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Various Advantages Of Fiber Optic Cables

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Communication industry has been stormed by the advent of fiber optic cable. The main advantages offered by these cables include a wider bandwidth, light weight, small size and in any case has more flexibility. In addition to it, the core reason behind its popularity is that advanced technology used by these cables. As we know the fiber optic cable, the fiber optic cable is a cable containing one or more optical fibers. The optical fiber elements are typically individually coated with plastic layers and contained in a protective tube suitable for the environment where the cable will be deployed. For example, the 10g fiber cable is has plastic layers and contained in a protective tube, we can offer different jacket color and any length are available for these cables .

In fact, the whole fiber optic technology makes use of fiber optics. The typical fibers today are made out of glass or plastic since it is possible to make them thin and long. Also both glass and plastic are transparent at particular wavelengths, which allow the fiber to guide light efficiently. These optical fibers are thin, ultra-flexible and transparent and transmit the light between two ends of the fiber quality as compared to copper wire. So, with their superior technology these are more appropriate for smooth communication between far distances. In addition to it, the usage of these cables results in much less loss of signals which means uninterrupted and smooth communication. More than 80% of the distance data traffic through the intelligent use of these fiber optic technology is transferred.

Other advantages of fiber optic cables include it is inexpensive and suits properly to extremely thin diameters in the range between 0.8mm to 40mm. Will be extremely thin, a number of fibers run together along many connections in the same cable. It provides a clearer telephone lines and TV reception, as the light signals that are in the same cable does not interfere with each other to function. This ultimately leads to less loss of signal. These cables can also be called as the safer ones because no electricity passes through these cables and hence there will not be any fire issues.

In comparison with other lines such as copper wires, these cables are definitely the superior ones because they are lightweight and small sized. With the above advantages, it is obvious why fiber optic cables that are used in many telecommunications and computer networks. These cables are the most trusted and best replacement of copper cables.

Know more about the various advantages of fiber optic cables info, or you want to buying some fiber optic cables to instead of your copper cables. You can visit the FiberStore company, we are the professional fiber optic cable manufacturer, we can provide the standard fiber optic cables and customize the optical cables, and provide related of cable products such as fiber patch cord, fiber optic connector, fiber testers and tools. Welcome to our company to choose your fiber optic products.

Frequently Asked Question About Fiber Patch Cord

What are fiber optic patch cables?
A fiber patchcord can be a cable that connects devices allowing information to pass together. Patch cords certainly are a common method of setting up wired connections between devices, including connecting a tv with a digital cable box using coaxial cable. These cords are used for any kind of signal transference, such as in a television, radio or computer network. These cables are manufactured with standard fiber optic cabling and are terminated with fiber optic connectors for both ends.

What are fiber optic cables used for?
There are several application areas for fiber optic patch cables, including connecting computer work stations to outlets and connecting fiber optic patch panels or optical cross connect distribution centers.

What would be the most common fiber optic patch cables?
There are lots of common forms of fiber patch cables and your network may need a number of these phones operate most efficiently. Professionals use a number of ways to categorize the most frequent fiber patch cables, like the fiber cable type, the termination connector types, the optical fiber modes, the dimensions of the fiber cable, as well as the various styles of polishing the connectors. FiberStore offer several types of common patch cable, it provides 10G OM3/OM4 fiber patch cable; 9/125 single-mode and OM2 50/125, OM1 62.5/125 multimode fiber patch cable having a number of connector types including LC, SC, ST, FC,MU and MTRJ.

What will be the fiber patch cables types?
There are the main kinds of fiber cable: Simplex, Duplex. A Simplex fiber patch cable has one fiber and one connector on each side. A Duplex fiber optic cable features two fibers and a couple connectors on both ends. Either each fiber will probably be marked separately (e.g., A and B) or the connector boots uses different colors to think the polarity of each connector.

How are fiber optic patch cables terminated?
You can find basically two methods to terminate a fiber cable: utilizing the same connector type on both ends from the cable (e.g., LC fiber patch cable: LC to LC) and taking advantage of two different connectors on each side from the cable (e.g., ST to SC fiber patch cable) which is also known as the Hybrid termination.

What the most common connector types for fiber optic cables?
Typically the most popular connector types are SC, ST, LC, MTRJ, MU and FC.

What modes are utilized in optical fiber patch cables?
Currently, there are three different modes which can be used in fiber patch cords: singlemode, multimode, and 10G multimode. Singlemode fiber cables count on 9/125 micron fiber cable with singlemode connectors on both ends with the cable. Multimode fiber optic patch cables use 62.5/125 micron or 50/125 micron fiber cabling and therefore are terminated with multimode fiber optic connectors on each end of the cable. 10Gb multimode fiber optic patch cords use enhanced 50/125 micron fiber that is optimized for 850nm VCSEL based 10Gb Ethernet. They are usually suitable for existing network equipment and will offer 300% more bandwidth than traditional 62.5/125 multimode fibers. These cables will also be rated for distances up to 300 meters.

