Details

Title

Resonant frequency stabilization technique in series-series contactless energy transfer systems

Journal title

Archives of Electrical Engineering

Yearbook

2017

Volume

vol. 66

Issue

No 3 September

Authors

Divisions of PAS

Nauki Techniczne

Publisher

Polish Academy of Sciences

Date

2017

Identifier

DOI: 10.1515/aee-2017-0041 ; ISSN: 1427-4221 ; eISSN: 2300-2506

Source

Archives of Electrical Engineering; 2017; vol. 66; No 3 September

References

Zaheer (2010), Parallel tuned contactless power pickup using saturable core reactor of International Conference on Sustainable Technologies, Proc IEEE Energy, 14, 1. ; Chow (2013), Nan Misalignment tolerable coil structure for biomedical applications with wireless power transfer of th Annual International Conference of the IEEE Engineering in Medicine and Biology, Proc Society, 775. ; Kalwar (null), Inductively coupled power transfer for electric vehicle charging Renewable and Sustainable, review Energy Reviews, 20, 47. ; Boscaino (2012), wireless battery charger architecture for consumer of IEEE Second International Conference on Consumer, electronics Proc Electronics, 1. ; Hu (2006), Switching Frequency Analysis of Dynamically ups of International Conference on System Technology, Power Proc Power, 15, 1. ; Lomonova (2008), Achterberg de Array Structures Compared for Contactless Battery Charging Platform on vol no pp, IEEE Transactions Magnetics, 617. ; Onar (2013), novel wireless power transfer for in - motion charging of Twenty Eighth Conference and Exposition, Proc Annual IEEE Applied Power Electronics APEC, 3073. ; Lee (null), Bidirectional Wireless Transfer EV Charger Using Self - Resonant PWM on vol no pp, Power IEEE Transactions Power Electronics, 21, 1784. ; Woronowicz (2003), Control of Linear Induction Motors by a Compensation Approach of and, Optimised Thrust International Journal Applied Electromagnetics Mechanics, 18. ; Gati (null), Wireless Phase Locked Loop control for inductive Power Transfer Systems of Conference and Exposition, Proc IEEE Applied Power Electronics APEC, 12, 1601. ; Qiang (2012), Achieving maximum power transfer of inductively coupled wireless power transfer system based on dynamic tuning control China Technological vol no pp, Science Sciences, 13, 1886. ; Hu (2004), Improved Flow Control for Contactless Moving Sensor Applications vol no pp, Power IEEE Power Electronics Letters, 17, 135. ; Marcinek (2014), Supply System with DSP Controlled Active Compensation of Parameter Changes ir elektrotechnika vol no pp, Power Elektronika, 18, 11. ; Safaee (2017), Time Domain Analysis of Voltage - Driven Series - Series Compensated Inductive Transfer on vol no pp, Power Topology IEEE Transactions Power Electronics, 22, 4981. ; Chen (2014), Double - coupled systems for roadway IPT systems of Conference and Exposition, Proc IEEE Applied Power Electronics APEC, 1618. ; Stamati (2013), On - road charging of electric vehicles of Transportation Electrification Conference and Expo, Proc IEEE, 1. ; Zheng (2014), Design considerations to reduce gap variation and misalignment effects for inductive power transfer system of th Annual Conference of the IEEE Industrial vol no pp, Proc Electronics Society, 11, 1384. ; Hsu (2009), Wireless Pickup Based on Directional Tuning Control of Magnetic Amplifier on vol no pp, Power IEEE Transactions Industrial Electronics, 16, 2771. ; James (2005), Boys variable inductor based tuning method for ICPT pickups of, Proc International Power Engineering Conference, 24, 1142. ; Hsu (2007), Determining the variable inductance range for an LCL wireless power pickup on and Solid -, IEEE Conference Electron Devices State Circuits, 25, 489. ; Woronowicz (2002), An advanced linear induction motor control approach using the compensation of its parameters in, Electromagnetic Fields Electrical Engineering, 22, 335. ; Kalisiak (2011), power supply system with resonant circuit parameter change compensation of th European Conference on Applications, Proc Power Electronics, 19, 1. ; Erickson (2001), Fundamentals of US, Power Electronics, 23.
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