Title :
A Bandwidth-Adaptive Preamplifier
Author :
Dingkun Du ; Odame, Kofi M.
Author_Institution :
Thayer Sch. of Eng., Dartmouth Coll., Hanover, NH, USA
Abstract :
We propose an adaptive microphone preamplifier that adjusts its power consumption according to the input signal´s bandwidth. A chip prototype of the adaptive preamplifier for speech processing was fabricated in a 0.5-μm CMOS process. The adaptive preamplifier´s measured input referred noise is 3 μV rms and its total harmonic distortion is -40 dBc for an 80-mV rms input amplitude. These noise and distortion specifications remain virtually constant over the preamplifier´s range of bandwidth adaptation. The adaptive preamplifier consumes 65 μW of power. This is achieved with no degradation in speech quality, when compared to a conventional preamplifier of fixed bandwidth, and as measured by the perceptual evaluation of speech quality (PESQ) score.
Keywords :
CMOS analogue integrated circuits; harmonic distortion; microphones; preamplifiers; speech processing; CMOS process; PESQ score; adaptive microphone preamplifier; bandwidth-adaptive preamplifier; distortion specification; fixed bandwidth; input signal bandwidth; noise specification; perceptual evaluation; power 65 muW; power consumption; size 0.5 mum; speech processing; speech quality; speech quality score; total harmonic distortion; voltage 3 muV; voltage 8 mV; Bandwidth; Clocks; Dynamic range; Power demand; Signal to noise ratio; Speech; Adaptive; OTA-C filter; analog circuit; analog front end (AFE); differential difference amplifier (DDA); envelope detector; hysteretic comparator; low power; microphone; power efficient; preamplifier; reconfigurable; sensor interface; subthreshold; wearable sensor;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2013.2266869
