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Artykuły w czasopismach na temat „The wireless power transmitting”

Autor: Grafiati
Data publikacji: 3 czerwca 2025
Data aktualizacji: 31 lipca 2025

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1

Sharma, Hemlata, Poonam Grace, Hritwiz Raj Kulshrestha, and Akshita Gupta. "A Detail Study about the Wireless Mobile Charging System." Industrial Engineering Journal 51, no. 09 (2022): 39–44. http://dx.doi.org/10.36893/iej.2022.v51i9.039-044.

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Wireless charging is a technology of transmitting power through an air gap to electrical devices for the purpose of energy replenishment. Wireless charging technology gets power from a power source, like a charger, to a load, like a phone, wirelessly across an air gap, so there aren't any wires to get in the way. Power can be sent from one place to another wirelessly, without the need for wires or links.
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Soni, Aaradhna, Shruti Dixit, and Nivedita Singh. "Analysis of Parallel-Series Compensation Circuit for Wireless Power Transfer of Electric Vehicle Charging Based on Resonant." International Journal on Advances in Engineering Technology and Science 5, no. 2 (2024): 163–66. https://doi.org/10.5281/zenodo.12597757.

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<strong>Resonant wireless power transfer is a way of transferring electricity that does not require a wire to connect the transmitting and receiving coils. A power electronics converter is present on both sides. On the transmitting side, a cascaded single phase full bridge inverter is connected to a resonant wireless power transfer circuit, which is fed through the grid and connected to a power factor correction rectifier to boost power factor or make up for reactive power in order to lower the amount of input VA required. A resonant wireless power transfer operates on the resonance principle,
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Foo, Yee-Loo. "Wireless power transfer with transmit diversity." F1000Research 10 (September 13, 2021): 916. http://dx.doi.org/10.12688/f1000research.72986.1.

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Background: Wireless power transfer is important for energizing and recharging the Internet-of-Things (IoT) cordlessly. Harnessing energy effectively from radio waves has become a crucial task. It is known that diversities at the transmitting antenna and waves (i.e. simultaneous continuous waves with center frequencies separated apart) can enhance the radio frequency (RF) to direct current (DC) energy conversion. What remains unknown is the extent of which the wave diversity enhances the conversion gain. This study attempts to examine the RF-to-DC conversion gain of applying wave diversity. Th
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S, Firdosh Parveen, A. Sai Divya, Sahana K, N. Chandrashekar, and Affifa Aiman B. "Wireless Power Transmission on Tesla Principle." International Journal for Research in Applied Science and Engineering Technology 11, no. 5 (2023): 1077–87. http://dx.doi.org/10.22214/ijraset.2023.51702.

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Abstract: A Tesla coil is a device used for obtaining high voltage at high frequency. The initial purpose its creator, Nikola Tesla, envisioned for it was to transmit wireless energy; advances in electronics have helped people build Tesla coils that can produce music, the lightning bolts acting like a speaker. Nowadays, this device is used for research and special effects. However, we argue that such a device is also very useful in transmitting power wirelessly. The scope of the project is to be able to present concepts in physics, Transmit the power wirelessly! Consequently, in this project w
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Ogbulezie, Julie C., Brian E. Usibe, and Godwin C. Solomon. "Implementation of a wireless charging system for mobile devices." Global Journal of Pure and Applied Sciences 24, no. 2 (2018): 229–34. http://dx.doi.org/10.4314/gjpas.v24i2.13.

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This work describes the implementation of an RF based wireless charging system using RF transmitting and receiving modules. The objective of this work is to implement a system that has the ability to interact and communicate wirelessly within short range. This mobile wireless charging switching system consists of two sections, the transmitting and the receiving section. Each section was interfaced to 433MHz transmitting and receiving modules. The transmitter section of the wireless mobile charging system sends bursts of 433MHz signal through push button switch which is used in the initiation o
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Chen, Mingming, Jin Bao, Zhixin Li, and Jun Li. "Power characteristic analysis and measurement at the transmitter end of a bilateral LCC compensated wireless charging system." Journal of Computational Methods in Sciences and Engineering 24, no. 3 (2024): 1441–56. http://dx.doi.org/10.3233/jcm-247164.

