A 15 mV-input and 71%-efficiency boost converter with 22 mV output ripple for thermoelectric energy harvesting application

This paper presents a self-startup and ultra-low-voltage boost DC-DC converter for the thermoelectric energy harvesting application. A two-stage auxiliary boost startup circuit with a multi-stage voltage multiplier and a large duty cycle circuit is adopted to achieve a minimum self-startup voltage of 155 mV. And the system can sustain the operation at a 15 mV input. The maximum power point tracking (MPPT) with a combination of coarse and fine frequency tuning is proposed to improve the tracking accuracy with small output ripples of 22 mV. Moreover, the zero current switching (ZCS) scheme combined with the MPPT achieves a peak end-to-end efficiency of 71%, providing a regulated 1.25V output with a maximum power of 540 mu W.

Automated summary

This paper presents a self-startup and ultra-low-voltage boost DC-DC converter for thermoelectric energy harvesting. The converter achieves a minimum self-startup voltage using a two-stage auxiliary boost startup circuit, and is capable of sustaining operation at a 15 mV input. The proposed maximum power point tracking (MPPT) scheme, combined with coarse and fine frequency tuning, improves tracking accuracy and reduces output ripples. By combining the zero current switching (ZCS) scheme with MPPT, the converter achieves a peak end-to-end efficiency of 71% and provides a regulated 1.25V output with a maximum power of 540 mu W.