A second-order, single-ended, fully integrated lowpass filter with cut-off frequency tunable in the range 1.5–15 Hz is presented. The filter is based on a recently proposed CMOS transconductor topology, combining values of the order of a few nS with large input ranges and suitability to single-ended filter architectures. The circuit has been designed and fabricated using 3.3-V 0.35- m CMOS devices from the STMicroelectronics Bipolar-CMOS-DMOS process BCD6. The tested prototype occupies an area of 960 350 m2 and requires a supply current ranging from 50 to 500 A, depending on tuning. Total harmonic distortion lower than 1% has been measured in a wide tuning range for 1-V peak-to-peak input signal amplitude. The effect of temperature on the tuning law in the interval 0–80 C is shown. A dynamic range in excess of 60 dB over the whole tuning range has been estimated from distortion and noise measurements.
A Fully Integrated Single-Ended 1.5–15-Hz Low-Pass Filter With Linear Tuning Law
BRUSCHI, PAOLO;PIERI, FRANCESCO;
2007-01-01
Abstract
A second-order, single-ended, fully integrated lowpass filter with cut-off frequency tunable in the range 1.5–15 Hz is presented. The filter is based on a recently proposed CMOS transconductor topology, combining values of the order of a few nS with large input ranges and suitability to single-ended filter architectures. The circuit has been designed and fabricated using 3.3-V 0.35- m CMOS devices from the STMicroelectronics Bipolar-CMOS-DMOS process BCD6. The tested prototype occupies an area of 960 350 m2 and requires a supply current ranging from 50 to 500 A, depending on tuning. Total harmonic distortion lower than 1% has been measured in a wide tuning range for 1-V peak-to-peak input signal amplitude. The effect of temperature on the tuning law in the interval 0–80 C is shown. A dynamic range in excess of 60 dB over the whole tuning range has been estimated from distortion and noise measurements.| File | Dimensione | Formato | |
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