E. Marthe scite author profile

E. Marthe

5Publications

30Citation Statements Received

1Citation Statement Given

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Affiliations

École Polytechnique Fédérale de Lausanne

Publications

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Indoor radiated emission associated with power line communication systems

Marthe

Rachidi²,

Ianoz³

et al.

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Experimental data characterizing indoor electric and magnetic fields radiated by power line communica~on (PLC) systems and used for the calcutation of a local transfer function (coupling factor) are presented. It is shown that the indirect determination of electric field using m@n&itic field measurements and assuming a plane wave approximation may result in an underestimation of the electric field. Additionally, it is shown that the radiated field magnitudes vary significantly as 8 function of the position of the observation point and of the network load. A first evaluation of the indoor electromagnetic field radiated by PLC systems using NEC2 is presented and compared with experimental data.

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Mitigation of electromagnetic field radiated by PLC systems in indoor environment

Korovkin

Marthe

Rachidi

et al. 2003

Int J Communication

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SUMMARYPower line communication (PLC) is a well-known technique for data transmission over low-voltage power lines. The PLC signals have frequency bandwidth of about 1-30 MHz and they may cause electromagnetic interferences with services operating in the same frequency range. The regulation of electromagnetic radiation from PLC signals is currently subject of investigation in various international standardization bodies.This paper proposes a technique aiming at reducing the electromagnetic field radiated by indoor PLC signals, while not affecting the PLC signal itself. The basic idea is to take advantage of the additional ground conductor and inject a signal similar to the PLC signal into the ground-neutral line, but with a reversed phase. As a result, both the overall antenna mode-and transmission line mode-currents are significantly reduced, as well as the radiated electromagnetic fields.Experimental measurements are also carried out in a building and it is shown that the proposed technique allows for a significant reduction (up to 20 dB) of the PLC electromagnetic radiation in the considered frequency range (1-30 MHz).

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Influence of power switching on power line communications in medium voltage networks

Issa

Devaux

Marthe

et al. 2004

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Discussion on the assessment and mitigation of radiation from PLC networks

Rubinstein¹,

Bermudez²,

Vekicevic³

et al. 2005

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Analysis of power line communication networks using a new approach based on scattering parameters matrix

Issa

Sartenaer²,

Marthe³

et al.

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E. Marthe

Indoor radiated emission associated with power line communication systems

Mitigation of electromagnetic field radiated by PLC systems in indoor environment

Influence of power switching on power line communications in medium voltage networks

Discussion on the assessment and mitigation of radiation from PLC networks

Analysis of power line communication networks using a new approach based on scattering parameters matrix

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