Course Catalog 2009-2010 International
Basic	Pori	International	Postgraduate	Open University
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Course Catalog 2009-2010

SMG-8146 RF-electronics preparatory II, 5 cr

Person responsible

Saku Suuriniemi

Implementations

Lecture times and places Target group recommended to

Implementation 1

Per 2 :
Monday 9 - 12, TB216
Friday 9 - 12, TB215

Requirements

Written exam and two labs.

Principles and baselines related to teaching and learning

Learning outcomes

Preparation for major studies in RF-electronics. The students refresh prior knowledge and fill possible gaps.

Content

Content Core content Complementary knowledge Specialist knowledge

1. Field view of electromagnetic phenomena. Electrostatics, magnetostatics, potentials. Electromagnetic induction, Ampere-Maxwell law. Time-harmonic fields.

2. Circuits and systems: Systematic construction (graphs, cut sets, cycles, trees). Energy, Poynting's theorem, Thevenin-Norton equivalent, system impedances. Circuit elements.

3. Elementary semiconductors: diodes, bipolar transistors, operational amplifiers.

4. Electromagnetic waves: plane, monochromatic. Energy transmission, Poynting's theorem. Propagation in media, behavior at interfaces. Origin of waves. Hertz dipole.

Study material

Type Name Author ISBN URL Edition, availability, ... Examination material Language

Lecture slides Available from the course homepage English

Prerequisites

Course	Mandatory/Advisable	Description
SMG-8046 RF-electronics preparatory I	Advisable

Prerequisite relations (Requires logging in to POP)

Correspondence of content

Course	Corresponds course	Description
SMG-8146 RF-electronics preparatory II, 5 cr	SMG-8156 Time-harmonic electromagnetic systems, 2 cr + SMG-8206 Circuits and electromagnetic fields, 3 cr

Additional information

Primarily intended for students of RF-electronics masters programme, with some prior familiarity with the contents. Students without such familiarity can take it as an intensive course.

More precise information per implementation

Description Methods of instruction Implementation

Implementation 1 Lectures
Excercises
Laboratory assignments
Contact teaching: 0 %
Distance learning: 0 %
Self-directed learning: 0 %

Last modified 29.05.2009

Modifier Aki Korpela

	Lecture times and places	Target group recommended to
Implementation 1	Per 2 : Monday 9 - 12, TB216 Friday 9 - 12, TB215

Content	Core content	Complementary knowledge	Specialist knowledge
1.	Field view of electromagnetic phenomena. Electrostatics, magnetostatics, potentials. Electromagnetic induction, Ampere-Maxwell law. Time-harmonic fields.
2.	Circuits and systems: Systematic construction (graphs, cut sets, cycles, trees). Energy, Poynting's theorem, Thevenin-Norton equivalent, system impedances. Circuit elements.
3.	Elementary semiconductors: diodes, bipolar transistors, operational amplifiers.
4.	Electromagnetic waves: plane, monochromatic. Energy transmission, Poynting's theorem. Propagation in media, behavior at interfaces. Origin of waves. Hertz dipole.

Type	Name	Author	ISBN	URL	Edition, availability, ...	Examination material	Language
Lecture slides					Available from the course homepage		English

	Description	Methods of instruction	Implementation
Implementation 1		Lectures Excercises Laboratory assignments	Contact teaching: 0 % Distance learning: 0 % Self-directed learning: 0 %

Course Catalog 2009-2010 International

Course Catalog 2009-2010