In renewable energy-sourced power systems, asynchronous motors serve as elements that both produce and consume electricity. The stability and efficiency of the asynchronous motor in renewable energy system should be considered. Although performance optimization studies have been carried out using power circuits that control the asynchronous motor fed with solar energy and control units such as proportional, integral, derivation (PID), and Fuzzy logic; They may be insufficient to eliminate and reduce vibrations in the output values of an induction motor fed with a renewable energy source. Losses occur as the system performance decreases constantly due to oscillations. In this study, an induction motor power system is optimized with the extra control coefficient (ECCA)-PID, which provides semi-linear control for the first time, unlike the power systems controlled by other linear controllers used so far to reduce oscillations, and the vibration losses are eliminated. The speed oscillations, torque oscillations, and oscillation losses of the induction motor in the system are controlled by conventional PID, and Fuzzy logic controllers in order to demonstrate the effectiveness of the proposed method in simulation and experimentation. Then, the results are compared after the proposed method are examined. As a result of the comparisons, while the motor oscillations and losses in the power system continue throughout the control period in traditional control methods, the proposed method reduces the losses to zero in a large part of the control period.

在可再生能源电力系统中，异步电机作为产生和消耗电力的元件。应考虑可再生能源系统中异步电机的稳定性和效率。尽管已经使用控制太阳能供电的异步电机的电源电路和比例、积分、微分（PID）和模糊逻辑等控制单元进行了性能优化研究；它们可能不足以消除和减少由可再生能源供电的感应电机的输出值的振动。当系统性能因振荡而不断下降时，就会出现损耗。在这项研究中，感应电机电力系统使用额外控制系数（ECCA）-PID 进行优化，首次提供半线性控制，与迄今为止使用的其他线性控制器控制的电力系统不同，以减少振荡，并且振动损失被消除。系统中感应电机的速度振荡、扭矩振荡和振荡损耗由传统PID和模糊逻辑控制器控制，以在仿真和实验中证明该方法的有效性。然后，在检查所提出的方法后对结果进行比较。比较结果表明，在传统控制方法中，电力系统中的电机振荡和损耗在整个控制周期内持续存在，而本文提出的方法在控制周期的大部分时间内将损耗降低到零。