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This paper presents a Colpitts oscillator-based self-starting boost converter for thermoelectric energy harvesting. An enhanced swing Colpitts oscillator with a 10-stage voltage multiplier is adopted as a startup circuit so… Click to show full abstract
This paper presents a Colpitts oscillator-based self-starting boost converter for thermoelectric energy harvesting. An enhanced swing Colpitts oscillator with a 10-stage voltage multiplier is adopted as a startup circuit so that the minimum startup voltage of 40 mV is achieved. As a main converter, a zero-current-switching boost converter with a dead time controller achieves the maximum end-to-end efficiency of 75%. The inductor used in the Colpitts oscillator is reused in the main boost converter to minimize the use of the inductor. Implemented in a 65-nm CMOS, the proposed converter that requires only two external inductors provides a regulated output voltage of 1.1 V from a thermoelectric generator with an internal resistance of 2.2 $\Omega$ over the input range of 40–200 mV.
Journal Title: IEEE Journal of Solid-State Circuits
Year Published: 2018
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