Litcius/Paper detail

A Dual-Mode Continuously Scalable-Conversion-Ratio SC Energy Harvesting Interface With SC-Based PFM MPPT and Flying Capacitor Sharing Scheme

Hyunjin Kim, Junyoung Maeng, Inho Park, Jin-Woo Jeon, Yohan Choi, Chulwoo Kim

2021IEEE Journal of Solid-State Circuits32 citationsDOI

Abstract

This article proposes a continuously scalable-conversion-ratio (CSCR) switched-capacitor (SC) energy harvesting interface that extracts power from a thermoelectric generator (TEG), regulates a 0.75-V output load, and manages a 1.2-1.45-V battery. The structure employs the proposed CSCR SC converter to improve the power conversion efficiency up to 7.9% higher than that of the conventional converter. Moreover, the structure utilizes a proposed SC-based pulse frequency modulation (PFM) maximum power point tracking (MPPT) method to extract power from a TEG with an MPPT efficiency above 98.15%. In addition, the proposed interface adopts a flying capacitor sharing scheme for the dual-mode operation of the SC interface to increase both the peak end-to-end efficiency and maximum output power. With a 180-nm CMOS process, the proposed interface achieves a peak end-to-end efficiency of 85.4% and maximum output power of 20.8 mW.

Topics & Concepts

Maximum power point trackingCapacitorEnergy conversion efficiencyMaximum power principleThermoelectric generatorInterface (matter)Power (physics)Electrical engineeringCMOSComputer scienceBattery (electricity)ScalabilityElectrical efficiencyPhotovoltaic systemVoltageElectronic engineeringMaterials scienceEngineeringPhysicsInverterMaximum bubble pressure methodQuantum mechanicsBubbleThermodynamicsParallel computingThermoelectric effectDatabaseInnovative Energy Harvesting TechnologiesEnergy Harvesting in Wireless NetworksAdvanced Thermoelectric Materials and Devices