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Wireless charging technology provides a convenient and safe method for electric vehicles. To meet the needs of commercial operations, it is essential to accurately measure the active power at the transmitter end of the wireless charging system. However, due to the high-frequency and high-voltage, measuring the voltage at the transmitting coil is challenging. In response to this issue, this paper focuses on the bilateral LCC compensation network and analyzes the harmonic components of the current and voltage at transmitting coil. It derives the voltage relationship between compensation capacito
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Heo, Jin-Chul, Jiae Park, Sohee Kim, Jeonghon Ku, and Jong-Ha Lee. "Development and Application of Wireless Power Transmission Systems for Wireless ECG Sensors." Journal of Sensors 2018 (2018): 1–7. http://dx.doi.org/10.1155/2018/5831056.

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We investigated the variations in the magnetic field distribution and power transmission efficiency, resulting from changes in the relative positions of the transmitting and receiving coils, for electromagnetic induction-type wireless power transmission using an elliptical receive coil. Results of simulations using a high-frequency structure simulator were compared to actual measurement results. The simulations showed that the transmission efficiency could be maintained relatively stable even if the alignment between the transmitting and receiving coils was changed to some extent. When the cen
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8

خديجة الشاعري, محمد منصور الفارسي, سليم مصطفى سليم, and عبد الحفيظ اللبار. "Design of Wireless Power Transfer SystemDesign of Wireless Power Transfer System." Journal of Pure & Applied Sciences 21, no. 4 (2022): 329–33. http://dx.doi.org/10.51984/jopas.v21i4.2482.

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In the recent years of the twenty first century, the world has witnessed a noticed evolvement in wireless techniques, such that wireless phones, wireless electronic devices, wireless communication and wireless power transfer. Wireless power transfer is a modern technique used to transfer an electric energy from a source to a destination that is consumed to the load. Wireless power transfer is an important for many applications like, wirelessly powered home appliances that received the power from a transmitting device wirelessly. For example lighting of bulbs, operating of electric equipment an
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9

Xue, Kai Feng, and Xiu Quan Liu. "Efficiency Analysis on Three-Dimensional Energy Transmitting System for MEMS inside Body." Advanced Materials Research 681 (April 2013): 147–51. http://dx.doi.org/10.4028/www.scientific.net/amr.681.147.

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Wireless energy transmitting technology provides MEMS inside body with a new power supplying approach. At present, the efficiency and stability of a single- dimensional wireless energy transmitting system are still handicaps in practical applications and need improving. In present paper, two structures of multi-dimensional wireless power are presented and compared each other. Single dimensional primary-three dimensional secondary structure is applied in further research. At last System efficiency is expressed after deduction.
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10

Okba, Abderrahim, Dominique Henry, Alexandru Takacs, and Hervé Aubert. "Autonomous RFID Sensor Node Using a Single ISM Band for Both Wireless Power Transfer and Data Communication." Sensors 19, no. 15 (2019): 3330. http://dx.doi.org/10.3390/s19153330.

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This paper addresses the implementation of autonomous radiofrequency identification sensor nodes based on wireless power transfer. For size reduction, a switching method is proposed in order to use the same frequency band for both supplying power to the nodes and wirelessly transmitting the nodes’ data. A rectenna harvests the electromagnetic energy delivered by the dedicated radiofrequency source for charging a few-mF supercapacitor. For supercapacitors of 7 mF, it is shown that the proposed autonomous sensor nodes were able to wirelessly communicate with the reader at 868 MHz for 10 min with
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11

Krestovnikov, Konstantin, Аleksandr Bykov, and Aleksei Erashov. "Structure and circuit solution of a wireless power transfer system for application in mobile robotic systems." Robotics and Technical Cybernetics 9, no. 3 (2021): 196–206. http://dx.doi.org/10.31776/rtcj.9305.

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This paper presents the development of a medium-power wireless power transmission system for use in robotics and other applications. The presented system can be used to power devices or charge batteries. The system is based on the principle of inductive power transmission. A feature of the system is the use of a resonant self-oscillator, for which the transmitting LC circuit of the system is a frequency setting. The use of identical receiving and transmitting resonant circuits makes it possible to refuse additional frequency control devices in the receiving part of the system. The presented ci
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12

Rasheed, Dr Haroon, Engr M. Sameed Bin Reyaz, and Engr Shahjahan A. Rahim Soomro. "Wireless Charger for Electrical Vehicles with Large Air Gap." Aug-Sept 2023, no. 35 (August 14, 2023): 44–57. http://dx.doi.org/10.55529/ijrise.35.44.57.

