Why Choose Us?

Rich experience

Founded in 2012, the company is a production and sales company dedicated to optical fiber products. It has its own perfect quality system, product diversification, and its own strong sales group.

Advanced equipment

Coupling aligners, fiber grinders, end face instruments, testing equipment, coupling equipment, packaging equipment.

High quality service

The company actively responds to pre-sale products, solves customer problems, provides feedback for customers during sales, and after-sale quality assurance has always been our top priority.

High quality

The company's product production, quality inspection, sales, export, after-sales and customer service. In the field of optical fiber products, product diversification and product excellence are the foundation of our long-term development.

What Is Fiber Optical Cable

A fiber optic cable is a network cable that contains strands of glass fibers inside an insulated casing. They're designed for long-distance, high-performance data networking, and telecommunications. Compared to wired cables, fiber optic cables provide higher bandwidth and transmit data over longer distances. Fiber optic cables support much of the world's internet, cable television, and telephone systems.

32 Core ADSS Optic Cable

1.250μm Coloured Fiber. 2.PBT loose Tube. 3.Tube Filling Compound(Gel). 4.PSP corrugated steel tape

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GYTA53 12 Core Optic Cable

Direct-buried Armored Fiber Cable Application It is suitable for long distance communication and

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Flat 24 Core Drop Fiber Cable

4/6/8/12 enhanced low water peak single mode fibers in full compliance with ITU-T-G.652D/G.657A1

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GYXTW 12 Core Drop Fiber Cable

Transmission Characteristics G.652G.65550/125μm62.5/125μmMax Attenuation(dB/km) (+20℃)850 nm

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GYTA 24 Core Drop Fiber Cable

GYTA is an outdoor use optical fiber cable suitable for duct and aerial applications. We supply

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GYFTY 12B1 Drop Fiber Cable

Blue,Orange Blue&Brown,Gray,White,Red,Black,Yellow Violet,Pink,Aqua.

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GYTA53 48 Core Drop Fiber Cable

GYTA53 uses metal strength member as central strength member to provide excellent strain

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GYFXTY 4 Core Drop Fiber Cable

GYXTY Steel Wire Armored Uni Tube Single Jacket cable is designed with the flexibility and

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2 Core Indoor Drop Fiber Cable

It is suitable for connecting with communication equipment, and used as access building cable in

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1 Core Indoor Drop Fiber Cable

FTTH indoor cable is centered on the optical communication unit, with two parallel non-metallic

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GYFTY 96 Core Optic Cable

With unique flexural optical fibers, which provide greater bandwidth and enhance network

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GYTC8S 36 Core Optic Cable

Loose tube style, figure-8 optical fiber cable, Jelly compound, optical fiber cable with metallic

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How Fiber Optical Cables Works

Fiber optical cables transmits data in the form of light particles, or photons, that pulse through a fiber optical cable cable. The glass fiber core and the cladding each have a different refractive index that bends incoming light at a certain angle.

When light signals are sent through the fiber optical cable cable, they reflect off the core and cladding in a series of zig-zag bounces, following a process called total internal reflection. The light signals do not travel at the speed of light because of the denser glass layers, instead traveling about 30% slower than the speed of light.

To renew, or boost, the signal throughout its journey, fiber optical cables transmission sometimes requires repeaters at distant intervals. These repeaters regenerate the optical signal by converting it to an electrical signal, processing that electrical signal and retransmitting the optical signal.

Fiber optical cable cables are now able to support up to 10 Gbps signals. Typically, as the bandwidth capacity of a fiber optical cable cable increases, the more expensive it becomes.

Features of Fiber Optical Cable

Common features for fiber optic cable include polarization maintaining, graded index, and metallized.

● A polarization maintaining cable has fiber that maintains the polarization of light that enters it.

● Metallized fibers are coated with metals for increased temperature resistance, soldering, and harsh environments. An important environmental parameter to consider is the operating temperature.

Fiber Optical Cable Types

Fiber optical cable is available in two "modes": Multimode or singlemode. Mode refers to pulses of light: Multiple pulses or a single pulse.

