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Animated Magnetic Field of 3-Phase Cable
Posted 22 mar 2017, 12:47 GMT-4 Low-Frequency Electromagnetics 2 Replies
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Hello,
I tried using the model "www.comsol.de/model/electromagnetic-forces-on-parallel-current-carrying-wires-131" to create a 3-phase cable carrying current with a 120° phase shift. I use the time domain and first I tried to set three different current parameters like " 6[A]*sin(2*pi*50[Hz]*t[s]+120[deg]) " and now I tried to use directly the term " 6[A]*sin(2*pi*50[Hz]*t[s]+120[deg])/(pi*r^2) " as external current density. But unfortunatley the resuting magentic field does not behave as expected. The attached .gif shows the magentic field, which is not correctly in phase. I also attached the .mph-file.
I want to use the time domain, because I want to animate the magnetic field. But I was wondering what the frequency domain can show me after calculation because when I shuld get an alternating field it showed e stationary field around each of the three wires.
Can someone help me?
I tried using the model "www.comsol.de/model/electromagnetic-forces-on-parallel-current-carrying-wires-131" to create a 3-phase cable carrying current with a 120° phase shift. I use the time domain and first I tried to set three different current parameters like " 6[A]*sin(2*pi*50[Hz]*t[s]+120[deg]) " and now I tried to use directly the term " 6[A]*sin(2*pi*50[Hz]*t[s]+120[deg])/(pi*r^2) " as external current density. But unfortunatley the resuting magentic field does not behave as expected. The attached .gif shows the magentic field, which is not correctly in phase. I also attached the .mph-file.
I want to use the time domain, because I want to animate the magnetic field. But I was wondering what the frequency domain can show me after calculation because when I shuld get an alternating field it showed e stationary field around each of the three wires.
Can someone help me?
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2 Replies Last Post 23 mar 2017, 13:52 GMT-4