Analysis and Design of A PMQR-Type Repetitive Control Scheme for Grid-Connected H6 Inverters

Abstract: There exist several challenges in the implementation of proportional multiple quasi-resonant (PMQR) control strategies in single-phase grid-connected H6 inverters, such as high computational costs and design complexity. To overcome these challenges, this paper proposes a proportional multiple quasi-resonant (PMQR)-type repetitive control (PMQR-type RC) scheme for single-phase grid-connected H6 inverters. In the control scheme, a repetitive controller and a proportional controller run in parallel. The repetitiv… Show more

“…Similarly, GI(s) and GP(s) respectively represent the PI controller and AC internal plant model transfer function. As referred to [58], for real-time implementation in the digital controller such as DSP, a first-order delay block GD(s) is considered as illustrated in Fig. 2.…”

Performance Improvement of Three-Phase Boost Power Factor Correction Rectifier Through Combined Parameters Optimization of Proportional-Integral and Repetitive Controller

“…Similarly, GI(s) and GP(s) respectively represent the PI controller and AC internal plant model transfer function. As referred to [58], for real-time implementation in the digital controller such as DSP, a first-order delay block GD(s) is considered as illustrated in Fig. 2.…”

Performance Improvement of Three-Phase Boost Power Factor Correction Rectifier Through Combined Parameters Optimization of Proportional-Integral and Repetitive Controller