Abstract
We report on CMOS temperature sensors that work by measuring temperature-dependent delays in CMOS inverters. Two new features distinguish this work from the prior delay-based temperature sensors. First, our sensor operates with simple, low-cost one-point calibration. Second, it uses delay-locked loops (DLLs) to convert inverter delays to digital temperature outputs: the use of DLLs enables low energy (0.24 μJ/sample) and high bandwidth (5 kilo-samples/s), facilitating fast thermal monitoring. After calibration, measurement errors for 15 chips fabricated in digital CMOS 0.13 μm fall within -4.0~4.0 °C in a temperature range of 0~100 °C, where the temperature chamber used has a control uncertainty of ±1.1 °C. Microprocessor thermal profiling can be a potential application.
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