一种delta-迟滞电流调节的数字实现

2004 IEEE Workshop on Computers in Power Electronics, 2004. Proceedings. Pub Date : 2004-08-15 DOI:10.1109/CIPE.2004.1428129

H. Wang, S. Pekarek, B. Fahimi

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引用次数: 1

摘要

本文提出了一种基于DSP控制器的数字delta-迟滞调节(DDHR)方案，该方案允许电机驱动系统在所有相电流传感器丢失的情况下保持相对精确的相电流控制。在该方案中，利用直流链路电流和开关状态的知识重构相电流。开关信号的产生是基于传统的delta-迟滞调节(DHR)。然而，对DHR进行了修改，以确保直流链路电流始终包含足够的信息来重建相电流。在矢量控制感应电机上的实验结果表明，DHR和DDHR方案的性能差异较小。

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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A digital implementation of delta-hysteresis current regulation

In this paper, a DSP controller-based digital delta-hysteresis regulation (DDHR) scheme is proposed that allows motor drive systems to maintain relatively accurate control of phase currents in the event of the loss of all phase current sensors. Within the scheme, phase currents are reconstructed using knowledge of the DC-link current and switching states. The generation of switching signals is based upon traditional delta-hysteresis regulation (DHR). However, modifications are made to DHR to ensure the DC-link current always contains sufficient information to reconstruct phase currents. Experimental results obtained from a vector-controlled induction machine are used to show that there is a relatively small difference between the performance of the DHR and DDHR schemes.

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2004 IEEE Workshop on Computers in Power Electronics, 2004. Proceedings.

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