Title :
Adaptive stabilization of electro-dynamical transducers
Author :
Klippel, Wolfgang
Author_Institution :
KLIPPEL GmbH, Dresden, Germany
Abstract :
A new control technique for electro-dynamical transducer is presented which stabilizes the voice coil position, compensates for nonlinear distortion and generates a desired transfer response by preprocessing the electrical input signal. The control law is derived from transducer modeling using lumped elements and identifies all free parameters of the model by monitoring the electrical signals at the transducer terminals. The control system stays operative for any stimulus including music and other audio signals. The active stabilization is important for small loudspeakers generating the acoustical output at maximum efficiency.
Keywords :
audio signal processing; loudspeakers; music; active stabilization; adaptive stabilization; audio signals; control technique; electrical input signal; electro-dynamical transducers; lumped elements; music; nonlinear distortion; small loudspeakers; transfer response; voice coil position; Coils; Control systems; Detectors; Loudspeakers; Suspensions; Transducers; Vectors; DC displacement; bifurcation; loudspeaker; nonlinear adaptive control; stability;
Conference_Titel :
Signal Processing Conference (EUSIPCO), 2014 Proceedings of the 22nd European
Conference_Location :
Lisbon
