The course is focused on formulation of Electromagnetic Field problems, its qualitative aspects, description of the stationary states, description of the computing methods and models of electromagnetic field applications.
Topics: Electromagnetic Field Equations. Technical Conditions. Boundary Conditions. Electromagnetic Field States.Formulation of a stationary state. Scalar potential. Laplace Equations. Vector potential. Electrostatic State; Magnetostatic state. Finite Elements Method. QUICK FIELD and FEMM modeling of Electromagnetic Field Applications
8.1 Course T
1.1. Electromagnetic field equations
1.2 Technical conditions
1.3 Boundary conditions
1.4 The states of electromagnetic field (Static, Steady, Quasistationary, Variable) Writing on the blackboard. Using the laptop and video-projector Teaching is based on oral presentation. Expositive and questioning methods are used. Course materials are lecture notes and presentations 8h
2.1 Formulation of a static and stationary state problem (technical aspects, system of equations, the uniqueness of the solution,boundary conditions) 2.2.Electrostatics . Scalar Potential , Laplace Equation.
2.3. Magnetostatics and Stationary Magnetic Field.Vector magnetic potential 10h
3.1 Finite Elements Method
3.2 QUICK FIELD , FEMM etc – modelling the applications of electromagnetic field 10h
Bibliography
http://fils.curs.pub.ro/2016/my/ QFIELD, FEMM WEB SITES
Tutorial
L1- Using software FEMM Qfield and numerical analysis of electromagnetic field - modeling the point charge distributions - Preliminary lab Writing explanations on the blackboard. Using specialised software to create CAD of electromagnetic field 2h
L2 – Microstrip line. Testing of the mesh network, permittivity, charge 2h
L3- The parallel plates capacitor with one or several dielectric layers. Testing of the mesh network, permittivity, charge 2h
L4- The cylindrical capacitor . Testing of the mesh network, permittivity, charge 2h
L5- Modelling of the magnetic circuit with one coil and one loop. Testing of the mesh network, permeability, current 2h
L6- Modelling a magnetic circuit with two coils and loops. Testing of the mesh network, permeability, current 2h
L7- Modelling of the magnetic circuit with variable air gap
Testing of the mesh network, permeability, current, air-gap dimensions 2h
Topics: Electromagnetic Field Equations. Technical Conditions. Boundary Conditions. Electromagnetic Field States.Formulation of a stationary state. Scalar potential. Laplace Equations. Vector potential. Electrostatic State; Magnetostatic state. Finite Elements Method. QUICK FIELD and FEMM modeling of Electromagnetic Field Applications
8.1 Course T
1.1. Electromagnetic field equations
1.2 Technical conditions
1.3 Boundary conditions
1.4 The states of electromagnetic field (Static, Steady, Quasistationary, Variable) Writing on the blackboard. Using the laptop and video-projector Teaching is based on oral presentation. Expositive and questioning methods are used. Course materials are lecture notes and presentations 8h
2.1 Formulation of a static and stationary state problem (technical aspects, system of equations, the uniqueness of the solution,boundary conditions) 2.2.Electrostatics . Scalar Potential , Laplace Equation.
2.3. Magnetostatics and Stationary Magnetic Field.Vector magnetic potential 10h
3.1 Finite Elements Method
3.2 QUICK FIELD , FEMM etc – modelling the applications of electromagnetic field 10h
Bibliography
http://fils.curs.pub.ro/2016/my/ QFIELD, FEMM WEB SITES
Tutorial
L1- Using software FEMM Qfield and numerical analysis of electromagnetic field - modeling the point charge distributions - Preliminary lab Writing explanations on the blackboard. Using specialised software to create CAD of electromagnetic field 2h
L2 – Microstrip line. Testing of the mesh network, permittivity, charge 2h
L3- The parallel plates capacitor with one or several dielectric layers. Testing of the mesh network, permittivity, charge 2h
L4- The cylindrical capacitor . Testing of the mesh network, permittivity, charge 2h
L5- Modelling of the magnetic circuit with one coil and one loop. Testing of the mesh network, permeability, current 2h
L6- Modelling a magnetic circuit with two coils and loops. Testing of the mesh network, permeability, current 2h
L7- Modelling of the magnetic circuit with variable air gap
Testing of the mesh network, permeability, current, air-gap dimensions 2h
- Enseignant: Oana Mihaela DROSU