A three-phase four-wire inverter with hysteresis current control for the photovoltaic (PV) system application is proposed in this thesis. There are usually two series-connected dc-link capacitors in the input side of a three-phase four-wire inverter. Unstable operation may result if the two capacitor voltages are different. In this thesis, a control method is developed according to the relationship between the dc-link capacitor voltage and the neutral wire current. By detecting the dc-link capacitor voltage, the neutral wire reference current signal can be generated to adjust the offset of hysteresis current band, so the capacitor voltage shifting and unstable operation can be avoided. On the other hand, there are many switches in the three-phase four-wire inverter and their switching losses dominate the inverter’s efficiency. In this thesis, the zero voltage switching operation is achieved by producing the bi-directional inductor current so that the switching loss can be reduced. Finally, simulation and hardware implementation results verify the feasibility and performance of the proposed three-phase four-wire inverter with hysteresis current control.