The cable fault tester under Wuhan UHV can help many power workers conduct various power tests more conveniently.

High impedance faults can have a significant impact on the use of cables, and the following is a detailed explanation of the specific effects:

Decreased cable performance:

When a high resistance fault occurs in a cable, the abnormal increase in resistance will cause an increase in the resistance of the path through which current flows, thereby affecting the normal operation of the cable. This may lead to a decrease in the transmission efficiency of the cable, which cannot meet the expected power or signal transmission needs.

Increased safety hazards:

A high resistance fault may cause the cable to heat up, as additional heat is generated when the current passes through the high resistance point. Long term overheating may accelerate the aging of the cable insulation layer and even cause serious safety accidents such as fires.

In addition, high impedance faults may also pose a risk of personal electric shock, especially when working around unrepaired or untested faulty cables, where workers may face the danger of electric shock.

Difficulty in fault location:

The current level of high impedance faults is usually lower than that of typical direct short-circuit grounding faults, which makes it difficult to detect high impedance faults using traditional overcurrent protection methods. Therefore, locating and repairing high impedance faults requires more complex and professional techniques and equipment.

System stability is affected:

High impedance faults may lead to instability in the power system, as faulty cables may introduce additional impedance and capacitance, thereby affecting the voltage and current distribution of the system. This may affect other devices in the system and even cause more widespread failures.

Increased maintenance costs:

Due to the difficulty in directly detecting high impedance faults and the potential need for more complex equipment and technology to locate and repair them, maintenance costs may significantly increase. In addition, if the malfunction is not detected and handled in a timely manner, it may lead to more serious damage and higher repair costs.

induce:

High impedance faults can have various negative impacts on the use of cables, including decreased cable performance, increased safety hazards, difficulty in fault location, affected system stability, and increased maintenance costs. Therefore, for high resistance faults in cables, timely and effective measures need to be taken for detection, localization, and repair to ensure the normal operation of cables and the stability of the power system.