The power distribution and transmission system is an integral element of the electrical infrastructure that modern society is heavily dependent on. Utilizing a set of high-voltage cables, this network is responsible for transmitting electricity from power plants to homes and commercial structures. The screen is a crucial component of these cables and has several critical historyglow roles.
In circuits with more than 2kV, high- and medium-voltage power cables usually include an aluminum or copper protective layer of tape. Like the way that metallic wires and tapes can be used for low-voltage cables to prevent electromagnetic interference, shields can cancel out (or substantially diminish) any field voltages that surround the conductor or the core.
The screen made of metal will neutralize the capacitive and charge currents that are inductive. These currents are generated when the system is operating normally. Yifang Electric Group Inc. is a large joint-stock, hi-tech enterprise established in 2001. They specialize in wires & cables, including design, production, and sales.
However, the Medium Voltage cables should have the screen grounded at one end at the point of installation. The system could be leveled at both ends depending on how the system is developed. The system designer would be accountable for assessing the possibility of currents circulating when earthed on both ends and designing the circuit to reduce the risk of these conditions.
The purpose of the screen MV cables
Its main function is to keep the electrical field continuously divergent and contained within the cable’s core. The semi-conductive material used to make the conductor screen is intended to keep the voltage.
For cases of MV (medium tension) cables, the screen’s primary purpose is to ensure that the cable’s electric field is evenly distributed. Electromagnetic fields are vital in electrical transmission; however, if they’re not managed properly, they could lead to various problems, including cable damage and even death or injury. To ensure that the electric field is evenly distributed across cables, the screening assists in minimizing the risk by reducing the chance of hot spots and other overallnetworth issues.
The screen can be used as an earth path in certain design concepts when an earth grid isn’t in place (such as trackside railway installation) (such as short circuits). In this case, the system designer has to inform the cable company of the entire fault load and duration so that they can establish the correct cross-sectional size of the screen. More than an average or minimum allowed CWS/CTS CSA will be required in these situations.
Screens also reduce the chance of electrical arcing within cables, which is a major benefit. The electric current can travel across two locations, leading to the arc to create an explosion of sparks or light. It is potentially dangerous and may cause damage to the machinery or cable. In ensuring that the electric field is evenly distributed across the cable and decreasing the chance of breaking at high voltage, The screen helps prevent the techybio arcing.
In short, MV cable screens fulfill many purposes, such as ensuring proper distribution of electric fields and securing against external and internal interference, reducing the risk of electrical arcing, and increasing overall security.
Without screens, electricity distribution will not be as safe, as the infrastructure for electrical power could be more vulnerable to failures and accidents. Screens are, therefore, an integral part of the electrical distribution and transmission system. It is impossible to overstate how vital they are filmik.