Title :
Digital correction of PWM switching amplifiers
Author :
Midya, Pallab ; Roeckner, Bill ; Bergstedt, Steve
Author_Institution :
Motorola Labs., Schaumburg, IL, USA
fDate :
6/1/2004 12:00:00 AM
Abstract :
Pulsewidth modulated (PWM) signals for driving a switching audio amplifier can be synthesized in the digital domain with extremely high linearity and precision. However, nonidealities associated with the power stage degrade output performance. A method to digitally correct for these nonidealities, resulting in very low total harmonic distortion (THD) and high signal-to-noise ratio (SNR) performance, is presented. This method also provides excellent rejection of power supply noise which is otherwise absent in digital PWM amplifiers. To meet noise requirements for hi-fi audio, the feedback structure is a fourth-order structure which shapes the noise beyond the audio band. The method has been implemented on a bread board, and state-of-the-art performance was achieved. Total harmonic distortion of 85 dB and dynamic range of 100 dB was measured using Audio Precision test equipment.
Keywords :
audio-frequency amplifiers; harmonic distortion; interference suppression; pulse amplifiers; pulse code modulation; switching circuits; test equipment; PWM switching amplifiers; SNR; THD; audio precision test equipment; class D; digital audio amplifier; digital correction; digital domain; feedback structure; fourth-order structure; noise requirements; power stage degrade; power supply noise rejection; pulsewidth modulation; signal-to-noise ratio; total harmonic distortion; Degradation; Digital modulation; Linearity; Noise shaping; Pulse amplifiers; Pulse width modulation; Signal synthesis; Signal to noise ratio; Space vector pulse width modulation; Total harmonic distortion; Class D; PWM; digital audio amplifier; pulsewidth modulation;
Journal_Title :
Power Electronics Letters, IEEE
DOI :
10.1109/LPEL.2004.834795
