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Course Catalog 2013-2014
ELT-41736 Analysis of Electromagnetic Systems, 5 cr |
Additional information
The courses ELT-41726 Background for Electromagnetic Systems and ELT-41736 Analysis of Electromagnetic Systems contain central concepts and mathematical tools used in electrical engineering. Some attention is also paid on proper working methods to aid the further studies at TUT. The courses are primarily intended for students of the international EE-programme (RF-major), with some prior familiarity with the contents. But also other students without prior familiarity can take them as intensive courses.
Person responsible
Jari Kangas
Lessons
Study type | P1 | P2 | P3 | P4 | Summer | Implementations | Lecture times and places |
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Requirements
Exam, and three labs. Exam is preferably taken by completing a set of tasks.
Completion parts must belong to the same implementation
Learning Outcomes
After completing the course, the student is able to explain the laws of electromagnetism: the Maxwell laws and the constitutive laws. Student is capable of recognizing the connections between circuit and field analysis. Student is able to apply multivariable and vector analysis to work with static, quasistatic and general time dependent EM laws. Student is capable of utilizing Matlab to solve and visualize related problems. Student has gained experience on constructing simple electronic devices such as amplifier and filter, and knows about issues related to electromagnetic compatibility.
Content
Content | Core content | Complementary knowledge | Specialist knowledge |
1. | Elementary semiconductors: diodes, bipolar transistors, operational amplifiers. | ||
2. | Multivariable analysis and its applications in electromagnetic theory. Multivariable Taylor series, linearization. Field view of electromagnetic phenomena. Electrostatics, magnetostatics, potentials. Electromagnetic induction, Ampere-Maxwell law. Time-harmonic fields. | ||
3. | Energy, Poynting's theorem, Thevenin-Norton equivalent, system impedances. | Circuit elements in terms of field quantities. | |
4. | Electromagnetic waves: plane, monochromatic, polarization of waves. Energy transmission, Poynting's theorem. Propagation in media, behavior at interfaces. Origin of waves. Hertz dipole. | ||
5. | Basics about electromagnetic compatibility. |
Instructions for students on how to achieve the learning outcomes
The recommended way to take the exam includes various tasks: homework problems and minor exams. The exam determines the grade. The labs are mandatory to pass, and bonus will be awarded from their high quality. To get a grade 3, student needs to have good knowledge of the core content. For higher grades, student need to know well the core content and also have complementary knowledge.
Assessment scale:
Numerical evaluation scale (1-5) will be used on the course
Partial passing:
Study material
Type | Name | Author | ISBN | URL | Edition, availability, ... | Examination material | Language |
Lecture slides | Available from the course homepage | Yes | English |
Prerequisites
Course | Mandatory/Advisable | Description |
ELT-41716 Introduction to Radio Frequency Electronics | Advisable | |
ELT-41726 Background for Electromagnetic Systems | Advisable |
Prerequisite relations (Requires logging in to POP)
Correspondence of content
Course | Corresponds course | Description |
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More precise information per implementation
Implementation | Description | Methods of instruction | Implementation |