Optimized And Numerical Models Of Electromechanical Devices Coupled With Computation Of Performance Characteristics

[1] DONG-JOON, S.—DONG-HYEOK, CH.—JANG-SUNG, CH.—HYUN-KYO, J.: Efficiency Optimization of Interior Permanent Magnet Synchronous Motor Using Genetic Algorithms, IEEE Transaction on Magnetics 33 No. 02 (1997), 1880-1883.10.1109/20.582651Search in Google Scholar

[2] GKHAN-YETGIN, A.—TURAN, M.: Efficiency Optimization of Slitted-Core Induction Motor, Journal of Electrical Engineering 65 No. 01 (2014), 60-64.10.2478/jee-2014-0009Search in Google Scholar

[3] NUHRANOVIĆ, A.—HIVZIEFENDIĆ, J.—HADŽIMEHMEDOVIĆ, A.: Distribution Network Reconfiguration Considering Power Losses and Outages Costs Using Genetic Algorithm, Journal of Electrical Engineering 64 No. 05 (2014), 256-271.Search in Google Scholar

[4] SUN, W.—CHEN, Z.—WU, X.: Intelligent Optimize Design of LCL Filter for Three-Phase Voltage-Source PWM Rectifier, IPMC 2009, 970-974.Search in Google Scholar

[5] DAVIDSON, I. E.: Performance Calculation of a Shaded-Pole Single-Sided Linear Induction Motor Using Symmetrical Components and Finite Element Method, Electromotion 4 No. 04 (1997), 139-145.Search in Google Scholar

[6] HAMDI, E. S.: Design of Small Electrical Machines, JohnWiley & Sons, New York, NY, USA, 1994.Search in Google Scholar

[7] WEI, L.—LUKASZEWSKI, R. A.: Optimisation of the Main Inductor in a LCL Filter for Three Phase Active Rectifier, IEEE (2007), 1816-1822.10.1109/07IAS.2007.277Search in Google Scholar

[8] MCLYMAN, W. T.: Transformer and Inductor Design Handbook, CRC Press, Idyllwild, California, USA, 2004.10.1201/9780203913598Search in Google Scholar

[9] LISERRE, M.—BLAABJERG, F.—HANSEN, S.: Design and Control of an LCL Filter Based Three Phase Active Rectifier, IEEE Transaction on Industry Application 41 No. 05 (2005), 1281-1291.10.1109/TIA.2005.853373Search in Google Scholar

[10] MEEKER, D.: Finite Element Method Magnetics, User Manual Version 4.22007.Search in Google Scholar

[11] ZHOU, D.—RAJANATHAN, C. B.—SAPELUK, A. T.—OZVEM, C. S.: Finite Element Aided Design Optimization of a Shaded Pole Induction Motor for Maximum Starting Torque, IEEE Transactions on Magnetics 36 No. 05 (2000), 3551-3554.10.1109/20.908895Search in Google Scholar

[12] AKBABA, M.—FAKHRO, S. Q.: Field Distribution and Iron Loss Computation in Reluctance Augmented Shaded-Pole Motors Using Finite Element Method, IEEE Transactions on Energy Conversion 7 No. 02 (1992), 302-307.10.1109/60.136225Search in Google Scholar

[13] GERSEM, H. DE.—HAMEYER, K.: Time-Harmonic Finite Element Simulation of Shaded-Pole Induction Machine, Proceedings on the ISEF’2001, the 10-th International Symposium on Electromagnetic Fields in Electrical Engineering (2001), 499-502.Search in Google Scholar

[14] GERSEM, H. DE.—HAMEYER, K.: Air-Gap Flux Splitting for the Time-Harmonic Finite-Element Simulation of Single-Phase Induction Machines, IEEE Transactions on Magnetics 38 No. 02 (2002), 1221-1224.10.1109/20.996312Search in Google Scholar