Abstract
This thesis presents design and implementation of a 20 kVA division-summation (D-Σ) digital controlled three-phase four-wire multi-function inverter system. The in-verter can be operated in grid-connected or stand-alone mode to act as a renewa-ble-energy ac power-supply system. In the stand-alone mode, the control of this in-verter uses the D-Σ digital control law for voltage tracking which includes load im-pedance estimation and repetitive control, causing the inverter can stabilize sinusoidal output voltage for unbalanced load and nonlinear load. For the grid-connected mode, in order to achieve a specific PF and stabilize grid voltage and frequency, the control is the D-Σ digital control law for current tracking which supplemented by a droop control based linear P-Q compensation. Moreover, the D-Σ digital control law in this research is based on Two-Phase Modulation (TPM) scheme and associated with the switching sequence transformed from space vector pulse width modulation (SVPWM) scheme, and thus, the inductance variation can be taken into account, reducing core size significantly. Finally, the control laws are verified with measured results from a 20 kVA three-phase four-wire inverter system.
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