Details

Title

Research on the influence of driving harmonic on electromagnetic field and temperature field of permanent magnet synchronous motor

Journal title

Archives of Electrical Engineering

Yearbook

2017

Volume

vol. 66

Issue

No 2 June

Authors

Divisions of PAS

Nauki Techniczne

Publisher

Polish Academy of Sciences

Date

2017

Identifier

DOI: 10.1515/aee-2017-0022 ; ISSN: 1427-4221 ; eISSN: 2300-2506

Source

Archives of Electrical Engineering; 2017; vol. 66; No 2 June

References

Liang (2014), Analytical Modeling of Current Harmonic Components in PMSM Drive With Voltage - Source Inverter by SVPWM Technique on vol no pp, IEEE Transactions Energy Conversion, 1. ; Cao (2010), Comparison of Stray Load and Inverter - Induced Harmonic Losses in Induction Motors Using Calorimetric and Harmonic Injection on Industry vol no pp, Methods IEEE Transactions Applications, 46. ; Chaithongsuk (2009), On the Use of Pulse Width Modulation Method for the Elimination of Flux Density Harmonics in the Air - Gap of Surface PM Motors on vol no pp, IEEE Transactions Magnetics, 13, 45. ; Wang (2013), Novel Filter for Stator Harmonic Currents Reduction in Six - Step Converter Fed Multiphase Induction Motor Drives on vol no pp, IEEE Transactions Power Electronics, 12, 28. ; Lee (2008), Torque Ripple Reduction of Interior Permanent Magnet Synchronous Motor Using Harmonic Injected Current on vol no pp, IEEE Transactions Magnetics, 16, 1582. ; Yamazaki (2009), Loss Investigation of Interior Permanent - Magnet Motors Considering Carrier Harmonics and Magnet Eddy Currents on Industry Applications vol no pp, IEEE Transactions, 45. ; Lee (2012), Numerical Investigation on Torque Harmonics Reduction of Interior PM Synchronous Motor with Concentrated Winding on vol no pp, IEEE Transactions Magnetics, 48, 927. ; Wang (2014), Phase - shifted chaotic SVM for harmonic performance improvement in paralleled voltage - source inverters fed PMSM drive International Application Conference and Exposition Shanghai pp, Power Electronics, 14, 670. ; Jeong (2013), Current Harmonics Loss Analysis of kW Traction Interior Permanent Magnet Synchronous Motor Through Co - Analysis of d hbox - q Axis Current Control and Finite Element Method on vol no pp, IEEE Transactions Magnetics, 150. ; Lu (null), Compensation for harmonic flux and current of permanent magnet synchronous motor by harmonic voltage International Symposium on Knowledge Acquisition and Modeling, null, 15, 1. ; Li (2014), Research on vibration and noise of permanent magnet motor under low order harmonic current Transportation Electrification Asia - Pacific IEEE Beijing pp, null, 20, 1. ; Hwang (2014), The Current Harmonics Elimination Control Strategy for Six - Leg Three - Phase Permanent Magnet Synchronous Motor Drives on vol no pp, IEEE Transactions Power Electronics, 3032. ; Boglietti (2010), General Model to Predict the Iron Losses in PWM Inverter - Fed Induction Motors on Industry Applications vol no pp, IEEE Transactions, 11, 1882. ; Yamazaki (2012), Harmonic Loss and Torque Analysis of High - Speed Induction Motors on Industry Applications vol no pp, IEEE Transactions, 48, 933. ; Li (2010), Loss calculation and thermal simulation analysis of high - speed PM synchronous generators with rotor topology International Conference on Computer Application and System Modeling, null, 17, 612. ; Witczak (2014), Modal - frequency spectrum of magnetic flux density in air gap of permanent magnet motor of vol no pp, Archives Electrical Engineering, 18, 63. ; Li (2011), Calculation and Analysis of Heat Transfer Coefficients and Temperature Fields of Air - Cooled Large Hydro - Generator Rotor Excitation Windings on vol no pp, IEEE Transactions Energy Conversion, 21, 946. ; Wang (null), Performance evaluation of fractional - slot tubular permanent magnet machines with low space harmonics of vol no pp, Archives Electrical Engineering, 655. ; Zhou (2016), PWM Strategy With Minimum Harmonic Distortion for Dual Three - Phase Permanent - Magnet Synchronous Motor Drives Operating in the Over modulation Region on vol no pp, IEEE Transactions Power Electronics, 19, 31.
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