Measurement of High/Low voltage AC leakage current and current. (Above 600V, operate with insulation rod).
1. Model No.: ETCR9000S
2. Current Range: AC 0mA~1200A
3. Resolution: 1mA
4.Data Storage: 99 Groups
5. Line Voltage: Below 10kV current test , operate with insulation rods
6. Power Supply: 6VDC (LR03 × 4pcs alkaline dry batteries)
ETCR9000S Portable H/L Voltage Clamp Meter/ Leakage Current Meter break through the traditional structure,which is composed of special clamp ammeter and insulated handle (length 32cm ),the portable design is especially suitable for testing the high and low voltage current and leakage current in the place where require a certain safety distance. The current or leakage current of 0.01mA ~ 600A or 0.01mA ~ 1000A can be accurately measured by selecting different types of products.
ETCR90000S Portable H/L Voltage Clamp Meter/ Leakage Current Meter, the innovative integrated design of the clamp and the guide area ensures the high accuracy, high reliability and high stability of year-round uninterrupted testing. The insulated handle is light, with features of moisture proof, high temperature resistance, shock resistance and high insulation.
ETCR9000S Portable H/L Voltage Clamp Meter/ Leakage Current Meter connect with insulationhandle, which can use for current measurement of bare wire below1KV or the bus bars, it can also be used for line current measurement with safe insulation skin below 10kV online current measurements, also with peak hold, data hold and data storage and so on others functions, the special clamp current meter convenient to clamp or withdraw the tested wire operate by push or pull back the insulation rod, save time and convenient. It is widely used in substations, power plants, and industrial and mining enterprises, inspection stations, electrical maintenance departments for current detection and electrical field operations. It also can replace the H/L voltage transformation ratio tester, which can measure the H/L voltage current of the primary circuit and the secondary circuit respectively, and then calculate the H/L voltage transformation ratio.