The core purpose of voltage withstand testing on cables is to verify whether their insulation performance meets safety operating requirements, to identify potential defects in advance, and to prevent insulation breakdown and short circuits during operation. The following are the specific reasons and analysis:
1. Ensuring the cable's insulation performance meets standards
① Verifying design parameters
The cable's insulation materials (such as cross-linked polyethylene, rubber, etc.) and structural design must meet specific voltage level requirements. Voltage withstand testing applies a test voltage higher than the rated voltage (such as AC or DC) to verify whether the insulation layer can withstand short-term overvoltage without breakdown, ensuring it meets design standards.
② Detecting insulation defects
a. Manufacturing defects: Such as uneven insulation layer thickness, air gaps, impurities, or tiny cracks. These defects may not cause failures under normal operating voltage, but will gradually worsen under overvoltage or long-term operation.
b. Installation damage: During cable laying, insulation damage may occur due to bending, compression, or mechanical damage. Voltage withstand testing can simulate extreme conditions to expose these problems.
c. Aging and deterioration: After long-term operation, insulation materials may age due to thermal, electrical, and chemical factors. Voltage withstand testing can assess their remaining lifespan.
2. Preventing operational failure risks
① Avoiding insulation breakdown
Cables may encounter lightning overvoltage, operating overvoltage, or transient overvoltage caused by system faults during operation. If the insulation performance is insufficient, these overvoltages can lead to insulation breakdown, causing short circuits and even fires. Voltage withstand testing simulates overvoltage scenarios to identify weak points in advance.
② Reducing power outage accidents
Cable failures often lead to large-scale power outages, affecting production and daily life. Voltage withstand testing can eliminate potential hazards before commissioning or during regular maintenance, reducing the probability of sudden failures during operation and improving power supply reliability.
③ Ensuring personal safety
Insulation breakdown can cause the cable sheath to become live, threatening personnel safety. Voltage withstand testing ensures that the cable can safely isolate live parts from the outside world under normal and abnormal conditions, preventing electric shock accidents. 3. Meeting Standards and Specifications
① Mandatory International/National Standards
Standards such as IEC 60502 and GB/T 12706 explicitly stipulate that cables must pass voltage withstand tests (such as AC withstand voltage, DC withstand voltage, or partial discharge tests) before being put into use. This is an essential step in cable production, installation, and acceptance.
② Basis for Quality Certification
The results of voltage withstand tests are an important basis for cable quality certification; products that fail the test cannot enter the market.
4. Common Types and Functions of Voltage Withstand Tests
① AC Withstand Voltage Test
a. Principle: Apply an AC test voltage (usually 1.5-2.5 times the rated voltage) for a certain period of time (e.g., 5 minutes).
b. Function: Simulates power frequency overvoltage in actual operation, detects the performance of insulation under an AC electric field, and is especially suitable for medium and high-voltage cables.
② DC Withstand Voltage Test
a. Principle: Apply a DC test voltage (usually 1.4-1.7 times the AC test voltage).
b. Function: Suitable for low-voltage cables or oil-impregnated paper insulated cables, but may mask local defects due to space charge effects, and is gradually being replaced by AC withstand voltage tests.
③ Partial Discharge Test
a. Principle: Monitor partial discharge signals in the cable insulation under the test voltage.
b. Function: Locates tiny defects (such as air gaps, impurities), evaluates the degree of insulation degradation, and is suitable for ultra-high-voltage cables or important lines.
④ Ultra-Low Frequency Withstand Voltage Test
a. Principle: Apply a 0.1Hz ultra-low frequency AC voltage to reduce the size and energy consumption of the test equipment.
b. Function: Suitable for long cables or on-site testing, with less damage to the insulation.
5. Timing and Frequency of Voltage Withstand Tests
① Factory Test: 100% voltage withstand testing is required after cable production to ensure product quality.
② Post-Installation Test: Voltage withstand testing is required after cable laying to verify that the installation process has not damaged the insulation.
③ Preventive Test: Regular voltage withstand testing of cables in operation is performed to assess the insulation condition and develop maintenance plans.
④ Post-Overhaul Test: Cables that have undergone fault repair or extensive replacement require retesting to ensure the quality of the repair.
The ZC-500 power frequency withstand voltage control box (referred to as the tester) adopts digital control technology, offering strong anti-interference capabilities. Compared to previous generation control boxes, it features a smaller size, lighter weight, and a more aesthetically pleasing design. Its output voltage is continuously adjustable from 0 to 250V, and it is used for voltage regulation and control in calibration, testing, and experimental equipment. This control box is easy to operate, compact, robust, reliable, and easy to maintain, making it an ideal control device for outdoor high-voltage testing. It can be widely used in power, water conservancy, chemical, railway industries, and laboratories.
Kvtester Electronics Technology Co.,Ltd. is a high-tech enterprise specializing in power testing, testing, research and development, production, and sales of testing equipment. It has been engaged in the electrical testing industry for many years, and its products are of high quality. We welcome customers to come and purchase. Service hotline: 0086-27-81778799, to learn more, visit the official website: www.kvtester.com
