Inductor saturation compensation in three-phase three-wire voltage-source converters via inverse system dynamics
Citation
Özkan Z. & Hava, A. M. (2022). Inductor saturation compensation in three-phase three-wire voltage-source converters via inverse system dynamics. IEEE Transactions on Industrial Electronics, 69(5), 4309-4319. doi:10.1109/TIE.2021.3084155Abstract
In three-phase three-wire (3P3W) voltage-source converter (VSC) systems, utilization of filter inductors with deep saturation characteristics is often advantageous due to the improved size, cost, and efficiency. However, with the use of conventional synchronous frame current control methods, the inductor saturation results in significant dynamic performance loss and poor steady-state current waveform quality. This article proposes an inverse dynamic model-based compensation (IDMBC) method to overcome these performance issues. For this purpose, two-phase exact modeling of the 3P3W VSC control system is obtained. Based on the modeling, the inverse system dynamic model of the nonlinear system is obtained and employed such that the nonlinear plant is converted to a virtual linear inductor system for linear current regulators to perform satisfactorily. Further, to control phase currents in the synchronous frame, a two-phase coordinate transformation is proposed. The IDMBC method is tested via dynamic command response and waveform quality simulations and experiments that employ saturable inductors reaching down from full inductance at zero current to 1/9th inductance at full current. The results obtained demonstrate the suitability of the method for 3P3W VSCs employing saturable inductors.
Source
IEEE Transactions on Industrial ElectronicsVolume
69Issue
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