Litcius/Paper detail

Fast and Precise Control for the Vibration Amplitude of an Ultrasonic Transducer Based on Fuzzy PID Control

Pengfei Du, Yingxiang Liu, Weishan Chen, Shijing Zhang, Jie Deng

2021IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control55 citationsDOI

Abstract

This work presents a novel constant frequency ultrasonicamplitude control (CFUAC) method based on fuzzy proportional-integral-derivative (FPID) and amplitude direct feedback. The frequency shift and amplitude nonlinearity of the piezoelectric transducer (PT) are measured to determine the optimal constant control frequency of 19.2 kHz. The FPID controller is designed to adapt to the nonlinear changes in different target amplitudes and loads. A direct PT amplitude feedback method is used to improve the signal's anti-interference ability and accuracy. The 5% settling time and steady-state error of FPID can reach 92.22 ms and [Formula: see text] at the step response under 24 [Formula: see text]. The 5% settling time and steady-state error of FPID are less than 131.44 ms and [Formula: see text] at 10 [Formula: see text] under 150 N. The results confirmthat fast and precise control of the vibration amplitude of an ultrasonic transducer can be realized by the proposed method. The new CFUAC method lays a foundation for revealing the ultrasonic welding and metal processing (UWMP) mechanism and helps to expand the application of ultrasonic vibration in the fields of precision machining and high dynamic ultrasonicmedical equipment.

Topics & Concepts

TransducerUltrasonic sensorAcousticsAmplitudeVibrationPID controllerControl theory (sociology)Fuzzy control systemAutomatic frequency controlEngineeringPhysicsFuzzy logicControl engineeringComputer scienceControl (management)Electrical engineeringTemperature controlOpticsArtificial intelligencePiezoelectric Actuators and ControlIterative Learning Control SystemsAeroelasticity and Vibration Control