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In this paper the work has been done to analyze the idea of transmitting power wirelessly to Electric Vehicles. The research depicts a mechanism which has the ability to transfer power wirelessly which will reduce the dependence on foreign oil. Wireless Power Transfer using magnetic resonance is the technology which would set the human free from the hassle of wires. It adopts the basic theory of Inductive Power Transfer. The transferring distance increases from several millimeters to hundred millimeter. This adaptive technique will prove to be a revolutionary change in the field of Electronics
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13

Zhong, Zhenze. "Design and implementation of wireless power transfer device." Applied and Computational Engineering 81, no. 1 (2024): 119–28. http://dx.doi.org/10.54254/2755-2721/81/20241032.

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Abstract. Magnetic coupled resonant radio energy transmission (WPT) technology utilizes the coupling of the magnetic fields of the transmitting and receiving coils and wirelessly transmits energy through electromagnetic induction, greatly expanding the applications of power equipment in special environments. The technology uses the magnetic field coupling between the transmitting coil and the receiving coil to realize the wireless transmission of energy through electromagnetic induction. This method breaks the limitation of traditional wire transmission and greatly expands the application pote
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14

Guo, Yun Sheng, and Ji Zhou. "The Application of Electromagnetic Metamaterials for Wireless Power Transfer." Advanced Materials Research 873 (December 2013): 619–23. http://dx.doi.org/10.4028/www.scientific.net/amr.873.619.

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In this paper, the equivalent circuit model of the two-coil wireless power transfer (WPT) is set up. Using this model, the currents in the transmitting and receiving coils, the input and output powers, and the transmission efficiency are discussed. In order to improve the transmission efficiency and distance, the third resonant coil is placed into the space between the transmitting and receiving coils of the WPT system. The measurement results show that this resonant coil which is actually only one unit of the periodic structure meatmaterial can improve not only the transmission distance but a
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15

Nguyen, Dinh Hoa. "Optical Wireless Power Transfer for Implanted and Wearable Devices." Sustainability 15, no. 10 (2023): 8146. http://dx.doi.org/10.3390/su15108146.

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Optical wireless power transfer (OWPT) has been employed in the literature as a wireless powering approach for implanted and wearable devices. However, most of the existing studies on this topic have not studied the performances of OWPT systems when light is transmitted through clothing. This research therefore contributes to investigate the effects of clothing on OWPT performances from both theoretical and experimental perspectives. An obtained experimental result indicates that a single light-emitting diode (LED) transmitter is able to perform the OWPT through white cotton clothing, but fail
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16

Wu, Dong Rong, He Jun Wu, and Xiao Lu Zhu. "Microwave Directional Wireless Power Transmission for Wireless Sensor Networks." Advanced Materials Research 756-759 (September 2013): 746–50. http://dx.doi.org/10.4028/www.scientific.net/amr.756-759.746.

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Power shortage is one of critical issues stalling the development of wireless sensor networks. This paper attempts to address this issue by means of microwave power transmission. In this paper, we propose a sensor node framework using a high-frequency microwave power transmitting module to allow sensor nodes to transmit power to others. We introduce the process of exchanging power between two adjacent sensor nodes and design a power transmission routing protocol called PTR in this paper. PTR optimizes the power transmission of a whole network so that the power of energy sources can efficiently
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17

Begum, Raoshan Ara, Sabia Akter Mim, and Habibur Rahman. "A study on wireless power transmission system integrated with electromagnetic field." International Research Journal of Science, Technology, Education, and Management 4, no. 2 (2024): 110–21. https://doi.org/10.5281/zenodo.12730502.

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Electric power is impossible to imagine in the world. Wires are typically used to transmit power. Envision a future in which wireless power transfer is probable: Mobile phones, household robots, digital audio players (DAPs), laptop computers, and bearable electronics can charge themselves, freeing us from the need to be joint to a power source by a wire. A wireless mobile charging system using the electromagnetic field is intended to clarify its concept by elucidating it. Users can charge their mobile phones wirelessly in this system without the need to plug in the mobile adapter. A charging p
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18

Liu, Han, Linlin Tan, Xueliang Huang, and Dariusz Czarkowski. "Power Stabilization Based on Asymmetric Transceiver in Dynamic Wireless Charging System with Short-Segmented Transmitting Coils for Inspection Robots." Energies 11, no. 11 (2018): 3005. http://dx.doi.org/10.3390/en11113005.