Multimode fiber (MMF) cable is a type of fiber optic cable that is designed to allow multiple modes or pulses of light to propagate through the core of the cable. The relatively wide core allows it to carry multiple streams of data simultaneously at wavelengths of 850nm or 1300nm.

Due to high dispersion and attenuation rates, multimode fiber is commonly used in shorter distance data transmission applications, such as in office buildings, schools, and hospitals. The larger core size allows for the use of less expensive light sources, such as a light emitting diode (LED) or Vertical Cavity Surface Emitting Laser (VCSEL), which can be used to transmit data over distances of up to several hundred meters.

Multimode fiber is less expensive than singlemode fiber and is easier to install and maintain, including slower data transmission speeds, shorter transmission distances, and lower bandwidth capacity. It is also more susceptible to signal degradation and attenuation over longer distances.

Singlemode fiber (SMF) cable is a type of fiber optic cable that is designed to transmit light through the core of the cable. Compared to multimode fiber, singlemode fiber has a small diameter core, typically around 9 microns. This smaller core size allows the light signals to travel much further without spreading out, enabling singlemode fiber to transmit data over distances of up to several kilometers. It uses a laser diode as its light source and a bandwidth in the 1310 and 1550nm range.

Singlemode fiber is commonly used in high-speed data transmission applications, such as in telecommunications, internet service, and cable television. It is also used in high-bandwidth applications, such as data centers and medical imaging, where high-speed and long-distance transmission is required.

Singlemode fiber is more expensive than multimode fiber and requires specialized equipment for installation and maintenance, but it offers several advantages, including faster data transmission speeds, longer transmission distances, and higher bandwidth capacity.

5 Unique Benefits of Fiber Optic Cable

There are a few benefits of fiber cable that you should know about.

Fiber supports very high bandwidth levels
When it comes to bandwidth, no currently available technology is better than fiber – especially singlemode fiber. Fiber optic cables provide more bandwidth to carry more data than copper cables of the same diameter.
No matter what new fiber-optic technologies make it to market in terms of transceivers or other electronics, the benefits of fiber include the fact that its performance isn't limited by the cable itself. Instead, it's limited by the electronic components that make up the system. Upgrade the components and your fiber cabling will be good to go.
Latency decreases with fiber as well, enabling faster download and upload times, as well as faster access to resources. Because of this low loss, fiber can also carry data across longer distances without delays or interruptions.

Fiber is inherently secure
Fiber cables don't emit signals; connecting taps to a fiber cable to intercept data transmission is incredibly difficult.
Because the signal traveling through a fiber cable is contained inside the individual fiber strand, it must be accessed from the end of the cable by cutting into it. In most cases, this would take the network down, and everyone would quickly become aware of the issue.

Fiber is intrinsically safe
Because electricity isn't involved with transferring data (data is transferred via light instead), the benefits of fiber include the fact that it's safe to handle.

Fiber withstands water and temperature fluctuations
Fiber optic cable isn't impacted by temperature changes, bad weather or moisture. For example, if it comes into contact with rainwater, communication goes on as usual. If lightning strikes a fiber cable, the surge of electricity will not be propagated because the fiber cable doesn't contain any metallic components.
It can withstand harsh environments without any changes in performance, making it ideal for rugged environments like outdoor, long-distance and industrial applications.

Fiber is immune to EMI
Placing lots of electronic cables (which carry electric current) in a dense environment can create crosstalk between cables – which causes performance issues and data-transmission interruption.
Fiber cables, however, don't produce electromagnetic interference (EMI). They aren't impacted by EMI, either. You can deploy them right next to industrial equipment without worry.

