A Natural-Sampling-Based SVM Scheme for Current Source Converter With Superior Low-Order Harmonics Performance

Abstract

The device switching frequency of current source converters (CSCs) in high-power medium-voltage (MV) drive applications is normally around 500 Hz. Conventional space vector modulation (SVM) features fast dynamic response but its output contains low-order harmonics with high magnitudes. In this paper, a natural-sampling-based SVM (NS-SVM) scheme is proposed to substantially suppress the low-order harmonics in practical CSC-based drives. This study proposes an equivalent discretization of NS-SVM wherein natural sampling pulse width modulation performance can be achieved with regular sampling frequency (same as a conventional SVM) instead of a high or even infinite sampling frequency. Equations for natural-sampling-based dwell time calculations for each selected vector are developed. The corresponding simplified but precise enough equations are derived on the basis of the Newton-Raphson algorithm to achieve fast online digital implementation. The proposed NS-SVM features superior low-order harmonic performance and inherits the high dynamic response and low sampling frequency of conventional SVM. Simulations and experiments are provided to verify the proposed NS-SVM scheme.