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To solve the issues of frequent and inflexible contact charging system for inspection robots, the dynamic wireless charging system for the moving robot is introduced in this paper. In dynamic wireless charging systems with symmetric transceiver, including a single energized transmitting coil and one receiving coil, the receiving power drops significantly when the receiving coil moves to the boundary position of the energized transmitting coil. An asymmetric transceiver, including the single energized transmitting coil and two identical receiving coils connected in series is proposed for power
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19

Ali, H. Al-Fatlawi. "Wireless Charging System for an Implanted Sensor." British Journal of Applied Science & Technology 21, no. 4 (2017): 1–10. https://doi.org/10.9734/BJAST/2017/33867.

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Increasing the demand for developing implantable devices and sensors promotes the concept of the wireless power transfer. The implanted glucose sensors, for example, shall be built small enough to allow implanting it inside the patients' body [1] to indicate the readings easily. It grants the patients the ability to read data simply through a receiver located out of the body. However, there is a problem in most of these sensors in providing them with the necessary power by using traditional chargers because any direct contact with these devices is impossible. Therefore, scientists and research
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20

Kim, Dongwook, Dawon Jeong, Jongwook Kim, et al. "Design and Implementation of a Wireless Charging-Based Cardiac Monitoring System Focused on Temperature Reduction and Robust Power Transfer Efficiency." Energies 13, no. 4 (2020): 1008. http://dx.doi.org/10.3390/en13041008.

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Wireless power transfer systems are increasingly used as a means of charging implantable medical devices. However, the heat or thermal radiation from the wireless power transfer system can be harmful to biological tissue. In this research, we designed and implemented a wireless power transfer system-based implantable medical device with low thermal radiation, achieving 44.5% coil-to-coil efficiency. To suppress thermal radiation from the transmitting coil during charging, we minimized the ESR value of the transmitting coil. To increase power transfer efficiency, a ferrite film was applied on t
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21

SHI Yu, 石煜, 颜国正 YAN Guo-zheng, and 朱柄全 ZHU Bing-quan. "Portable wireless power transmitting system for video capsule endoscopes." Optics and Precision Engineering 22, no. 1 (2014): 132–37. http://dx.doi.org/10.3788/ope.20142201.0132.

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Yu, Hui, GuoMin Zhang, Liwei Jing, et al. "Wireless Power Transfer With HTS Transmitting and Relaying Coils." IEEE Transactions on Applied Superconductivity 25, no. 3 (2015): 1–5. http://dx.doi.org/10.1109/tasc.2015.2392257.

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Campi, Tommaso, Silvano Cruciani, Francesca Maradei, and Mauro Feliziani. "A New Transmitting Coil for Powering Endoscopic Capsules Using Wireless Power Transfer." Electronics 12, no. 8 (2023): 1942. http://dx.doi.org/10.3390/electronics12081942.

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This study focuses on using wireless power transfer (WPT) technology based on magnetic resonant coupling (MRC) to supply electric power to an endoscopic capsule to be used for the direct feeding of specific functions or for battery charging. One of the main limitations of the diffusion of endoscopic capsules is the limited autonomy of the internal battery. The aim of the paper is to present an innovative system to wirelessly power capsules using inductive coupling. Here, a new transmitting coil architecture is proposed to allow the wireless charging of the capsule equipped with a monoaxial rec
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Agarwal, Shubham, and Mayur Agarwal. "Wireless Power Theft Monitoring System." International Journal of Advance Research and Innovation 1, no. 2 (2013): 36–39. http://dx.doi.org/10.51976/ijari.121309.

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The scope of this paper is to identify the most commonly adapted techniques of power tampering. We detect the tampering methods by means of respective embedded circuit and intimate it to the electricity board via sound buzzer alert, our microcontroller circuit controlling one relay which is transmitting power supply from main meter to sub meter if somebody tempered meter m/c switch of current supply. M/c display all the consumption unit of both meters on LCD. This tampering information is transmitted to electricity board via transmitter and receiver module which with further advancement can ta
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Kuttybay, N. B., A. K. Saymbetov, Z. Sh Tenizbayeva, L. B. Smail, and R. M. Yerbolat. "DEVELOPMENT OF AN AUTOMATED PHOTOVOLTAIC SYSTEM WITH WIRELESS MONITORING." PHYSICO-MATHEMATICAL SERIES 335, no. 1 (2021): 90–96. http://dx.doi.org/10.32014/2021.2224-5294.13.

