Title :
An area-efficient on-chip temperature sensor with nonlinearity compensation using injection-locked oscillator (ILO)
Author :
Wongyu Shin ; Seungwook Paek ; Lee-Sup Kim
Author_Institution :
Dept. of Electr. Eng., KAIST, Daejeon, South Korea
Abstract :
This paper describes CMOS time-domain temperature sensors. A principle of this type of sensors is CMOS inverter´s time-delay variation with temperature. The variation, however, has nonlinearity which is a fundamental error source. Therefore, we propose a new temperature sensor that improves linearity using an injection-locked oscillator (ILO). Since the ILO has the opposite curvature of an inverter delay line in temperature domain, nonlinear error induced by the CMOS inverters can be eliminated. Integral nonlinearity (INL) error is reduced from 3.6 LSB to 0.56 LSB (84% reduction), resulting in under 1-bit error by nonlinearity. The proposed design has -0.19°C~0.2°C inaccuracy which is only quantization error over 0°C~100°C. The power consumption is 2.88mW including an 8-bit temperature-to-digital code conversion block at the sampling rate of 15.6M samples/s.
Keywords :
CMOS integrated circuits; compensation; delay lines; injection locked oscillators; invertors; temperature sensors; CMOS inverter time-delay variation; CMOS time-domain temperature sensor; ILO; INL error; Integral nonlinearity error; area-efficient on-chip temperature sensor; injection-locked oscillator; inverter delay line curvature; nonlinearity compensation; power 2.88 mW; quantization error; temperature -0.19 degC to 0.2 degC; temperature 0 degC to 100 degC; temperature-to-digital code conversion block; word length 1 bit; word length 8 bit; CMOS integrated circuits; Delay lines; Delays; Inverters; Temperature dependence; Temperature measurement; Temperature sensors;
Conference_Titel :
Circuits and Systems (ISCAS), 2014 IEEE International Symposium on
Conference_Location :
Melbourne VIC
Print_ISBN :
978-1-4799-3431-7
DOI :
10.1109/ISCAS.2014.6865517
