3D wireless power transfer based on 3D printed electronics

Tao Hou; Yu Song; Willemijn Elkhuizen; Jiehui Jiang; Jo Geraedts

doi:10.1109/COASE.2018.8560508

3D wireless power transfer based on 3D printed electronics

Tao Hou, Yu Song, Willemijn Elkhuizen, Jiehui Jiang, Jo Geraedts

Mechatronic Design

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

8 Citations (Scopus)

Abstract

In the past decade, wireless power transfer enabled many new applications. However, most designs of transmitter and receiver coils are 2D, which limits the possibilities of integrating them to more applications. In this paper, based on the Qi standard, we proposed a design of 3D coils by focusing on the 3D geometry of the coil, modelling, simulation and manufacturing. Using the 3D spiral transmitter coil and the receiver coil as an example, we present the mathematical model for WPT first. The performance of the model is then verified by FEM simulation. Three sets of 3D coils with different design parameters were prototyped by 3D printed electronics and measured against the model and the simulation results. Compared to the measurements, the model has average errors of 1.6%, 8.4% 8.5% regarding self-inductance, mutual-inductance and the coupling factor, where the simulation has average errors of 0.5%, 9.9% and 6.6%, respectively. Measurements also indicate that with a 5V input, the prototype is able to deliver 1-watt power at an average 20.5% efficiency without electromagnetic shielding. It was concluded that the proposed 3D coils designs are feasible and promising for WPT.

Original language	English
Title of host publication	2018 IEEE 14th International Conference on Automation Science and Engineering (CASE)
Editors	S. Reveliotis
Publisher	IEEE
Pages	499-505
Number of pages	7
ISBN (Electronic)	978-1-5386-3593-3
ISBN (Print)	978-1-5386-3594-0
DOIs	https://doi.org/10.1109/COASE.2018.8560508
Publication status	Published - 2018
Event	CASE 2018: The 14th IEEE International Conference on Automation Science and Engineering - Munich, Germany Duration: 20 Aug 2018 → 24 Aug 2018 Conference number: 14th

Conference

Conference	CASE 2018
Country/Territory	Germany
City	Munich
Period	20/08/18 → 24/08/18

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10.1109/COASE.2018.8560508

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@inproceedings{46ad38bf0f1744c68594e33cbe7e5a73,

title = "3D wireless power transfer based on 3D printed electronics",

abstract = "In the past decade, wireless power transfer enabled many new applications. However, most designs of transmitter and receiver coils are 2D, which limits the possibilities of integrating them to more applications. In this paper, based on the Qi standard, we proposed a design of 3D coils by focusing on the 3D geometry of the coil, modelling, simulation and manufacturing. Using the 3D spiral transmitter coil and the receiver coil as an example, we present the mathematical model for WPT first. The performance of the model is then verified by FEM simulation. Three sets of 3D coils with different design parameters were prototyped by 3D printed electronics and measured against the model and the simulation results. Compared to the measurements, the model has average errors of 1.6%, 8.4% 8.5% regarding self-inductance, mutual-inductance and the coupling factor, where the simulation has average errors of 0.5%, 9.9% and 6.6%, respectively. Measurements also indicate that with a 5V input, the prototype is able to deliver 1-watt power at an average 20.5% efficiency without electromagnetic shielding. It was concluded that the proposed 3D coils designs are feasible and promising for WPT.",

author = "Tao Hou and Yu Song and Willemijn Elkhuizen and Jiehui Jiang and Jo Geraedts",

year = "2018",

doi = "10.1109/COASE.2018.8560508",

language = "English",

isbn = "978-1-5386-3594-0",

pages = "499--505",

editor = "{ Reveliotis }, S.",

booktitle = "2018 IEEE 14th International Conference on Automation Science and Engineering (CASE)",

publisher = "IEEE",

address = "United States",

note = "CASE 2018 : The 14th IEEE International Conference on Automation Science and Engineering ; Conference date: 20-08-2018 Through 24-08-2018",

}

3D wireless power transfer based on 3D printed electronics. / Hou, Tao; Song, Yu ; Elkhuizen, Willemijn et al.
2018 IEEE 14th International Conference on Automation Science and Engineering (CASE). ed. / S. Reveliotis . IEEE, 2018. p. 499-505.

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

TY - GEN

T1 - 3D wireless power transfer based on 3D printed electronics

AU - Hou, Tao

AU - Song, Yu

AU - Elkhuizen, Willemijn

AU - Jiang, Jiehui

AU - Geraedts, Jo

N1 - Conference code: 14th

PY - 2018

Y1 - 2018

N2 - In the past decade, wireless power transfer enabled many new applications. However, most designs of transmitter and receiver coils are 2D, which limits the possibilities of integrating them to more applications. In this paper, based on the Qi standard, we proposed a design of 3D coils by focusing on the 3D geometry of the coil, modelling, simulation and manufacturing. Using the 3D spiral transmitter coil and the receiver coil as an example, we present the mathematical model for WPT first. The performance of the model is then verified by FEM simulation. Three sets of 3D coils with different design parameters were prototyped by 3D printed electronics and measured against the model and the simulation results. Compared to the measurements, the model has average errors of 1.6%, 8.4% 8.5% regarding self-inductance, mutual-inductance and the coupling factor, where the simulation has average errors of 0.5%, 9.9% and 6.6%, respectively. Measurements also indicate that with a 5V input, the prototype is able to deliver 1-watt power at an average 20.5% efficiency without electromagnetic shielding. It was concluded that the proposed 3D coils designs are feasible and promising for WPT.

AB - In the past decade, wireless power transfer enabled many new applications. However, most designs of transmitter and receiver coils are 2D, which limits the possibilities of integrating them to more applications. In this paper, based on the Qi standard, we proposed a design of 3D coils by focusing on the 3D geometry of the coil, modelling, simulation and manufacturing. Using the 3D spiral transmitter coil and the receiver coil as an example, we present the mathematical model for WPT first. The performance of the model is then verified by FEM simulation. Three sets of 3D coils with different design parameters were prototyped by 3D printed electronics and measured against the model and the simulation results. Compared to the measurements, the model has average errors of 1.6%, 8.4% 8.5% regarding self-inductance, mutual-inductance and the coupling factor, where the simulation has average errors of 0.5%, 9.9% and 6.6%, respectively. Measurements also indicate that with a 5V input, the prototype is able to deliver 1-watt power at an average 20.5% efficiency without electromagnetic shielding. It was concluded that the proposed 3D coils designs are feasible and promising for WPT.

U2 - 10.1109/COASE.2018.8560508

DO - 10.1109/COASE.2018.8560508

M3 - Conference contribution

SN - 978-1-5386-3594-0

SP - 499

EP - 505

BT - 2018 IEEE 14th International Conference on Automation Science and Engineering (CASE)

A2 - Reveliotis , S.

PB - IEEE

T2 - CASE 2018

Y2 - 20 August 2018 through 24 August 2018

ER -

3D wireless power transfer based on 3D printed electronics

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