Mutual inductance parameter measurement and experimental research of double circuit based on different frequency method

In order to improve the measurement accuracy of mutual inductance parameters of transmission lines in the environment of double circuit power lines without power outage, this paper establishes simulation models for measuring mutual inductance parameters of transmission lines using the different frequency method in two modes: equal and unequal zero sequence self‐parameters of two circuit lines, using a parallel zero sequence coupling model of double circuit power lines. In the article, simulation analysis is conducted on the line parameters with a coupling coefficient between 0.4 and 0.6 and a line length of 20–50 km. In order to further verify the correctness of the simulation model and measurement methods, a test bench was established based on the principle of line mutual inductance parameter testing in a laboratory dual circuit line without a power outage environment for experimental testing. By comparing the test values under experimental conditions with the standard values, it has been proven that the model and method can meet the actual measurement requirements of engineering. Here, based on the zero‐sequence coupling model of double‐circuit parallel transmission lines, a simulation model of the cross‐frequency method for measuring mutual inductance parameters of two modes is established, and the correctness and engineering practicability of the method are verified by experiments. This method can improve the measurement accuracy of mutual inductance parameters of double‐circuit lines without power failure.