Low-power CMOS continuous-time filters

Low-power CMOS continuous-time filters

A design technique for low-power continuous-time filters using digital CMOS technology is presented. The basic building block is a fully-balanced integrator with its unity-gain frequency determined by a small-signal transconductance and MOSFET gate capacitance. Integrator excess phase shift is reduc...

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Veröffentlicht in:IEEE journal of solid-state circuits 1996-02, Vol.31 (2), p.157-168
Hauptverfasser: Zele, R.H., Allstot, D.J.
Format: Artikel
Sprache:eng
Schlagworte:
Active filters
Band pass filters
Bandwidth
CMOS technology
Digital filters
Frequency
MOSFET circuits
Power dissipation
Prototypes
Transconductance
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Zusammenfassung:A design technique for low-power continuous-time filters using digital CMOS technology is presented. The basic building block is a fully-balanced integrator with its unity-gain frequency determined by a small-signal transconductance and MOSFET gate capacitance. Integrator excess phase shift is reduced using balanced signal paths, and open-loop gain is increased using low-voltage cascode amplifiers. Two-pole bandpass and five-pole lowpass ladder filters have been implemented in a 1.2 /spl mu/m n-well CMOS process. The lowpass prototypes provided 300 kHz-1000 kHz bias-current-tunable -3 dB bandwidth, 67 dB dynamic range with 1% total harmonic distortion (THD), and 30 /spl mu/W/pole (300 kHz bandwidth) power dissipation with a 1.5 V supply; the bandpass prototypes had a tunable center frequency of 300 kHz-1000 kHz, Q of 8.5, and power dissipation of 75 /spl mu/W/pole (525 kHz center frequency) from a 1.5 V supply. The active filter area was 0.1 mm/sup 2//pole for both designs.
ISSN:0018-9200
1558-173X
DOI:10.1109/4.487992