A 0.8 v Supply- and Temperature-Insensitive Capacitance-to-Digital Converter in 0.18-μm CMOS

Arup K. George; Junghyup Lee; Zhi Hui Kong; Minkyu Je

doi:10.1109/JSEN.2016.2559164

A 0.8 v Supply- and Temperature-Insensitive Capacitance-to-Digital Converter in 0.18-μm CMOS

Arup K. George, Junghyup Lee, Zhi Hui Kong, Minkyu Je

Department of Electrical Engineering and Computer Science

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

18 Scopus citations

Abstract

A low-voltage, low-power, capacitance-to-digital converter (CDC) that is insensitive to supply and temperature variations is presented in this paper. The CDC comprises two matched RC oscillators and a counter-based programmable digital converter. The transfer function of the proposed CDC is a scaled ratio of the capacitors having equal drift coefficients, making it insensitive to supply as well as temperature variations. Worst case temperature-dependent drift of ±153.4 ppm/°C is measured between -40 and +120 °C while worst case supply-dependent drift of ±1.12% is measured between 0.8 and 1.2 V over full-scale capacitance range. The proposed CDC achieves 2.05 fF resolution, consuming 23 μA from a 0.8 V supply, at a full-scale range of 3.36 pF. The CDC, realized in 0.18-μm CMOS process, has an active area of 0.102 mm² and offers a scalable resolution within a range of 2-13 b.

Original language	English
Article number	7460105
Pages (from-to)	5354-5364
Number of pages	11
Journal	IEEE Sensors Journal
Volume	16
Issue number	13
DOIs	https://doi.org/10.1109/JSEN.2016.2559164
State	Published - 1 Jul 2016

Bibliographical note

Publisher Copyright:
© 2016 IEEE.

Keywords

Capacitive sensor
MEMS
capacitance-todigital converter
low-power
low-voltage
relaxation oscillator
sensor interface

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title = "A 0.8 v Supply- and Temperature-Insensitive Capacitance-to-Digital Converter in 0.18-μm CMOS",

abstract = "A low-voltage, low-power, capacitance-to-digital converter (CDC) that is insensitive to supply and temperature variations is presented in this paper. The CDC comprises two matched RC oscillators and a counter-based programmable digital converter. The transfer function of the proposed CDC is a scaled ratio of the capacitors having equal drift coefficients, making it insensitive to supply as well as temperature variations. Worst case temperature-dependent drift of ±153.4 ppm/°C is measured between -40 and +120 °C while worst case supply-dependent drift of ±1.12\% is measured between 0.8 and 1.2 V over full-scale capacitance range. The proposed CDC achieves 2.05 fF resolution, consuming 23 μA from a 0.8 V supply, at a full-scale range of 3.36 pF. The CDC, realized in 0.18-μm CMOS process, has an active area of 0.102 mm2 and offers a scalable resolution within a range of 2-13 b.",

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AU - Je, Minkyu

PY - 2016/7/1

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N2 - A low-voltage, low-power, capacitance-to-digital converter (CDC) that is insensitive to supply and temperature variations is presented in this paper. The CDC comprises two matched RC oscillators and a counter-based programmable digital converter. The transfer function of the proposed CDC is a scaled ratio of the capacitors having equal drift coefficients, making it insensitive to supply as well as temperature variations. Worst case temperature-dependent drift of ±153.4 ppm/°C is measured between -40 and +120 °C while worst case supply-dependent drift of ±1.12% is measured between 0.8 and 1.2 V over full-scale capacitance range. The proposed CDC achieves 2.05 fF resolution, consuming 23 μA from a 0.8 V supply, at a full-scale range of 3.36 pF. The CDC, realized in 0.18-μm CMOS process, has an active area of 0.102 mm2 and offers a scalable resolution within a range of 2-13 b.

AB - A low-voltage, low-power, capacitance-to-digital converter (CDC) that is insensitive to supply and temperature variations is presented in this paper. The CDC comprises two matched RC oscillators and a counter-based programmable digital converter. The transfer function of the proposed CDC is a scaled ratio of the capacitors having equal drift coefficients, making it insensitive to supply as well as temperature variations. Worst case temperature-dependent drift of ±153.4 ppm/°C is measured between -40 and +120 °C while worst case supply-dependent drift of ±1.12% is measured between 0.8 and 1.2 V over full-scale capacitance range. The proposed CDC achieves 2.05 fF resolution, consuming 23 μA from a 0.8 V supply, at a full-scale range of 3.36 pF. The CDC, realized in 0.18-μm CMOS process, has an active area of 0.102 mm2 and offers a scalable resolution within a range of 2-13 b.

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KW - capacitance-todigital converter

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KW - relaxation oscillator

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ER -

A 0.8 v Supply- and Temperature-Insensitive Capacitance-to-Digital Converter in 0.18-μm CMOS

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