Why are there different connector polishing styles?
Fiber optic connectors were created, manufactured and polished to different shapes to reduce back reflection. Back reflection grades generally vary from -30dB to -60dB. Remember that polishing is especially important for applications in which singlemode fiber has been used.

What are a few other names for fiber optic patch cables?
This really is by no means a thorough list of synonyms of these cables, but we now have heard them called: fiber optic patch cords,fiber patch cables, fiber optic jumpers, fiber jumper cables, duplex fiber jumpers, fiber wire, lan fiber, network fiber, optic cables, network glass, plus more.

What information should i provide if I want to modify the fiber patch cable?
The following:
1. Quantity, and Length in meters.
2. Quantity of fibers.Simplex or Duplex.
3. Connector type for both ends, they could ‘t be exactly the same on both ends.
4. Singlemode or Multimode fiber. If Multimode please advise if 62.5/125 or 50/125, or 50/125 laser optimized.
5. PVC or Plenum jacket.
6. It is possible to sent your customize detail info to the email: sales@fs.com, our sales will contact you as soon as possible, many thanks.

Information About Cable Components

Pick up any cabling catalog, and you may locate a variety of components and associated buzzwords that you never dreamed of. Including patch panel, wall plate, plenum, modular jacks, raceways, fiber optic pigtails and patch cords are only a few. Exactly what do all of them mean, and just how are these elements used to create a structured cabling system?

In this blog, we’ll provide some information about the structured cabling system so that you won’t feel so confused next time you select up a cabling catalog or assist professional cabling installers. Today, we mainly explain the cable components relevant information. If you wish to find out about components, pls visit FiberStore Tutorial, we provide some detail information regarding the fiber optic components.

We’ll describe the constituents involved with transmitting data from the work area towards the telecommunications room or enclosure. These major cable components are horizontal cable, backbone cable, and patch cords used in cross-connections and then for connecting to network devices.

Horizontal and Backbone Cables

The terms horizontal cable and backbone (sometimes called vertical or riser) cable do not have anything regarding the cable’s physical orientation toward the horizon. Horizontal cables run between a cross-connect panel in a telecommunications room and a telecommunications outlet located near the work area. Backbone cables run between telecommunications rooms, and enclosures,as well as the main cross-connect point of a building (usually found in the equipment room). The photo illustrates the standard components seen in a structured cabling environment, like the horizontal cable, backbone cable, telecommunication outlets, and patch cords.

Fiber Patch cord

Fiber patchcord can be used in patch panels to supply the link between field-terminated horizontal cables and network connectivity devices (for example switches and hubs) and connections between the telecommunications outlets and network devices (including computers, printers, as well as other Ethernet-based devices). They are the part of the network wiring you could see. As the saying goes, a sequence is merely as strong since it’s weakest link. Due to their exposed position in structured cable infrastructures, patch cords are nearly always the weakest link.

Whereas horizontal UTP cables contain solid conductors, patch cords are created with stranded conductors because they’re more flexible. The flexibility allows them to withstand the abuse of frequent flexing and reconnecting. Although you could make your own field-terminated patch cords, we strongly suggest against it.

The manufacture of patch cords is quite exacting, and even under controlled factory conditions it is difficult to attain and guarantee consistent transmission performance. The first challenge lies inside modular plugs themselves. The parallel alignment from the contact blades forms a capacitive plate, which gets to be a source of signal coupling or crosstalk. Further, the untwisting and splitting of the pairs as a result of the termination process raises the cable’s susceptibility to crosstalk interference. In the event that weren’t enough, the mechanical crimping method that secures the plug towards the cable may potentially disturb the cable’s normal geometry by crushing the conductor pairs. This is another supply of crosstalk interference along with a source of attenuation.

Tip:Patch cords which were factory terminated and tested are required to achieve consistent transmission performance. At first, patch cords seems to be a no-brainer, nevertheless they could possibly function as the most important element of accurately specify. When specifying patch cords, it’s also possible to require your patch cords be tested to make sure that they fulfill the proper transmission-performance standards for category.For more information about fiber optic patch cable types or want to buy the patch cable, pls contact this email: sales@fs.com.

Common Kinds of Hybrid Fiber Patch Cord

Recently, it is now apparent that fiber optic cable is steadily replacing copper wire as an appropriate way of communication signal transmission. They span long distances between local telephone systems in addition to supplying the backbone for a lot of network systems. Other system users include cable tv services, university campuses, buildings, industrial plants, and electric utility companies. A fiber-optic method is just like the copper wire system that fiber-optics is replacing. For example, fiber patch cord is one of the most often used components inside the fiber optic network.

