Title :
Constant amplitude control of high-power ultrasonic drive system
Author :
Zhili Long ; Zhiyong Pan ; Chunfeng Li ; Jianguo Zhang
Author_Institution :
Shenzhen Grad. Sch., Harbin Inst. of Technol., Shenzhen, China
Abstract :
In precision ultrasonic process, the amplitude of the transducer will change while the load changes. which causes the unstable process and the decline of the process quality and efficiency. To solve these problems, the theoretical model of controlling ultrasonic amplitude output is established by feedbacked current. The theory is based on Kirchhoff´s circuit laws. And then a method of constant amplitude control is proposed by controlling buck converter´s output voltage. By MATLAB/Simulink, the simulation shows that the current is constant though the load changed. The result proved the scheme of constant amplitude control was feasible. Finally, the PID algorithm has been completed in the ultrasonic drive system based on ARM chips. The amplitude of the transducer was measured by a laser Doppler vibrometer and compared with the constant voltage control and the constant power.
Keywords :
drives; electric current control; feedback; microprocessor chips; power control; power convertors; three-term control; transducers; voltage control; ARM chips; Kirchhoff circuit laws; PID algorithm; buck converter; constant amplitude control; constant power; constant voltage control; current feedback; high-power ultrasonic drive system; laser Doppler vibrometer; output voltage control; precision ultrasonic process; process efficiency; process quality; proportional-integral-derivative algorithm; transducer amplitude; ultrasonic amplitude output control; Acoustics; Equations; Machining; Mathematical model; Transducers; Vibrations; Voltage control; Constant amplitude; Current feedback; PID control; Ultrasonic machining;
Conference_Titel :
Information and Automation (ICIA), 2014 IEEE International Conference on
Conference_Location :
Hailar
DOI :
10.1109/ICInfA.2014.6932721
