This paper presents the techniques used for the characterisation of a new type of standing-wave piezoelectric ultrasonic motor. The motor uses a metallic flextensional amplifier, or “cymbal”, to convert the radial mode vibrations of a piezoelectric ceramic disc into flexural oscillations, which are further converted to produce rotary actuation by means of an elastic fin friction drive. The motor operates on a single-phase electrical supply. A beryllium copper rotor design with three-fin configuration was adopted. The best stall torque, no load speed, transient time and efficiency for a 25 mm motor were 2 N mm, 680 rpm, 2 ms and 4.8%, respectively. The operational characteristics of the motor were evaluated by using two methods: one based on the pulley–brake principle and one on high-speed imaging. The results obtained from using these two techniques are contrasted and compared.
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机译:本文介绍了用于表征新型驻波压电超声马达的技术。电机使用金属挠性放大器或“ cy”将压电陶瓷盘的径向振动转换为弯曲振动,然后通过弹性翅片摩擦驱动将其转换为旋转致动。电机使用单相电源供电。采用三翅片式铍铜转子设计。 25毫米电机的最佳失速转矩,空载速度,瞬态时间和效率分别为2 N mm,680 rpm,2 ms和4.8%。通过两种方法评估了电动机的运行特性:一种基于皮带轮制动原理,另一种基于高速成像。比较并比较了使用这两种技术获得的结果。
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