An Introduction to Fiber Optic Patches
Fiber optic patches are connectors of high-speed wired transmission connections.
These patches are used to connect between two ends of fiber optic cables used for high speed data transmission.
These patches are useful both in home and office level high speed data transfer scenarios.
The optical fiber cables are extensively used in the modern world for high speed data transfer.
These cables are used for setting up large-scale infrastructure such as telecommunications backbones and the Internet under-ocean cables.
The tremendous speed of transfer, low attenuation, high speed, high bandwidth and high security factors are some of the remarkable characteristics of these cables.
To tie up two ends of such high-quality cables, one needs to use bridges of good quality.
These bridges have to support the high speed, low attenuation and all other positive attributes of the optical transmission channels.
And a fiber optic patch is capable of supporting all of it.
These patches do a great job in carrying the optical signal forward with practically no attenuation and no loss in speed.
With multimode patches in place, the bandwidth and transfer direction is never an issue.
The external noise tolerance is high, and the security is as sound as the fiber optic cables.
All of this makes these patches attractive.
There are different kinds of patches available today in the market.
One needs to carefully understand their own needs and thus identify exactly what they would look for.
The important points that one would want to look at are listed below.
These patches are used to connect between two ends of fiber optic cables used for high speed data transmission.
These patches are useful both in home and office level high speed data transfer scenarios.
The optical fiber cables are extensively used in the modern world for high speed data transfer.
These cables are used for setting up large-scale infrastructure such as telecommunications backbones and the Internet under-ocean cables.
The tremendous speed of transfer, low attenuation, high speed, high bandwidth and high security factors are some of the remarkable characteristics of these cables.
To tie up two ends of such high-quality cables, one needs to use bridges of good quality.
These bridges have to support the high speed, low attenuation and all other positive attributes of the optical transmission channels.
And a fiber optic patch is capable of supporting all of it.
These patches do a great job in carrying the optical signal forward with practically no attenuation and no loss in speed.
With multimode patches in place, the bandwidth and transfer direction is never an issue.
The external noise tolerance is high, and the security is as sound as the fiber optic cables.
All of this makes these patches attractive.
There are different kinds of patches available today in the market.
One needs to carefully understand their own needs and thus identify exactly what they would look for.
The important points that one would want to look at are listed below.
- Modes: There are options for single mode and multi mode transmissions.
Check your requirements and the patch specifications to make sure you know what you require and that you get the kind of transmission mode needed in your case.
- Bandwidth: Check the bandwidth and transmission rate of the fiber optic patch in the specification list.
Note that a number of cost-effective fibers are available today in spite of higher bandwidth, so look for a good deal and you would find one in all likelihood.
- Attenuation over distance: Check the attenuation factor if specified, and remember that the signal travel distance support factor must be high enough.
- Application compatibility: Look for patches that are compatible with 62.
5/125 applications and support the aperture that you require.
That way you shall be able to put them to the best possible use.
- Support of protocols: Check that the prominent protocols such as ATM, Ethernet and Internet Protocol are supported, and possibly other emerging protocols such as Infiniband are supported too.
Source...