Monthly Archives: August 2021

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What is combo cable and how is it used?

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Combo cables are the ideal solution for all applications requiring high speed data and video, flexibility, protection from extreme environment and high and low temperature resistance. Where you need a signal with minimum distortion and attenuation or no interferences, combo cables play a pivotal part. In fact, thanks to their twin conductor construction nature, they are able to ward off many issues produced by bifilary wires.

Combo cables consist of two copper or aluminium coaxially oriented conductors surrounded by a tubular insulating layer, enclosed by a conducting shield. The quality of combo cables affects the signal interference; higher quality ensures a minimum signal interference. Moreover, also the density of the shielding affects the quality of the COAX. The result is that high quality materials and manufacturing process are essential to manufacture a reliable combo cable.

Generally, combo cables end with connectors that are usually manufactured with high conductivity metals. There are many different kinds of combo cables, which are generally defined by electrical capabilities, outer diameter or materials.

An example is represented by RG cables, where the copper and aluminium copper clad wire quality, as well as the foaming extrusion, are part of the efficiency of signal.

Although the solutions for a high quality combo cable manufacturing look like straightforward, the design of these lines requires expertise and a deep understanding of the final product.

This article comes from sampsistemi edit released

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How Do I Choose The Correct Indoor Fiber Optical Cable?

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Due to the special environment of indoor applications, indoor fiber optical cables must meet the requirements of international standards for toxicity, corrosivity and low smoke while maintaining excellent flame retardancy, mechanical properties and optical transmission characteristics. The rise of indoor fiber optical cables between floors in vertical systems, narrow space applications of communication cabinets in horizontal systems, fiber-to-desktop applications, and communication applications passing through high-pressure air-filled spaces all place different requirements on indoor fiber optical cables. How to choose the right fiber optic cable to meet the needs of different indoor applications?

At present, most indoor fiber optical cables use tight-buffered optical fibers or single-core cables as basic units, reinforced by aramid yarns, and soft optical cables with flame-retardant or non-flammable sheaths. There are also plastic optical fibers as indoor wiring fiber cables, but this product has not yet been widely used.

The tight-buffered fiber is integrated with the fiber to provide good mechanical protection, so that the fiber exhibits good compression and bending resistance when it is terminated. In addition, The tight-buffered fiber is of good flexibility and toughness,small bending radius and excellent moisture-proof function.

The good environmental protection of tight-buffered fiber can improve the service life of the fiber. The tight-buffered fiber is compatible with all standard connectors and simplifies the termination procedure and reduces the termination cost. Moreover, the tight buffer layer is easily stripped to the fiber core.

Compared with the loose tube design, the loose tube uses jelly to buffer and moisture-proof the optical fiber, while the jelly does not have fire resistance. This is far from meeting indoor fire safety requirements. Moreover, the flame spreads along the optical cable, so that the damage of the optical cable extends to the depth of the wall and deep into the pipe. During installation, a lot of cleaning materials are needed and a lot of cleaning time is spent on ointment. At the same time, a connection method is needed, which greatly increases the cost of materials. The tight-buffered optical fiber design of flame-retardant or non-flammable sheath of the indoor optical cable make the indoor optical cable fully meet the requirements of indoor safety applications.

The outer protective materials used for indoor fiber optical cables include PE, PVC, polyurethane, low-smoke halogen-free materials, flame-retardant PE, etc. indoor fiber optical cables with different outer protective materials can be used in environments with different requirements. Therefore, indoor high-performance communication transmission applications generally use indoor fiber optical cables designed with tight-buffered optical fibers.

After the indoor fiber optical cable enters the building, it is necessary to provide the connection between the entrance equipment, equipment room or computer room and the communication cabinets on different floors, which is called “vertical wiring system”. At this time, the wiring fiber cables are mostly located in the riser in the vertical shaft between the floors. For this reason, the indoor fiber optical cable needs to withstand greater tensile force (self-weight maximum).

This article comes from unitekfiber edit released

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Coaxial Satellite VATC Cable

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VATC cable for the reception and distribution of digital terrestrial, analogue and digital satellite television signals with enhanced screen.

VATC cable with copper-clad steel inner conductor and aluminium braid (CCS/Al), and an excellent braid coverage (77%). A 17 VATC cable with double shielded and PVC sheath.

This article comes from televes edit released

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An Overview of Fire Alarm Cable

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Most fire alarm systems fall into two categories: conventional or addressable. Conventional fire alarm systems are a simple, common, time-proven technology, which protect a large percentage of commercial buildings today. Their reliability and low cost make them ideal for small to medium size properties. Conventional fire alarm systems are characterized by a fire alarm control panel, which holds the entire system’s intelligence. Connected to this panel via hard wires are a number of detectors or initiating devices such as smoke, flame or heat detectors. Additionally, the control panel is wired to notification devices such alarm bells, strobe lights and automatic dialers.

Fire alarm cable, just like networking cables, comes in either shielded or unshielded varieties. Shielded fire wire is usually needed only for noisy EMI (ElectroMagnetic Interference) environments or for extremely long runs. One should note that excessive capacitance becomes an issue here two especially in addressable systems. In shielded fire cable, a capacitor is formed not only between the conductors, but also between each conductor and the shield. While the capacitance values are typically around 30 to 75 pF per foot for each of the two previously listed capacitors, this value adds up quickly to the low hundred μFs with cables runs in thousands of feet.

Another distinguishing detail between different fire wire is the number of conductors. Fire alarm cable is available with two to six conductors, all of which are normally rated for up to 300 VRMS. The number of conductors required is dependent upon the type of system (conventional, addressable or hybrid) and the device type.

This can be a little confusing as fire alarm cable ranges in size from 18 AWG up to 12 AWG (American Wire Gauge; the smaller the value, the larger the wire diameter). The size of the wire required for the job is dependent upon each individual detector or notification device within the circuit receiving sufficient voltage to operate. This is due to the wire itself causing a voltage drop to its own internal resistance. The larger the wire gauge, the less resistance and associated voltage drop.

This article comes from cablewholesale edit released