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The work is devoted to the development of an efficient photovoltaic installation with automated wireless monitoring based on the LabView software. Long-distance communication technology - LoRa was used to wirelessly transmit data on the output characteristic states of the photovoltaic installation, storage battery and built-in sensors. This module operates at 433 MHz and transmits small data packets with low power consumption. This makes the stand-alone system energy efficient compared to similar wireless installations. The graphical software LabView was chosen to monitor the state of the deve
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Kuttybay, N. B., A. K. Saymbetov, Z. Sh Tenizbayeva, L. B. Smail, and R. M. Yerbolat. "DEVELOPMENT OF AN AUTOMATED PHOTOVOLTAIC SYSTEM WITH WIRELESS MONITORING." PHYSICO-MATHEMATICAL SERIES 335, no. 1 (2021): 90–96. http://dx.doi.org/10.32014/2021.2518-1726.13.

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The work is devoted to the development of an efficient photovoltaic installation with automated wireless monitoring based on the LabView software. Long-distance communication technology - LoRa was used to wirelessly transmit data on the output characteristic states of the photovoltaic installation, storage battery and built-in sensors. This module operates at 433 MHz and transmits small data packets with low power consumption. This makes the stand-alone system energy efficient compared to similar wireless installations. The graphical software LabView was chosen to monitor the state of the deve
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Xu, Hanxi, Wenhua Li, Zhongjiu Zheng, and Yunhe Wang. "Array Design and Transmitter Coils Selection for Underwater Wireless Power Transfer System." Applied Sciences 15, no. 11 (2025): 6368. https://doi.org/10.3390/app15116368.

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This paper proposes a method for array design and optimal transmitting coil selection of underwater wireless power transfer systems. This method is divided into three steps. Firstly, by analyzing the influence of different ratio side lengths of the transmitting coil and receiving coil on mutual inductance, the optimal ratio side length coil is selected. Secondly, by analyzing the relative size of the reflection impedance of the power supply coil and its surrounding coils, the optimal coil activation criterion is derived. Finally, by estimating the position of the receiving coil without communi
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Choi, Young-Kuk, Don-Jung Lee, and Sung-Jun Park. "The Effect of Boost Coil and Alignment of Transmitting and Receiving Coils on Transmission Efficiency in EV Wireless Power Transfer Systems." Energies 16, no. 7 (2023): 3213. http://dx.doi.org/10.3390/en16073213.

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As the electric vehicle (EV) market continues to grow, wireless charging technologies are constantly evolving. Considering the limitations of traditional charging methods, the adoption of wireless charging technology is an essential strategy, and the distribution of wireless charging systems is expected to accelerate in the global market with initiatives such as international standards for wireless charging systems. With regard to this technological trend, this study experimentally analyzed the effects of the boost coil and the alignment of the transmitting and receiving coils on the transmiss
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Lee, Tae-Hak, Kyoung-Joo Lee, WonSeob Lim, and Sang-Hwa Yi. "Exploring CP Array Antenna Characteristics and Its Applications to a Deployable Structure." Sensors 25, no. 9 (2025): 2782. https://doi.org/10.3390/s25092782.

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In this article, we investigated the performance of circularly polarized (CP) array antennas for wireless power transmission (WPT) application. During the development process, three different mounting configurations for the transmitting CP antenna are considered, assuming that the proposed CP antenna could be a part of the WPT system. The wireless power transmission system employing the proposed antenna design as the transmitting antenna is intended for power transfer either between satellites in space or between a satellite and a ground segment. To implement the various mounting configuration
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Kim, Junho, Hyeok Kim, Dongwook Kim, et al. "A Wireless Power Transfer Based Implantable ECG Monitoring Device." Energies 13, no. 4 (2020): 905. http://dx.doi.org/10.3390/en13040905.

