The Performance Analysis of An AirGapped Transformer Used in Wireless Charging System

Ahmet Fenercioğlu

EN

The Performance Analysis of An AirGapped Transformer Used in Wireless Charging System

Abstract

Abstract - This study included performance analysis studies of an EE core structured and air-gapped transformer which is operated under the network frequency for wireless charging battery of shuttle robots during duty. Proposed design is modelled analitycally and design is verified by 2 dimensional finite element analysis (FEA) and experiments. In this stage unloaded, full loaded, and short circuit analysis of model are simulated and performance is determined according to airgap distance. Primer and seconder currents, voltages, power factor, efficiency, active power, regulation and short-circuit ratios are examined by analysis and experiments. In FEA solutions, input power is 588,28 W, output power is 387,89 W, power factor is 0.31 , flux linkage 238,34.10^-5,regulation is 30,88 %, short-circuit ratio is 70,78 % for 3 mm airgap distance.Airgapped transformers was used in wireless charge station (WCS) and tested. About 63 V voltage and 4.24 A current are applied to Pb-Ac battery group by WSC. 200 Wh energy is transferred wirelessly along 45 minutes.

Keywords

air-gapped transformer,wireless transformer,transformer experiments,EE core

References

Takanashi, H., Sato, Y., Kaneko, Y., Abe, S., ve Yasuda T., A Large Air Gap 3 kW Wireless Power Transfer System for Electric Vehicles , Energy Conversion Congress and Exposition (ECCE), (2012), 269-274.
Li, S. ve Chris, M., Wireless Power Transfer for ElectricVehicle Applications , IEEE Journal of Emerging and Selected Topics in Power Electronics, (2015) 3(1):4-17.
Bloom, M. Ve Niu, G., Design Considerations for Wireless Electric Vehicle Charging, Transportation Electrification Conference and Expo (ITEC), (2013) p.1-6

Details

Primary Language

English

Subjects

-

Journal Section

-

Authors

Ahmet Fenercioğlu This is me

Publication Date

November 7, 2016

Submission Date

November 7, 2016

Acceptance Date

-

Published in Issue

Year 2016 Volume: 5

IZ

https://izlik.org/JA69HF39WT

APA

Fenercioğlu, A. (2016). The Performance Analysis of An AirGapped Transformer Used in Wireless Charging System. Journal of New Results in Science, 5, 159-169. https://izlik.org/JA69HF39WT

AMA

1.Fenercioğlu A. The Performance Analysis of An AirGapped Transformer Used in Wireless Charging System. JNRS. 2016;5:159-169. https://izlik.org/JA69HF39WT

Chicago

Fenercioğlu, Ahmet. 2016. “The Performance Analysis of An AirGapped Transformer Used in Wireless Charging System”. Journal of New Results in Science 5 (November): 159-69. https://izlik.org/JA69HF39WT.

EndNote

Fenercioğlu A (November 1, 2016) The Performance Analysis of An AirGapped Transformer Used in Wireless Charging System. Journal of New Results in Science 5 159–169.

IEEE

[1]A. Fenercioğlu, “The Performance Analysis of An AirGapped Transformer Used in Wireless Charging System”, JNRS, vol. 5, pp. 159–169, Nov. 2016, [Online]. Available: https://izlik.org/JA69HF39WT

ISNAD

Fenercioğlu, Ahmet. “The Performance Analysis of An AirGapped Transformer Used in Wireless Charging System”. Journal of New Results in Science 5 (November 1, 2016): 159-169. https://izlik.org/JA69HF39WT.

JAMA

1.Fenercioğlu A. The Performance Analysis of An AirGapped Transformer Used in Wireless Charging System. JNRS. 2016;5:159–169.

MLA

Fenercioğlu, Ahmet. “The Performance Analysis of An AirGapped Transformer Used in Wireless Charging System”. Journal of New Results in Science, vol. 5, Nov. 2016, pp. 159-6, https://izlik.org/JA69HF39WT.

Vancouver

1.Ahmet Fenercioğlu. The Performance Analysis of An AirGapped Transformer Used in Wireless Charging System. JNRS [Internet]. 2016 Nov. 1;5:159-6. Available from: https://izlik.org/JA69HF39WT