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The continuous development of the internet of things (IoT) infrastructure and applications is
paving the way for advanced and innovative ideas and solutions, some of which are pushing the limits of state-of-the-art technology. The increasing demand for Wireless Sensor Nodes (WSNs) able
to collect and transmit data through wireless communication channels, while often positioned in
locations that are difficult to access, is driving research into innovative solutions involving energy
harvesting (EH) and wireless power transfer (WPT) to eventually allow battery-free sensor nodes.
Due to the pervasiveness of radio frequency (RF) energy, RF EH and WPT are key technologies
with the potential to power IoT devices and smart sensing architectures involving nodes that
need to be wireless, maintenance free, and sufficiently low in cost to promote their use almost
anywhere. This paper presents a state-of-the-art, ultra-low power 2.5 W highly integrated
mixed-signal system on chip (SoC), for multi-source energy harvesting and wireless power transfer.
It introduces a novel architecture that integrates an ultra-low power intelligent power management,
an RF to DC converter with very low power sensitivity and high power conversion efficiency (PCE),
an Amplitude-Shift-Keying/Frequency-Shift-Keying (ASK/FSK) receiver and digital circuitry to
achieve the advantage to cope, in a versatile way and with minimal use of external components,
with the wide variety of energy sources and use cases. Diverse methods for powering wireless Sensor
Nodes through energy harvesting and wireless power transfer are implemented providing related
system architectures and experimental results
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