Develop Emperor Penguin Optimizer for Speed Regulation of BLDC Motor Using PV-Based Z-Source Inverter

Abstract

This paper presented control methods for the reduction of the ripple torque and the control of speed in the residential of BLDC and different applications using ZSI. Photovoltaic (PV) systems’ renewable energy is regarded as the input of BLDC motors. The ZSI has different benefits such as low cost in addition to improved efficiency. In addition, control of the speed torque ripple is achieved with the consumption of the ZSI. To improve the control performance, the Functional Order Proportional Integral Derivative (FOPID) controller can be utilized. Here, the FOPID controller parameters can be optimized through the consumption of the Emperor Penguin optimization (EPO) algorithm. The errors of torques and speeds are decreased with the consumption of the ZSI with the EPO algorithm. Therefore, to realize the purposes, EPO can be proposed to standardize the FOPID frameworks of the motors of BLDC controllers of the speeds and torque. These presented methods are carried out from the Simulink/MATLAB in addition it is compared among the previous methods of PSO, SSA, also and FA. The performance can be evaluated with two different conditions, constant irradiance conditions, and different irradiance conditions.