How to Use a Clamp Ammeter to Measure Voltage
A clamp meter is a device that measures the amount of current flowing through an electrical circuit while the power is still being supplied. In reality, the clamp meter is a current transformer. The primary coil of the transformer is analogous to the trapped wire. A magnetic flux will be produced when there is current flowing through the wire, first in the iron core of the meter and then in the secondary coil.This current equals the primary coil's current times the primary coil. The secondary coil's number of turns is divided by the number of turns in the wire, which equals one turn, and the current in the wire can then be converted using this relationship.
An electromagnetic inductor is what the clamp ammeter actually is. A magnetic field is created by the electrified wire. The magnetic field strength varies depending on the size of the current. Each phase's three-phase voltage is distinct, resulting in a separate current value converted on the clamp meter. You can only measure the current of a single phase and then compute the average current because the current hole on each battery is different. And finally, the procedure is the same whether the power is two-phase 220 volts or three-phase 380 volts.
The clamp ring of the clamp multimeter is configured to measure current, but because it is so named, it may also measure DC current.
Many clamp meters can measure resistance, AC and DC voltage, among other things. Simply put, clamp multimeters can perform the operations of standard multimeters. While many clamp meters can measure DC current, the majority of them now employ test leads rather than clamp rings.
Directly clamp the wire to be measured with the caliper after adjusting to the current gear.
Voltage can be measured by some clamp meters but not by others. Test leads are available for those who are able to measure voltage. Place two test leads on the voltage points to be measured, such as one live wire and one neutral wire, after inserting the test leads into the corresponding holes and adjusting to the voltage level.
