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2010. 11. 25 Photonic Systems Laboratory School of EE, Seoul National University Photonic Systems Lab School of EECS, S.N.U. Electro-Magnetic Fields I.

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Presentation on theme: "2010. 11. 25 Photonic Systems Laboratory School of EE, Seoul National University Photonic Systems Lab School of EECS, S.N.U. Electro-Magnetic Fields I."— Presentation transcript:

1 2010. 11. 25 Photonic Systems Laboratory School of EE, Seoul National University Photonic Systems Lab School of EECS, S.N.U. Electro-Magnetic Fields I Experiment #6 FEMM (Finite Element Method Magnetics)

2 Photonic Systems Lab School of EECS, S.N.U. FEMM ? Finite Element Method Magnetics Finite Element Method - Technique to solve partial differential equation 1. Divide the objects in finite element 2. Determine points of contact 3. Approximate differential eq. of the points to 1 st order differential eq., and solve it Not only electromagnetism problems, but also heat, and current flow problems

3 Photonic Systems Lab School of EECS, S.N.U. FEMM Window Modeling Solving Scaling Moving Grid on/off Dot on a grid (Recommend to use) Coordinate

4 Photonic Systems Lab School of EECS, S.N.U. FEMM Flow Sequence 1. Modeling 2. Select Material 3. Determine Boundary Condition, Current 4. Solve the equation 5. Analysis

5 Photonic Systems Lab School of EECS, S.N.U. 1. Modeling 1.Dot a point : Left click to dot on a screen, or enter Tab key and enter a coordinate. 2. Draw a line : Left click starting and ending point in order. 3. Draw an arc : Same as above method. Except a process to determine an angle. - If you want to select what you drew, then click proper menu and right click on the object. It is possible to select multiple element. - If you want to delete what you drew, then right click and enter delete key. 1 2 3

6 Photonic Systems Lab School of EECS, S.N.U. 2. Select Material(1) 1. Click material menu 2. Left click on the material 3. Right click a point, and enter space 4.You can’t select any material. So see next page! 1 23

7 Photonic Systems Lab School of EECS, S.N.U. 2. Select Material(2) 1. Select built-in material Properties -> Materials library Drag & Drop 2. Select new material Properties -> Materials -> add property Load B-H curve.txt Ex) Air -> ( 공기 ) PM Materials\NdFeB Magnets\NdFeB 32MGOe -> ( 자석 ) Soft Magnetic Materials\Silicon Iron\M-19 -> ( 자석 ) Solid None-Magnetic Conductors\Copper -> ( 구리 )

8 Photonic Systems Lab School of EECS, S.N.U. 2. Select Material(3) 3. Set material in a proper range - Determine size of mesh to calculate. - It is usually checked, but you can uncheck it and change the mesh size. Display a direction of magnetization

9 Photonic Systems Lab School of EECS, S.N.U. 3. Determine Boundary Condition(1) 1. Properties -> Boundary -> Add Property 2. Select boundary and Enter space Generally, set 0 on the boundary of Air You can see that boundary property Zero has been made

10 Photonic Systems Lab School of EECS, S.N.U. 3. Determine Current(2) 1. Properties -> Circuits (1) Set current (2) Make a name and Save it - If you click Series, a direction of current is set orthogonal to the screen 2. Properties -> Materials -> Add property (1) Set current (2) Make a name and Save it 1. 2.

11 Photonic Systems Lab School of EECS, S.N.U. 3. Determine Current(3) 3. Material menu -> Select material (1)Click Material menu (2) Select material(right click) which you want to set current (3) Click In circuit menu, you can see what you saved at 1,2. - If you click Series, you can set Number of Turns

12 Photonic Systems Lab School of EECS, S.N.U. 4. Solve The Equation 1. Save 2. Click 1,2,3 3. See result 1 2 3 Divided finite element (determined by mesh size)

13 Photonic Systems Lab School of EECS, S.N.U. 5. Analysis(1) 1 2 3 1.Contour plot : show Flux line 2.Density plot : show Flux density (Check Show density plot) 3.Vector plot : show Vector field 2. 3. Click a point where you want to know a value 1.

14 Photonic Systems Lab School of EECS, S.N.U. 5. Analysis(2) 4. X-Y plot click Draw line menu -> select line to plot click Plot menu -> set plot type 4. 5. 5. Integrate : click Range select menu -> set range click Integrate menu -> set value to integrate D P EX) Magnetic field energy R I

15 Photonic Systems Lab School of EECS, S.N.U. Pre-report 1.Draw a Magnet Air M-19 steel NdFeB 32 MGOe (set proper direction) 2.Draw an Electromagnet Copper (same magnitude, opposite direction) (Hint : set mesh size properly) In pre-report, you have to include drawings which has mesh lines, and flux lines same as above. (Total 4 drawings)

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