Electing the Correct Fiber Optical Cable

Let's start off by saying that fiber optical cables can be used in a huge variety of applications, from small office LANs, to data centers, to inter-continental communication links.
Multimode and Single mode
One of the first things to determine when choosing fiber optical cables is the "mode" of fiber that you need. The mode of a fiber cable describes how light beams travel on the inside of the fiber cables themselves. It's important because the two modes aren't compatible with each other — you can't substitute one for the other.
There's really not much variety with single mode patch cords, but there is for multimode. There are varieties described as OM1, OM2, and OM3. Basically, these varieties have different capabilities around speed, bandwidth, and distance, and the right type to use will depend mostly upon the hardware that is being used with them, and any other fiber that the patch cords will be connecting to.

Jackets
Pre-term fiber can be used in a variety of installation environments, and as a result, may require different jacket materials. The standard jacket type is called OFNR, which stands for "Optical Fiber Non-conductive Riser". This is a long-winded way of saying, there's no metal in it, so it won't conduct stray electrical current, and it can be installed in a riser application (going from one floor up to the next, for instance). Patch cords are also available with OFNP, or plenum jackets, which are suitable for use in plenum environments such as drop-ceilings or raised floors. Many data centers and server rooms have requirements for plenum-rated cables, and the local fire codes will always have the final say in what jacket type is required. The final option for jacket type is LSZH, which stands for "Low Smoke Zero Halogen", which is a jacket made from special compounds which give off very little smoke and no toxic halogenic compounds when burned. Again, check with the local fire code authority to be sure of the requirements of the installation before making the jacket selection.

Simplex vs. Duplex
Simplex vs. duplex is just the difference between one fiber or two; between one connector at each end of a cable, or two connectors at each end. That's all there is to it. Duplex patch cords are the most common type, because the way that most fiber electronics work is that they need two fibers to communicate. One is used to transmit data signals, and the other receives them. However, in some instances, only one fiber is required, so simplex patch cords may be necessary for certain applications. If you're not sure, you can always be on the safe side by ordering duplex patch cords, and only using one of the two fibers.

Connectors
No matter what level of twisted pair you were dealing with (Cat 5, 5e, etc), you always knew you'd be dealing with an 8-position modular RJ-45 plug on the end of the cable. Well, with fiber patch cords, you've got a few options available when it comes to connectors. Let's take a look at the common connector types:LC — This is a small, squarish connector that is held in place by a push/pull mechanism. This is currently the most popular type of connector.
SC — This connector is square, like an LC, but is approximately twice the size. It also holds into place using a push/pull mating mechanism.
ST — This is a round connector that uses a bayonet-style mechanism that has to be twisted into place. It is about the same size as the SC connector. It was once the most popular connector type, but is losing ground rapidly.
MTRJ — The MTRJ connector closely resembles an RJ-style modular plug, even getting part of its name from the resemblance.

Our Factory

Founded in 2012, the company is a production and sales company dedicated to optical fiber products. It has its own perfect quality system, product diversification, and its own strong sales group. In the field of optical fiber products, product diversification and product excellence It is the foundation of our long-term development.
The company's product production, quality inspection, sales, export, after-sales and customer service. We strive for perfection, each department does a good job of its responsibilities, the company pursues excellent performance, the work attitude of employees is the key to the company's growth, and they are dedicated and dedicated in their respective positions. The development of the company depends on the hard work of each department. , so that the company can have a qualitative leap.

FAQ

Q: What is a fiber optic cable used for?

A: Optical fibers are about the diameter of a strand of human hair and when bundled into a fiber-optic cable, they're capable of transmitting more data over longer distances and faster than other mediums. It is this technology that provides homes and businesses with fiber-optic internet, phone and TV services.

Q: What do you mean by optical fiber optical cable?

A: Fiber optics, or optical fiber, refers to the technology that transmits information as light pulses along a glass or plastic fiber. A fiber optic cable can contain a varying number of glass fibers, from a few up to a couple hundred. Another glass layer called cladding surrounds the glass fiber core.

Q: What is fiber optical cable?

A: A fiber-optic cable, also known as an optical-fiber optical cable, is an assembly similar to an electrical cable but containing one or more optical fibers that are used to carry light. The optical fiber elements are typically individually coated with plastic layers and contained in a protective tube suitable for the environment where the cable is used. Different types of cable are used for fiber-optic communication in different applications, long-distance telecommunication or providing a high-speed data connection between different parts of a building.

