DocumentCode
3240707
Title
Low-Noise Sigma-Delta Capacitance-to-Digital Converter for Sub-pF Capacitive Sensors with Integrated Dielectric Loss Measurement
Author
Bingesser, Markus ; Loeliger, Teddy ; Hinn, W. ; Hauer, Johann ; Modl, S.
Author_Institution
Austriamicrosyst. AG, Rapperswil
fYear
2008
fDate
10-14 March 2008
Firstpage
868
Lastpage
872
Abstract
A sigma-delta capacitance-to-digital converter (CDC) with a resolution down to 19.3 aF at a bandwidth of 10 kHz, corresponding to a noise level of 0.2 aF/radicHz, is presented. An integrated dielectric loss measurement circuit by means of two parallel channels with different integration times offers a complex permittivity measurement in a single-chip solution. The achieved dielectric loss angle resolution is as low as 0.3deg for a material density ratio of 0.55 %. A test chip with two converter blocks including two 2nd order and two 4th order modulators has been produced in the austriamicrosystems AG C35B3C0 0.35 mum DPTM CMOS process, operating at a single 3.3 V supply. Applications of this circuit include mass measurement and analysis of material compositions.
Keywords
CMOS analogue integrated circuits; CMOS digital integrated circuits; capacitive sensors; dielectric loss measurement; sigma-delta modulation; DPTM CMOS process; austriamicrosystems AG C35B3C0; bandwidth 10 kHz; capacitance 19.3 aF; integrated dielectric loss measurement; low-noise sigma-delta capacitance-to-digital converter; material density ratio; parallel channels; sub-pF capacitive sensors; voltage 3.3 V; Capacitance measurement; Capacitive sensors; Delta-sigma modulation; Dielectric loss measurement; Dielectric losses; Dielectric measurements; Integrated circuit measurements; Loss measurement; Permittivity measurement; Semiconductor device measurement;
fLanguage
English
Publisher
ieee
Conference_Titel
Design, Automation and Test in Europe, 2008. DATE '08
Conference_Location
Munich
Print_ISBN
978-3-9810801-3-1
Electronic_ISBN
978-3-9810801-4-8
Type
conf
DOI
10.1109/DATE.2008.4484783
Filename
4484783
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