Nonlinear Decoupled Control for a Six-Phase Series-Connected Two Induction Motor Drive Using the Sliding-Mode Technique

2007 7th International Conference on Power Electronics and Drive Systems Pub Date : 2007-11-01 DOI:10.1109/PEDS.2007.4487867

J. Soltani, N. Abjadi, G. Arab Markadeh

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引用次数: 4

Abstract

In this paper a nonlinear decoupled control is designed for a series connected two six-phase squirrel induction motor (IM) drive which is supplied by a six-phase space vector pulse width modulation voltage source inverter (SVPWM VSI). By using a well known phase transposition in the series connection, the independent control of two machines can be realized completely. The nonlinear controller is developed in a stationary (alpha, beta) reference frame with rotor fluxes (lambdaalphatau, lambdabetatau) and stator currents (ialphas, ibetas) as state variables. At the first, an ideal feedback linearization control (IFLC) system is adopted in order to decouple the torque and rotor flux amplitude of each IM. Then to enhance the performance of the drive system against uncertainties of the plant, such as electrical and mechanical parameter variation, external torque disturbance and unmodelled system dynamics, a sliding- mode feedback linearization control (SMFLC) system is applied, that comprises a SM flux controller and a SM speed controller. Moreover a two level SVPWM is used to supply the two motors drive system. Finally, the effectiveness and capability of the proposed control strategy is verified by computer simulation.

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基于滑模技术的六相串联双感应电机驱动非线性解耦控制

本文针对由六相空间矢量脉宽调制电压源逆变器(SVPWM VSI)供电的串联两相鼠型感应电动机(IM)驱动设计了非线性解耦控制。通过在串联中采用众所周知的移相，可以完全实现两台机器的独立控制。非线性控制器是在一个平稳(α， β)参考系中开发的，转子磁通(lambdaalphatau, lambdabetatau)和定子电流(α， ibeta)作为状态变量。首先，采用理想反馈线性化控制(IFLC)系统对各IM的转矩和转子磁链幅值进行解耦;然后，为了提高驱动系统对对象的不确定性(如机电参数变化、外部转矩干扰和未建模的系统动力学)的性能，采用了滑模反馈线性化控制(SMFLC)系统，该系统包括一个磁链控制器和一个同步速度控制器。采用两电平SVPWM为双电机驱动系统供电。最后，通过计算机仿真验证了所提控制策略的有效性和性能。

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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2007 7th International Conference on Power Electronics and Drive Systems

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