Charging and Wake-Up of IoT Devices using Harvested RF Energy with Near-Zero Power Consumption

Abstract: Sixth generation (6G) wireless systems are envisioned to support ubiquitous connection of a massive number of battery-powered Internet-of-Things (IoT) devices. Radio frequency (RF) energy harvesting and wake-up radio have been extensively considered as standalone technologies to extend the battery lifetime of IoT devices. In this article, we present a general framework for designing efficient combined RF energy harvesting and wake-up circuits to further reduce the energy consumption of IoT devices and allow th… Show more

“…Future 6G communication systems aim at providing energy efficient and sustainable wireless sensor networks (WSN) [34]. Sensor nodes (including IoT) house small batteries limiting the lifespan of WSN and their large scale deployment increases the maintenance costs from vast battery replacements.…”

Energizing an IoT Sensor Using Regenerative Opposite Fringing Fields From an Embedded Communicating Patch Antenna

“…Future 6G communication systems aim at providing energy efficient and sustainable wireless sensor networks (WSN) [34]. Sensor nodes (including IoT) house small batteries limiting the lifespan of WSN and their large scale deployment increases the maintenance costs from vast battery replacements.…”

Energizing an IoT Sensor Using Regenerative Opposite Fringing Fields From an Embedded Communicating Patch Antenna

Performance Analysis of RF-Powered Multi-device Diamond Relay IoT Network Using Adaptive NOMA

Interference-assisted energy harvesting short packet communications with hardware impairments