Feasibility Study of Fault Tolerant Blac Motor Using PM Enhanced Sensing

2013 Texas Instruments India Educators' Conference Pub Date : 2013-04-04 DOI:10.1109/TIIEC.2013.45

A. Dwivedi, S. K. Singh, R. Srivastava

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引用次数: 1

Abstract

BLAC motor operation requires the application of identical zero crossing higher voltage applied to its winding. This voltage should be greater than the motional induced EMF. It is possible to obtain a replica of motional induced EMF in its winding using Permanent Magnet (PM) enhanced sensing scheme. Any PM rotor having even number of N-S poles may be suitable for such a scheme. In this paper, the feasibility study of a fault-tolerant BLAC motor using PM enhanced has been experimentally investigated. In actual practice input voltage of PM motor contains larger number of harmonics due to switching action thereby making it quite cumbersome to estimate the EMF induced in its coil. In PM enhanced sensing, the replica of induced EMF is available for each coil under dynamic condition. The scheme introduced can be suitably implemented for fault tolerant motor where the motional induced EMF of each of the winding segment of auxiliary winding may be amplified using commercially available Power Operational amplifier (P-OPAMP). The amplified voltage is used to activate the respective winding segment on the main winding.

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基于永磁增强传感的黑色电机容错可行性研究

BLAC电机的运行要求在其绕组上施加相同的过零电压。这个电压应该大于感应电动势。使用永磁(PM)增强传感方案可以在其绕组中获得运动感应电动势的副本。任何PM转子偶数N-S极可能适用于这样的方案。本文通过实验研究了永磁增强容错BLAC电机的可行性。在实际应用中，永磁电机的输入电压由于开关动作而含有较多的谐波，因此线圈中感应电动势的估计相当麻烦。在永磁增强传感中，每个线圈在动态状态下都可以获得感应电动势的副本。所介绍的方案可以适用于容错电机，其中辅助绕组的每个绕组段的运动感应电动势可以使用市售功率运算放大器(P-OPAMP)放大。放大后的电压用于激活主绕组上相应的绕组段。

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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2013 Texas Instruments India Educators' Conference

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