The invention provides a three-level three-phase half-bridge inverter circuit. The three-level three-phase half-bridge inverter circuit comprises three same single-phase half-bridge circuits. Each single-phase half-bridge circuit comprises an ionization electrolyte capacitor C1, an ionization electrolyte capacitor C4, a capacitor C9, a diode D1, a diode D2, a diode D3, a diode D10, a high-power switching tube Q1, a high-power switching tube Q2, a high-power switching tube Q3, a high-power switching tube Q 10, and an electrical inductor L1. Based on a traditional three-phase inverter circuit topology, auxiliary access bridge arms at the follow current stage are added, and the upper bridge arm and the lower bridge arm work in the positive half period of sine waves and the negative half period of sine waves respectively. At the follow current stage, the auxiliary bridge arms are used and a low-frequency switch is adopted, so that switch consumption generated in a high-power inverter is effectively lowered. SPWM is adopted in the whole system, and the three-phase pure sine waves are output. By the adoption of the design of modularized parallel redundancy, the reliability is high and the fault of a single module cannot influence running of the system. In addition, the capacity can be increased and decreased according to needs, so that capacity enlargement is convenient. The three-phase-independent inverting method has excellent 100% unbalance load capacity. Besides, the system can provide single-phase alternating currents and three-phase alternating currents at the same time.