Identyfikatory
Warianty tytułu
Efektywne przetwarzanie energii poprzez ewolucję topologii maszyn elektrycznych
Języki publikacji
Abstrakty
Nowe rozwiązania z zakresie topologii maszyn elektrycznych są szczególnie widoczne w przemyśle samochodowym oraz w napędach dla autonomicznych źródeł energii. W artykule przedstawiono stan obecny oraz perspektywy rozwoju tych napędow oraz niektóre rozwiązania ostatniego okresu. Przedstawiono między innymi topologie hybrydowe oraz współczesne podejście do metodyki porównań różnych wersji napędów, przydatne zwłaszcza w inowacyjnej fazie koncepcji i projektowania przyszłych systemów.
New trends in electrical machine topology are particularly obvious in applications for road vehicles and autonomous energy sources. This paper gives an overview over the state, some last period solution and presents some chosen new machine topologies as well as the energy based method for their comparisons. Machines with hybrid excitation are included as well as suggestion for the definition of some useable synthetic values and parameters to characterise and compare drive versions. They could be especially useful in the early stage of the product development.
Wydawca
Czasopismo
Rocznik
Tom
Strony
49--58
Opis fizyczny
Bibliogr. 33 poz., rys., wykr.
Twórcy
autor
- Robert Bosch GmbH, Corporate Sector Research and Advance Engineering, Stuttgart, anton.paweletz@de.bosch.com
Bibliografia
- [1] Multon B., Bonal J., Les entrainements électromécaniques directs diversité, La conversion électromécanique directe.- ENS Cachan – SEE, 4 février 1999
- [2] Muster M.,Ulrich D., Der Klimawandel als Herausforderung für Technologieführerschaft und Arbeitsplätze der deutschen Automobilindustrie. Manfred Muster Consulting 08.2007
- [3] Lugert G., Smart Systems for Energy and Resource Efficiency, Siemens AG 2007.
- [4] Persson M., Nord G., Pennander L.O, Jack A., Development of Somaloy Components for a BLDC motor in a Scroll Compressor Application, Bursan, Korea, PM 2006,
- [5] J.Shen, Automotive Electric Power and Energy Management – A System Approach. Businesbriefing: Global Automotive Manufacturing&Technology. 2003
- [6] Trah H-P., Mechatronische Systeme bei Bosch. - Bedeutung, Beispiele, Entwurfsmethodik - Kompetenznetzwerk Mechatronik, Göppingen, 9. Mai 2007
- [7] Warzecha A. Polowe metody wyznaczania parametrow elektromagnetycznych modeli obwodowych maszyn elektrycznych. Elektrotechnika i Elektronika T. 25 Z. 12, 2006.
- [8] Murakami H., Hiroyuki Y., The Performance Comparison of SPMSM, IPMSM and SynRM in Use as Air-conditioning Compressor. 1999 IEEE
- [9] Paweletz A., Oszillatorischer Betrieb eines direkt angetriebenen magnetoelektrischen, Linearaktuators, VDE Tagung, Darmstadt, 2004
- [10] Luo X., Lipo T.A., A Synchronous/Permanent Magnet Hybrid AC Machine, IEEE Trans. On Energy Conversion, v. 15, No. 2, June 2000, 203-210
- [11] Howe D., Schofield N. The Future of Electric Motors for Hybrids. Electrical Machines & Drives Research Group University of Sheffield, Joint UK/Japan Automotive Forum for Low Carbon Vehicles, 2nd December 2003
- [12] Johansson, O, Krus P., Configurable design Matrixes for Systems Engineering Applications, Proceedings of IDETC/ CIE2006 ASME 2006, September 10-13, Philadelphia, USA
- [13] Dubois M., Lemieux p., Effect of Machining on the Properties of Resin-Based SMC, National Research Council of Canada-IRAP, July 2006
- [14] Kudla J., Mrozek A., Field-circuit Computations and Measurements of Permanent Magnet Synchronous Motor. Joint Czech -Polish-Slovak Conference, LVEM Brno 2007
- [15] Tóth-Nagy C., Linear Engine Development for Series Hybrid Electric Vehicles Dissertation West Virginia University. Department of Mechanical and Aerospace Engineering, Morgantown, 2004
- [16] Turnbull P., Kuo J., Thermal Analysis of an Electric Machine for a Hybrid Vehicle Visteon Corporation, SAE Technical Papers, Series 2004
- [17] Paszek W., Dynamika maszyn elektrycznych pradu przemiennego. Helion, Gliwice 1998
- [18] Demenko A., Obwodowe modele ukladow z polem elektromagnetycznym. Wydawnictwo Politechniki Poznanskiej. Poznan 2004
- [19] Miller T.J.E., Popescu M., Cossar C., McGilp M.I., Olaru M, Embedded Finite-element Solver for Computation of Permanent-Magnet Brushless Motors, 2006 IEEE, 1478-1485
- [20] Cai W., Comparison and Review of Electric Machines for Integrated Starter Alternator Applications. IAS 2004
- [21] Schönherr K., Paweletz A., A Method for the Evaluation of the Universal Machine Performance by Magnetic Reluctance Network Analysis, ICEM 2004, Krakow
- [22] Dudzikowski I., Gierak D., Paweletz A., Design and Modelling challenges behind the substitution of ferrite by plastic bounded NdFeB Magnets for Small Power Commutator Machines, Poznan, SME 2007.
- [23] Staton D. A., Deodhar R. P., Wen S. L, Miller T.J.E, Torque Prediction Using the Flux-MMF in AC, DC, and Reluctance Motors, IEEE Trans. on Industry Applications, v.32, No. 1, January/February 1996
- [24] Paweletz A., Schenk R., Presentation, Trends Towards Integration of Electric Drives in Automotive Applications. REM - Kielce 2004
- [25] Miller TJE. ,Popescu M, Cossar C., McGilp M.I., Computation of the Voltage-Driven Flux-MMF Diagram for Saturated PM Brushless Motors, IEEE, IAS 2005 1023-1028
- [26] Liao Y., Liang F., Lipo T., A Novel Permanent Magnet Motor with Doubly Salient Structure. University of Wisconsin-Madison 0-7803-0634-1/92 IEEE p.308-314
- [27] Chang L., An Improved FE Inductance Calculation for Electrical Machines, IEEE Translation on Magnetics, Vol 32, NO 4 JULY 1996
- [28] Miller T.J.E., Popescu M., Cossar C., McGilp M., Walker J.A., Calculating the interior permanent-magnet motor SPEED Laboratory, Glasgow, 0-7803-7817-2/03 IEEE
- [29] Chau K. T., Zhang D., Design of a Magnetic-Geared Outer-Rotor Permanent-Magnet Brushless Motor for Electric Vehicles, IEEE Trans. on Magnetics, v. 43, No. 6, June 2007.
- [30] Kock D.,“Hybridfahrzeugtechnologie am Beispiel von Ford”, Management Circle, Frost & Sullivan, B126,14/15 June 2004,
- [31] Lawreson P., Variable Speed Switched Reluctance Motors” IEE Proceedings, Vol.127. No.4, pp 253-256, July 1980.
- [32] Feng L., Binder A. Rentschler A., Paweletz A. Guenther D. Fault Investigation of X-by-wire Permanent Magnet Synchronous Machine. CES/IEEE-PELS Shanghai, August 2006
- [33] Cossar C, Miller TJE., Popescu M., McGilp M. Olaru M., A New On-Line Torque Estimator for Brushless Permanent Magnet Motor Drives: Validation through the I-Psi Diagram. 2006 IEEE
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPOC-0043-0016