Relevant bibliographies by topics / The wireless power transmitting

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'The wireless power transmitting'

Author: Grafiati
Published: 3 June 2025
Last updated: 31 July 2025

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Journal articles on the topic "The wireless power transmitting"

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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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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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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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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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Dissertations / Theses on the topic "The wireless power transmitting"

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Hasan, Nazmul. "Optimization and Control of Lumped Transmitting Coil-Based in Motion Wireless Power Transfer Systems." DigitalCommons@USU, 2015. https://digitalcommons.usu.edu/etd/4503.

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Wireless inductive power transfer systems are the only viable option for transferring energy to a moving vehicle. In recent years, there has been a great deal of interest in in-motion vehicle charging. The dominant technology thus far for in motion charging is elongated tracks, creating a constant eld for the moving vehicle. This technology suers from high volt ampere ratings and lower efficiency of 70%. On the other hand, stationary charging systems can demonstrate efficiency up to 95%. This thesis proposes lumped coils, similar to stationary charging coils for in-motion electric vehicle char
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Tinguely, Stéphane. "Transmitting correlated sources over wireless networks." Konstanz Hartung-Gorre, 2009. http://d-nb.info/993231594/04.

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Peel, Christian B. "Studies in multiple-antenna wireless communications /." Diss., CLICK HERE for online access, 2004. http://contentdm.lib.byu.edu/ETD/image/etd331.pdf.

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Prévost, Jean-Paul L. "A high-efficiency power amplifier integrated with a planar transmitting antenna." Thesis, University of Ottawa (Canada), 2001. http://hdl.handle.net/10393/8973.

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In this thesis, the coplanar-waveguide-fed aperture-coupled patch antenna is studied for the purpose of integration with a high efficiency power amplifier. A high efficiency power amplifier is designed via experimental determination of the loads required at the output of a transistor in order to maximise its efficiency. For this purpose, an active multi-harmonic load-pull system capable of independently varying the fundamental-frequency, second-harmonic-frequency and third-harmonic-frequency reflection coefficients seen at the output of a transistor is constructed. Six-port reflectometers are
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Kambanis, Leonidas M. Th. "Analysis and modeling of power transmitting systems for advanced marine vehicles." Thesis, Massachusetts Institute of Technology, 1995. http://hdl.handle.net/1721.1/36067.

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Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Ocean Engineering, 1995, and Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1995.<br>Includes bibliographical references (leaves 79-80).<br>by Leonidas M.Th. Kambanis.<br>M.S.
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Singh, Aseem Bilén Sven G. "Wireless power transfer for wireless sensor modules." [University Park, Pa.] : Pennsylvania State University, 2009. http://etda.libraries.psu.edu/theses/approved/WorldWideIndex/ETD-3952/index.html.

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Ruff, Zachary. "Photonic bandgap fibers for transmitting high peak-power pulses in the near infrared." Thesis, Massachusetts Institute of Technology, 2010. http://hdl.handle.net/1721.1/59249.

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Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, 2010.<br>Includes bibliographical references (p. [41-42]).<br>Hollow-core photonic bandgap fibers (PBG) offer the opportunity to suppress highly the optical absorption and nonlinearities of their constituent materials, which makes them viable candidates for transmitting high-peak power pulses. This thesis demonstrates the fabrication and characterization of polymer-composite PBG fibers in a novel materials system, polycarbonate and arsenic sulfide glass. Propagation losses for the 60pm-core fibers
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Maher, Vanessa Rian. "A Low Power Beacon for Transmitting Location Data via the Globalstar Satellite System." Thesis, Virginia Tech, 2006. http://hdl.handle.net/10919/33116.

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Many industries are turning to wireless communication systems to track their assets. One example of such an industry is the shipping industry, where â under the growing emphasis on homeland security â tracking cargo containers and their contents has become a high priority. There are several beacons on the commercial market that will meet this need if the required beacon does not need to be independently powered or to have global coverage. This thesis attempts to find a design solution for a beacon that transmits location data, is battery powered, and has world-wide coverage. The beacon
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Al, Mahmud Shamsul Arefeen. "Wireless Power Transfer : Machine Learning Assisted Characteristics Prediction for Effective Wireless Power Transfer Systems." Thesis, KTH, Skolan för elektroteknik och datavetenskap (EECS), 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-286673.

