A passive RFID tag embedded temperature sensor with improved process spreads immunity for a-30̂C to 60̂C sensing range

Bo Wang; Man Kay Law; Amine Bermak; Howard C. Luong

doi:10.1109/TCSI.2013.2278388

A passive RFID tag embedded temperature sensor with improved process spreads immunity for a-30̂C to 60̂C sensing range

Bo Wang, Man Kay Law, Amine Bermak, Howard C. Luong

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

68 Citations (Scopus)

Abstract

We present an ultra-low power temperature sensor embedded in the passive RFID tag using the TSMC 1P6M 0.18 μm m standard CMOS process. Substrate parasitic NPN bipolar pair is exploited to generate the temperature dependent current signals for thermal sensing. A time-domain readout scheme which has high immunity to the on-chip resistor, capacitor and clock frequency process-voltage-temperature (PVT) spreads is further proposed. Measurement results of the embedded sensor within the tag system shows a sensing accuracy of pm 1.5̂C (3σ) from-30̂C to 60̂C after one-point calibration at 20̂C, with a sensing resolution of 0.3̂C and a sampling rate of 68 samples per second. The embedded sensor draws 0.35 μA from a 1 V supply at room temperature and occupies a chip area of 0.14 mm².

Original language	English
Article number	6583328
Pages (from-to)	337-346
Number of pages	10
Journal	IEEE Transactions on Circuits and Systems I: Regular Papers
Volume	61
Issue number	2
DOIs	https://doi.org/10.1109/TCSI.2013.2278388
Publication status	Published - Feb 2014
Externally published	Yes

Keywords

CMOS temperature sensors
passive RFID tags
process compensation
time-domain conversion (TDC)

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10.1109/TCSI.2013.2278388

Cite this

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title = "A passive RFID tag embedded temperature sensor with improved process spreads immunity for a-3{\^0}C to 6{\^0}C sensing range",

abstract = "We present an ultra-low power temperature sensor embedded in the passive RFID tag using the TSMC 1P6M 0.18 μm m standard CMOS process. Substrate parasitic NPN bipolar pair is exploited to generate the temperature dependent current signals for thermal sensing. A time-domain readout scheme which has high immunity to the on-chip resistor, capacitor and clock frequency process-voltage-temperature (PVT) spreads is further proposed. Measurement results of the embedded sensor within the tag system shows a sensing accuracy of pm 1.{\^5}C (3σ) from-3{\^0}C to 6{\^0}C after one-point calibration at 2{\^0}C, with a sensing resolution of 0.{\^3}C and a sampling rate of 68 samples per second. The embedded sensor draws 0.35 μA from a 1 V supply at room temperature and occupies a chip area of 0.14 mm2.",

keywords = "CMOS temperature sensors, passive RFID tags, process compensation, time-domain conversion (TDC)",

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AU - Wang, Bo

AU - Law, Man Kay

AU - Bermak, Amine

AU - Luong, Howard C.

PY - 2014/2

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N2 - We present an ultra-low power temperature sensor embedded in the passive RFID tag using the TSMC 1P6M 0.18 μm m standard CMOS process. Substrate parasitic NPN bipolar pair is exploited to generate the temperature dependent current signals for thermal sensing. A time-domain readout scheme which has high immunity to the on-chip resistor, capacitor and clock frequency process-voltage-temperature (PVT) spreads is further proposed. Measurement results of the embedded sensor within the tag system shows a sensing accuracy of pm 1.5̂C (3σ) from-30̂C to 60̂C after one-point calibration at 20̂C, with a sensing resolution of 0.3̂C and a sampling rate of 68 samples per second. The embedded sensor draws 0.35 μA from a 1 V supply at room temperature and occupies a chip area of 0.14 mm2.

AB - We present an ultra-low power temperature sensor embedded in the passive RFID tag using the TSMC 1P6M 0.18 μm m standard CMOS process. Substrate parasitic NPN bipolar pair is exploited to generate the temperature dependent current signals for thermal sensing. A time-domain readout scheme which has high immunity to the on-chip resistor, capacitor and clock frequency process-voltage-temperature (PVT) spreads is further proposed. Measurement results of the embedded sensor within the tag system shows a sensing accuracy of pm 1.5̂C (3σ) from-30̂C to 60̂C after one-point calibration at 20̂C, with a sensing resolution of 0.3̂C and a sampling rate of 68 samples per second. The embedded sensor draws 0.35 μA from a 1 V supply at room temperature and occupies a chip area of 0.14 mm2.

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KW - process compensation

KW - time-domain conversion (TDC)

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A passive RFID tag embedded temperature sensor with improved process spreads immunity for a-30̂C to 60̂C sensing range

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Keywords

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