An Untrimmed BJT-Based Temperature Sensor With Dynamic Current-Gain Compensation in 55-nm CMOS Process

This brief presents a bipolar junction transistor (BJT)-based CMOS temperature sensor without trimming. A current-mode readout scheme with dynamic current gain compensation is proposed to reduce the error caused by the low current gain β of the substrate BJT in nanometer CMOS technologies. Combining...

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Bibliographic Details
Published in:IEEE transactions on circuits and systems. II, Express briefs Express briefs, 2019-10, Vol.66 (10), p.1613-1617
Main Authors: Tang, Zhong, Fang, Yun, Huang, Zhenyan, Yu, Xiao-Peng, Shi, Zheng, Tan, Nick Nianxiong
Format: Article
Language:English
Subjects:
Bipolar transistors
BJT
Calibration
Capacitors
CMOS
CMOS process
CMOS temperature sensor
Compensation
current mode
Cutting
dynamic current-gain compensation
Error reduction
Generators
IP networks
Low currents
Modulation
Power consumption
Sensors
Substrates
Temperature sensors
Thermal management
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Description
Summary:This brief presents a bipolar junction transistor (BJT)-based CMOS temperature sensor without trimming. A current-mode readout scheme with dynamic current gain compensation is proposed to reduce the error caused by the low current gain β of the substrate BJT in nanometer CMOS technologies. Combining this readout scheme with techniques, such as chopping and dynamic element matching (DEM), the sensor achieves a high untrimmed accuracy for auto-calibration in thermal management applications. Fabricated in a standard digital 55-nm CMOS process, the sensor shows a measured inaccuracy within ±1.7 °C (3σ) from -40 °C to 125 °C without calibration. It occupies a die area of 0.0146 mm2 and has a power consumption of 37 μW with an adjustable resolution from 12 to 15 bit and a conversion time of 4.1-32.8 ms.
ISSN:1549-7747
1558-3791
DOI:10.1109/TCSII.2019.2921889