Direct Power Fuzzy Control of Three-Phase AC-DC Converter using a Space Vector Modulation

J. Lamterkati, L. Ouboubker, M. Khafallah
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引用次数: 1

Abstract

In the conventional Direct Power Control (DPC) the active/reactive powers and line currents have high ripples caused by the switching frequency variations. To repair it, in this paper the Space Vector Modulation (SVM) is used. This paper will aim firstly at developing a new SVM-DPC structure based Fuzzy Logic Controllers (FLC's) to overcome the SVM-DPC based Proportional-Integral (PI) controller limitations, such as the sensitivity to the external disturbances and the parameter uncertainties. In order to rectify the disadvantages of traditional SVM-DPC approach, active power and reactive power fuzzy logic controllers were designed to replace the classical active and reactive powers PI controllers. The active power and reactive power fuzzy logic controller has two inputs (active/reactive power error and its change rate) and one output (active/reactive component of the reference vector voltage). Numerical simulation results are given for conventional Proportional-integral and Fuzzy Logic Controllers to prove the performances of the proposed strategy. The simulation verifies that fuzzy SVM-DPC is able to of effectively improve control performance in terms of settling time, overshoot, steady state, line current harmonics and total harmonic distortion.
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基于空间矢量调制的三相交直流变换器直接功率模糊控制
在传统的直接功率控制(DPC)中,由于开关频率的变化,有功/无功功率和线路电流存在较大的纹波。为了解决这个问题,本文采用了空间矢量调制(SVM)技术。本文首先提出了一种基于模糊逻辑控制器(FLC)的SVM-DPC结构,以克服基于SVM-DPC的比例积分(PI)控制器对外部干扰的敏感性和参数不确定性等局限性。为了纠正传统SVM-DPC方法的缺点,设计了有功和无功模糊逻辑控制器来取代经典的有功和无功PI控制器。有功和无功模糊逻辑控制器有两个输入(有功/无功误差及其变化率)和一个输出(参考矢量电压的有功/无功分量)。通过对传统比例积分控制器和模糊控制器的数值仿真,验证了所提策略的有效性。仿真结果表明,模糊SVM-DPC在稳定时间、超调量、稳态、线路电流谐波和总谐波畸变等方面都能有效改善控制性能。
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