Full Speed Range Sensorless IPMSM Drive Enhanced with Online Parameter Identification

A. Perera, R. Nilsen
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Abstract

This paper aims to combine the state-of-the-art parameter-adaptation and state-estimation techniques to realize an adaptive and sensorless interior permanent magnet synchronous machine (IPMSM) drive that offers robust performance across the full speed range even in the presence of temperature-variations. Recursive prediction error based Online Parameter Estimator (OPE) accompanied by a gain-scheduler adapts temperature-sensitive motor parameters, i.e. the stator resistance (Rs) and permanent magnet flux linkage ($\Psi_{\mathrm{m}}$) in the lower and higher speed regions respectively. The Active Flux Observer (AFO) and the Pulsating sqUare-wave Voltage Injection (PUVI) based saliency tracking method are adopted to estimate the rotor position in the higher and lower speed regions respectively. The OPE augments the performance of the AFO across a large part of the speed-range and the use of PUVI-based technique eliminates the potential precision-compromise of the estimated position due to the gain-scheduler in the low-speed region. Zynq System on Chip (SoC) based Embedded Real-Time Simulator (ERTS) is used to demonstrate the concepts, in which the drive control and estimation algorithms are programmed in its processor system and the drive hardware is modeled in its Field-Programmable Gate Array (FPGA).
基于在线参数辨识的全转速范围无传感器IPMSM驱动
本文旨在结合最先进的参数自适应和状态估计技术,实现自适应和无传感器的内部永磁同步电机(IPMSM)驱动器,即使在存在温度变化的情况下,也能在全速度范围内提供稳健的性能。基于递归预测误差的在线参数估计器(OPE)和增益调度器分别适应温度敏感的电机参数,即低速和高速区域的定子电阻(Rs)和永磁链($\Psi_{\mathrm{m}}$)。采用主动磁链观测器(AFO)和基于脉动方波电压注入(PUVI)的显著性跟踪方法分别估计转子在高、低速区的位置。OPE增强了AFO在大部分速度范围内的性能,并且基于puvi的技术的使用消除了由于低速区域的增益调度器而导致的估计位置的潜在精度损失。采用Zynq基于SoC的嵌入式实时模拟器(ERTS)来演示这些概念,其中驱动控制和估计算法在其处理器系统中编程,驱动硬件在其现场可编程门阵列(FPGA)中建模。
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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