Product Introduction
At present, the conventional QJ44-type DC bridge is widely used for contact resistance measurement in electric power systems. However, the test current of such bridges is only at the milliampere level, making it difficult to detect defects such as reduced cross-sectional area of circuit conductors. When measuring the contact resistance of high-voltage switch circuits, the presence of oil films and oxide layers often results in significantly higher measured values that fail to reflect the true contact resistance.
To address this issue, both the standard SD301-88 AC 500kV Power Equipment Handover and Preventive Test Regulations and the new version of the Preventive Test Regulations for Power Equipment stipulate that the measurement current for circuit breaker and isolating switch contact resistance shall be no less than 100 A DC to ensure the accuracy of test results.
The Switch Micro-Ohmmeter produced by Wuhan UHV is designed in accordance with the implementation standard DL/T 845.4-2004 of the new Electric Power regulations of the People's Republic of China, combining high-frequency switching power supply technology with digital circuit technology. This micro-ohmmeter is suitable for resistance measurement in switch control equipment circuits. It offers high measurement accuracy and stable performance, fully meeting the requirements of high-voltage switch maintenance and factory circuit resistance testing for high-voltage switches.
Parâmetros técnicos
| easuring range | 1~1999μΩ |
| Resolução | 1mΩ |
| Corrente de teste | DC 100A fixed output |
| Precisão | 0,5%±1d |
| Operating mode | Contínuo |
| Modo de exibição | 3.5-digit LED display |
| Fonte de energia | AC220V±10% 50Hz |
| Ambiente de trabalho | Temperature: -10℃~40℃, humidity: ≤80%RH |
| Dimensão | 390×300×150mm3 |
| Peso | 6kg(excluding attachments) |
Product Characteristics
1. High-Current Output: The Switch Micro-Ohmmeter adopts advanced power supply technology, enabling continuous output of large current over extended periods. It effectively penetrates the oxide film on switch contacts, ensuring reliable test results.
2. Strong Anti-Interference Capability: Even under severe interference conditions, the last digit of the LCD reading remains stable within ±1 count. The instrument provides stable readings and good repeatability.
3. Long Service Life: High-precision resistors are used throughout, effectively eliminating the influence of ambient temperature on measurement results. Additionally, military-grade connectors enhance vibration resistance.
4. Easy to Carry: Compact size and light weight for convenient portability.
matters needing attention
1. Please read the instruction manual carefully before using the instrument.
2. Please follow the correct wiring method in the instruction manual to connect the wires.
3. This instrument is not allowed to test the circuit resistance in live circuits.
4. The instrument must be reliably grounded during use.
5. Current line users are not allowed to replace them at will.
6. When not in use, the instrument should be stored in a ventilated, dry, cool, and clean place, paying attention to moisture and corrosive gases.
Basic knowledge of contact resistance
1. What is contact resistance?
Contact resistance is the additional resistance that occurs when a stationary contact comes into contact with a moving contact.
2. What are the components of the contact resistance of a circuit breaker?
It consists of two parts: the contraction resistance and surface resistance of the contact parts of the moving and stationary contacts.
3. What are the reasons for the unqualified contact resistance of the circuit breaker?
1) When breaking a large short-circuit current, the contact burns out.
2) Due to poor institutional adjustment and unstable fixation, the stroke changes. When the overtravel is severely unqualified, it can cause changes in contact pressure or contact area.
3) After the debugging and installation of the circuit breaker, if it is not put into operation for a long time, the surfaces of the moving and stationary contacts will oxidize and the contact surface resistance will increase.
4) Long term operation causes the spring to deform, resulting in a decrease in contact pressure.
5) Mechanical wear caused by long-term operation of mechanical parts.
6) For low oil circuit breakers, it is also possible for the insulation oleic acid value to be unqualified and cause acidic reactions, which can corrode the contact surface. Or floating impurities in the oil, caused by the interruption of short-circuit current between the moving and stationary contacts. The residual carbonaceous particles and metal powders increase the contact resistance.
4. What are the factors that affect contact resistance?
1) - Material properties: resistivity, hardness, chemical properties, mechanical strength and resistivity of metal compounds.
2) Contact forms: point contact, line contact, surface contact.
3) Contact surface condition: When an oxide film is formed on the contact surface (except for silver), the resistance of the oxide film is much higher than that of the metal itself.
4) Contact pressure.
5) Surface roughness of contact
