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E-ÇEKİRDEK ÇAPRAZ AKI MAKİNASININ EGZERSİZ BİSİKLETİ UYGULAMASI İÇİN ANALİZİ

ANALYSIS OF THE E-CORE TRANSVERSE FLUX MACHINE FOR INDOOR TRAINING BIKE APPLICATION

Journal Name:

  • Gazi Üniversitesi Mühendislik-Mimarlık Fakültesi Dergisi

Publication Year:

  • 2014

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
In this paper, the different working structure and unique design of the E-Core Transverse Flux Machine that is combined of transverse flux and reluctance principle is investigated for training bike application. Also, static magnetic characteristics of the machine are obtained with finite element analysis and experimental measurements. The modeling of the E-Core Transverse Flux Machine and its driver system are given. The whole system with all control algorithms for a training bike application is simulated and the performance curves are presented. Finally, the experimental tests done at the laboratory for the indoor training bike application are compared and verified with the results of the simulation.
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Abstract (Original Language): 
Bu çalışmada, çapraz akı ve relüktans prensibini birleştiren farklı bir yapıya sahip E-Çekirdek Çapraz Akı Makinası ve egzersiz bisikleti uygulamasındaki çalışma şekli analiz edilmektedir. Öncelikle, sonlu elemanlar analizi ve deneysel yöntemlerle makinanın statik performans karakteristikleri elde edilmektedir. Ardından, EÇekirdek Çapraz Akı Makinası ve sürücü düzeneği modellenmekte ve uygulamanın kontrol algoritmalarını da içeren tüm sistem düzeneğinin simülasyonu ile makinanın dinamik performans dalga şekilleri verilmektedir. Son olarak ise, oluşturulan egzersiz bisikleti uygulamasının laboratuar ortamında oluşturulan deney düzeneği ile makinanın performans değerleri elde edilerek simülasyon sonuçları doğrulanmaktadır.
FULL TEXT (PDF): 
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REFERENCES

References: 

1. Laithwaite E.R., Easham J.F., Bolton H.R.,
Fellows T.G., “Linear Motors with Transverse
Flux”, Proceedings of the Institution of
Electrical Engineers, 118, 1761-1767, 1971.
2. Bolton H.R., Fellows T., Laithwaite E.R.,
Needham E.F., “Linear Induction Motor”, US
Patent, US3585423, 1971.
3. Easham J.F., Laithwaite E.R., Fellows
T.G.,.Bromilow D.J.E, “Linear Induction
Motors”, US Patent, US3958138, 1976.
4. Weh H., May H., “Electrical Machines”, US
Patent, US4663551, 1987.
5. Weh H., May H., “Permanent Magnet
Syncronous Machine with Transverse Flux
Paths”, German Patent, DE3602687, 1987.
6. Hoffman H., Weh H., Landrath J., “New
Permanent Magnet Excited Synchronous
Machine with High Efficiency at Low Speeds,
Proceedings of the International Conf. on
Electrical Machines, Italy, 35-39, 1988.
7. Weh H., “Low-Vibration Configuration of
Trannsverse Flux Machines”, German Patent,
DE3827450, 1990.
8. Henneberger G., Bork M., “Development of a
New Transverse Flux Motor”, IEE Colleqium
on New Topologies for Permanent Magnet
Machines, 1-6, 1997.
9. Liu C.T., Kuo J.K., “Experimental Investigation
and 3D Modeling of Linear Variable-Reluctance
Machine with Magnetic Flux Decoupled
Windings”, IEEE Transactions on Magnetics,
Vol 30, No 6, 4937-4739, Nov.1994.
10. Liu C.T., Kuo J.K., “Improvements on Transient
Characteristics of Transverse Flux Homopolar
Linear Machines Using Artificial Knowledge
Based Strategy”, IEEE Transactions on
Energy Conversion, Vol 10, No 2, 275-285,
1995.
11. Kruse R., Pfaff G., Pfeiffer C., “Transverse Flux
Reluctance Motor for Direct Servo Drive
Applications”, IEEE Industry Application
Conference, Vol 1, 655-662, 1998.
12. Viorel I.A., Crivii M., Lowenstein L., Szabo L.,
Gutman M., “Direct Drive Systems with
Transverse Flux Reluctance Motors”, National
Conference of Electrical Drives, 2004.
13. Kaehler C., Verselen W., Groening I.,
“Transverse Flux Reluctance Machine and
E-Çekirdek Çapraz Akı Makinasının Egzersiz Bisikleti Uygulaması için Analizi Ç. Gündoğan ve ark.
Gazi Üniv. Müh. Mim. Fak. Der. Cilt 29, No 1, 2014 69
Method for Manufacturing Serve”, US Patent,
No 2009/0026869, 29 January 2009.
14. Carlisle B.R., “Transverse Flux Switched
Reluctance Motor and Control Methods”, US
Patent, No 2006/0091755, May 4, 2006.
15. Lange A., “Transverse Flux Motor with
Magnetic Floor Gap”, US Patent, No:5777418,
Jun 17, 1996.
16. Rasmussen P.O., “Transverse Flux Machine
with Stator Made of E-Shaped Laminations”, US
Patent, US7312549, 2004.
17. Gundogan Turker C., Erfan Kuyumcu F., “The
Modeling of the E-Core Transverse Flux
Machine Based on Neural Network”,
International Review of Electrical
Engineering, Vol 5(4),1477-1487, 2010.
18. Gundogan Turker C., Erfan Kuyumcu F., Türker
Tokan N.,, “Performance Of Support Vector
Regression Machines On Determining The
Magnetic Characteristics Of The E-Core
Transverse Flux Machine”, Turkish Journal of
Electrical and Computer Engineering,
DOI:10.3906/elk-1301-84,2013,
19. Gao, H., Salmasi, F.R., Ehsani, M., “Inductance
Model-Based Sensorless Control of the Switched
Reluctance Motor Drive at Low Speed”, IEEE
Transactions on Power Electronics, Vol 19,
No 6, 1568-1573, 2004.
20. Rasmussen, P.O., Madsen, T.F., Shajarati, O.,
“Advanced Exercise Bike with an E-Core
Transverse Flux Machine”, The Korean
Institute of Power Electronics, KIPE, Korea,
243-246, 2003.
21. Andersen, T.O., Rasmussen, P.O., Pedersen
H.C., “Design and Control of a Lat Pully
Exercise Machine with an E-Core Transverse
Flux Machine Being the Load”, 10th
International Workshop on Research and
Education in Mechatronics, 2009.

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