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One of the main challenges in wireless power transfer (WPT) devices is performance degradation when the receiver’s position and characteristics vary. The variations in the system parameters such as load impedance and coupling strength in WPT devices affect performance characteristics such as output voltage and power. When the system parameters are different from the optimal operating conditions, the performances are degraded. Therefore, the load impedance and coupling strength must be monitored to do the necessary optimization and control. However, such control approaches require additional se
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Moffatt, Robert Alexander. "Wireless transfer of electric power." Thesis, Massachusetts Institute of Technology, 2009. http://hdl.handle.net/1721.1/51595.

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Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Physics, 2009.<br>Includes bibliographical references (leaf 49).<br>In this dissertation, I describe the design and construction of a system which can transfer electric power wirelessly. This is accomplished using inductive, near-field, non-radiative coupling between self-resonant copper helices. In our first experiment, we transfered 60W of power over a distance of 2m with 45% efficiency. In our second experiment, we designed a system which can transfer power from a single source to two devices, each 2m away, with 60% total effici
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Books on the topic "The wireless power transmitting"

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Agbinya, Johnson I. Wireless Power Transfer. River Publishers, 2022. http://dx.doi.org/10.1201/9781003340065.

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Agbinya, Johnson I. Wireless Power Transfer. 2nd ed. River Publishers, 2022. http://dx.doi.org/10.1201/9781003340072.

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Zhong, Wenxing, Dehong Xu, and Ron Shu Yuen Hui. Wireless Power Transfer. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-2441-7.

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Imura, Takehiro. Wireless Power Transfer. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-4580-1.

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Orekan, Taofeek, and Peng Zhang. Underwater Wireless Power Transfer. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-02562-5.

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Siu, Christopher, and Krzysztof Iniewski. IoT and Low-Power Wireless. Edited by Christopher Siu. CRC Press, 2018. http://dx.doi.org/10.1201/9781351251662.

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Otte, Rob, Leo P. de Jong, and Arthur H. M. van Roermund. Low-Power Wireless Infrared Communications. Springer US, 1999. http://dx.doi.org/10.1007/978-1-4757-3015-9.

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Sheng, Samuel, and Robert Brodersen. Low-Power CMOS Wireless Communications. Springer US, 1998. http://dx.doi.org/10.1007/978-1-4615-5457-8.

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Ng, Derrick Wing Kwan, Trung Q. Duong, Caijun Zhong, and Robert Schober, eds. Wireless Information and Power Transfer. John Wiley & Sons, Ltd, 2018. http://dx.doi.org/10.1002/9781119476863.

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Suhonen, Jukka, Mikko Kohvakka, Ville Kaseva, Timo D. Hämäläinen, and Marko Hännikäinen. Low-Power Wireless Sensor Networks. Springer US, 2012. http://dx.doi.org/10.1007/978-1-4614-2173-3.

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Book chapters on the topic "The wireless power transmitting"

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Sun, Boxiang, Shui Pang, Jiayi Xu, Hongyu Li, and Xingfei Li. "Optimal Efficiency Control of Multiple Transmitting Array WPT System for Constant Power." In The Proceedings of 2022 International Conference on Wireless Power Transfer (ICWPT2022). Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-0631-4_9.

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Huang, Dengjie, Han Liu, Jun Cheng, Lin Wang, Zhichao Tang, and Lingling Sun. "Characteristic Analysis of Wireless Power Transfer System Based on Planar Runway-Type Transmitting Coils." In Lecture Notes in Electrical Engineering. Springer Nature Singapore, 2025. https://doi.org/10.1007/978-981-96-4675-3_6.

