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Home > Thèses et HDR > Thèses en 2019

17/12/2019 - Sergkei KAMOTESOV

by Laurent Krähenbühl - published on , updated on

Agenda

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Mr Sergkei Kamotesov defends his PhD on Dec. 17, 2019 at 2:00 PM.
Place : Marie Curie Library, INSA of Lyon.

Title: Wireless Power Transfer using 3D-MID technology

Jury :
M. Benech Philippe, Professeur INP de Grenoble, Rapporteur
M. Passeraub Philippe, Professeur HEPIA de Genève, Rapporteur
M. Journet Gautier Catherine, Professeur UCBL de Lyon, Examinatrice
M. Martin Christian, MC UCBL de Lyon, Examinateur
Mme. Kaddour Darin, MC INP de Grenoble, Examinatrice
Mme. Reverdy-Bruas Nadège, MC INP de Grenoble, Examinatrice
M. Semet Vincent, MC de l’UCBL de Lyon, Directeur de thèse
M. Cabrera Michel, CR CNRS INSA de Lyon, Co-directeur de thèse
M. Moguedet Maël, PDG de la société S2P, Invité
M. Lombard Philippe, MC UCBL de Lyon, Invité
M. Vollaire Christian, Professeur ECL de Lyon, Invité

Abstract :
The objective of this thesis is to evaluate the interest of 3D molded interconnect devices technologies 3D-MID for wireless power transfer (WPT) through electromagnetic induction. WPT systems mostly uses planar coils that allows transfer between receiver and emitter at low and mid-range distance, at the condition that they are well aligned.
We studied a specific case with a 3D receiver enclosed in a half meter box with 4 emitting inductors on 4 sides. Three questions were examined: the magnetic resonance of 3D-MID inductors at 6.78 MHz, their dimensions and their 3D shape.
The nearly spherical shape 3D-MID receiver (Ø 8 cm) was 3D printed, activated with laser direct structuring (LDS), autocatalytic metallization and electroplating. It has 3 solenoid receiving inductors, each with quality factor above 129 ±10, placed orthogonally on the equators. The experimental results show: (1) the receiver is able to receive 4.33 W at 15.8 % efficiency in the middle of the box and (2) that we can change position and orientation of the receiver in the box, the placement of the inductors allows, in a widely meaning, to mean the received power.
In conclusion 3D-MID allows to integrate, relatively easily, inductors for WPT, in the casing of electronics devices, in the same way as for 3D-MID electromagnetic antennas in smartphones. These inductors can 3D-shape the casing, which will allow the design of omnidirectional receivers.

Keywords :
wireless power transfer, WPT, 3D molded interconnect device, 3D-MID, laser direct structuring, LDS, electromagnetic induction, resonance, inductor, 3D, omnidirectional, model, box, cube, sphere; electroless plating; electroplating



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