Everything You Should Know About Roles and Benefits of a Fiber Optic Patch Jumper

The fiber optic patch jumper is your fiber cable that is directly connected with the desktop computer or device and used as a jumper cable to link and manage facilitate device. The patch cable has the thick layer for protection and us commonly used in the connection between the optical transmission system and the terminal.

The fiber optic patch jumper is divided into two categories:

• The single-mode fiber is a yellow colored cable with blue connector and protective cover. It offers transmission capacity for a longer distance. • The multi-mode fiber is an orange or grey colored cable with black or cream colored protective cover.  It offers transmission for shorter distance.

The fiber optic patch jumper should always be bought from a reputed manufacturer as the quality of these items matter a lot. The authentic manufacturers also sell fiber customer box along with other fiber cables and accessories.

Here’s a look at some features of fiber optic patch jumper:

• Low insertion loss • Insert each performance • High return loss • Good temperature stability • Repeatability better

The fiber optic jumper applications are follows:

• LAN • Test equipment and device • Fiber-optic communication systems • Optical access network • Fiber-optic data transmission • Fiber optic CATV

Benefits of fiber optic jumper:

• They offer greater bandwidth for carrying more data than the traditional cords. Also, the single mode jumper offers twice the throughput than multimode fibers. • Other benefit of using fiber optic jumpers is that it offers faster speed. The speed offered is only 31% lesser than the speed of light. Also, the chances of signal degradation are lesser. • These jumpers can be considered reliable when it comes to longer distances. • Since fiber is resistant to temperature changes, these jumpers are more reliable. They are resistant to moisture, heat, and extreme climate which can affect the connectivity. There is no risk of fire hazard as well.  

Explore the web for more information and suggestions on how to choose the fiber customer box and what are its advantages.

5 Essential Tips That Will Help in Choosing the Right Fiber Optic Patch Cable

There are many types of fiber optic patch cords such as OM1, OM2, OM3, OM4 multimode fiber and OS2 single mode fiber types. Both the ends of the cable are terminated with high performance hybrid or single type connector. These cords are not rugged and they are suitable for internal use.

However, when you have so many options, choosing the right once can be tricky. Here’s a look at how to choose the right fiber optic patch leads for your needs:

1. Choosing the connector type

Both the ends of fiber optic patch cord are terminated with fiber optic connector. Different connector is used for plugging different device. If the ports in the both ends devices are same, we can use LC-LC/ SC- SC/ MPO- MPO patch cables. If you want to connect different ports type devices, LC-SC/ LC-ST/ LC-FC patch cables may suit you.

2. Choose single or multimode cable type

The next step in choosing patch cord fiber optical is to choose between single or multimode. The single-mode fiber patch cord uses 9/ 125 um glass fiber which multimode used 50/ 125 um or 62.5 / 125 um glass fiber. While the former is used in long distance data transmission, the latter is used in short distance transmission.

3. Simplex or duplex

Simplex means the patch cord fiber optical is with one cord and there is only one fiber connector at each end which is used for bidirectional fiber optic transceivers. On the other hand, duplex can be regarded as two fiber patch cable put side by side used for common transceivers.

4. The cable length

The fiber optic patch cables are made in different lengths usually from 0.5 m to 0.50 m. You should choose an apt cable length according to the distance between the devices that you wish to connect.

5. Cable jacket type

There are three cable jacket types polyvinyl chloride, low smoke zero halogen, and optical fiber nonconductive plenum. You can make the choice based on their features.

Explore the web for more information and suggestions on choosing the right fiber optic patch leads.

Here’s All That You Need to Know About PLC Splitter

The fiber optic link is becoming more acceptable by consumers these days. We can see the Passive Optical Network Systems deployed in many homes and the fiber optic cable has become an inevitable parts of the PON systems. The optical splitters are classified into FBT – Fused Biconical Taper splitter and PLC- Planar Light wave Circuit splitter.

The fiber optic PLC splitter is relatively a new splitter than the FBT. You can commonly source the splitter from any manufacturer even online. There are many suppliers for fiber optic splitter that deal in fiber optic adapter as well. You can choose a supplier based on the price and quality they offer.

Before moving ahead, let’s first understand what is a PLC splitter?

The PLC splitter is used for dividing one or two light beams into multiple light beams uniformly or combining multiple light beams into one or two beams. It is a passive device which comes with several input and output terminals. The fiber optic PLC splitter offers a low cost light distribution solution along with reliability and stability. The PLC splitters can offer splitting ratio up to 1 X 64 which is quite higher than the FBT splitter.

Manufacturing Technology

The fiber optic PLC splitter is based on semiconductor technology. They are manufactured by planar waveguide circuit technology and the design consists of one optical PLC chip and several optical arrays based on the output ratio. The arrays are coupled on both ends of the PLC splitter chip.

How does the PLC splitter work?

The splitter is commonly installed between the PON and the optical network terminals which OLT serves. The number of the outputs in the PLC module determines the number of splits. The splitter can be used in either centralised PON architecture or distributed architecture. While in the former, 1X32 PLC splitter is used, in the latter, 1 x4 PLC splitter is connected to an OLT port in the central office. The each of the four fibers are routed to the outside plant terminal which consists of 1 x8/ 1 x 4 PLC splitter.

Explore the web for more information and suggestions on finding the right supplier brand for fiber optic adapter. Fiber Optic Patch Cord Manufacturers