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Liang, Cang, Renjie Zhang, Huan Yuan, et al. "Research on Power Flow at Transmitting Side of Omnidirectional Wireless Energy Transmission System Based on Improved DD Coil." In Lecture Notes in Electrical Engineering. Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-1532-1_70.

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Ambika, N. "Securing the IoT-Based Wireless Sensor Networks in 5G and Beyond." In 5G and Beyond. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-3668-7_10.

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AbstractThe previous contribution uses the k-means procedure to create clusters. It converts into a chain route when the threshold content goes beyond the energy of the devices in the system. The information transmitter fuel includes the power of the machine circuitry and the magnitude of facts communication and blowout. The vibrancy helps in communication circuitry. The knowledge packages ship to the destination. The architecture has two stages. The groups form during the clustering stage. The Optimal CBR method uses the k-means procedure to construct groups. It selects the cluster head based
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Yılmaz, Gürkan, and Catherine Dehollain. "Wireless Power Transfer." In Analog Circuits and Signal Processing. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-49337-4_3.

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Psomas, Constantinos, and Ioannis Krikidis. "Wireless Power Transfer." In Wireless Information and Power Transfer. John Wiley & Sons, Ltd, 2018. http://dx.doi.org/10.1002/9781119476863.ch15.

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Imura, Takehiro. "Wireless Power Transfer." In Wireless Power Transfer. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-4580-1_1.

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Sun, Tianjia, Xiang Xie, and Zhihua Wang. "Wireless Power Antennas." In Wireless Power Transfer for Medical Microsystems. Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-7702-0_3.

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Sun, Tianjia, Xiang Xie, and Zhihua Wang. "Wireless Power Converters." In Wireless Power Transfer for Medical Microsystems. Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-7702-0_4.

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Sun, Tianjia, Xiang Xie, and Zhihua Wang. "Wireless Power Management." In Wireless Power Transfer for Medical Microsystems. Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-7702-0_5.

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Conference papers on the topic "The wireless power transmitting"

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Mitsuhashi, Tatsumu, and Atsushi Kurokawa. "Wireless Power Transmitting Coil Achieving Uniform Magnetic Flux Density Distribution." In 2025 IEEE Radio and Wireless Symposium (RWS). IEEE, 2025. https://doi.org/10.1109/rws62086.2025.10904987.

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Nguyen, Dinh Hoa. "Transmitting Efficiency Monotonicity of Multi-LED Optical Wireless Power Transfer Systems." In 2024 International Conference on Sustainable Energy: Energy Transition and Net-Zero Climate Future (ICUE). IEEE, 2024. https://doi.org/10.1109/icue63019.2024.10795653.

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Qiu, Dongyuan, Sirui Wang, Hao Chen, Jiahao Wang, Bo Zhang, and Yanfeng Chen. "PT-Symmetric Wireless Power Transfer System Based on Triple Transmitting Coils." In 2024 2nd China Power Supply Society Electromagnetic Compatibility Conference (CPEMC). IEEE, 2024. https://doi.org/10.1109/cpemc65359.2024.00060.

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Zhang, Heng, and Chi-Kwan Lee. "A Novel Multi-layer Planar Transmitting Coil for Omnidirectional Wireless Charging in Capsule Endoscopy." In 2025 IEEE Wireless Power Technology Conference and Expo (WPTCE). IEEE, 2025. https://doi.org/10.1109/wptce62521.2025.11062321.

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Jun, Youbin, Sanguk Lee, Jaewon Rhee, Changmin Lee, Seongho Woo, and Seungyoung Ahn. "Robust Transmitting Coil Design for Wireless Power Transfer System to Mitigate Input Voltage Variations." In 2024 International Symposium on Antennas and Propagation (ISAP). IEEE, 2024. https://doi.org/10.1109/isap62502.2024.10846263.

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Sfasciamuro, Domenico Edoardo, Andrea Villa, Anna Mauro, et al. "Lunar Wireless Power Transmission: Key Subsystems for a Constellation of Laser Energy-Transmitting Satellites." In IAF Space Power Symposium, Held at the 75th International Astronautical Congress (IAC 2024). International Astronautical Federation (IAF), 2024. https://doi.org/10.52202/078370-0031.

