Sliding-Mode Observer for IPMSM Sensorless Control by MTPA Control Strategy

机译：MTPA控制策略的IPMSM无传感器控制的滑模观测器

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This paper presents a nonlinear sliding mode control (SMC) scheme for interior permanent magnet synchronous motors (IPMSMs). The proposed SMC is able to reduce the settling time without an overshoot by giving a low damping ratio at the initial time and a high damping ratio as the output reaches the desired setpoint. At the same time, it enables a fast convergence in finite time. To improve the efficiency of a system in the constant torque region, the control system incorporates the maximum torque per ampere (MTPA) algorithm. The stability of the nonlinear sliding surface is guaranteed by Lyapunov stability theory. The effectiveness of the proposed nonlinear SMC scheme is verified experimentally. From these experimental results, the proposed nonlinear SMC method reveals a faster transient response, smaller steady-state speed error, and low sensitivity to system uncertainties.

机译：本文介绍了用于内部永磁同步电动机（IPMSMS）的非线性滑模控制（SMC）方案。当输出达到所需设定点时，所提出的SMC能够通过在初始时间和高阻尼比率下给出低阻尼比率而没有过冲，而没有过冲，而没有过冲。与此同时，它可以在有限时间内快速收敛。为了提高恒扭矩区域中系统的效率，控制系统包括每个安培（MTPA）算法的最大扭矩。 Lyapunov稳定性理论保证了非线性滑动表面的稳定性。实验验证了所提出的非线性SMC方案的有效性。从这些实验结果来看，所提出的非线性SMC方法揭示了更快的瞬态响应，较小的稳态速度误差，以及对系统不确定性的低灵敏度。

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《IFAC Conference on International Stability, Technology and Culture》|2017年|328p|共6页
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Lindita Dhamo; Aida Spahiu; Mitja Nemec; Vanja Ambrozic;
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中图分类 TP273-53;
关键词
Interior Permanent Magnet Synchronous Motor (IPMSM); Nonlinear Sliding Surface; Sliding Mode Controller (SMC); Sliding Mode Observer (SMO); Speed Control;

机译：内部永磁同步电机（IPMSM）;非线性滑动面;滑模控制器（SMC）;滑动模式观察器（SMO）;速度控制;

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专利

1. Sliding-Mode Observer for IPMSM Sensorless Control by MTPA Control Strategy [J] . Lindita Dhamo, Aida Spahiu, Mitja Nemec, IFAC PapersOnLine . 2016,第29期

机译：通过MTPA控制策略进行IPMSM无传感器控制的滑模观察器
2. Quadrature PLL-Based High-Order Sliding-Mode Observer for IPMSM Sensorless Control With Online MTPA Control Strategy [J] . Gaolin Wang, Zhuomin Li, Guoqiang Zhang, Energy Conversion, IEEE Transactions on . 2013,第1期

机译：具有在线MTPA控制策略的IPMSM无传感器控制的基于正交PLL的高阶滑模观察器
3. Sensorless Sliding-Mode MTPA Control of an IPM Synchronous Motor Drive Using a Sliding-Mode Observer and HF Signal Injection [J] . Foo G., Rahman M.F. Industrial Electronics, IEEE Transactions on . 2010,第4期

机译：使用滑模观测器和HF信号注入的IPM同步电机驱动器的无传感器滑模MTPA控制
4. Sliding-Mode Observer for IPMSM Sensorless Control by MTPA Control Strategy [C] . Lindita Dhamo, Aida Spahiu, Mitja Nemec, IFAC Conference on International Stability, Technology and Culture . 2017

机译：MTPA控制策略的IPMSM无传感器控制的滑模观测器
5. Power Control of Permanent Magnet Synchronous Generator-based Wind Energy Conversion Systems with Higher-Order Sliding-Mode Observer [D] . Slaby, Steven. 2018

机译：具有高阶滑模观测器的基于永磁同步发电机的风能转换系统的功率控制
6. Active Pneumatic Vibration Control by Using Pressure and Velocity Measurements and Adaptive Fuzzy Sliding-Mode Controller [O] . Hung-Yi Chen, Jin-Wei Liang, Jia-Wei Wu 2013

机译：利用压力和速度测量以及自适应模糊滑模控制器进行主动气动振动控制
7. A Super-Twisting Sliding-Mode Stator Flux Observer for Sensorless Direct Torque and Flux Control of IPMSM [O] . Junlei Chen, Shuo Chen, Xiang Wu, 2019

机译：一种超级扭转的滑动模式定子通量观测器，可传感器直接扭矩和IPMSM的磁通控制

Sliding-Mode Observer for IPMSM Sensorless Control by MTPA Control Strategy

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