High sensitive and wide detecting range MOS tunneling temperature sensors for on-chip temperature detection |
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Authors: | Yen-Hao Shih Shian-Ru Lin Tsung-Miau Wang Jenn-Gwo Hwu |
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Affiliation: | Macronix Int. Co. Ltd., Hsinchu, Taiwan; |
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Abstract: | This paper examined the feasibility of applying a highly sensitive metal-oxide-semiconductor (MOS) tunneling temperature sensor, which was compatible with current CMOS technology. As the sensor was biased positively at a constant voltage, the gate current increased more than 500 times when the sensor was heated from 20/spl deg/C to 110/spl deg/C. However, when the sensor was biased at a constant-current situation, its gate voltage magnitude changed significantly with substrate temperature, with a sensitivity exceeding -2 V//spl deg/C. The improvement of temperature sensitivity in this paper is one thousand times over the sensitivity of a conventional p-n junction, i.e., namely, about -2 mV//spl deg/C. Regarding a temperature sensor array, this paper proposes a method using gate current gain, rather than absolute gate current, to eliminate the gate current discrepancy among sensors. For constant current operation, a sensitivity exceeding 10 V//spl deg/C can be obtained if the current level is suitable. Finally, this paper demonstrates a real temperature distribution for on-chip detection. With such a high temperature-sensitive sensor, accurate temperature detection can be incorporated into common CMOS circuits. |
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