Low-power and accurate operation of a CMOS smart temperature sensor based on bipolar devices and Σ̄ A/D converter

2007 Ph.D Research in Microelectronics and Electronics Conference Pub Date : 2007-07-02 DOI:10.1109/RME.2007.4401829
A. Aita, K. Makinwa
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引用次数: 1

Abstract

Due to the trend towards low power operation, as in autonomous systems where power constraints are very high, sensors are increasingly being required to dissipate very low power (few microwatts). In this paper, a low-power version of a smart temperature sensor in 0.7 mum CMOS technology is presented. Based on accuracy requirements, a minimum biasing current Ibias for the sensor's bipolar core is determined. Measurement results for Ibias = 250 nA and CS = 1.25 pF (ADC sampling capacitor) are shown. An inaccuracy below plusmn0.15degC from -55degC to 125degC is achievable with a two-point calibration.
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基于双极器件和Σ a /D转换器的CMOS智能温度传感器的低功耗和精确工作
由于低功耗运行的趋势,如在功率限制非常高的自主系统中,越来越多地要求传感器消耗非常低的功率(几微瓦)。本文介绍了一种采用0.7 μ m CMOS技术的低功耗智能温度传感器。根据精度要求,确定传感器双极磁芯的最小偏置电流。如图所示为Ibias = 250 nA和CS = 1.25 pF (ADC采样电容)的测量结果。从-55°c到125°c的误差低于±0.15°c,可以通过两点校准实现。
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2007 Ph.D Research in Microelectronics and Electronics Conference
2007 Ph.D Research in Microelectronics and Electronics Conference
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