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Implantable medical devices (IMDs) enable patients to monitor their health anytime and receive treatment anywhere. However, due to the limited capacity of a battery, their functionalities are restricted, and the devices may not achieve their intended potential fully. The most promising way to solve this limited capacity problem is wireless power transfer (WPT) technology. In this study, a WPT based implantable electrocardiogram (ECG) monitoring device that continuously records ECG data has been proposed, and its effectiveness is verified through an animal experiment using a rat model. Our prop
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Kim, Sunhee, Woong Choi, and Yongseok Lim. "Metal Object Detection in a Wireless High-Power Transfer System Using Phase–Magnitude Variation." Electronics 10, no. 23 (2021): 2952. http://dx.doi.org/10.3390/electronics10232952.

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Recently, wireless charging technologies for large moving objects, such as electric vehicles and robots, have been actively researched. The power transmitting and receiving coils in most large moving objects are structurally separated by a given distance, which exposes a high output power to the outside world. If a foreign metal object enters the area between these two coils during wireless power transfer, fire hazards or equipment damage may occur. Therefore, we propose a method for detecting foreign metal objects in the gap between the transmitting and receiving coils in a wireless high-powe
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Karan, Sharma, Saini Prateeek, and Jangid |. Dr. Himani Goyal Sharma Naveen. "Wireless Power Transmission using SPS." International Journal of Trend in Scientific Research and Development 3, no. 3 (2019): 250–51. https://doi.org/10.31142/ijtsrd21719.

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In this paper, we present the idea of sun based vitality satellites sun oriented cells in the satellite Convert daylight into power, which will transform into radio recurrence vitality, at that point a collector will achieve the site Earth was re jolted by utilizing the reception apparatus with the innovation of remote and accepting it Power transmission is transmitting power i.e., as microwave for lessening transmission and dispersion. In this paper we want to elaborate all the aspect related to the wireless power transmission using solar power satellite by which the overall efficiency, relia
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Donelli, M., P. Rocca, and F. Viani. "Design of a WPT system for the powering of wireless sensor nodes: theoretical guidelines and experimental validation." Wireless Power Transfer 3, no. 1 (2016): 15–23. http://dx.doi.org/10.1017/wpt.2015.20.

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This work presents the design of a system for wireless power transmission based on a compact rectenna array able to supply low-power electronic devices such as wireless sensors. The receiving section is realized with an array of 12 rectangular patch antennas. Each elements of the array is connected with a suitable harmonic filter and a rectifying circuit by means of a coaxial feeding point. The transmitting section is realized with a one-dimensional prime focus parabolic reflector antenna, with a linear feeder composed by four dipole antennas. The rectenna array, the harmonic filter, the recti
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Wang, Ya Zhen, Ying Jun Chen, and Huang Ping. "Study on the Design of a Magnetic Started Wireless Capsule Endoscopy." Applied Mechanics and Materials 195-196 (August 2012): 864–67. http://dx.doi.org/10.4028/www.scientific.net/amm.195-196.864.

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Based on the minimal CMOS image sensor OV6920, a magnetic controlled wireless capsule endoscopy has been designed in principles of micromation and low power consumption. The peripheral circuit of OV6920 is designed. With optical design, the power consumption of transmitting circuit is cut down according to the relationships between the resistance in series and the voltage, current, and transmitting power consumption. The total size of the system is only φ13×29mm, and the power consumption is about 100mW when all modules are connected altogether. The clear captured images in the imaging experim
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Joe Louis Paul, I., S. Sasirekha, D. Naveen Kumar D, and P. S. Revanth. "A Working Model for Mobile Charging using Wireless Power Transmission." International Journal of Engineering & Technology 7, no. 3.12 (2018): 584. http://dx.doi.org/10.14419/ijet.v7i3.12.16434.

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Portable electronic devices are very popular nowadays. Almost all portable devices are battery powered, meaning that eventually, they all must be recharged–using the wired chargers currently being used. As the usage of these portable electronic devices is increasing, the demands for longer battery life are also increasing. These batteries need to be recharged or replaced periodically. It is a hassle to charge or change the battery after a while, especially when there is no power outlet around. Now instead of plugging in a cell phone, Personal Digital Assistant (PDA), digital camera, voice reco
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Wang, Tianfeng, Xin Liu, Nan Jin, Houjun Tang, Xijun Yang, and Muhammad Ali. "Wireless Power Transfer for Battery Powering System." Electronics 7, no. 9 (2018): 178. http://dx.doi.org/10.3390/electronics7090178.

