G.694.2 standard    ITU-T G.694.2 standard
Operating Temperature    -5℃~70℃    -5℃~70℃

Data Center Interconnect: Addressing Fiber Shortage under High-Bandwidth Demands‌

In data center interconnect scenarios, the 4/8 Channel CCWDM MUX/DEMUX multiplexes multiple wavelength channels onto a single fiber, increasing transmission capacity by 4-8 times and alleviating fiber resource constraints. For example, an 8-channel model can simultaneously transmit eight 10Gbps signals, achieving a total bandwidth of 80Gbps—ideal for high-speed data exchange between server clusters. Its passive design eliminates optical-electrical conversion losses, making it particularly suitable for short-distance (≤40km) high-density connections.

Energy-Efficient Design: Over 50% Rack Space Savings‌

By integrating TFF filters and free-space optical paths, this module consumes less than 1/10th the power of traditional DWDM systems. For instance, an 8-channel model consumes only 0.5W per unit, compared to over 5W for equivalent DWDM equipment with laser cooling. In fully racked scenarios, space utilization improves by 50%, directly reducing data center cooling and power costs.

Low-Cost CCWDM MUX Solution‌:

Ideal for budget-conscious enterprise network upgrades, with per-channel costs at 1/3 of DWDM.
High-Density CCWDM Demultiplexer‌: Supports 16-channel cascading for multi-service isolation in campus networks.
Passive CCWDM Module‌: Suited for harsh environments (e.g., industrial IoT) due to zero electronic failure risks.

Let me know if you'd like any refinements!