This paper describes a new technique for improving the damping property and efficiency of an energy regenerative damper It is intended for a linear DC motor type vibration damper to regenerate vibration energy efficiently. Normally a regenerative damper can regenerate vibration energy only at high speed motion. For low speed motion, the damper has nonlinear characteristics with dead zone and cannot regenerate energy. In order to overcome this problem, a step-up chopper is introduced between the actuator and the charging circuit. The energy is regenerated from low speed and low voltage actuator to high voltage charging circuit. This paper also proposes a new control technique to the step-up chopper by using pulse width modulated signals. The damper can change its damping coefficient and the energy can be regenerated more efficiently. The proposed damper is applied to an active mass damper system. A simple experimental setup is used to validate the proposed technique. The results show an increase in performance and energy regeneration as compared to the previously proposed regenerative damper.
[1]
Y. Okada,et al.
Active and Regenerative Control of Electrodynamic Vibration Damper.
,
1995
.
[2]
Yoshihiro Suda,et al.
Self-Powered Active Vibration Control with Continuous Control Input.
,
1999
.
[3]
Harvey Thomas Banks,et al.
Modeling and Control of Acoustic Structure Interaction Problems Via Piezoceramic Actuators: 2-D Numerical Examples
,
1994
.
[4]
D. L. Margolis,et al.
Regenerative Systems for Vibration Control
,
1997
.
[5]
Y. Okada,et al.
Regenerative control of active vibration damper and suspension systems
,
1996,
Proceedings of 35th IEEE Conference on Decision and Control.