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Huawei OSXD22N00 1310nm Transceiver
- Module Type: Transceiver
- Wavelength: 1310nm
- Application: Optical Networking
- Data Rate: Varies by form factor (e.g., 1Gbps, 10Gbps)
- Form Factor: Likely SFP, SFP+, QSFP, or similar
- Connector Type: Likely LC or SC
- Designed for single-mode or multi-mode fiber
- Used for data transmission over optical fiber
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Product Overview
The Huawei OSXD22N00 is a transceiver module operating at a wavelength of 1310nm. While the specific form factor and interface are not detailed in the title, it is designed for optical networking applications requiring transmission at this specific wavelength.
Technical Information
| Product Type | Transceiver Module |
| Wavelength | 1310nm |
Additional Specifications
| Manufacturer | Huawei |
| Application | Optical Networking |
Product Description
The Huawei OSXD22N00 is an optical transceiver module characterized by its operation at a wavelength of 1310 nanometers. This specific wavelength is commonly used in fiber optic communications for both single-mode and multi-mode fiber, depending on the transceiver's design and the application's distance requirements. The 1310nm wavelength is often associated with medium-reach applications in Ethernet and Fibre Channel networking. While the exact form factor (e.g., SFP, SFP+, QSFP) and connector type (e.g., LC, SC) are not explicitly stated in the provided title, Huawei produces a wide range of transceivers in various form factors that utilize the 1310nm wavelength. These modules are essential components in modern network infrastructure, enabling high-speed data transmission over optical fiber cables. This transceiver is designed to convert electrical signals into optical signals for transmission over fiber and to convert incoming optical signals back into electrical signals. Its primary function is to provide a physical interface for connecting network devices, such as switches, routers, and servers, to the optical fiber network. The OSXD22N00 is a critical component for building and expanding optical communication networks.
