Guido d'Alessandro scite author profile

Contactless induction mechanisms represent a valuable solution to recharge battery-powered vehicles when plugging to the mains reveals troublesome or impossible. A relevant example is that of unmanned aerial vehicles (UAV) employed in hostile environments for persistent surveillance and perils reconnaissance. To complete long duration missions, these vehicles have to land on mobile platforms several times to recharge. Specifically, the vehicle has to land on the platform, which is covered by a landing pad with copper contacts, precisely positioning on the contacts otherwise fails to recharge. Also, the recharging platform can be neutralized by dust deposited on the landing pad and corrosion due to chemical causes. A contactless power transfer system that relies on induction mechanisms and permits to improve the reliability of the recharging platform is presented. The ground electronics and the on-board front-end utilized to capture the induction flow and convert the associated power to recharge the batteries are described in detail

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Inductive power transmission for wireless sensor networks supply

Angrisani

Bonavolontà

d'Alessandro

et al. 2014

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Wireless sensor networks are today more and more widespread. Along with the installation of more and more networks, a number of new standard documents has also been produced to update the regulation concerning data communication between sensors and data collectors. Differently, less attention has been paid to the different modes of powering the local sensors. At present, the energy required for local sensors functioning is essentially battery provided, despite the battery supply is often recognized as a critical aspect of remote sensing. In fact, the periodical battery replacement is sometimes non-strategic and troublesome, especially for those sensors which have to be installed in difficult to reach sites, or are integrated into medical implantable devices. In the abovementioned circumstances, battery-less sensors appear to be attractive, both from a pragmatic point of view, because of the strategic role they can play in critical scenarios, and from an innovation-oriented point of view, because of the novelty that wireless power transmission can add to a new groundbreaking remote sensors technology. Wireless power transmission technologies are capable of supporting battery-less sensor functioning. In this paper, first the main issues related to alternative remote devices powering solutions are plainly discussed, then, a resonant-based induction power transmission system for supplying a sensor network is also presented.

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An experimental energy set-up for wireless battery recharging

Angrisani

d'Alessandro

D’Arco

2015

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