A 10.6 pJ·K2 Resolution FoM Temperature Sensor Using Astable Multivibrator
IEEE Transactions on Circuits and Systems II: Express Briefs, 2017•ieeexplore.ieee.org
This brief presents a 0.9-μW duty-cycle-modulated temperature sensor with a sub-μA peak
current for energy harvesteror micro-battery-powered systems. A compact sensing frontend
is proposed to achieve low power, together with various device-level leakage and
nonlinearity compensation techniques adopted to minimize the sensor error. In addition, a
currentstarved multivibrator which provides inherent clamping voltages is used for duty cycle
modulation for overall energy savings. The sensor designed in 0.18-μm CMOS process …
current for energy harvesteror micro-battery-powered systems. A compact sensing frontend
is proposed to achieve low power, together with various device-level leakage and
nonlinearity compensation techniques adopted to minimize the sensor error. In addition, a
currentstarved multivibrator which provides inherent clamping voltages is used for duty cycle
modulation for overall energy savings. The sensor designed in 0.18-μm CMOS process …
This brief presents a 0.9-μW duty-cycle-modulated temperature sensor with a sub-μA peak current for energy harvesteror micro-battery-powered systems. A compact sensing frontend is proposed to achieve low power, together with various device-level leakage and nonlinearity compensation techniques adopted to minimize the sensor error. In addition, a currentstarved multivibrator which provides inherent clamping voltages is used for duty cycle modulation for overall energy savings. The sensor designed in 0.18-μm CMOS process achieves a resolution figure of merit of 10.6 pJ·K 2 , which is among the most energyefficient designs to date. Trimmed at 30 °C, the sensor achieves ±0.85 °C precision from -30 °C to 120 °C. The maximum supply sensitivity is 0.7 °C/V for a 1.6-2 V supply.
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