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The LCL topology (formed by an LC tank with a transmitting coil) is extensively utilized in wireless power transfer (WPT) systems with the features of a constant resonant current and ability to disconnect load abruptly. However, it requires high input voltage, which limits its utilization in battery powering scenarios (12~24 V). A current-fed inverter (CFI) is applied to the LCL-S (a compensation capacitor in series with the receiving coil) WPT systems to boost the input voltage, thereby getting a higher resonant current in the transmitting side (Tx). To facilitate the voltage regulation in th
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Грецких, Д. В., А. И. Лучанинов, and А. В. Гомозов. "A wireless power transmission system with the multistate transmitting subsystem." Radiotekhnika 2, no. 201 (2020): 38–51. http://dx.doi.org/10.30837/rt.2020.2.201.02.

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Shaposhnikov, S. S., and V. N. Garmash. "Matrix method synthesis of transmitting antenna for wireless power transmission." IEEE Transactions on Aerospace and Electronic Systems 36, no. 4 (2000): 1142–48. http://dx.doi.org/10.1109/7.892664.

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Zhang, Naikang, Zhiping Wen, Xunping Hou, and Bo Bi. "An Accurate Transmitting Power Control Method in Wireless Communication Transceivers." Journal of Physics: Conference Series 960 (January 2018): 012009. http://dx.doi.org/10.1088/1742-6596/960/1/012009.

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Torchio, Riccardo, Vincenzo Cirimele, Piergiorgio Alotto, and Fabio Freschi. "Modelling of road–embedded transmitting coils for wireless power transfer." Computers & Electrical Engineering 88 (December 2020): 106850. http://dx.doi.org/10.1016/j.compeleceng.2020.106850.

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Sasa, Naoya, Takahiro Yamahara, Takehiro Imura, et al. "Thinner Transmitting and Edgewise Coils in Dynamic Wireless Power Transfer." IEEJ Transactions on Industry Applications 145, no. 6 (2025): 439–48. https://doi.org/10.1541/ieejias.145.439.

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Ruan, Yan. "Design and Realization of Smart Home System Based on Wireless Sensor Networks." Applied Mechanics and Materials 716-717 (December 2014): 1421–24. http://dx.doi.org/10.4028/www.scientific.net/amm.716-717.1421.

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The paper takes STM32 microcontroller as the core. The UIP protocol stack is transplanted to STM32 to construct embedded web server and wireless sensor networks is used to construct the internal network of smart home. In combination with GSM communication technology, a smart home control system with the advantages of reliability, simplicity and flexibility is designed. In addition, this article also introduced a low power wireless receiving and transmitting chip CC 1100 in detail, completed software and hardware design of wireless receiving and transmitting module. Aspect of hardware design, c
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Liu, Zuo Xue, Jian Mei Dai, and Bo Liu. "The Design of Wireless Broadband Communication System Based on OFDMA." Applied Mechanics and Materials 241-244 (December 2012): 2275–78. http://dx.doi.org/10.4028/www.scientific.net/amm.241-244.2275.

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A Wireless Broadband Communication System has been made up based on OFDMA and AMC technologies. The system structure and working pattern is introduced, the OFDMA allocation model, the MIMO and AMC scheme are present, and the parameter such as transmitting power, receiver sensitivity, transmitting antenna gain and receiving antenna gain are designed. The system enables high quality wireless broadband communication. As a supplement with wired communication systems, the system could fulfill the requirement of recovery local communication rapidly when some accidents take place.
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Lee, Chang-Jin, Se-Hoon Kim, Wan-Il Kim, and Kwang-Cheol Ko. "Transmission Distance Improvement of a Two-Coil Magnetic Resonance Wireless Power Transmission System Using Transformers." Journal of Electromagnetic Engineering and Science 21, no. 4 (2021): 329–35. http://dx.doi.org/10.26866/jees.2021.4.r.41.

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In this paper, a two-coil magnetic resonance wireless transmission system is studied to improve the transmission distance using transformers. A conventional two-coil and four-coil wireless power transmission (WPT) system as well as a two-coil WPT system with transformers are analyzed comparatively via circuit simulations and experiments. Circuit analysis was used to predict the transmission distance with the highest efficiency. To verify the improvement in the transmission distance of the proposed system, transformers with inductance values of 80, 100, and 140 μH were fabricated and analyzed t
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Detka, Kalina, and Krzysztof Górecki. "Wireless Power Transfer—A Review." Energies 15, no. 19 (2022): 7236. http://dx.doi.org/10.3390/en15197236.