Fiber patch cable (also referred to as fiber jumper cable or fiber patchcord) is used for connecting one optical device to a different, sometimes with two different connection types. You can find 4 connector types: LC, SC, ST and MTRJ which may be arranged in a configuration to match your connection needs. Including SC fiber cable (SC LC fiber patch cord), LC fiber patch cable (LC to ST fiber cable), ST fiber patch cable (ST to LC fiber patch cable, ST to SC fiber patch cable), ect.

Connector Types:

1. Same connector type fiber patch cable: This fiber optic patch cable gets the same type of connector on both ends, for example ST, SC, LC, FC, MTRJ, E2000, MU, etc.

2. Hybrid fiber optic patch cables: This fiber optic patch cable has different connectors on each end. One end could be SC and the opposite end could be LC, ST, FC, MTRJ, E2000, MU, etc.

We must learn more details about the fiber optic patch cable types, for instance, the hybrid fiber optic patch cables, LC to ST fiber cable is terminated with LC fiber optic connectors on a single end and ST fiber optic connectors however. Called Lucent Connectors, Little Connectors or Local Connectors, these snap-in connectors are typically useful for high density connections and are compatible with plug-and-play devices for example SFP modules and XFP transceivers. Straight Tip (“ST”) connectors use a bayonet-style coupling type, enabling a simple twist-on and twist-off installation. Do not let many of these connectors of different shapes and sizes fool you. Different devices opt for different connector types.

FiberStore provides different types of fiber patch cords including common single-mode 9/125, OM1 62.5/125, OM2 50/125, 10G OM3/OM4 patch cables, armored patch cable, fiber optic pigtails, multi core patch cables, MPO/MTP fiber and other special patch cables. Should you ever have a career that requires fiber patch or another type fiber optic products related and are not able to find the products on FiberStore, don’t get discouraged. Instead, give us a call or even an email, we are able to assist you in finding what you want as well as make it custom.

Types Of Fiber Optic Patch Cable

From the wiki we realize that, Fiber Optic Patch Cord is a fiber optic cable capped at either end with connectors that enable that it is rapidly and conveniently connected to CATV, an optical switch, or another telecommunication equipment. Using a thick layer of protection, it really is used to connect the optical transmitter, receiver, and also the terminal box. This is what’s called “interconnect-style cabling”. Fiber patchcord is the better choice for CATV, Telecom Server, Subscriber Loop, Fiber-to-the-home, and Local Area Network (LAN) applications.There’s another type of fiber cable assembly called Pigtail, it is a short optical fiber permanently attached with a resource, detector, or other fiber optic device at one end and an optical connector on the other. Fiber optic pigtails tend to be for optical device connectivity.

Fiber Optic Patch Cords are created to interconnect or cross connect fiber networks within structured cabling systems. The fiber patch cables types including common single-mode 9/125, OM1 62.5/125, OM2 50/125, 10G OM3/OM4 patch cables, armored patch cables, fiber optic pigtails, multi core patch cables, Fiber MPO/MTP patch cables and other special patch cables. The fiber patchcord are available with the SC, ST, FC, LC, MU, MTRJ, E2000, APC/UPC terminations optical connector. Typical fiber connector interfaces are SC, ST, and LC in both multimode or single-mode applications. Fiberstore supply fiber optic patch cable with different connector and cable type, so we can also customize patch cables in a cut length.

Fiber optic patch cable types:
A fiber patch cords consists of 2 major parts: Optical connector and fiber optic cable.
1)By Optical connector:
LC fiber patch cable; FC patch cable; SC fiber cable; ST patch cable; MU fiber patch cable; MTRJ patch cord; E2000 patch cable; MPO fiber cable.
2)By fiber optic cable types
Single mode fiber optic cable: Generally in yellow color and useful for long transmission distance;
Multimode fiber optic cable: Generally the multimode patch cable are orange or gray and therefore are used for short distance transmission.
3)By fiber optic cable Jacket
PVC: Non-Flame Retardant;
LSZH : Low smoke zero halogen, Flame Retardant

Fiber optic patch cable features:

  • Fiber optic connector type: LC, FC, SC, ST, MU, MTRJ, E2000,MPO
  • Ferrule Interface type: PC, UPC, APC
  • Fiber cores: Simplex, duplex, 4 fibers, 8 fibers etc.
  • Fiber type: Single mode (G.652, G655), multimode(50/125)/(62.5/125)
  • 100% Insertion Return Loss, End Face and Interference inspection
  • Low insertion loss, high return loss
  • Excellent mechanical endurance
  • Insertion loss: <0.5 dB
  • Operation temperature: -20?? to 85??C
  • 10G OM3 OM4 fiber cable available
  • Various jacket material, PVC and LSZH

Fiber optic patch cable applications:

1. Optical Fiber Communication Systems
2. Optical Access Network
3. Fiber optic data transmission
4. Optical Fiber CATV
5. Lan (LAN)
6. Test Equipment

For those who have questions about fiber patch cords or desire to customize fiber patch cables, pls visit our FiberStore website and click on the live chat around the right corner, we will be A day online to assist you solve your problem.