Mickel Budhia scite author profile

Inductive power transfer is a practical method for recharging electric vehicles because it is safe, convenient, and reliable. The performance of the magnetic couplers that transfer power determines the overall feasibility of a complete system. Circular couplers are the most common topology in the literature; however, they have fundamentally limited coupling. Their flux patterns necessarily limit the operational air gap as well as tolerance to horizontal misalignment. A new polarized coupler topology [referred to as a double D (DD)] is presented, which overcomes these difficulties. DDs provide a charge zone five times larger than that possible with circular pads for a similar material cost and are smaller. A 0.31-m 2 DD enables 2 kW of power transfer over an oval area measuring 540 mm × 800 mm with a 200-mm air gap. Leakage magnetic fields have been investigated and show that circular and DD couplers operating under similar power transfer conditions produce similar levels. Both topologies can be designed and operated to ensure compliance with international guidelines.Index Terms-Contactless power transfer, magnetic analysis, magnetic fields.

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Design and Optimization of Circular Magnetic Structures for Lumped Inductive Power Transfer Systems

Budhia

Covic

Boys

2011

IEEE Trans. Power Electron.

885

336

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A new IPT magnetic coupler for electric vehicle charging systems

2010

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Development and evaluation of single sided flux couplers for contactless electric vehicle charging

et al. 2011

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Design and optimisation of magnetic structures for lumped Inductive Power Transfer systems

Budhia

Covic

Boys

2009

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Mickel Budhia

Development of a Single-Sided Flux Magnetic Coupler for Electric Vehicle IPT Charging Systems

Design and Optimization of Circular Magnetic Structures for Lumped Inductive Power Transfer Systems

A new IPT magnetic coupler for electric vehicle charging systems

Development and evaluation of single sided flux couplers for contactless electric vehicle charging

Design and optimisation of magnetic structures for lumped Inductive Power Transfer systems

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