Title :
Semiactive and Active Piezoelectric Vibration Controls for Switched Reluctance Machine
Author :
Mininger, Xavier ; Lefeuvre, Elie ; Gabsi, Mohamed ; Richard, Claude ; Guyomar, Daniel
Author_Institution :
Ecole Normale Super. de Cachan, Cachan
fDate :
3/1/2008 12:00:00 AM
Abstract :
This paper presents two vibration control approaches using piezoelectric inserts applied to a switched reluctance machine (SRM) in order to reduce acoustic emission. The semiactive approach, called synchronized switch damping, consists of a particular voltage processing that increases the electromechanical energy conversion of the piezoelectric insert and leads to effective vibration energy dissipation. Piezoelectric inserts can also be considered as actuators: the active technique aims at imposing an adequate force in order to compensate the structure strain originated by the electromagnetic forces. These two techniques are compared on a single-phase structure mechanically similar to that of an SRM. Advantages and drawbacks depending on the chosen technique are then discussed.
Keywords :
damping; machine control; noise abatement; piezoelectric devices; reluctance machines; vibration control; acoustic emission reduction; active piezoelectric vibration controls; electromechanical energy conversion; piezoelectric inserts; switched reluctance machine; synchronized switch damping; vibration control; vibration energy dissipation; Acoustic emission; Capacitive sensors; Damping; Energy conversion; Energy dissipation; Piezoelectric actuators; Reluctance machines; Switches; Vibration control; Voltage; Piezoelectric material; reluctance motors; vibration control;
Journal_Title :
Energy Conversion, IEEE Transactions on
DOI :
10.1109/TEC.2007.914668
