An Optimal Sliding-Integral-Derivative (SID) Control of a Grid-Tied Multilevel Inverter under Parameters Mismatch

2022 International Symposium on Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM) Pub Date : 2022-06-22 DOI:10.1109/speedam53979.2022.9842201

M. Jalilirad, Erfan Azimi, M. Mehrasa, Rui Martins, E. M. Rodrigues

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Abstract

This paper presents an optimal sliding mode control technique for a single-phase seven-level Switched-Capacitor inverter in grid-connected mode. The utilization of the proposed control makes it possible to properly supply the output changes under parameters mismatch. To this end, the current dynamics of the multilevel inverter are used to develop a closed-loop control description aiming at the assessment of a transfer function. Using the second-order responses of the converter currents, a cost function is minimized to achieve optimal values for the Sliding-Integral-Derivative control coefficients. Using the damping ratio and the cost function, a regulation coefficient is defined, and eventually, the variation trend of the coefficients is also evaluated through the stability margin improvement of the converter. The proposed control algorithm has good dynamics in transient load change condition with parameters mismatch. Eventually, this control algorithm is validated by simulation in the MATLAB SIMULINK environment and experimental results.

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参数不匹配下并网多电平逆变器的滑动积分导数(SID)最优控制

本文提出了一种并网模式下单相七电平开关电容逆变器的最优滑模控制技术。利用所提出的控制方法，可以适当地提供参数不匹配情况下的输出变化。为此，利用多电平逆变器的电流动态特性，建立了一种针对传递函数评估的闭环控制描述。利用变换器电流的二阶响应，最小化代价函数以获得滑动积分导数控制系数的最优值。利用阻尼比和代价函数定义了调节系数，并通过对变流器的稳定裕度改进评估了调节系数的变化趋势。该控制算法在参数不匹配的负载暂态变化条件下具有良好的动态特性。最后，通过MATLAB SIMULINK环境下的仿真和实验结果对该控制算法进行了验证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 International Symposium on Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM)

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