Search results for "Wireless charging"

showing 7 items of 7 documents

Wireless battery charging: E-bike application

2013

Nowadays, Inductive Power Transfer (IPT) represents a widely investigated issue with respect to modern battery charging methods, by providing a wireless solution. IPT is applied across a large variety of applications, from Watt to kWatt power levels. Although IPT features great benefits in terms of safety and comfort, the most significant drawback consists of a relatively poor power conversion efficiency. In this paper, a 100W wireless charging equipment for E-bikes which improves efficiency is proposed. Complete magnetic structure design, as well as transmitter and receiver efficient architectures, are deeply exposed. The efficiency of the designed solution is shown by simulation results.

Battery (electricity)Engineeringbusiness.industryTransmitterEnergy conversion efficiencywireless chargingElectrical engineeringSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciPower (physics)contactless battery chargingbattery chargingMaximum power transfer theoremWirelessinductive power transferbusinessDrawback2013 International Conference on Renewable Energy Research and Applications (ICRERA)
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Investigation of inductive coupling solutions for E-bike wireless charging

2015

Wireless charging of electric vehicle batteries is a major topic for academic and industrial research. The wireless charging is based on the inductive coupling between a primary coil, connected to the grid, and a secondary coil, connected to the vehicle battery. Wireless battery charging provides benefits in terms of comfort for the drivers, who should just park to start the charging operation, without needing to plug in the vehicle. Wireless charging is particularly convenient for E-bike users. For the bicycle charging, the inductive coupling should be implemented through a compact and light-weight solution. In this paper, different options of inductively coupled coils for E- bike charging…

Battery (electricity)Engineeringbusiness.product_categorybusiness.industryElectrical engineeringSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciInductive chargingGridInductive couplingelectric vehicles inductive power transfer magnetic field simulation wireless chargingInductanceHardware_GENERALElectromagnetic coilElectric vehicleWirelessbusiness
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Experimental Characterization of a Double Receiver Dynamic Wireless Charging System

2020

The aim of this work is the characterization of a dynamic wireless charging system low power prototype and the validation of a simplified mathematical model of the employed double D coils. The difference between a single receiver and a dual receiver system is also shown, highlighting how the last one can significantly reduce the costs of the charging infrastructure.

Dynamic chargingWork (thermodynamics)Computer sciencebusiness.industry020208 electrical & electronic engineering05 social scienceswireless charging02 engineering and technologySettore ING-IND/32 - Convertitori Macchine E Azionamenti Elettrici7. Clean energyDynamic chargingDual (category theory)Power (physics)Characterization (materials science)Settore ING-IND/31 - Elettrotecnica0202 electrical engineering electronic engineering information engineeringElectronic engineeringWireless0501 psychology and cognitive sciencesinductive power transferbusiness050107 human factorsReceiver system
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Physiological compatibility of wireless chargers for electric bicycles

2015

The Inductive Power Transfer represents a viable solution of wireless battery charging for all users of electric mobility. This method brings some benefits to the electric vehicles, being a convenient technique, compared to the conventional wire-based battery charging. Among the electric vehicles, the electric bicycles particularly fit with this innovative method of battery charging. Nevertheless, the physiological effects of the produced magnetic fields need to be taken into account. In this paper, the design of an Inductive Power Transfer system for E-bike wireless battery charging is presented and the measurements concerning the surrounding magnetic field are provided in order to validat…

Engineeringbusiness.industryElectrical engineeringwireless chargingelectric bicycleSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciMagnetic fieldSettore ING-IND/31 - ElettrotecnicaHardware_GENERALCompatibility (mechanics)Maximum power transfer theoremWirelessphysiological compatibilityinductive power transferbusinesselectric mobility
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An Iterative Method for Bifurcation-Free Resonant Inductive Power Transfer System Design

2021

The development of electric mobility makes the charging systems one of the main discussed topic. Among the different technologies, Resonant Inductive Power Transfer (RIPT) systems are in deep study. Several aspects, including the choice of coils, the compensation network and the bifurcation phenomenon are necessary for a proper design of the system. In this paper an iterative method for bifurcation-free RIPT system design is provided as a valid solution to the need of accurate models requiring low computational efforts.

Mathematical modelComputer sciencebusiness.industryIterative methodwireless chargingmodelingSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciCompensation (engineering)resonant inductive power transfer (RIPT)Electronic engineeringMaximum power transfer theoremWirelessSystems designBifurcationbusinessBifurcationVoltage2021 10th International Conference on Renewable Energy Research and Application (ICRERA)
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Inductive Power Transfer for 100W battery charging

2013

Today, Inductive Power Transfer (IPT) is widely investigated to provide wireless battery charge. Potential applications range from a few Watts of handheld devices to kWatts of automotive applications. Despite of comfort and safety options, wireless charging features relatively poor power conversion efficiency. In the literature, several solutions are proposed addressing efficiency related issues. In this paper, a 100W wireless charging station for electric bikes which improves the power conversion efficiency is proposed. The magnetic structure design is analyzed thoroughly as well as the proposed power electronics system architectures of both the power transmitter and power receiver. The ef…

Trickle chargingEngineeringbusiness.industrywireless chargingElectrical engineeringSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciInductive power transfercontactless battery charging.Settore ING-INF/01 - ElettronicaMaximum power point trackingCharging stationHardware_GENERALPower modulePower electronicsbattery chargingElectronic engineeringMaximum power transfer theoremAutomotive batteryElectric powerbusinessIECON 2013 - 39th Annual Conference of the IEEE Industrial Electronics Society
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Wireless Power Transfer for Electric Vehicles: System Design Approach and Energy Storage Characterization

2023

This thesis is the result of the research work carried out as part of the PhD course in Energy and Information Technology between November 2019 and January 2023 at the University of Palermo jointly with the University of Lisbon. The research project has been focused on wireless charging systems for electric vehicles. A wide-ranging analysis was conducted on the topic, with a particular focus on the design aspects of these systems. This thesis, a summary of the work carried out over the previous three years, is organized into two parts, identifying the macro research activities into which the project was been divided. The first part is focused on the design approach of the Wireless Power Tra…

Vehicle ChargingWireless Power TransferWireless chargingEnergy StorageSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciElectric VehiclesEnergy Conversion
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