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Primary Side Circuit Design of a Multi-coil Inductive System for Powering Wireless Sensors

Research output: Journal contributionsConference article in journalResearchpeer-review

Standard

Primary Side Circuit Design of a Multi-coil Inductive System for Powering Wireless Sensors. / Bouattour, Ghada; Kallel, Bilel; Kanoun, Olaf et al.

In: Procedia Engineering, Vol. 168, 2016, p. 920-923.

Research output: Journal contributionsConference article in journalResearchpeer-review

Harvard

Bouattour, G, Kallel, B, Kanoun, O & Derbel, N 2016, 'Primary Side Circuit Design of a Multi-coil Inductive System for Powering Wireless Sensors', Procedia Engineering, vol. 168, pp. 920-923. https://doi.org/10.1016/j.proeng.2016.11.306

APA

Bouattour, G., Kallel, B., Kanoun, O., & Derbel, N. (2016). Primary Side Circuit Design of a Multi-coil Inductive System for Powering Wireless Sensors. Procedia Engineering, 168, 920-923. https://doi.org/10.1016/j.proeng.2016.11.306

Vancouver

Bouattour G, Kallel B, Kanoun O, Derbel N. Primary Side Circuit Design of a Multi-coil Inductive System for Powering Wireless Sensors. Procedia Engineering. 2016;168:920-923. doi: 10.1016/j.proeng.2016.11.306

Bibtex

@article{d8daa381a3ed4262854d137ee32b7802,
title = "Primary Side Circuit Design of a Multi-coil Inductive System for Powering Wireless Sensors",
abstract = "Circuit design of the primary side is decisive for the efficiency of inductive energy transmission. In order to maximise the transmitted energy to the load, primary side DC/AC inverter and system resonance topologies should be investigated. This paper presents an inverter for a multi-coil inductive system with different system resonance topologies for a low voltage and a relative high frequency of 1.2 MHz. A comparison between half-wave and full-wave inverters is carried out for both Series-Series (SS) and Parallel-Parallel (PP) topologies. Results show that the full-wave inverter with PP topology is adequate primary side circuit for multi-coil inductive system and reaches a sending power 10 times higher than a classical half wave inverter.",
keywords = "bridge inverter, DC/AC converter, half-wave inverter, Inductive power transmission, Parallel-Parallel topology, Series-Series topology, Engineering",
author = "Ghada Bouattour and Bilel Kallel and Olaf Kanoun and Nabil Derbel",
note = "Publisher Copyright: {\textcopyright} 2016 The Authors.; 30th Eurosensors Conference, Eurosensors 2016 ; Conference date: 04-09-2016 Through 07-09-2016",
year = "2016",
doi = "10.1016/j.proeng.2016.11.306",
language = "English",
volume = "168",
pages = "920--923",
journal = "Procedia Engineering",
issn = "1877-7058",
publisher = "Elsevier B.V.",
url = "https://www.infocommunications.hu/documents/169298/2607207/InfocommJ_2016_2_CfP2_Eurosensors2016.pdf",

}

RIS

TY - JOUR

T1 - Primary Side Circuit Design of a Multi-coil Inductive System for Powering Wireless Sensors

AU - Bouattour, Ghada

AU - Kallel, Bilel

AU - Kanoun, Olaf

AU - Derbel, Nabil

N1 - Conference code: 30

PY - 2016

Y1 - 2016

N2 - Circuit design of the primary side is decisive for the efficiency of inductive energy transmission. In order to maximise the transmitted energy to the load, primary side DC/AC inverter and system resonance topologies should be investigated. This paper presents an inverter for a multi-coil inductive system with different system resonance topologies for a low voltage and a relative high frequency of 1.2 MHz. A comparison between half-wave and full-wave inverters is carried out for both Series-Series (SS) and Parallel-Parallel (PP) topologies. Results show that the full-wave inverter with PP topology is adequate primary side circuit for multi-coil inductive system and reaches a sending power 10 times higher than a classical half wave inverter.

AB - Circuit design of the primary side is decisive for the efficiency of inductive energy transmission. In order to maximise the transmitted energy to the load, primary side DC/AC inverter and system resonance topologies should be investigated. This paper presents an inverter for a multi-coil inductive system with different system resonance topologies for a low voltage and a relative high frequency of 1.2 MHz. A comparison between half-wave and full-wave inverters is carried out for both Series-Series (SS) and Parallel-Parallel (PP) topologies. Results show that the full-wave inverter with PP topology is adequate primary side circuit for multi-coil inductive system and reaches a sending power 10 times higher than a classical half wave inverter.

KW - bridge inverter

KW - DC/AC converter

KW - half-wave inverter

KW - Inductive power transmission

KW - Parallel-Parallel topology

KW - Series-Series topology

KW - Engineering

UR - http://www.scopus.com/inward/record.url?scp=85009959827&partnerID=8YFLogxK

U2 - 10.1016/j.proeng.2016.11.306

DO - 10.1016/j.proeng.2016.11.306

M3 - Conference article in journal

AN - SCOPUS:85009959827

VL - 168

SP - 920

EP - 923

JO - Procedia Engineering

JF - Procedia Engineering

SN - 1877-7058

T2 - 30th Eurosensors Conference, Eurosensors 2016

Y2 - 4 September 2016 through 7 September 2016

ER -

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