Multiplexing/Demultiplexing Boards (ODM)

Multiplexing and demultiplexing boards are essential components in optical communication networks, enabling the combination and separation of multiple wavelength channels. These boards support both CWDM and DWDM technologies, providing flexibility in network design and deployment. They ensure high isolation between channels, low insertion loss, and transparent transmission, making them ideal for high-capacity, long-distance optical networks.

Description

Multiplexer/Demultiplexer Board (ODM)

The ODM multiplexer/demultiplexer board is a coarse wavelength division multiplexing (CWDM) and dense wavelength division multiplexing (DWDM) multiplexer. It combines and separates CWDM or DWDM channels, significantly saving clients’ fiber resources. Network configurations can be flexibly altered based on customer requirements. The frequency spacing for the 100GHz DWDM system supports a smooth upgrade to 48 channels, 75GHz DWDM system to 64 channels, and 50GHz DWDM system to 96 channels. The CWDM system supports smooth upgrades to 18 channels, improving spectral efficiency and saving bandwidth resources.

Product Features:

  • Supports CWDM system smooth upgrade to 18 channels customization.
  • Supports DWDM system smooth upgrade to 96 channels customization.
  • Purely passive, no power supply, debugging, transparent transmission.
  • Supports online upgrade and expansion, easy maintenance, and operation.
  • Supports CWDM and DWDM (100GHZ / 75GHZ / 50GHZ) applications.
  • Supports single-fiber single-direction, single-fiber bidirectional, dual-fiber bidirectional applications.
  • Low insertion loss, high channel isolation, high reliability and stability, complies with GR-1221 standards.
 
ParameterTechnical Indicators
Wavelength RangeCWDM: 1271nm~1611nm<br>DWDM: C-Band (100GHZ / 75GHZ / 50GHZ)
Channel SpacingCWDM: 20nm<br>DWDM: 0.8nm / 0.6nm / 0.4nm
Passband WidthCWDM: ±6.5nm<br>DWDM: 0.1nm
Passband Flatness<0.5dB@flat-top<br><0.5dB@gaussian
Channel Insertion Loss4CH: <1.0dB<br>6CH: <2.0dB<br>8CH: <2.5dB<br>12CH: <2.8dB<br>16CH: <3.2dB<br>40CH: <6dB<br>48CH: <6dB<br>80CH: <6dB<br>96CH: <7dB
Adjacent Channel Isolation>25dB
Non-Adjacent Channel Isolation>30dB
Polarization Dependent Loss (PDL)<0.5dB
Polarization Mode Dispersion (PMD)<0.1ps
Return Loss>45dB
Maximum Input Optical Power>300mW
Dimensions (Single Board)177 (W) × 20 (H) × 225 (D) (mm)
Dimensions (Single Chassis)440 (W) × 44 (H) × 220 (D) (mm)
Operating Temperature-10℃ ~ 50℃
Storage Temperature-40℃ ~ 80℃
Relative Humidity5%~95% non-condensing
Safety & EMC ComplianceFCC, UL, CE, TUV, CSA standards

Classic Networking Applications

The optical multiplexer and demultiplexer equipment are widely used to address the issue of insufficient optical cable resources in transmission. Using Thin Film Filter (TFF) technology and Planar Lightwave Circuit (PLC) technology, multiple optical carrier signals are multiplexed onto a single optical fiber for transparent transmission. This supports dual-fiber bidirectional, single-fiber bidirectional, and single-fiber single-direction applications.
Application 1: Dual-Fiber Bidirectional Multiple optical carrier signals are multiplexed onto two-core optical fiber for transmission, utilizing the two-core optical fiber to transmit multiple services, significantly reducing investment costs and saving time in optical cable deployment.
Application 2: Single-Fiber Bidirectional Using the reversible property of light, multiple optical carrier signals are multiplexed onto a single-core optical fiber for transmission, utilizing the single-core optical fiber to transmit multiple services, significantly reducing investment costs and saving time in optical cable deployment.
Application 3: Smooth Upgrade Smooth upgrade involves connecting another multiplexer/demultiplexer through the expansion interface in the original wavelength division system to achieve smooth upgrade and expansion without affecting the original services.