This paper presents a complete gas-sensing system which consists of a wide-dynamic-range interface circuit able to operate without calibration and of a high-efficiency temperature control loop with a switching heater based on a custom digital control logic. The gas-sensing interface circuit is based on resistance-to-frequency conversion and achieves, without calibration, a precision in resistance measurements of 0.5% over a range of 4.6 decades (dynamic range, DR=138 dB). The temperature control loop is driven by a digital set-point and the simulations results show that it controls the temperature of the sensor over a range of 250 degrees C with an accuracy better than 0.3 degrees C The temperature control logic is reconfigurable and can be used to control the temperature of sensors with different baseline resistance value and different sensitivity. All voltage references are reconfigurable and on-chip buffered
Lombardi, A., Grassi, M., Bruno, L., Malcovati, P., Baschirotto, A. (2009). An Integrated Gas-Sensing Interface Circuit with Embedded Temperature Control Loop for SnO2 Sensors. In C. DiNatale, A. DAmico, E. Martinelli, R. Paolesse (a cura di), PROCEEDINGS OF THE 13TH ITALIAN CONFERENCE ON SENSORS AND MICROSYSTEMS (pp. 498-505). World Scientific.
An Integrated Gas-Sensing Interface Circuit with Embedded Temperature Control Loop for SnO2 Sensors
Baschirotto, A
2009
Abstract
This paper presents a complete gas-sensing system which consists of a wide-dynamic-range interface circuit able to operate without calibration and of a high-efficiency temperature control loop with a switching heater based on a custom digital control logic. The gas-sensing interface circuit is based on resistance-to-frequency conversion and achieves, without calibration, a precision in resistance measurements of 0.5% over a range of 4.6 decades (dynamic range, DR=138 dB). The temperature control loop is driven by a digital set-point and the simulations results show that it controls the temperature of the sensor over a range of 250 degrees C with an accuracy better than 0.3 degrees C The temperature control logic is reconfigurable and can be used to control the temperature of sensors with different baseline resistance value and different sensitivity. All voltage references are reconfigurable and on-chip bufferedI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.