Wireless Engineering and Technology

Wireless Engineering and Technology

ISSN Print: 2152-2294
ISSN Online: 2152-2308
www.scirp.org/journal/wet
E-mail: wet@scirp.org
"Wireless Power Transmission into a Space Enclosed by Metal Walls Using Magnetic Resonance Coupling"
written by Masato Yamakawa, Yoshihiro Mizuno, Jun Ishida, Kimiya Komurasaki, Hiroyuki Koizumi,
published by Wireless Engineering and Technology, Vol.5 No.1, 2014
has been cited by the following article(s):
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[1] Self-detachable through-metal acoustic wireless power transfer
IEEE Transactions …, 2022
[2] Active magnetic ranging while drilling: A down-hole surroundings mapping
2022 IEEE Sensors …, 2022
[3] A Study on the Shielding Effect of Ferromagnetic Pipe Wall in Inductive Power Transfer
Journal of Electrical …, 2022
[4] Long Distance Through Metal Wireless Power Transfer System
Arguello, AV Pham… - … Power Week (WPW), 2022
[5] Development of a Wirelessly Powered Smart Implant to Monitor Spinal Fusion
2021
[6] A design technique for geometric optimisation of resonant coil sizes in low to mid frequency inductive power transmission systems.
2021
[7] Miniature Coil Design for Through Metal Wireless Power Transfer
2021
[8] Selective Receiver Charging using Acoustic Vibration Modes
2021
[9] Automatic Resonance Compensation for Efficient WPT via Magnetic Resonance Coupling Using Flexible Coils
Energies, 2021
[10] Miniature Coil for Wireless Power and Data Transfer through Aluminum
Arguello, AV Pham, CS Gardner… - Sensors, 2021
[11] Wireless Charging of a Metal-Encased Device
IEEE Transactions on …, 2021
[12] “Pushing Power Through Walls”-Wireless Power Transfer Through Stainless Steel
2021 24th International …, 2021
[13] Wireless power and data transfer through carbon composite using a common inductive link
2020
[14] Developing Through Metal Wireless Sensors in Extreme Conditions for Petroleum Industrial Applications
2020
[15] Advanced Piezoelectric Transduction for Acoustic Sensing and Data Transmission
2020
[16] Circuits Techniques for Wireless Sensing Systems in High-Temperature Environments
2019
[17] Wireless Power Transfer Across a Metal Barrier by Combined Capacitive and Inductive Coupling
2019
[18] Optimal Operating Frequency of Inductive Power Transfer through Metal Barriers
2019
[19] Wireless Power Transfer Through Metal Using Inductive Link
2019
[20] A GaN-Based Wireless Monitoring System for High-Temperature Applications
2019
[21] Limitations of wireless power transfer technologies for mobile robots
2019
[22] Reliable Through-Metal Wireless Communication Using Magnetic Induction
2019
[23] Super-low-frequency wireless power transfer with lightweight coils for passing through a stainless steel plate
2018
[24] Method to Reduce Metal Plate Effect Between Transmitter and Receiver in Wireless Power Transfer System
2018
[25] Pseudo-Resonator Method for Power Delivery through Metal Barriers Based on Magnetic Resonance Coupling
Transactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan, 2018
[26] Through-Metal Wireless Communications with Magnetic Induction
2018
[27] Design of In-Wheel Type Switched Reluctance Motor for Electric Vehicle Traction and Wireless Charging
The transactions of The Korean Institute of Electrical Engineers, 2017
[28] Wireless Charging of a Metal-Body Device
2017
[29] Development of Helical circular coils for wireless through-metal inductive power transfer
2017
[30] 金属壁を介したワイヤレス電力伝送の高効率化に向けた回路構成に関する基礎検討
2017
[31] Metal cover design of mobile phone for wireless power transfer
Microwave and Optical Technology Letters, 2017
[32] Wireless power transfer through metallic barriers enclosing a harsh environment; feasibility and preliminary results
2016
[33] Enabling wireless power transfer though a metal encased handheld device
2016
[34] Effect of Axial Slit on Metallic Tube for Wireless Power Transfer via Magnetic Resonance Coupling
Electrical engineering in Japan, 2016
[35] Effect of Axial Slit on Metallic Tube for Wireless Power Transfer via Magnetic Resonance Coupling: Application of Magnetic‐Resonance Coupling Techniques for …
Electrical engineering in Japan, 2016
[36] 軸方向スリットを介した金属管内への磁気共振結合型無線電力伝送
電気学会論文誌 D (産業応用部門誌), 2015
[37] Wireless Power Transmission into Metallic Tube Using Axial Slit for Infrastructure Diagnostics
Wireless Engineering and Technology, 2015
[38] Through-Metal-Wall Power Delivery and Data Transmission for Enclosed Sensors: A Review
Sensors, 2015
[39] 軸方向スリットを介した金属管内への磁気共振結合型無線電力伝送—磁気共振結合を利用したインフラ診断への応用検討—
電気学会論文誌 D (産業 …, 2015
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