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Addonics JD090AAO 1310nm Transceiver
- Transceiver module
- 1310nm wavelength
- Designed for fiber optic communication
- Likely SFP form factor
- Suitable for Gigabit Ethernet or other data rates
- Hot-pluggable (typical for SFP)
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Product Overview
The Addonics JD090AAO is a 1310nm transceiver module, likely an SFP (Small Form-Factor Pluggable) or similar form factor, designed for fiber optic communication.
Technical Information
| Product Type | Transceiver Module |
| Wavelength | 1310nm |
| Form Factor | SFP (assumed) |
Additional Specifications
| Interface | Fiber Optic |
| Connector | LC (typical) |
| Data Rate | Varies (e.g., 1Gbps, 100Mbps) |
Product Description
The Addonics JD090AAO is a fiber optic transceiver module that operates at a wavelength of 1310nm. This wavelength is commonly used for both multi-mode and single-mode fiber optic communication, depending on the specific type of fiber and the transceiver's design. Given the commonality of the SFP (Small Form-Factor Pluggable) form factor for such modules, it is highly probable that the JD090AAO is an SFP transceiver, offering a compact and hot-pluggable solution for network devices. Transceivers operating at 1310nm are versatile and can support various data rates, including Gigabit Ethernet (1000Base-LX) or Fast Ethernet (100Base-LX). The specific reach and fiber type compatibility (multi-mode or single-mode) would be determined by the detailed specifications of the JD090AAO, which are not fully provided in the title. However, 1310nm is often used for longer reach applications compared to 850nm transceivers typically used for shorter multi-mode links. This module is designed to convert electrical signals into optical signals for transmission over fiber optic cables and vice versa. It is a crucial component for extending network connectivity beyond the limitations of copper cabling, enabling communication over longer distances and providing immunity to electromagnetic interference. Its integration into network switches, routers, or servers allows for flexible network design and expansion.
