Study Guide 2015-2016

ELT-41727 Practical RF Electronics: First Principles Applied, 5 cr

Additional information

This course is an introduction to radio frequency design. It shows how the most fundamental building blocks of RF electronics can easily be understood, constructed, and tested in practice. We also review mathematical tools needed therein. This course is composed of lectures and exercises that provide elementary understanding that is the basis of all RF design. In inclass sessions students build basic RF circuits on solderless breadboard and test their operation. These building blocks evolve gradually from simple blocks such as a transistor amplifier into oscillators, modulators, mixers, and complete transmitters and receivers. Hands-on tasks include also antennas, filters, and demodulators.

Person responsible

Jari Kangas, Olli-Pekka Lunden

Lessons

Implementation 1: ELT-41727 2015-01

Study type P1 P2 P3 P4 Summer
Lectures
Excercises
Laboratory work
Online work
 20 h/per
 6 h/per
 20 h/per
 10 h/per




 




 




 




 

Lecture times and places: Monday 12 - 14 SM221 , Wednesday 9 - 12 SM221 , Friday 13 - 15 SM221

Requirements

Attending lab sessions, completing succesfully related pre/posttasks. Succesfully completed assignments.
Completion parts must belong to the same implementation

Learning Outcomes

After completing the course * student is aware of limitations of conventional circuit analysis, understands needs for high frequency component models, and is able to apply high-frequency, small-signal models to circuit analysis. * student can apply basic linear and nonlinear RF component models and use related mathematical tools. * student can explain how electromagnetic wave phenomena is inherent in design and analysis of electronic devices at radio frequencies. * student is able to construct simple electronic devices using breadboards and explain how their basic properties can be tested. * student is able to identify different types of antennas, and, he or she can explain meaning of basic antenna properties.

Content

Content Core content Complementary knowledge Specialist knowledge
1. Review of circuit analysis and related mathematical tools   Orthogonality, normalization in functional spaces. Principles of deriving the Fourier series, i.e. use of orthogonality and error minimization.    
2. Small signal modeling, basic high frequency component models.   Local linearization principle.   
3. Basics of EM waves, properties of elementary antennas.     
4. Basic building blocks of transmitter-receiver systems: transistor amplifier circuit to oscillators, modulators, mixers, filters, and antennas. Construction of basic RF circuits. Overview of typical RF design principles.     

Instructions for students on how to achieve the learning outcomes

Students' activity is important for benefitting from the labworks. The tasks are intended to activate students to study throughout the course and hence support their learning.

Assessment scale:

Evaluation scale passed/failed will be used on the course

Partial passing:

Completion parts must belong to the same implementation



Correspondence of content

Course Corresponds course  Description 
ELT-41727 Practical RF Electronics: First Principles Applied, 5 cr ELT-41726 Background for Electromagnetic Systems, 3 cr  

Documents

ELT-41727_preview.pdf

Last modified 18.08.2015