DocumentCode
1529770
Title
A Calibration-Free Low-Cost Process-Compensated Temperature Sensor in 130 nm CMOS
Author
Fisk, Robert P. ; Hasan, S. M Rezaul
Author_Institution
Center for Res. in Analog & VLSI Microsyst. dEsign (CRAVE), Massey Univ., Auckland, New Zealand
Volume
11
Issue
12
fYear
2011
Firstpage
3316
Lastpage
3329
Abstract
A calibration-free low-cost CMOS integrated smart temperature sensor is presented that requires significantly less die area than previously published designs through the use of novel circuit technique and the 130 nm CMOS process. Uncalibrated sensor operation is achieved through the extensive use of analog dynamic element matching and chopper stabilization circuitry. A novel process-compensation circuit is presented that uses the correlation between pinch-base resistance and substrate bipolar VBE temperature gradient. Accuracy mostly within the range of ±1°C was achieved using a die area of only 0.21 sq. mm. Prototype sensor performance was found to be limited by the low β characteristics of the substrate bipolar transistors implemented in the 130 nm CMOS process.
Keywords
CMOS integrated circuits; bipolar transistors; temperature sensors; CMOS; analog dynamic element matching; calibration free low cost process compensated temperature sensor; chopper stabilization circuitry; pinch base resistance; process compensation circuit; size 130 nm; substrate bipolar VBE temperature gradient; substrate bipolar transistors; Calibration; Integrated circuits; Intelligent sensors; Temperature dependence; Temperature sensors; Analog CMOS; calibration; chopping; dynamic element matching; process compensation; smart sensor; temperature sensor;
fLanguage
English
Journal_Title
Sensors Journal, IEEE
Publisher
ieee
ISSN
1530-437X
Type
jour
DOI
10.1109/JSEN.2011.2158093
Filename
5779691
Link To Document