Low cost calibration techniques for smart temperature sensors

Low cost calibration techniques for smart temperature sensors

Pertijs, M.A.P. (TU Delft Electronic Instrumentation)
Aita, AL (TU Delft Electronic Instrumentation)
Makinwa, K.A.A. (TU Delft Electronic Instrumentation)
Huijsing, J.H. (TU Delft Electronic Instrumentation)

2010

Smart temperature sensors generally need to be trimmed to obtain measurement errors below ±2°C. The associated temperature calibration procedure is time consuming and therefore costly. This paper presents two, much faster, voltage calibration techniques. Both make use of the fact that a voltage proportional to absolute temperature (PTAT) can be accurately generated on chip. By measuring this voltage, the sensor's actual temperature can be determined, whereupon the sensor can be trimmed to correct for its dominant source of error: spread in the on-chip voltage reference. The first calibration technique consists of measuring the (small) PTAT voltage directly, while the second, more robust alternative does so indirectly, by using an external reference voltage and the on-chip ADC. Experimental results from a prototype fabricated in 0.7 ¿m CMOS technology show that after calibration and trimming, these two techniques result in measurement errors (±3¿) of ±0.15°C and ±0.25°C, respectively, in a range from -55°C to 125°C.

Elektrotechniek
Techniek

http://resolver.tudelft.nl/uuid:00d7af1e-0952-4ab4-9aa9-93075cc18da4

https://doi.org/10.1109/JSEN.2010.2040730

1530-437X

IEEE Sensors Journal, 10 (6), 1098-1105

Accepted Author Manuscript

Institutional Repository

journal article

© 2010 M.A.P. Pertijs, AL Aita, K.A.A. Makinwa, J.H. Huijsing