A Generalized Real-Time Computation Method With Dual-Sampling Mode to Eliminate the Computation Delay in Digitally Controlled Inverters

Abstract

Digital control has been widely adopted in grid-connected inverters, thanks to easy implementation of complicated control algorithms. However, the digital control delay deteriorates the performance of the inverter and tends to cause system instability. In this article, the generating mechanism of the digital control delay, including computation delay and pulsewidth modulation delay, is analyzed. Then, a generalized real-time computation method with a dual-sampling mode is derived to directly eliminate the computation delay, based on two- and multilevel phase-legs. On this basis, the operation principle of the method for three- and single-phase inverters with two- and multilevel topologies is elaborated. Finally, the experimental and simulation results from three- and single-phase <i>LCL</i>-type grid-connected inverters are provided to verify the effectiveness of the proposed method.