Control and power sharing among parallel three‐phase three‐wire and three‐phase four‐wire inverters in the presence of unbalanced and harmonic loads

In this paper, the parallel operation of a three‐phase three‐wire inverter and a three‐phase four‐wire inverter in the presence of unbalanced and nonlinear loads is investigated. The proposed control method has two current internal and voltage external control loops. The current internal loop has a proportional‐resonant controller. The voltage external loop has two parts, including voltage controller and load current sharing. In the current sharing part, first, the output of the voltage controller is broken to a harmonic and is shared then between the inverters through the new strategy: (i) supply of harmonic components of load current by four‐leg inverter and sharing fundamental component of load current evenly between the inverters and (ii) supply of zero‐sequence load current by four‐leg inverter and sharing of the rest of components evenly between two inverters. The proposed system is capable of feeding balanced, unbalanced and nonlinear loads and provides the proper sinusoidal voltage at both ends of the loads by exact sharing of power between parallel inverters. The simulation results show the proper functioning of the proposed system. © 2018 Institute of Electrical Engineers of Japan. Published by John Wiley & Sons, Inc.