'
Development of High Performance/ High Efficiency Wireless Charging System for UAVs = 드돈용 고성능/고효율 무선 충전 시스템 개발' 의 주제별 논문영향력
논문영향력 요약
주제
battery charging
hybrid compensation topology
switched-capacitor
wireless power transfer
동일주제 총논문수
논문피인용 총횟수
주제별 논문영향력의 평균
52
0
0.0%
주제별 논문영향력
논문영향력
주제
주제별 논문수
주제별 피인용횟수
주제별 논문영향력
주제어
battery charging
9
0
0.0%
hybrid compensation topology
1
0
0.0%
switched-capacitor
8
0
0.0%
wireless power transfer
34
0
0.0%
계
52
0
0.0%
* 다른 주제어 보유 논문에서 피인용된 횟수
0
'
Development of High Performance/ High Efficiency Wireless Charging System for UAVs = 드돈용 고성능/고효율 무선 충전 시스템 개발' 의 참고문헌
¡±Variable FrequencyController for Inductive Power Transfer in DynamicConditions
vol . 32 , no . 2 , pp . 1684-1696 ,[2017]
¡± A HybridCompensation Topology With Single Switch for BatteryCharging of Inductive Power Transfer Systems
[2019]
¡°¥ì-synthesis for frequency uncertainty of the ICPT system
vol . 60 , no . 1 , pp . 291 ? 300[2013]
¡°WirelessCharger networking for mobile devices : fundamentals , standards , and applications
vol . 22 , no.2 , pp . 126 ? 135[2015]
¡°Wireless power transfer for electric vehicle applications
vol . 3 , no . 1 , pp.4 ? 17[2015]
¡°Use of transmitter-side electrical information to estimate mutual inductance and regulate receiver-side power in wireless inductive link ,
vol . 31 , no . 9 , pp . 6079 ? 6091[2016]
¡°Self-Tuning LCC Inverter Using PWM-Controlled SwitchedCapacitor for Inductive Wireless Power Transfer¡±
vol . 66 , no . 5 , pp . 3983-3992[2018]
¡°Planar WirelessCharging Technology for Portable Electronic Products and Qi
vol . 101 , no . 6 , pp . 1290 ? 1301[2013]
¡°Optimization of the PassiveComponents for an S-LCC Topology-Based WPT System forCharging Massive Electric Bicycles
vol . 65 , no . 7 , pp . 5497 ? 5508[2018]
¡°Non-linearCapacitor based variableCapacitor for self-tuning resonantConverter in wireless power transfer
[2018]
¡°Modern trends in inductive power transfer for transportation applications
pp . 28 ? 41 ,[2013]
¡°Maximum Energy Efficiency Operation of Series-Series Resonant Wireless Power Transfer Systems Using On-Off Keying Modulation¡±
vol . 33 , no . 4 , pp . 3595-3603[2018]
¡°Magnetic Resonant Three-Coil WPT System Between Off/In-Body for Remote Energy Harvest
vol . 26 , pp . 741 ? 743 ,
¡°Load-independentCurrent output of inductive power transferConverters with optimized efficiency
pp . 1425 ? 1429 .[2014]
¡°Investigation of magneticCouplers in bicycle kickstands for wirelessCharging of electric bicycles
vol . 3 , no . 1 , pp . 87 ? 100 ,[2015]
¡°Inductive power transfer for massive electric bicyclesCharging based on hybrid topology switching with a single inverter
vol.32 , no . 8 , pp . 5897 ? 5906[2017]
¡°Improvement of the transcutaneous energy transmission system utilizing ferriteCoredCoils for artificial hearts
vol . 42 , no . 10 , pp . 3578 ? 3580[2006]
¡°Implementation of theConstantCurrent andConstant voltageCharge of inductive power transfer systems with the double sided LCCCompensation topology for electric vehicle batteryCharge applications
vol . 33 , no . 9 , pp . 7398 ? 7410[2018]
¡°Hybrid IPT topologies withConstantCurrent orConstant voltage output for batteryCharging applications
vol . 30 , no . 11 , pp . 6329 ? 6337[2015]
¡°Free-positioning wireless power transfer to multiple devices using a planar transmittingCoil and switchable impedance matching networks
vol . 64 , no . 11 , pp . 3714 ? 3722[2016]
¡°Fine tuning of an inductive link through a voltage-controlledCapacitance
vol . 32 , no . 5 , pp . 4115 ? 4124
¡°Exact analysis of frequency splitting phenomena ofContactless power transfer systems
vol . 60 , no . 6 , pp . 1670 ? 1677[2013]
¡°EmbracingCorruption burstiness : Fast error recovery for ZigBee under Wi-Fi interference ,
vol . 16 , no . 9 , pp . 2518 ? 2530[2017]
¡°Efficiency improvement of high frequency inverter for wireless power transfer system using a series reactive powerCompensator , ¡± Proc . 2017 IEEE 12th Int .Conf . on Power Electron . and Drive Syst.