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This paper presents the current state of knowledge in the field of wireless power transfer. The concept of such a transfer and the basic methods of its implementation are described, together with block diagrams of the necessary devices. The technologies of electrical power transfer over short and long distances are characterized. The most popular electrical power transfer technology based on the phenomenon of electromagnetic induction is discussed in great detail. The analysis of the influences of such factors as the coupling factor, the shape of the coils, the type of ferromagnetic material f
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Wang, Yongdong, Cheng Yi, Fanxiang Meng, and Xuecheng Sun. "A Novel Method of Wireless Micro Energy Transmission Based on MEMS Micro Coil." Micromachines 14, no. 11 (2023): 1997. http://dx.doi.org/10.3390/mi14111997.

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Based on current implantable devices, a battery’s rigidity and large size makes it prone to immune rejection and wound incisions. Additionally, it is limited by its finite lifespan, which hinders long-term usage. These limitations greatly restrict the development of implantable medical device systems towards miniaturization and minimally invasive approaches. Consequently, obtaining high-fidelity and stable biological signals from the target tissue area of the organism remains challenging. Therefore, there is a need to develop wireless power transmission technology. In this paper, we propose a
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Diep, N. T., and N. K. Trung. "Transmitting Side Power Control for Dynamic Wireless Charging System of Electric Vehicles." Engineering, Technology & Applied Science Research 12, no. 4 (2022): 9042–47. http://dx.doi.org/10.48084/etasr.4988.

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This paper proposes a new power control method in dynamic wireless charging systems for electric vehicles. A dual-loop controller is proposed to control charging power while the electric vehicle is moving without communication between the transmitting and receiving sides. The output power is estimated through the coupling coefficient estimation. However, the coupling coefficient varies with the position of the vehicle. Therefore, this paper also presents an easy-to-do practical estimation method from the transmitting side, in which the coupling coefficient value is continuously updated accordi
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Yu, Xi Peng, Guang Yang, and Wen Hao Song. "Based on Class D Amplifier Magnetic Resonance Wireless Transmission Technology." Applied Mechanics and Materials 721 (December 2014): 591–94. http://dx.doi.org/10.4028/www.scientific.net/amm.721.591.

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Radio capable of transmitting power transmission is carried out via electromagnetic waves, thus eliminating the need of a new power supply cord and outlet. This article highlights and summarizes the three main ways the existing wireless transmission technologies, including electromagnetic induction wireless transmission technology, far-field radiation wireless transmission technology, magnetically coupled resonant wireless transmission technology, the basic principles. And proposed resonance energy transfer mode radio based on Class D amplifier, and then describes in detail the basic principle
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Kim, Dongwook, and Seungyoung Ahn. "Wireless Power Transfer-Based Microrobot with Magnetic Force Propulsion Considering Power Transfer Efficiency." Journal of Electromagnetic Engineering and Science 22, no. 4 (2022): 488–95. http://dx.doi.org/10.26866/jees.2022.4.r.113.

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A microrobot that could continuously receive both electrical energy and propulsion force from a wireless power transfer system would offer tremendous benefits. However, wireless powering systems produce a time-varying magnetic field that can be harmful if the generated magnetic field needed for microrobot movement is large. To limit exposure, power transfer efficiency must be enhanced. This paper derived and analyzed the magnetic force applied to a microrobot from a wireless power transfer system. Unlike previously introduced Lorentz force-based microrobot propulsion, the proposed method is in
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Safar, Mohammad A., and Ayman S. Al-Zayed. "A Novel Three-Dimensional Beamforming Antenna Array for Wireless Power Focusing." Mathematical Problems in Engineering 2016 (2016): 1–8. http://dx.doi.org/10.1155/2016/7426429.

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An antenna array capable of focusing the power transmitted to a specified point in space is modeled and simulated. This array will serve best for wireless power transmission applications where one of the goals is to maximize the power transfer efficiency. The array consists of 100 dipole antennas with each antenna transmitting a sum of 50 signals where each signal has a different frequency. This difference in frequency gives an additional degree of freedom that allows the overall beam pattern to be focused to a point in space instead of just a direction. The same array structure is also capabl
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