Speed Control of Brushless Induction Excited Synchronous Motor (BINSYM)

2020 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES) Pub Date : 2020-12-16 DOI:10.1109/PEDES49360.2020.9379795

Sagar Kumar Dash, Venkatanarasimharao Medam, C. Chakraborty

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Abstract

The Brushless INduction excited SYnchronous Motor (BINSYM) is a combination of synchronous and induction machines housed in one core and wound for different numbers of poles to achieve magnetic decoupling. The machine is brush-less and permanent magnet-less. This is developed as a fallback option due to different challenges posed by PM motors. In this paper the magnetic decoupling principle is briefly explained. A possible layout of the machine is presented and steady-state analysis has been carried out to select the suitable operating zone for motoring mode of operation of BINSYM. Vector control algorithms have been implemented for both main synchronous and excitation machines for speed control. A new control scheme for below-base-speed operation is proposed. Proper and optimized design of the excitation machine (IM) can be achieved by the proposed excitation control scheme to reduce the core-loss of BINSYM. MATLAB/Simulink based simulation results are presented to clearly demonstrate the effectiveness and advantage of the proposed drive system.

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无刷感应励磁同步电动机(BINSYM)速度控制

无刷感应励磁同步电机(BINSYM)是将同步电机和感应电机组合在一个磁芯中，并绕成不同数量的磁极以实现磁去耦。本机无刷、无永磁。这是由于永磁电机带来的不同挑战而开发的备用选项。本文简要说明了磁去耦原理。提出了一种可能的机床布局，并进行了稳态分析，为BINSYM的运行方式选择了合适的操作区域。矢量控制算法已被用于主同步电机和励磁电机的速度控制。提出了一种新的低速运行控制方案。提出的励磁控制方案可以实现励磁机的合理优化设计，降低BINSYM的铁心损耗。基于MATLAB/Simulink的仿真结果清楚地证明了所提出的驱动系统的有效性和优越性。

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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来源期刊

2020 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES)

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