Design of Multi Coil Resonant Wireless Power Transmission for Office Communication Systems
| Authors | Lala Bhaskar1, Pradeep Kumar1, Kishore Naik Mude2 |
| Affiliations |
11Amity Institute of Information Technology, Amity University Uttar PradeshIndia 2Systec R&D, Porto, Portugal |
| Е-mail | lbhaskar1@amity.edu |
| Issue | Volume 17, Year 2025, Number 6 |
| Dates | Received 12 August 2025; revised manuscript received 15 December 2025; published online 19 December 2025 |
| Citation | Lala Bhaskar, Pradeep Kumar, Kishore Naik Mude, J. Nano- Electron. Phys. 17 No 6, 06025 (2025) |
| DOI | https://doi.org/10.21272/jnep.17(6).06025 |
| PACS Number(s) | 84.40.Qx |
| Keywords | WPT (Wireless Power Transfer), Transmitter coil, Receiver coil, Charger, Finite element method (FEM) (3) . |
| Annotation |
Wireless Power Transfer (WPT) system consists of a transmitter connected to main power source causes a varying magnetic field, generating flux, due to which current is induced in the receiver coil. The design of coil parameters vary depends upon the application. Wireless charging of office communication systems is emerging technology worldwide which makes transfer power to the office communication devices like Laptops, Mobile Phones, Display Monitors, LED displays, Printers without using regular copper cable wires. The most popular method for wireless power transfer can be achieved by resonant inductive coupling. This paper focuses on the application of wireless power transfer from one source to multiple receiver loads. The idea is to power the basic need in office life, such as wireless laptop charging, wireless cell phone charging, wireless power transmission to printer. Mobile application in this paper defines as a mobile device or portable device that can be applied anywhere in office or at home. The motivation for this proposed model is to charge multiple mobile devices wirelessly. Traditional wired power solutions in office communication systems create clutter, reduce mobility, and limit scalability. Wireless power transmission (WPT) offers a promising alternative by eliminating cables and enabling flexible workspace arrangements. This study focuses on designing a multi-coil resonant WPT system. |
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