Title :
PWM audio power amplifiers: sigma delta versus sliding mode control
Author :
Silva, J. Fernando
Author_Institution :
Inst. Superior Tecnico, Tech. Univ. Lisbon, Portugal
Abstract :
Sigma delta and robust sliding mode controllers for high fidelity PWM audio power amplifiers are designed and evaluated. The used theoretical approach allows, for both controllers, an integrated design of the control, modulator and semiconductor drive electronics. The sliding mode controller shows much better tracking performance with faster dynamics, no steady-state errors, flatter passband response, due to the intrinsic “Just In Time” (JIT) switching operation, step response without overshoot due to the third-order Bessel control polynomial, and short circuit proof operation. Test results confirm that the sliding mode controller exceeds the performance of existing sigma delta controllers. Furthermore, the proposed sliding mode approach provides a new, nonlinear theoretical frame for solving the control problem of PWM audio power amplifiers with output filters
Keywords :
Bessel functions; Hi-Fi equipment; audio-frequency amplifiers; circuit stability; power amplifiers; pulse width modulation; sigma-delta modulation; state-space methods; step response; switching circuits; variable structure systems; voltage control; Hi-Fi power amplifiers; JIT switching operation; PWM audio power amplifiers; high fidelity power amplifiers; integrated design; modulator; semiconductor drive electronics; short circuit proof operation; sigma delta control; sliding mode control; step response; third-order Bessel control polynomial; tracking performance; Delta-sigma modulation; Error correction; High power amplifiers; Passband; Power amplifiers; Pulse width modulation; Robust control; Sliding mode control; Steady-state; Switching circuits;
Conference_Titel :
Electronics, Circuits and Systems, 1998 IEEE International Conference on
Conference_Location :
Lisboa
Print_ISBN :
0-7803-5008-1
DOI :
10.1109/ICECS.1998.813340
