A fiberoptical transceiveris a device used to send and receive optical information. By using an optical transceiver, network spend less space and steer clear of the necessity of getting a transmitter and receiver in the network. Able to transmitting information further and faster than older models, the more recent transceivers are utilized and appearance, creating more compact, smaller sized modules than ever before.

How Do Fiber Optic Transceivers Work
A fiber optic transceiver is a accessory acclimated to forward and accept optical information. There are a number of different components on one of these devices, including a light source and an electrical component. The transceiver has two ends, one that an optical cable plugs into and accession for abutting an electrical device. Fiber optic transceivers combine a fiber optic transmitter and a fiber optic receiver in a single module. They are arranged in parallel so that they can operate independently of each other. Both the receiver and the transmitter have their own circuitry and can handle transmissions in both directions.

In fiber optic data links, the transmitter converts an electrical signal into an optical signal, which is coupled with a connector and transmitted through a fiber optic cable. The light from the end of the cable is coupled to a receiver, where a detector converts the light back into an electrical signal. Either a light emitting diode (LED) or a laser diode is used as the light source.

How to Select Fiber Optic Transceivers
Fiber optic transceivers are designed for use with single mode or multi-mode cable. There are a number of different types of fiber optic transceivers available. They differ in the types of connections as well as in the quality of data transmission. Speed of transmission may also change from device to device. So it is necessary to choose the right fiber modules for your network.

Single-mode fibers (SMF) transmit infrared (IR) laser light at wavelength from 1,300 to 1,550 nm. They have small cores and are used withlaser sources for high speed, long distance links.
Multimode fibers have larger cores and are used mainly with LED sources for lower speed, shorter distance links. The typical transmission speeds and distance limits are 100 Mbit/s for up to 2km, 1Gbit/s to 220-550m, and 10Gbit/s to 300m.
Products that can be used with both types of optical fiber are also available.

Ingellen provides not only the classical 1x9 footprint duplex package but also advanced packages such as SFP (small form-factor pluggable) transceiver module(like1000Base-T copper SFP), GBIC (Gigabit Interface Converter) fiber transceiver, BIDI (single fiber bi-directional) fiber optic transceiver, BIDI-SFP transceiver module, and BIDI-GBIC transceiver, SFP+ transceiver module, XFP optical transceiver, Xenpak optical transceiver, X2 transceiver module. In addition, optical transceivers with Digital Diagnostic Function are also available. Allfiber transceiversare RoHS compliant and could be 100% compatible with branding equipment, such as Cisco, Extreme, Juniper, HP, H3C, Linksys, Huawei, Alcatel-Lucent, Foundry, Nortel, Force10 etc.

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