Three-Phase AC-DC Converter with Algorithm based Adaptive Direct Power Control Technique and Backstepping Controller

2020 3rd International Conference on Energy, Power and Environment: Towards Clean Energy Technologies Pub Date : 2021-03-05 DOI:10.1109/ICEPE50861.2021.9404441

Amit Kumar, S. Mishra

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Abstract

In this work, a backstepping controller for the regulation of dc bus voltage is presented for a three-phase AC-DC power converter with an algorithm based adaptive direct power control (ADDPC) technique. This controller is employed in the outer voltage control loop and the AADPC scheme is utilized in the inner control loop. The presented approach is providing better voltage regulation of the outer loop and improving the dynamic response of the ac-dc converter. Two cases are considered, in the first case the load is increased, and in the second case the load is decreased across the dc bus. Laboratory experiments are performed and from obtained results, it is observed that with the backstepping controller dc bus voltage dip and rise are also decreased as compared to the PI controller-based AADPC approach for increase and decrease of load respectively. Power ripples and percentage THD content in the supply side line current is nearly comparable under steady-state. The introduced controller with AADPC can suppress the fluctuations in the dc bus faster as compared to the conventional PI-based approach which is enhancing the system's dynamic performance.

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基于算法的自适应直接功率控制技术和反步控制器的三相交直流变换器

本文采用基于算法的自适应直接功率控制(ADDPC)技术，设计了一种用于三相交直流电源变换器直流母线电压调节的反步控制器。外电压控制环采用该控制器，内电压控制环采用AADPC方案。该方法可以改善外环的电压调节，改善交直流变换器的动态响应。考虑两种情况，在第一种情况下，负载增加，在第二种情况下，负载在直流母线上减少。实验结果表明，与基于PI控制器的AADPC方法相比，采用反步控制器的直流母线电压在增加和减少负载时的下降和上升也有所降低。在稳态下，供电侧线路电流中的功率波动和THD含量百分比几乎相当。与传统的基于pi的控制器相比，采用AADPC的控制器可以更快地抑制直流母线的波动，从而提高系统的动态性能。

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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2020 3rd International Conference on Energy, Power and Environment: Towards Clean Energy Technologies

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