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Course info
KTE / MVFT
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Course description
Department/Unit / Abbreviation
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KTE
/
MVFT
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Academic Year
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2018/2019
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Academic Year
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2018/2019
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Title
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Modeling of Radio-frequency Systems
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Form of course completion
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Pre-Exam Credit
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Form of course completion
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Pre-Exam Credit
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Accredited / Credits
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Yes,
3
Cred.
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Type of completion
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-
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Type of completion
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-
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Time requirements
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Lecture
2
[Hours/Week]
Tutorial
1
[Hours/Week]
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Course credit prior to examination
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No
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Course credit prior to examination
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No
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Automatic acceptance of credit before examination
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Yes in the case of a previous evaluation 4 nebo nic.
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Included in study average
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NO
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Language of instruction
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Czech
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Occ/max
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Automatic acceptance of credit before examination
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Yes in the case of a previous evaluation 4 nebo nic.
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Summer semester
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0 / -
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0 / -
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0 / -
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Included in study average
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NO
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Winter semester
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0 / -
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0 / -
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1 / -
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Repeated registration
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NO
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Repeated registration
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NO
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Timetable
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Yes
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Semester taught
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Winter semester
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Semester taught
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Winter semester
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Minimum (B + C) students
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10
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Optional course |
Yes
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Optional course
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Yes
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Language of instruction
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Czech
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Internship duration
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0
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No. of hours of on-premise lessons |
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Evaluation scale |
S|N |
Periodicity |
každý rok
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Periodicita upřesnění |
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Fundamental theoretical course |
No
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Fundamental course |
No
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Fundamental theoretical course |
No
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Evaluation scale |
S|N |
Substituted course
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KTE/SPEP
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Preclusive courses
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N/A
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Prerequisite courses
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N/A
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Informally recommended courses
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N/A
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Courses depending on this Course
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N/A
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Histogram of students' grades over the years:
Graphic PNG
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XLS
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Course objectives:
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In this course students learn about the possibilities of modelling radio-frequency systems. Students will solve practical tasks of analysis and design of radio-frequency systems. The course is focused mainly on practical work of students with programs for simulation and modelling. Students will be introduced to the theory of RF field necessary for understanding solved problems and also to numerical methods for solving RF electromagnetic field.
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Requirements on student
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The development of the semester work.
Obtaining of at least 60% point from the test in the second half of the course.
Demonstration of acquired skills by the practical task at the end of the semester.
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Content
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Introduction to the theory of RF electromagnetic field. Overview of methods for solving electromagnetic field (Finite Difference method, Finite Element Method, Boundary Element Method, Finite Volume Method). Creating Geometry, Geometry import, creation of computer networks. Simplification of geometry, 2D problems, 3D problems. Solving field in the time domain and frequency domain. Sources of electromagnetic fields, near field, far field, boundary conditions, material properties. Calculation of S-parameters, impedances, far field. Modelling of antennas, microwave circuits, wave guides. Possibility of connection with electric circuits. Coupled problems - microwave heating.
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Activities
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Fields of study
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Guarantors and lecturers
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Literature
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Time requirements
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All forms of study
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Activities
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Time requirements for activity [h]
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Individual project (40)
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40
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Contact hours
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39
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Total
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79
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Prerequisites
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Knowledge - students are expected to possess the following knowledge before the course commences to finish it successfully: |
No particular prerequisites specified. |
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Learning outcomes
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Knowledge - knowledge resulting from the course: |
Students understand the numerical methods and the theory of electromagnetic field in range which necessary for the simulation of selected problems.
Students are able to create a model in the chosen software, solve problem and they know how to interpret the results.
Students are aware of the possible sources of error in modeling and know ways how to prevent errors. |
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Assessment methods
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Knowledge - knowledge achieved by taking this course are verified by the following means: |
Test |
Skills demonstration during practicum |
Seminar work |
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Teaching methods
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Knowledge - the following training methods are used to achieve the required knowledge: |
Lecture |
Practicum |
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