Separation-Independent Wearable 6.78 MHz Near-Field Radiative Wireless Power Transfer using Electrically Small Embroidered Textile Coils

Wagih, Mahmoud; Komolafe, Abiodun; Zaghari, Bahareh

doi:10.3390/en13030528

Cited by 6 publications

(2 citation statements)

References 29 publications

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“…Furthermore, damaged or loosened copper cables present a hazard when charging devices [4,5]. Therefore, wireless charging autonomy is the preferred method of energy pooling over short or medium ranges for devices, such as drones, after achieving close contact with a power source [6]. Drones or unmanned aerial vehicles (UAVs) generally operate on high-powered batteries, such as Li-po batteries, resulting in limited flight times and shorter distance deployments.…”

Section: Introductionmentioning

confidence: 99%

Wireless Drone Charging Station Using Class-E Power Amplifier in Vertical Alignment and Lateral Misalignment Conditions

et al. 2022

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Recent major advancements in drone charging station design are related to the differences in coil design between the material (copper or aluminum) and inner thickness (diameter design) to address power transfer optimization and increased efficiency. The designs are normally challenged with reduced weight on the drone’s side, which can lead to reduced payload or misalignment position issues between receiver and transmitter, limiting the performance of wireless charging. In this work, the coil combination was tested in vertical alignment from 2 cm to 50 cm, and in lateral misalignment positions that were stretched across 2, 5, 8, 10, and 15 cm ranges. Simulated and experimental results demonstrated improved transfer distances when the drone battery load was 100 Ω. With the proposed design, the vertical transfer power that was achieved was 21.12 W, 0.460 A, with 81.5% transfer efficiency, while the maximum lateral misalignment air gap that was achieved was 2 cm with 19.22 W and 74.15% efficiency. This study provides evidence that the developed circuit that is based on magnetic resonant coupling (MRC) is an effective technique towards improving power transfer efficiency across different remote and unmanned Internet of Things (IoT) applications, including drones for radiation monitoring and smart agriculture.

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Section: Introductionmentioning

confidence: 99%

Wireless Drone Charging Station Using Class-E Power Amplifier in Vertical Alignment and Lateral Misalignment Conditions

et al. 2022

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“…The dynamic development of electrical and electronic equipment commenced in the second half of the 20th century, and the pursuit of its continuous improvement meant that, today, one of the most developed research areas is related to the search for new technologies and methods of wireless electric energy transmission. Among the many currently offered methods of wireless energy transmission [1][2][3], the most frequently used method is the transfer of electric energy using a higher frequency electromagnetic field. The benefits of this method of energy transfer include the high reliability of the systems and user convenience associated with the "full" mobility of electrical and electronic devices.…”

Section: Introductionmentioning

confidence: 99%

Application of Multi-Branch Cauer Circuits in the Analysis of Electromagnetic Transducers Used in Wireless Transfer Power Systems

Kurzawa

Jędryczka

Wojciechowski

2020

Sensors

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In this paper, the feasibility of applying a multi-branch equivalent model employing first- and second-order Cauer circuits for the analysis of electromagnetic transducers used in systems of wireless power transfer is discussed. A method of formulating an equivalent model (EqM) is presented, and an example is shown for a wireless power transfer system (WPTS) consisting of an air transformer with field concentrators. A method is proposed to synthesize the EqM of the considered transducer based on the time-harmonic field model, an optimization algorithm employing the evolution strategy (ES) and the equivalent Cauer circuits. A comparative analysis of the performance of the considered WPTS under high-frequency voltage supply calculated using the proposed EqM and a 3D field model in the time domain using the finite element method (FEM) was carried out. The selected results of the conducted analysis are presented and discussed.

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A comprehensive review of opportunities and challenges in heat pipe application: a numerical modeling

Nithin

2023

J Braz. Soc. Mech. Sci. Eng.

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Separation-Independent Wearable 6.78 MHz Near-Field Radiative Wireless Power Transfer using Electrically Small Embroidered Textile Coils

Cited by 6 publications

References 29 publications

Wireless Drone Charging Station Using Class-E Power Amplifier in Vertical Alignment and Lateral Misalignment Conditions

Wireless Drone Charging Station Using Class-E Power Amplifier in Vertical Alignment and Lateral Misalignment Conditions

Application of Multi-Branch Cauer Circuits in the Analysis of Electromagnetic Transducers Used in Wireless Transfer Power Systems

A comprehensive review of opportunities and challenges in heat pipe application: a numerical modeling

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