Title :
A Low-EMI 3-W Audio Class-D Amplifier Compatible With AM/FM Radio
Author :
Balmelli, Pio ; Khoury, John M. ; Viegas, Eduardo ; Santos, P. ; Pereira, Vasco ; Alderson, Jeffrey ; Beale, Richard
Author_Institution :
Silicon Labs. Inc., Austin, TX, USA
Abstract :
A 3-W audio class-D amplifier compatible with AM/FM radio while requiring minimal external filtering is presented. The amplifier uses driver slew rate control to reduce electromagnetic interference (EMI) in the FM band and digital modulation to spread the PWM common-mode signal and place a null at the tuned AM channel. Two original feedback techniques are employed to linearize the H-bridge. One cancels signal-dependent propagation delays in the H-bridge to improve harmonic distortion and eliminate high-frequency noise folding into the audio band. The second technique boosts the power supply rejection ratio to simplify and reduce the cost of supply filters. The amplifier system, implemented in a standard 110-nm CMOS process, operates with a supply voltage ranging from 2.7 to 6.6 V and achieves an SNR of 95 dB and 85% efficiency.
Keywords :
audio-frequency amplifiers; electromagnetic interference; AM/FM radio; CMOS process; FM band; H-bridge; PWM common mode signal; amplifier system; audio band; audio class D amplifier; digital modulation; driver slew rate control; electromagnetic interference; harmonic distortion; high frequency noise; minimal external filtering; power supply rejection ratio; supply filter; supply voltage; tuned AM channel; Digital signal processing; Electromagnetic interference; Frequency modulation; Propagation delay; Pulse width modulation; Signal to noise ratio; AM/FM radio; Audio; class-D amplifier; low electromagnetic interference (EMI);
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2013.2259011
