Fully integrated signal conditioning of an accelerometer for implantable pacemakers

Alfredo Arnaud; Carlos Galup-Montoro

doi:10.1007/s10470-006-9708-y

Fully integrated signal conditioning of an accelerometer for implantable pacemakers

Alfredo Arnaud
, Carlos Galup-Montoro

Department of Engineering

Federal University of Santa Catarina

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

This paper shows the development of a fully integrated G _m -C 0.5-7 Hz bandpass amplifier (gain G = 400), for a piezoelectric accelerometer to be employed in rate adaptive pacemakers. The circuit, fabricated in a standard 0.8 micron CMOS technology, operates with a power supply as low as 2 V, consumes 230 nA of current, and has only a 2.1 μV_rms input referred noise. Detailed circuit specifications, measurements, and a system performance comparative analysis are presented. The physical activity system includes a fully integrated G _m -C rectifier and 3-second time average. Fully integrated very low frequency circuits were implemented with the aid of series-parallel current division in symmetrical OTAs. OTAs as low as 33 pS (equivalent to a 30 GΩ resistor) were designed, fabricated, and tested.

Original language	English
Pages (from-to)	313-321
Number of pages	9
Journal	Analog Integrated Circuits and Signal Processing
Volume	49
Issue number	3
DOIs	https://doi.org/10.1007/s10470-006-9708-y
State	Published - Dec 2006

Keywords

Bandpass filters
CMOS analog integrated circuits
Cardiac pacemaker
Low power design
Sensors

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10.1007/s10470-006-9708-y

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abstract = "This paper shows the development of a fully integrated G m -C 0.5-7 Hz bandpass amplifier (gain G = 400), for a piezoelectric accelerometer to be employed in rate adaptive pacemakers. The circuit, fabricated in a standard 0.8 micron CMOS technology, operates with a power supply as low as 2 V, consumes 230 nA of current, and has only a 2.1 μVrms input referred noise. Detailed circuit specifications, measurements, and a system performance comparative analysis are presented. The physical activity system includes a fully integrated G m -C rectifier and 3-second time average. Fully integrated very low frequency circuits were implemented with the aid of series-parallel current division in symmetrical OTAs. OTAs as low as 33 pS (equivalent to a 30 GΩ resistor) were designed, fabricated, and tested.",

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AB - This paper shows the development of a fully integrated G m -C 0.5-7 Hz bandpass amplifier (gain G = 400), for a piezoelectric accelerometer to be employed in rate adaptive pacemakers. The circuit, fabricated in a standard 0.8 micron CMOS technology, operates with a power supply as low as 2 V, consumes 230 nA of current, and has only a 2.1 μVrms input referred noise. Detailed circuit specifications, measurements, and a system performance comparative analysis are presented. The physical activity system includes a fully integrated G m -C rectifier and 3-second time average. Fully integrated very low frequency circuits were implemented with the aid of series-parallel current division in symmetrical OTAs. OTAs as low as 33 pS (equivalent to a 30 GΩ resistor) were designed, fabricated, and tested.

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KW - Low power design

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Fully integrated signal conditioning of an accelerometer for implantable pacemakers

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Keywords

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