Q: What are the factors to consider when selecting fiber optical cable?

A: Some parameters are determined easily from your requirements, such as connector type, cable length, and polarity. Others are less obvious as they often depend on your networking infrastructure or only become relevant when comparing between different types of products.

Q: What runs on fiber optic cable?

A: Optical fiber technology is used in many ways today. It is used for transmitting voice and video signals, carrying computer data, and for sending information across long distances.

Q: What are the three types of fiber optic cable?

A: There are three types of fiber optic cable: single mode, multimode and plastic optical fiber (POF). Single Mode cable is a single stand of glass fiber with a diameter of 8.3 to 10 microns. (One micron is 1/250th the width of a human hair.)

Q: What not to do with fiber optic cable?

A: Never look directly into the end of a fiber optic cable. You won't see anything, even if the cable is live — but the invisible infrared light could still do damage to your eyes.

Q: What is an example of a fiber optic cable?

A: Examples of fiber optics include the fiberoptic colonoscope, fiberoptic duodenoscope, and the fiberoptic bronchoscope. The science of fiber optics utilizes tiny cables, as thin as human hairs, to transmit data.

Q: What are three types of fiber optic cables?

Q: How to tell what type of fiber optical cable?

A: Apart from the color coding, single-mode and multimode fiber optical cables can also be identified by the color of the patch cord. In single-mode optical fiber optical cable, the patch cord is in yellow color; and in multimode fiber optical cable, the patch cord comes in orange color.

Q: What type of fiber optical cable is used for internet?

A: Singlemode fiber is commonly used in high-speed data transmission applications, such as in telecommunications, internet service, and cable television.

Q: What is the most common type of fiber optical cable?

A: The most common type of fiber optic cable depends on the application. Multimode fiber (MMF) is often used for general purposes due to its lower cost and suitability for shorter distances in data centers. However, single-mode cable is more prevalent in long-distance and high-bandwidth applications.

Q: How do I know what type of fiber optical cable I have?

A: To determine the type of fiber optical cable you have, check any documentation provided with the cable or look for markings on the cable jacket. Additionally, you can visually inspect the characteristics of the outdoor or indoor fiber optic cable, such as fiber core diameter, color-coded, and construction, to help identify its type.

Q: What is A and B on a fiber optical cable?

A: A duplex patch cord with A-B polarity carries a "straight-through" position. When facing an open port in the "Keyup" position, "B" will always be on the left and "A" will always be on the right.

Q: How do I choose fiber optical cable?

A: Generally, fiber optic cable extenders will specify the cable used and its distance. Single mode is often used for distances over 1km, while multimode is chosen for under 1km, but it depends on whether the equipment support both.

Q: What are the advantages of fiber optical cable?

A: Fiber optical cables provide more bandwidth to carry more data than copper cables of the same diameter. No matter what new fiber-optic technologies make it to market in terms of transceivers or other electronics, the benefits of fiber include the fact that its performance isn't limited by the cable itself.

Q: What are three benefits of using fiber optical cables to send data?

A: Fiber optic cables have many advantages over standard copper cables, including faster data speeds, transmission over longer distances, and immunity to electromagnetic interference. These cables are also much more durable than copper cables.

Q: How to pick the right fiber optical cable?

Q: What fiber optical cable should I use?

A: If you need to move a large amount of data over a relatively short distance (for example, less than 300 meters), OM3 MMF might be the best choice. If data transmission speed or distance are key requirements, consider SMF. Note that MMF range depends on the OM rating of the cable.

Q: What are the different grades of fiber optical cables?

A: Identified by ISO 11801 standard, multimode fiber optic cables can be classified into OM1 fiber, OM2 fiber, OM3 fiber, OM4 fiber and newly released OM5 fiber.

As one of the most professional fiber optical cable manufacturers and suppliers in China, we're featured by cheap products and good service. Please rest assured to wholesale high quality fiber optical cable at low price from our factory.

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