Hu Yinghua, Yang Ming, Zhu Yuanfei, Wang Shangting
School of Sensing Science and Engineering, Shanghai Jiao Tong University, Shanghai 200240, China.
Micromachines (Basel). 2023 Nov 24;14(12):2147. doi: 10.3390/mi14122147.
Frequency tracking and amplitude control are essential for piezoelectric transducers. Frequency tracking ensures the piezoelectric transducer operates at the resonant frequency for maximum power output, and amplitude control regulates the mechanical motion of the output. This paper presents a novel driver based on a push-pull inverter for piezoelectric transducers. The proposed driver realizes the frequency tracking and amplitude control scheme by a voltage sensing bridge in the case of transformer secondary matching, guaranteeing automatic frequency tracking and precise mechanical functions regardless of environmental and load variations. The proposed scheme is verified by the ultrasonic scalpel and the ultrasonic motor (USM). The experimental results show that this scheme reduces the build-up time from 10 ms to 3 ms and loaded frequency variations from 250 Hz to 200 Hz. In addition, the amplitude control performance was further observed on USM for various loads. The overshoot is less than 5.4% under different load torques. Therefore, the proposed scheme improves the load adaptability and stability of piezoelectric transducers and promotes the application of piezoelectric transducers under various conditions.
频率跟踪和幅度控制对于压电换能器至关重要。频率跟踪可确保压电换能器在谐振频率下运行以实现最大功率输出,而幅度控制则调节输出的机械运动。本文提出了一种基于推挽逆变器的新型压电换能器驱动器。所提出的驱动器在变压器次级匹配的情况下通过电压传感桥实现频率跟踪和幅度控制方案,无论环境和负载如何变化,都能保证自动频率跟踪和精确的机械功能。所提出的方案通过超声手术刀和超声电机(USM)得到验证。实验结果表明,该方案将建立时间从10 ms减少到3 ms,并将负载频率变化从250 Hz降低到200 Hz。此外,还在不同负载的超声电机上进一步观察了幅度控制性能。在不同负载扭矩下,超调量小于5.4%。因此,所提出的方案提高了压电换能器的负载适应性和稳定性,并促进了压电换能器在各种条件下的应用。