Wireless technologies are incorporated in implantable devices since at least the 1950s. With
remote data collection and control of implantable devices, these wireless technologies help …

Implantable technologies are becoming more widespread for biomedical applications that
include physical identification, health diagnosis, monitoring, recording, and treatment of …

This paper presents energy-efficient solutions for wireless sensor systems intended for the
monitoring of water quality at water stations. Energy problems, such as energy scarcity and …

Wireless power transfer has experienced a rapid growth in recent years due to the need for
miniature medical devices with prolonged operation lifetime. The current implants utilize …

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 …

Ultra-low-power circuits that can work under a low-voltage supply are in great demand in
future wearable biomedical applications, which tend to be integrated with low-output-voltage …

This paper presents a fully integrated, self-starting shock-optimized synchronous electric
charge extraction (SECE) interface for piezoelectric energy harvesters (PEHs). After …

Wireless RF sensors are the building blocks of the next generation sensing techniques that
are quite essential for the Internet of Things. In this paper, the RF system comprising of ultra …

An energy-harvesting interface that incorporates a continuously scalable-conversion-ratio
(CSCR) switched-capacitor (SC) dc-dc converter with maximum power point tracking …

In this work, a switched-capacitor-based stimulator circuit that enables efficient energy
harvesting for neurostimulation applications is presented, followed by the discussion on the …