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access icon openaccess Harmonic analysis of AC-bus voltage in converter station based on time–frequency transformation

This is an open access article published by the IET under the Creative Commons Attribution-NonCommercial-NoDerivs License (http://creativecommons.org/licenses/by-nc-nd/3.0/)
Received 29/08/2018, Accepted 19/09/2018, Published 23/10/2018

The disturbance of the AC system has become one of the main causes of commutation failure in the high voltage direct current (HVDC) transmission system. Here, the time–frequency transformation method is used to analyse the AC-bus voltage disturbance from the perspective of the harmonic content of the AC power network. The time–frequency transformation for AC-bus voltage disturbance is difficult due to its characteristics of time variability and time fixity. With comparative analysis of various transformation methods, the method of combining the wavelet packet transform with the short-time Fourier transform can meet the requirement of time–frequency analysis of the AC voltage disturbance very well, and this method was used to analyse the fault recording data of Fengjing Convert Station when commutation failure occurred in recent years. The result shows that the AC-bus voltage mainly contained third and fifth harmonics, and there was a certain amount of even harmonics, and the low-order harmonics would be more in the case of a remote fault. In addition, there were more harmonics in the voltage when faults occurred in the 500 kV system, while there were more low-order harmonics when faults occurred in the other voltage class systems.

Inspec keywords: fault diagnosis; harmonic analysis; power system faults; commutation; HVDC power convertors; time-frequency analysis; HVDC power transmission; Fourier transforms; wavelet transforms

Other keywords: time–frequency analysis; voltage 500.0 kV; transformation methods; AC voltage disturbance; time–frequency transformation method; short-time Fourier transform; AC power network; harmonic analysis; AC system; harmonic content; commutation failure; AC-bus voltage disturbance; time variability; HVDC transmission system; fifth harmonics; voltage class systems; Fengjing Convert Station; low-order harmonics; time fixity

Subjects: Power system protection; Control of electric power systems; Integral transforms; Integral transforms; d.c. transmission; Substations; Other power apparatus and electric machines; Power convertors and power supplies to apparatus; Mathematical analysis; Reliability; Power supply quality and harmonics

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