A 0.008 mm2 500 μW 469 kS/s Frequency-to-Digital Converter Based CMOS Temperature Sensor With Process Variation Compensation

This paper presents a temperature sensor based on a frequency-to-digital converter with digitally controlled process compensation. The proposed temperature sensor utilizes ring oscillators to generate a temperature dependent frequency. The adjusted linear frequency difference slope is used to improve the linearity of the temperature sensor and to compensate for process variations. Furthermore, an additional process compensation scheme is proposed to enhance the accuracy under one point calibration. With one point calibration, the resolution of the temperature sensor is 0.18 degrees C/LSB and the maximum inaccuracy of 20 measured samples is less than +/- 1.5 degrees C over a temperature range of 0 degrees C similar to 110 degrees C. The entire block occupies 0.008 mm(2) in 65 nm CMOS and consumes 500 mu W at a conversion rate of 469 kS/s.