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Liu, Han, Lin Wang, Jun Cheng, Dengjie Huang, Rong Zheng, and Jing Lu. "Research on Wireless Power Transmission System Based on Non-Uniform Switchable Transmitting Coil Array." In 2024 IEEE PES 16th Asia-Pacific Power and Energy Engineering Conference (APPEEC). IEEE, 2024. https://doi.org/10.1109/appeec61255.2024.10922434.

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Harhouz, Amine, Djelloul Aissaoui, Abdelhalim Chaabane, Tayeb A. Denidni, and Mohamed Benaissa. "Enhancing Wireless Power Transfer Efficiency by Improving Transmitting Antenna Gain for Implantable Medical Devices." In 2024 International Conference on Telecommunications and Intelligent Systems (ICTIS). IEEE, 2024. https://doi.org/10.1109/ictis62692.2024.10894116.

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Zheng, Tianxiang, Ning Kang, Lei Shao, and Christopher H. T. Lee. "High Efficient Wireless Powered Capsule Devices via Planar Transmitting Coils." In 2024 VTS Asia Pacific Wireless Communications Symposium (APWCS). IEEE, 2024. http://dx.doi.org/10.1109/apwcs61586.2024.10679281.

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Zhou, Kunxiao, Guangdong Ning, and Minfan Fu. "Transmitting Coil Array Optimization for Wireless Power Transfer." In 2023 IEEE 3rd International Conference on Industrial Electronics for Sustainable Energy Systems (IESES). IEEE, 2023. http://dx.doi.org/10.1109/ieses53571.2023.10253704.

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Reports on the topic "The wireless power transmitting"

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Carlson, Jeffrey, Edl Schamiloglu, Christos Christodoulou, et al. Viziv Wireless Power TransferEvaluation. Office of Scientific and Technical Information (OSTI), 2025. https://doi.org/10.2172/2547072.

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Chandrakasan, Anantha P. Power Aware Wireless Microsensor Networks. Defense Technical Information Center, 2003. http://dx.doi.org/10.21236/ada415425.

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Freid, Sheldon, Zoya Popovic, David R. Beckett, Scott R. Anderson, Diana Mann, and Stuart Walker. Lunar Wireless Power Transfer Feasibility Study. Office of Scientific and Technical Information (OSTI), 2008. http://dx.doi.org/10.2172/934452.

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Paul Tubel. DOWNHOLE POWER GENERATION AND WIRELESS COMMUNICATIONS. Office of Scientific and Technical Information (OSTI), 2003. http://dx.doi.org/10.2172/822227.

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Smith, Marcus D., Jr Brandhorst, and Henry W. Support to a Wireless Power System Design. Defense Technical Information Center, 2011. http://dx.doi.org/10.21236/ada564824.

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Al-kanan, Haider. Power Efficiency Enhancement and Linearization Techniques for Power Amplifiers in Wireless Communications. Portland State University Library, 2020. http://dx.doi.org/10.15760/etd.7287.

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Itoh, Tatsuo. Low Power/Low Noise Electronics Technologies for Wireless Communications. Defense Technical Information Center, 2001. http://dx.doi.org/10.21236/ada395598.

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Itoh, Tatsuo. Low Power/Low Noise Electronics Technologies for Wireless Communications. Defense Technical Information Center, 2002. http://dx.doi.org/10.21236/ada406885.

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Akyol, Bora A., Harold Kirkham, Samuel L. Clements, and Mark D. Hadley. A Survey of Wireless Communications for the Electric Power System. Office of Scientific and Technical Information (OSTI), 2010. http://dx.doi.org/10.2172/986700.

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Harvey, Matthew R., and Ronald D. Kyker. Development of a photovoltaic power supply for wireless sensor networks. Office of Scientific and Technical Information (OSTI), 2005. http://dx.doi.org/10.2172/923150.

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