Enwere ọtụtụ ụdị eriri. Igwe ọkụ na eriri nzikọrịta ozi bụ ụdị ngwaahịa ngwaahịa abụọ. Although both communication cables and power cables are wires used to transmit signals and energy, there are differences in the use of the environment, transmission characteristics, equipment requirements, were gabazie. Kedu ihe dị iche n'etiti eriri na eriri ndị yiri ya?
Communication Cable
Communication cables are used for data transmission, communication connections, wdg. The signals to be transmitted are mainly high-frequency electrical signals. Communication cables use many special designs to meet the requirements of high speed, low BER, and good anti-interference. Since communication cables transmit weak signals, an outer shield is often required to minimize interference, and the internal conductor will be a thinner single strand or twisted wire for more sensitive signal transmission.
Communication cable type classification
Communication cable according to performance is divided into: shielded communication cable, armored communication cable, and flame retardant communication cable.
1 Single-conductor: refers to the most primitive communication cable, a single-conductor circuit, with the earth as the return line.
2 Symmetrical cable: by two identical wires under ideal conditions to form a circuit.
3 Coaxial eriri: will be on the same axis as the inner and outer conductors to form the outer conductor surrounding the inner conductor while both are insulated.
Communication cable application occasions classification
If by the application of occasions, communication cables can be divided into the following three categories.
1 Long-distance cable: Long transmission distance, generally for multiplexed
Use, most directly buried in the ground, in a few cases the use of overhead installation, or installed in the pipeline.
2 Municipal cable: cable wires “in pairs”, and the number of pairs. Generally installed in the pipeline, some municipal cables are attached to the building or overhead installation.
3 Bureau cable: mainly used in the telecommunications bureau of communications cables, generally installed in the distribution frame, but also installed in the trough. Bureau cables are used in telecommunications offices between transmission equipment and switching equipment, as well as other bureau equipment inside.
Igwe ọkụ ọkụ
Power cables are used to transmit high power currents with high electrical characteristics and are widely used in power systems, mines, construction sites, and other occasions. Power cables generally use a multicore design to facilitate the transmission of three-phase current, and the diameter of the conductor, material, and other very strict requirements to ensure the transmission effect and safety.
Structural differences between communication cables and power cables
Communication cables adopt a four-layer structure, such as insulation layer-copper foil shielding layer-insulation layer-outer sheath, to meet the requirements of high-speed rate, low BER, and good anti-interference.
Igwe ọkụ, n'akụkụ aka nke ọzọ, adopt a four-layer structure, such as conductor-insulation layer-armor layer-outer sheath, to fully protect personal and equipment safety.
Different Fields of Application
Communication cables are mainly used in data centers, mgbasa ozi, telecommunications, computers, nlekota oru, and many other areas that require signal transmission.
Igwe ọkụ, n'akụkụ aka nke ọzọ, are mainly used in the power transmission industry, mines, construction sites, na ubi ndị ọzọ.
Communication cables have a variety of laying methods such as overhead, direct burial, pipeline underwater, wdg. They have a wider transmission band, larger communication capacity, less interference from the outside world, and can transmit telephones, telegram, data images, wdg. They are used in the transmission of audio and digital signals. It refers to the cable used for near-distance audio communication long-distance high frequency carrier and digital communication and signal transmission.