A 1 MGy TID Radiation-Tolerant 56 µW CMOS Temperature Sensor with ±1.7°C Accuracy
2015 15th European Conference on Radiation and Its Effects on Components and Systems (RADECS)(2015)
摘要
The total-ionizing-dose (TID) radiation tolerance of CMOS temperature sensors is generally limited by the radiation-introduced leakage current in diodes. A dynamic base leakage compensation technique is employed to improve the radiation hardness of the CMOS temperature sensor. The fabricated temperature sensor achieves an accuracy of ±1.7°C from -40°C to 125°C, while the power and area consumption are only 56 μW and 0.07 mm2, respectively. The temperature sensor is assessed with a gamma irradiation experiment with a dose rate of 1 kGy/h, and radiation induced temperature readout drifts are smaller than 0.2% after 1 MGy.
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关键词
radiation-induced temperature readout drifts,gamma irradiation experiment,fabricated temperature sensor,radiation hardness,dynamic base leakage compensation technique,radiation-introduced leakage current,total-ionizing-dose radiation tolerance,TID radiation-tolerant CMOS temperature sensor,temperature -40 degC to 125 degC,power 56 muW
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