Title :
Low-frequency linear motor design using electromagnetic analysis
Author :
Hirayama, Ryu ; Fujisaki, Keisuke ; Matsumori, Sumio
Author_Institution :
Nippon Steel Corp., Chiba, Japan
fDate :
7/1/2004 12:00:00 AM
Abstract :
To decrease the cost of low-frequency linear motor such as M-EMS (in-mold electromagnetic stirring) system and to obtain the process characteristics, it is necessary to estimate the maximum current and voltage as well as the distribution of magnetic flux density precisely. According to the measurement result of the M-EMS unbalanced three-phased electrical circuit, we find out that the standard deviation of the voltages is much smaller than that of currents. Then, it makes clear that the voltage source electromagnetic calculation is useful for the M-EMS design to obtain the maximum current and the magnetic flux density, through the comparison data of the experiment and the calculation.
Keywords :
electromagnetic devices; linear motors; magnetic flux; M-EMS system; electromagnetic analysis; electromagnetic calculation; end effect; in-mold electromagnetic stirring; linear motor design; low-frequency linear motor; magnetic flux density distribution; maximum current esimation; maximum voltage estimation; phase unbalance; standard deviation; three-phased electrical circuit; AC motors; Copper; Current measurement; Electromagnetic analysis; Electromagnetic forces; Electromagnetic measurements; Induction motors; Magnetic flux density; Steel; Voltage; Electromagnetic analysis; electromagnetic stirring; end effect; linear motor; phase unbalance;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.832130
