Course - MMIC Design and RF/Microwave Measurements - TTT4211
MMIC Design and RF/Microwave Measurements
About
About the course
Course content
The first part of the course will cover the basics of a MMIC (Monolithic Microwave Integrated Circuit) design. Contents: general physical structure, different technologies, description and models of different components like R, C, L and transistors (HBT and HEMT). The second part of the course will give a thorough introduction to RF/Microwave measurement methods. Contents: calibration and calibration methods (SOLT, TRL, LRM, LRRM etc), measurement accuracy, the use of spectrum analyzers and network analyzers, measurement methods for active and passive components, the use of a probe station.
Learning outcome
The course will give students a basic understanding of the design of MMIC (Monolitic Microwave Integrated Circuit) circuits used in radio systems for example in communications, radar and navigation, and provide knowledge about the analysis, design and technology of such circuits. Furthermore, students gain knowledge of RF / microwave measurement technique and accuracy, instrumentation and measurement methods.
The course will enable students to
Knowledge
- understand MMIC circuits general structure and different technologies, such as GaAs, GaN, SiGe, etc.
- understand descriptions and models of the different components R, C, L and transistors (HBT and HEMT).
- understand the structure of simulation techniques in advanced simulation tools.
- understand the structure and use of the spectrum analysers and network analysers for RF / microwave measurements.
- understand the necessity of calibration of instruments and different calibration methods (SOLT, TRL, LRM, LRRM, etc.), as well as understand the measurement accuracy and measurement techniques for active and passive components.
Skills
- combine previously acquired knowledge and skills in mathematics, electrical circuits, and radio technology with new theory to solve practical problems in the design of RF / microwave circuits and measurement techniques.
- perform measurements in the lab with equipment like spectrum analysers, network analysers, probe station, etc.
- use advanced simulation tools for the design of selected MMIC circuits.
General knowledge
- cooperate with others to solve practical laboratory work.
- cooperate in groups to solve a larger project.
- present the results of a project.
Learning methods and activities
Lectures, CAD -and laboratory exercises, and a semester project. The semester project will count 50% of the final mark. The laboratory exercises will be a part of the semester project report. If there is a re-sit examination, the examination form may be changed from written to oral. The course may be held in English if foreign exchange students attend.
Recommended previous knowledge
TTT4200 Radio Systems Introduction, and knowledge of electrical circuit and system fundamentals like TET4100 Circuit Analysis, TTT4100 Electronic Circuits.
Course materials
Given at the start of the course.
Subject areas
- Electronics
- Technological subjects
- Telecommunication