Critical Review and Simulation of Mid-range Wireless Power Transfer for Electronic Device

Shun Yao Tan, Hui Jing Lee

Research output: Contribution to journalConference article

Abstract

Functionality of wireless power transfer is yet to be utilized for the purpose of sustaining a green environment. This paper presents a critical review on the functionality of mid-range wireless power transfer using magnetic resonance coupling. Simulation of a 4-coils magnetic resonance for mid-range wireless power transfer is performed using CST microwave studio. The radius of source and load coil are 3 cm, while the radius of the transmitter and receiver coil are 5 cm. Distance between the source coil and load coil is set at 4 cm and resonance magnetic frequency is observed. At the load coil, electric field is achieved at 2140 V/m and surface current is recorded at 52.21 A. The change in impedance along the transmittance are plotted and discussed.

Original languageEnglish
Article number012002
JournalJournal of Physics: Conference Series
Volume1019
Issue number1
DOIs
Publication statusPublished - 27 Jun 2018
Event1st International Conference on Green and Sustainable Computing, ICoGeS 2017 - Kuching, Sarawak, Malaysia
Duration: 25 Nov 201727 Nov 2017

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coils
electronics
magnetic resonance
simulation
radii
sustaining
transmitters
transmittance
receivers
impedance
microwaves
electric fields

All Science Journal Classification (ASJC) codes

  • Physics and Astronomy(all)

Cite this

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abstract = "Functionality of wireless power transfer is yet to be utilized for the purpose of sustaining a green environment. This paper presents a critical review on the functionality of mid-range wireless power transfer using magnetic resonance coupling. Simulation of a 4-coils magnetic resonance for mid-range wireless power transfer is performed using CST microwave studio. The radius of source and load coil are 3 cm, while the radius of the transmitter and receiver coil are 5 cm. Distance between the source coil and load coil is set at 4 cm and resonance magnetic frequency is observed. At the load coil, electric field is achieved at 2140 V/m and surface current is recorded at 52.21 A. The change in impedance along the transmittance are plotted and discussed.",
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Critical Review and Simulation of Mid-range Wireless Power Transfer for Electronic Device. / Tan, Shun Yao; Lee, Hui Jing.

In: Journal of Physics: Conference Series, Vol. 1019, No. 1, 012002, 27.06.2018.

Research output: Contribution to journalConference article

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AB - Functionality of wireless power transfer is yet to be utilized for the purpose of sustaining a green environment. This paper presents a critical review on the functionality of mid-range wireless power transfer using magnetic resonance coupling. Simulation of a 4-coils magnetic resonance for mid-range wireless power transfer is performed using CST microwave studio. The radius of source and load coil are 3 cm, while the radius of the transmitter and receiver coil are 5 cm. Distance between the source coil and load coil is set at 4 cm and resonance magnetic frequency is observed. At the load coil, electric field is achieved at 2140 V/m and surface current is recorded at 52.21 A. The change in impedance along the transmittance are plotted and discussed.

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