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Właściwości dynamiczne resolvera z osiowym strumienem
Języki publikacji
Abstrakty
The robustness against static eccentricity has caused axial flux resolvers (AFRs) to be proposed in high performance motion control systems. In this paper, the dynamic performance of AFR is predicted using a mathematical model based on d-q axis theory. In particular, the proposed model takes into account the stator currents of brushless AFR and it will be able to model the effect of static eccentricity. Furthermore, it is used to compute the dynamic and steady state equivalent circuits. Finally, the studied AFR is fabricated and tested. Good agreement between simulation results and experimental ones confirms the proposed model.
Analizowano resolver z osiowym strumieniem AFR. Na podstawie modelu matematycznego oceniono właściwości dynamiczne. Szczególną uwagę zwrócono na prąd stojana i efekt ekscentryczności. Przedstawiono układ zastępczy. Zbadano model.
Wydawca
Czasopismo
Rocznik
Tom
Strony
306--310
Opis fizyczny
Bibliogr. 19 poz., rys., tab.
Twórcy
Bibliografia
- [1] L. Sun, "Analysis and improvement on the Structure of variable reluctance resolver", IEEE Trans. on Magn., 44 (Aug. 2002), no. 8, pp. 2002-2008.
- [2] M. Benammar, L. Ben-brahim, M. A. Alhamadi, M. Al-Naemi, "A novel method for estimating the angle from analog cosinusoidal quadrature signals", Sensors and Actuators (Elsevier B.V.), vol. 142, pp. 225–231, 2008.
- [3] M. L. Mingji, Y. Yu, Z. Jibin, L. Yongping, N. Livingstone and G. Wenxue, "A high Error analysis and compensation of multipole resolvers", Meas. Sci. Technol. 10 (1999), pp. 1292–1295.
- [4] X. Li, Q. Wu, and S. Nandi, Performance Analysis of a Three- Phase Induction Machine with Inclined Static Eccentricity”, IEEE Trans. on Industry Applications, 43 (March/April 2007), no. 2, pp. 531-541.
- [5] D.G. Dorrell, W.T. Thomson, and S. Roach, Analysis of Air-Gap Flux, Current, Vibration Signals as a Function of the Combination of Static and Dynamic Air-Gap Eccentricity in 3- Phase Induction Motors, IEEE Trans. on Industry Applications, 33 (Jan./Feb. 1997), no. 1, pp. 24–34.
- [6] A. Bünt, S. Beinek, High-Performance Speed Measurement by Suppression of Systematic Resolver and Encoder Errors , IEEE Trans. on Industrial Electronics, 51 (Feb. 2004), no. 1, pp. 49- 53.
- [7] Y. Huang, Ch. Chen and W. Shu, Finite Element Analysis on Characteristics of Rotary Transformers , IEEE Trans. on Magn, 30 (Nov. 1994), no. 6, pp. 4866-4868.
- [8] H. Inoue, H. Fusayasu and N. Takahari, Investigation of Factors Affecting Crosstalk in a Rotary Transformer , IEEE Trans. on Magn, 33 (March 1997), no 2, pp. 2215-2218.
- [9] K. Masaki, K. Kitazawa, H. Mimura, M. Nirei, K. Tsuchimichi, H. Wakiwaka and H. Yamada, Magnetic Field Analysis of a Resolver with a Skewed and Eccentric Rotor , Elsevier Trans. On Sensors and Actuators, 81 (April 2000), pp. 297-300.
- [10] M. Valtonen, Performance Characteristics of an Axial-Flux Solid-Rotor-Core Induction Motor , Phd thesis, Lappeenranta University of Technology, Lappeenranta, Finland, 2007.
- [11] M. Lukaniszyn, M. Jagiela, R. Wrobel, A Disc Type Motor with Co-axial Flux in the Stator Influence of Magnetic Circuit Parameters on the Torque , Springer-Verlag, Electrical Engineering, 84 (may 2002), no. 2, pp. 91-100.
- [12] W. Jiuqing, L. Xingshan and G. Hong, The Analysis and Design of High-Speed Brushless Resolver Plus R/D Converter Shaft-Angle Measurement System , Electrical Machines and Systems International Conf. (ICEMS 2001) Proc., Shenyang, China, 2001, 1, pp. 289 - 292.
- [13] D. A. Khaburi, F. Tootoonchian and Z. Nasiri-Gheidari, Dynamic Performance Prediction of Brushless Resolver , Iranian Journal of Electrical & Electronic Engineering, 4 (July 2008), no. 3, pp. 94-103.
- [14] D.A. Khaburi, F. Tootoonchian, Z. Nasiri-Gheidari, Parameter Identification of a Brushless Resolver Using Charge Response of Stator Current , Iranian Journal of Electrical & Electronic Engineering, 3 (Jan. 2007), no. 1&2, pp. 42-52.
- [15] C.C. Chan, Axial-Field Electrical Machines Design and Applications , IEEE Tran. on Energy Conversion, EC-2 (June 1987), no. 2, pp. 294-300.
- [16] C. Zhange, K.J. Tseng and T.D. Nguyen, Analysis and Comparison of Axial Flux PM Synchronous Motor and Induction Motor , 9th IEEE International Power & Energy Conf. (IPEC 2010) Proc., Suntec, Singapore, 27 - 29 Oct. 2010, 1, pp. 572- 577.
- [17] P.C. Krause, Analysis of Electrical Machinery , McGraw-Hill series in electrical engineering, Power & energy, 1986.
- [18] C.M. Ong, Dynamic Simulation of Electric Machinery Using Matlab/Simulink , Prentice Hall PTR. Upper Saddle River, New Jersey, 1998.
- [19] Analog Device Company, RDC Datasheets, presented at http://www.analog.com, received at 10 Nov. 2010.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPOB-0050-0073