News

How the Fiber Optical Cable Work

Leave a comment

Fiber optical cables are used to transmit data over long distances at high speeds using light waves. They consist of thin strands of glass or plastic fibers that are enclosed in protective sheaths.

When data is transmitted through a fiber optical cable, it is first converted into light signals using a device called a modulator. The modulator sends these light signals into the fiber optical cable, which is designed to guide the light signals along its length using a process called total internal reflection.

Total internal reflection occurs because of the way the fiber optical cable is constructed. The cable has a core made of glass or plastic fiber that is surrounded by a cladding layer with a lower refractive index. This difference in refractive index causes the light signals to be reflected back into the core whenever they approach the boundary with the cladding layer at an angle greater than a certain critical angle. This keeps the light signals inside the core and prevents them from leaking out of the cable.

As the light signals travel through the fiber optical cable, they encounter different types of devices that manipulate the light signals, such as amplifiers to boost the signal strength and repeaters to regenerate the signal. When the light signals reach their destination, they are received by a device called a demodulator, which converts them back into the original data format.

Fiber optical cables have several advantages over traditional copper cables, including higher bandwidth, longer transmission distances, and immunity to electromagnetic interference. They are used in a variety of applications, such as telecommunications, internet connectivity, and medical imaging.

News

Professional Introduction of CT100 Cable

Leave a comment

CT100 cable is a type of coaxial cable commonly used in the telecommunications industry for applications such as cable television, satellite TV, and broadband internet. It is also used in security camera installations, audio/video systems, and other applications that require reliable transmission of high-frequency signals.

The “CT” in CT100 stands for “coaxial transmission”, which refers to the design of the cable. Coaxial cables have an inner conductor, surrounded by an insulating layer, a conductive shield, and an outer jacket. This design helps to minimize interference and signal loss, and allows for efficient transmission of high-frequency signals.

CT100 cable typically has a solid copper core, which provides good conductivity and minimizes signal loss. The insulating layer is made of foam polyethylene, which provides insulation and helps to maintain the cable’s impedance. The conductive shield is made of copper braid, which provides protection against interference and ensures signal integrity. The outer jacket is typically made of PVC or other durable materials, which provides protection against physical damage and environmental factors.

CT100 cable is available in different lengths and with various connector types, such as F-type or BNC connectors, to suit different applications. It is also available in different grades, such as standard, quad-shielded, and tri-shielded, to provide additional protection against interference.

News

Custom CT100 Cable Solutions

Leave a comment

In a market where every minute matters, saving time will undoubtedly save you money. CT100 cable built in parallel configuration with either a waxed nylon binder or intermittent cross taping, and is assembled to your specific job requirements.

Using CT100 cable, you can construct bundles using a variety of distinctive wires, the selected wires can be in any combination of wire type, gauge, color, and stranding.

Every CT100 cable conductor is printed with a unique customer specified alpha-numeric ID that can be repeated up to every inch and a half of the total length. Once complete, the assembly will arrive on site, pre-spooled, pre-tagged and ready to be “pulled.”

News

Advantages of indoor fiber optical cable

Leave a comment

Greater Bandwidth

The most notable advantage of a indoor fiber optical cable is that it provides significantly improved performance when it comes to bandwidth. The volume of data that can be transmitted is far greater than and is unrivalled by any other type of cable-based communication.

Longer Distances

Indoor fiber optical cables are designed to carry signals over much longer distances than traditional cabling as they offer low power loss.

Thin & Lightweight

Optical fibres are much thinner and lighter than copper wires, allowing them to be drawn into smaller diameters, making them more suitable for places where space is restricted.

Superior Carrying Capacity

Due to how thin the fibres are, more of them can fit into a given-diameter cable than copper wires.

Less Interference

As indoor fiber optical cables don’t carry an electrical signal, they are resistant to electromagnetic interference. Not only does this mean the rate of error is low, but it also helps to enhance the indoor fiber optical cable’s ability to transfer data quickly over longer distances without suffering considerable signal degradation.

Also, unlike electrical signals, light signals from one fibre don’t interfere with those of other fibres.

High-Level Security

Fibre transmission offers a level of security that simply cannot be matched by other materials. As they don’t radiate electromagnetic energy, it is extremely difficult to ‘listen’ in or tap. This makes it the most secure medium available for carrying sensitive data.

Strong, Reliable & Flexible

Optic fibres possess greater tensile strength and are sturdier than metal fibres of the same diameter, which means they’re less likely to suffer damage. Fibre also isn’t as affected anywhere near as much by weather, moisture or corrosive elements as metal wiring can be.

News

Security alarm cable for system

Leave a comment

High quality security alarm cable 18/2 power wire for security alarm systems power wire to connect the transformers to the control panels. It is also used to power a hardwired siren. It is also the extension security alarm cable for the ADT Pulse Outdoor Camera OC835.

The security alarm cable is very common to use the wire connectors when using this wire since it makes it really easy to connect to other wires.

News

Coaxial Antenna KX8 Cable

Leave a comment

Coaxial KX8 cable can be fixed with F,BNC,TNC connectors.These versatile KX8 cable assemblies with various lengths have been widely applied to existing and next generation TV network and security monitoring and control systems.

Features

1).75 Ohm data signal transmission.
2).The inner conductor is Bare Copper.
3).The insulation is solidPE.
4).Customized KX8 cable color , winding and connector, meet your different requirements.
5).RoHS compliant.

News

What is CT100 cable used for?

Leave a comment

CT100 cable is the generic term for high quality digital certified coaxial cable.

CT100 cable is actually a single makers model code but its whats been adopted as what to call 75ohm copper shield and braid, hollow conductor coax.

RG6 (and for that matter RG59), whilst being similar spec is NOT the same thing. RG cable is for CATV.

Sky for instance will ONLY entertain certified CT62 (Shotgun 100 2 cables paired on one reel), CT100, CT125 and CT162 (Longer runs=thicker cable) for Digital Sat TV.

Unless you are going a long way I would stick to CT100 coaxial as its a fair price point, espcially on 250m+ drums.

News

The application field of security alarm cable

Leave a comment

This security alarm cable wire connects door and window sensors, motion detectors, keypads and other hardwired accessories to your alarm panels. Appropriate for in-wall use.

This security alarm cable helps get your security system jobs done right; it’s great for other low voltage electrical hookup applications, too.

The 500-foot length security alarm cable comes in convenient Pull Box packaging for easy dispensing, measuring, cutting and storage for your custom installs now and in the future.