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A New Modelling Technique for Inductive Power Transfer (IPT) Systems
2021 IEEE 12th Energy Conversion Congress & Exposition - Asia (ECCE-Asia), 2021Loosely coupled IPT systems generally employ compensation networks to reduce reactive power drawn from the supply. Various compensation strategies exist, including four fundamental types with differing characteristics. These must be analyzed and evaluated during IPT system design stages to allow for the best selection according to the IPT application ...
Weihao Dong +2 more
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An Optimal Control Strategy for LCL Tuned Inductive Power Transfer (IPT) Systems
2021 IEEE 12th Energy Conversion Congress & Exposition - Asia (ECCE-Asia), 2021Conventional dual and triple variable control approaches do not offer optimal performance for Wireless power transfer (WPT) systems based on inductive power transfer (IPT) technology, particularly for applications where the system is subjected to variations in the magnetic coupling, component values, and power levels.
Weihao Dong +2 more
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Matlab/Simulink-Based Modeling of Typical Inductive Power Transfer (IPT) System
2020 6th IEEE International Energy Conference (ENERGYCon), 2020This paper presents detailed modeling principles of a typical Inductive Power Transfer (IPT) module using the Matlab/Simulink software. The presented model is based on AC-AC Matrix Converter that are implemented by four MOSFET switch followed by resonance LC circuit.
Sumer S. Hardan +2 more
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A Modular Multi-level Converter (M2LC) based on Inductive Power Transfer (IPT) technology
2012 IEEE Third International Conference on Sustainable Energy Technologies (ICSET), 2012This paper proposes a new Modular Multi-level Converter (M2LC) topology, which is based on an Inductive Power Transfer (IPT) technology. The modified M2LC topology employs an IPT system to control the capacitor voltage of each module, thereby decoupling the capacitor voltage balancing control from the load current control.
Baljit Singh Riar, Udaya Madawala
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2015 17th European Conference on Power Electronics and Applications (EPE'15 ECCE-Europe), 2015
In this contribution the optimal power electronics topology in SS-compensated IPT systems for Electric Vehicles (EVs) is investigated in terms of required rated semiconductor power and efficiency. The novelty of this paper is the focus on high power (> 1 kW) and low output voltage (
Marinus Petersen, Friedrich W. Fuchs
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In this contribution the optimal power electronics topology in SS-compensated IPT systems for Electric Vehicles (EVs) is investigated in terms of required rated semiconductor power and efficiency. The novelty of this paper is the focus on high power (> 1 kW) and low output voltage (
Marinus Petersen, Friedrich W. Fuchs
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2019 21st European Conference on Power Electronics and Applications (EPE '19 ECCE Europe), 2019
Active phase shifting method incorporates change in phase and amplitude of fundamental primary inverter output and secondary rectifier input voltages of a resonant DC/DC converter. This paper presents implementation of this method on four basic topologies of resonant tank configurations or compensation circuits of a resonant converter. Smooth variation
Malvika Kamat, Michael Patt
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Active phase shifting method incorporates change in phase and amplitude of fundamental primary inverter output and secondary rectifier input voltages of a resonant DC/DC converter. This paper presents implementation of this method on four basic topologies of resonant tank configurations or compensation circuits of a resonant converter. Smooth variation
Malvika Kamat, Michael Patt
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Construction and Building Materials, 2017
Inductive Power Transfer (IPT) technology is seen as a promising solution to be applied in an electrified road (eRoad) to charge Electric Vehicles (EVs) dynamically, i.e. while they are in motion.
Feng Chen +3 more
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Inductive Power Transfer (IPT) technology is seen as a promising solution to be applied in an electrified road (eRoad) to charge Electric Vehicles (EVs) dynamically, i.e. while they are in motion.
Feng Chen +3 more
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A model for calculating the magnetic & copper losses of an Inductive Power Transfer (IPT) pad
2013 Twenty-Eighth Annual IEEE Applied Power Electronics Conference and Exposition (APEC), 2013In this paper, an analytical expression is proposed to compute the total losses of a circular pad for Inductive Power Transfer (IPT) system. These losses can be separated into winding losses and core losses. The proposed analytical expression includes both conduction and induction losses due to eddy current effects at high frequency in the winding and ...
Hadi Malek, Hunter H. Wu
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2014 IEEE Transportation Electrification Conference and Expo (ITEC), 2014
Recently loosely coupled inductive power transfer (IPT) has gained worldwide attention for battery charging applications for electric vehicles (EVs). Since a high frequency operation is a must for transferring power inductively over a large air gap with reasonable efficiency, a careful design is needed.
Kunwar Aditya, Sheldon S. Williamson
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Recently loosely coupled inductive power transfer (IPT) has gained worldwide attention for battery charging applications for electric vehicles (EVs). Since a high frequency operation is a must for transferring power inductively over a large air gap with reasonable efficiency, a careful design is needed.
Kunwar Aditya, Sheldon S. Williamson
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2015 IEEE 2nd International Future Energy Electronics Conference (IFEEC), 2015
Modular Multi-level Converter (M2LC) has become increasingly attractive topology for various medium to high voltage applications. However, in comparison with other multilevel converters, circulating currents that are inherent to M2LCs increase the converter losses and complexity of the control scheme.
null Su Zhang +3 more
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Modular Multi-level Converter (M2LC) has become increasingly attractive topology for various medium to high voltage applications. However, in comparison with other multilevel converters, circulating currents that are inherent to M2LCs increase the converter losses and complexity of the control scheme.
null Su Zhang +3 more
openaire +1 more source