Bilel Kallel scite author profile

Bilel Kallel

4Publications

38Citation Statements Received

45Citation Statements Given

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118

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Affiliations

Chemnitz University of Technology, University of Sfax

Publications

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Large air gap misalignment tolerable multi‐coil inductive power transfer for wireless sensors

Kallel

Kanoun

Trabelsi

2016

IET Power Electronics

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The efficiency of wireless power transmission via electromagnetic induction is strongly dependent on the distance and the lateral misalignment between the sending and the receiving coils. In this study, the authors propose to adopt a multiple-input-single-output (MISO) coil system to increase the efficiency of energy transmission in case of large air gap misalignment between coils. The sending part consists of a matrix of air-core coils, in which only the four coils under the receiving coil, supplied with the same current, contribute to energy transmission. To orientate the magnetic field and to reduce the energy losses, they propose to power the two nearest neighbour coils with low, outof-phase, excitation current. A simplified analytic model of the multi-coil system configuration is developed, whereas the mutual inductance and the coupling factor are determined by numerical simulations. To validate the analytical and simulation results, an experimental setup was built. Both simulation and experimental results at a distance of 83% of the receiving coil diameter show that the proposed MISO coil system improves the received power and reaches at the same time a much better efficiency than that of two-coil systems.

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MISO configuration efficiency in inductive power transmission for supplying wireless sensors

Kallel

Keutel

Kanoun

2014

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Next Generation Wireless Energy Aware Sensors for Internet of Things: A Review

Kanoun

Keutel

Viehweger

et al. 2018

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Comparative study of resonant circuit for power transmission via inductive link

Bouattour

Kallel

Sasmal

et al. 2015

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Bilel Kallel

Large air gap misalignment tolerable multi‐coil inductive power transfer for wireless sensors

MISO configuration efficiency in inductive power transmission for supplying wireless sensors

Next Generation Wireless Energy Aware Sensors for Internet of Things: A Review

Comparative study of resonant circuit for power transmission via inductive link

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