A linear oscillating reluctance drive is presented in the paper. The actuator is a prototype of a high anisotropy linear motor supplied by a simple PWM converter. It is controlled by an analog control system provided with a current loop and a position loop. The strong oscillating operation mode is induced by decreasing the feedback gain of the current loop. Computer simulation results of the drive nonlinear behaviour are presented and discussed. Comparison between computed and experimental results is finally presented A linear oscillating reluctance drive is presented in the paper. The actuator is a prototype of a high anisotropy linear motor supplied by a simple PWM converter. It is controlled by an analog control system provided with a current loop and a position loop. The strong oscillating operation mode is induced by decreasing the feedback gain of the current loop. Computer simulation results of the drive nonlinear behaviour are presented and discussed. Comparison between computed and experimental results is finally presented
A LINEAR OSCILLATING RELUCTANCE DRIVE / Attaianese, C.; Damiano, A.; Marongiu, I.; Perfetto, Aldo. - In: ELECTROMOTION. - ISSN 1223-057X. - STAMPA. - 3:1(1996), pp. 17-21.
A LINEAR OSCILLATING RELUCTANCE DRIVE
PERFETTO, ALDO
1996
Abstract
A linear oscillating reluctance drive is presented in the paper. The actuator is a prototype of a high anisotropy linear motor supplied by a simple PWM converter. It is controlled by an analog control system provided with a current loop and a position loop. The strong oscillating operation mode is induced by decreasing the feedback gain of the current loop. Computer simulation results of the drive nonlinear behaviour are presented and discussed. Comparison between computed and experimental results is finally presented A linear oscillating reluctance drive is presented in the paper. The actuator is a prototype of a high anisotropy linear motor supplied by a simple PWM converter. It is controlled by an analog control system provided with a current loop and a position loop. The strong oscillating operation mode is induced by decreasing the feedback gain of the current loop. Computer simulation results of the drive nonlinear behaviour are presented and discussed. Comparison between computed and experimental results is finally presentedI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.