This paper presents the implementation of a novel vibration amplitude control and resonant frequency tracking for piezoelectric transducers (PTs) and ultrasonic motors (USMs). It is based on a generalization of the vector control method to the PT and the USM, which is explained in the first part. We show that two independent controllers with a similar structure are required: one tracks the resonant frequency and the second controls the amplitude. We then present the implementation into a low-cost digital signal processing controller with a sampling period of 200 µs. Experimental results on a Langevin transducer achieved a time response of 20 ms approximately, and the generality of the method is further demonstrated on a 2-D tactile stimulator at the end of this paper

AMBERG, Michel

GHENNA, Sofiane

GIRAUD, Frédéric

GIRAUD-AUDINE, Christophe

IEEE Transactions on Industrial Electronics

International audienceThis paper presents the implementation of a novel vibration amplitude control and resonant frequency tracking for piezoelectric transducers (PTs) and ultrasonic motors (USMs). It is based on a generalization of the vector control method to the PT and the USM, which is explained in the first part. We show that two independent controllers with a similar structure are required: one tracks the resonant frequency and the second controls the amplitude. Wethen present the implementation into a low-cost digital signal processing controller with a sampling period of 200 µs. Experimental results on a Langevin transducer achieved a time response of 20 ms approximately, and the generality of the method is further demonstrated on a 2-D tactile stimulator at the end of this paper

Ghenna, Sofiane

Giraud, Frédéric

Giraud-Audine, Christophe

Amberg, Michel

INRIA a CCSD electronic archive server

Vector Control of Piezoelectric Transducers and Ultrasonic Actuators

Hal-Diderot

SAM;  the Arts et Métiers ParisTech open access repository

English

Archive Ouverte en Sciences de l'Information et de la Communication

This paper presents the implementation of a novel vibration amplitude control and resonant frequency tracking for piezoelectric transducers (PTs) and ultrasonic motors (USMs). It is based on a generalization of the vector control method to the PT and the USM, which is explained in the first part. We show that two independent controllers with a similar structure are required: one tracks the resonant frequency and the second controls the amplitude. We
then present the implementation into a low-cost digital signal processing controller with a sampling period of 200 µs. Experimental results on a Langevin transducer achieved a time response of 20 ms approximately, and the generality of the method is further demonstrated on a 2-D tactile stimulator at the end of this paper

Name not available

SAM : Science Arts et Métiers

https://sam.ensam.eu/bitstream/10985/13195/1/L2EP_TIE_2018_GIRAUDAUDINE.pdf

Vector Control of Piezoelectric Transducers and Ultrasonic Actuators

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INRIA a CCSD electronic archive server

Hal-Diderot

SAM; the Arts et Métiers ParisTech open access repository

Archive Ouverte en Sciences de l'Information et de la Communication

Name not available

SAM : Science Arts et Métiers