This article reviews the state-of-the-art power conditioning techniques to process harvested
energy from the human body and any external environmental sources surrounding the …

Wireless power transmission and energy harvesting techniques could be used to power and
operate devices in, on and around the human body. However, near-field power transmission …

Multiple parameter environment monitoring via wireless Internet of Thing sensors is growing
rapidly, thanks to low power techniques of the node. More importantly, the ever more …

In this paper, a novel thermoelectric energy harvesting system with a reconfigurable array of
thermoelectric generators (TEGs), which requires neither an inductor nor a flying capacitor …

In this paper, we present a single-inductor triple-input-triple-output (SITITO) buck-boost
converter in a 0.18-μm CMOS process for dual-source energy harvesting. The converter …

This paper presents a reconfigurable dc–dc converter for maximum thermoelectric generator
(TEG) energy harvesting in a battery-powered duty-cycling wireless sensor node. The …

This paper presents a bipolar-input thermoelectric energy-harvesting interface based on
boost/flyback hybrid converter (BFHC). Two-type ring oscillators are combined to form as a …

This article presents an auto-polarity thermoelectric energy-harvesting interface circuit
based on a single-inductor boost/buck–boost hybrid converter. The power stage is …

This paper presents a thermal/RF hybrid energy harvester. The energy harvesting system
can scavenge energy from a thermoelectric generator (TEG) and a radiofrequency (RF) …

This paper presents a single-inductor triple-source quad-mode (SITSQM) energy-harvesting
interface in a 0.18-μm CMOS process. The proposed reversely polarized energy recycling …