pp . 992 ? 998,2017
¡°Development of a universalContactlessCharger for handheld devices ,
pp . 99 ? 104 .[2008]
¡°DesignConsiderations to reduce gap variation and misalignment effects for the inductive power transfer system
vol . 30 , no . 11 , pp . 6108 ? 6119[2015]
¡°DesignConsideration of aCurrent-source-output inductive power transfer LED lighting system ,
pp . 3607 ? 3611[2014]
¡°Design of an effective wireless airCharging system for electric unmanned aerial vehicles
¡°Design methodology of a series series inductive power transfer system for electric vehicle batteryCharger application
¡°Design for efficiency optimization and voltageControllability of series-seriesCompensated inductive power transfer systems
vol . 29 , no . 1 , pp . 191 ? 200[2014]
¡°Design and analysis of an adaptive transcutaneous power telemetry for biomedical implants
vol . 52 , no . 10 , pp . 2109 ? 2117 ,[2005]
¡°Coordinated SourceControl for Output Power Stabilization and Efficiency Optimization in WPT Systems
vol . 33 , pp . 3613 ? 3621
¡°ConstantCurrentCharging and Maximum Efficiency TrackingControl Scheme for Supercapacitor WirelessCharging¡±
vol . 33 , no . 10 , pp . 9088-9100 ,[2018]
¡°Coil Design and Measurements of Automotive Magnetic Resonant WirelessCharging System for High-Efficiency and Low Magnetic Field Leakage
vol . 64 , pp . 383 ? 400
¡°BidirectionalCurrent-fed resonant inverter forContactless energy transfer systems
vol . 62 , no . 1 , pp . 238 ? 245 ,[2015]
¡°Automated impedance matching system for robust wireless power transfer viamagnetic resonanceCoupling
vol . 60 , no . 9 , pp . 3689 ? 3698[2013]
¡°Asymmetrical voltageCancellationControl for a series-series fixed-frequency inductive power transfer system
pp . 2971 ? 2977[2014]
¡°Analysis and experimentation of the quad-U variable inductor for power electronics applications¡±
¡°Analysis , design , andControl of a transcutaneous power regulator for artificial hearts
vol . 3 , no . 1 , pp . 23 ? 31[2009]
¡°An optimized track length in roadway inductive power transfer systems
vol . 2 , no . 3 , pp . 598 ? 608[2014]
¡°An adaptive impedance-matching network based on a novelCapacitor matrix for wireless power transfer
vol . 29 , no . 8 , pp . 4403 ? 4413[2014]
¡°A wirelessCharging system applying phase-shift and amplitudeControl to maximize efficiency and extractable power
vol . 30 , no . 11 , pp . 6338 ? 6348[2015]
¡°A self-tuning resonant inductive link transmit driver using quadrature-symmetric phase switched fractionalCapacitance ,
pp . 370 ? 371[2017]
¡°A real-time electricallyControlled active matchingCircuit utilizing genetic algorithms for wireless power transfer to biomedical implants
vol . 64 , no . 2 , pp . 365 ? 374 ,[2016]
¡°A newContactless power signal transmission device for implanted functional electrical stimulation ( FES )
vol . 40 , no . 4 , pp . 2964 ? 2966[2004]
¡°A maximum efficiency point trackingControl scheme for wireless power transfer systems using magnetic resonantCoupling
vol . 30 , no . 7 , pp . 3998 ? 4008[2015]
¡°A high efficiency 5 kW inductiveCharger for EVs using dual sideControl
vol . 8 , no . 3 , pp . 585 ? 595[2012]
[9] Y. Jang and M. M. Jovanovi¢¥c, ¡°A contactless electrical energy transmission system for portable-telephone battery chargers,¡± IEEE Trans. Ind. Electron., vol. 50, no. 3, pp. 520?527, Jun. 2003.
[5] J. M. Arteaga et al., ¡°Multi-MHz IPT systems for variable coupling,¡± IEEE Trans. Power Electronics., vol. 33, no. 9, pp. 7744?7758, Sep. 2018.
[56] C. Karnstedt and C. Buenrostro, ¡°Dynamic tuning in wireless energy transfer systems¡±, U.S. Patent 10141788B2, Nov. 27, 2018.
[51] A. Namadmalan, ¡°Self-oscillating tuning loops for series resonant inductive power transfer systems,¡± IEEE Trans. Power Electron., vol. 31. no. 10, pp. 7320?7327, Oct. 2016.
[36] T. Diekhans and R. W. De Doncker, ¡°A dual-side controlled inductive power transfer system optimized for large coupling factor variations and partial load,¡± IEEE Trans. Power Electron., vol. 30, no. 11, pp. 6320?6328, Nov. 2015.
[35] C. Karnstedt and C. Buenrostro, ¡°Dynamic tuning in wireless energy transfer systems¡±, U.S. Patent 10141788B2, Nov. 27, 2018.
[31] G. A. Covic and J. T. Boys, ¡°Modern trends in inductive power transfer for transportation applications,¡± IEEE J. Emerging. Sel. Topics. Power Electron., vol. 1, no. 1, pp. 28?41, Mar. 2013.
Multi-loop coil supporting uniform mutual inductances for free-positioning WPT
vol . 49 , pp . 417 ? 418
Maximum energy efficiency tracking for wireless power transfer systems
vol . 30 , no . 7 , pp . 4025 ? 4034[2015]
G. A. Covic , and O. H. Stielau , ¡°Investigating an LCL load resonant inverter for inductive power transfer applications
vol . 19 , no . 4 , pp . 995 ? 1002[2004]
Analysis and tracking of optimal load in wireless power transfer systems
vol . 30 , no . 7 , pp . 3952 ? 3963[2015]
'
Development of High Performance/ High Efficiency Wireless Charging System for UAVs = 드돈용 고성능/고효율 무선 충전 시스템 개발'
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