Driving Circuit Design of a Circular Ridge-Wave Ultrasonic Motor

2017 International Conference on Information, Communication and Engineering (ICICE) Pub Date : 2017-11-01 DOI:10.1109/ICICE.2017.8478932

Tai-Ho Yu, Yun-Jyun Jhang, Tung-Che Lu

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引用次数: 2

Abstract

This study aimed to develop a novel driving circuit for a circular cylindrical ridge-wave ultrasonic motor. The driving circuit framework of a piezoelectric actuator consisted of three major levels, which were phase, power, and resonance. Previously, analogous phase shifters were used in the split-phase circuit; in this study, a digital circuit was used instead. Bridge inverters are mainly used in power stage circuits and include half-bridge inverters and full-bridge inverters. In this study, a half-bridge inverter was used in a power stage amplification circuit. With regard to the resonance level, an LC series resonant and parallel load circuit was applied due to its structural simplicity, low cost, low electromagnetic interference, control signal feedback, and quick response. The measurements of motor performances indicated that under the maximum driving voltage amplitude of 200 Vp-p, driving frequency of 35.04 KHz, and pre-load of 1 Nt, a maximum torque of 22.6 mN-m and maximum revolution speed of 334 rpm could be reached, while electromechanical conversion efficiency was improved by 25%.

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圆脊波超声电机驱动电路设计

本研究旨在开发一种新型的圆柱脊波超声电机驱动电路。压电作动器的驱动电路结构由相位、功率和谐振三个主要电平组成。以前，在分相电路中使用了类似的移相器;在这项研究中，使用了数字电路代替。桥式逆变器主要用于功率级电路，包括半桥式逆变器和全桥式逆变器。在本研究中，在功率级放大电路中使用了半桥逆变器。在谐振电平方面，采用LC串联谐振并联负载电路，结构简单、成本低、电磁干扰小、控制信号反馈、响应快。电机性能测试表明，在最大驱动电压幅值为200 Vp-p、驱动频率为35.04 KHz、预负载为1 Nt的情况下，电机最大转矩为22.6 mN-m，最大转速为334 rpm，机电转换效率提高了25%。

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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2017 International Conference on Information, Communication and Engineering (ICICE)

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