Robust Stable Control Design for AC Power Supply Applications

Abstract: This paper applies modified feedback technology to carry out the exact steady-state and fast transient in a high-performance alternating current (AC) power supply. The presented scheme displays the virtues of a finite-time convergence control (FTCC) and a discrete grey prediction model (DGPM). The FTCC, derived from a terminal sliding-mode (TSM) design principle, can produce the finite system-state convergence time and evade the singularity. It is noteworthy that the chattering/steady-state error around the FT… Show more

“…Chang et al reported on "Robust Stable Control Design for AC Power Supply Applications" [1] and proposed an improved feedback algorithm by binary particle swarm optimization (BPSO)-based nonsingular terminal sliding mode control (NTSMC) for DC-AC converters. The NTSMC can create limited system state convergence time and allow singularity avoidance.…”

Special Issue on Selected Papers from IEEE ICKII 2018

“…Chang et al reported on "Robust Stable Control Design for AC Power Supply Applications" [1] and proposed an improved feedback algorithm by binary particle swarm optimization (BPSO)-based nonsingular terminal sliding mode control (NTSMC) for DC-AC converters. The NTSMC can create limited system state convergence time and allow singularity avoidance.…”

Special Issue on Selected Papers from IEEE ICKII 2018