MICROPROCESSOR-BASED ROBUST DIGITAL-CONTROL FOR UPS WITH 3-PHASE PWM INVERTER

This paper describes a novel method of robust (insensitive to system parameter variations and load current changes) and fast digital control for uninterruptible power supply (UPS) with a three-phase PWM inverter. The purpose of this paper is to propose a method by which characteristics better than those by conventional methods are obtained using an algorithm simpler than that of conventional methods. The experiments show that the purpose is achieved and the proposed method offers a total harmonic distortion of 0.62% of the output voltage waveform at a full nonlinear load. The analysis shows stability of the method is sufficient. Three features of the method are; (a) A capacitor current observer for stabilization and a disturbance observer for robustness are used to compensate the time lag by the computation and the disturbances, in a minor loop of the capacitor current through an inductor-capacitor filter of the inverter. (b) New models of the inverter and the disturbances are established to simplify these observers. (c) The output voltage control loop can be designed easily and exactly because the minor loop realizes a rapid and robust control of the current.