Course code 02 41 6111 01
ECTS credits 3
Course name in language of instruction 
Elements of Microwave Technique
Course name in Polish Elements of Microwave Technique
Course name in English 
Elements of Microwave Technique
Language of instruction English
Type of classes
Teaching hours per semester
Lecture Tutorials Laboratory Project Seminar Other E-learn.
Contact hours 10 20 15
Distance learning No No No No No No No
Weighted grades 0.50 0.50 0
Unit running the course Instytut Elektroniki
Course coordinator dr hab. inż. Łukasz Januszkiewicz
Course instructors dr inż. Łukasz Januszkiewicz
Prerequisites 
subjects that the student previously had to pass:
Physics, Electric circuits
Course learning outcomes
  1. The student understands the principle of operation of passive microwave elements
  2. The student understands the principle of operation of active microwave elements
Assessment methods Learning outcome 1 - verification by means of a multiple-choice test method, allowing to gain a total of 10 points. Learning outcome 2 - verification based on the evaluation of the laboratory report, 10 points
Programme learning outcomes
  1. In-depth knowledge and comprehension of complex concepts and phenomena in the field of electronics and telecommunications, methods and theories explaining the dependences between them, as well as main development trends in electronics and telecommunications; knowledge of the fundamentals of life cycle of electronic and telecommunication devices and systems.
  2. Ability to apply the knowledge to identify, formulate and solve non-typical problems related to electronics and telecommunications, to plan and to conduct adequate experiments, including measurements and numerical simulations also with the aid of self-developed methods and tools, to analyse and to interpret obtained results so as to draw conclusions.
  3. Ability to apply the engineering knowledge to design according to specific needs, and to critically analyse and to judge operation of electronic and telecommunication devices and systems, with consideration of non-technical factors; ability to formulate and to test hypotheses related to simple research problems in electronics and telecommunications.
  4. Ability to use literature, data bases and other sources of information. Ability to acquire and apply new knowledge as needed, using appropriate learning strategies and to direct others in this area.
Grading policies To obtain the final credit, the following three conditions must be met simultaneously: 1. getting at least 5 points from the effect verification test 1. 2. getting at least 5 points. from the report verifying the effect of 2. 3. presence in laboratory classes
Course content Lecture: 1. Microwave transmission structures. 2. Impedance matching methods. 3. Microwave resonators. 4. Scattering matrix . 5. Analysis of microwave circuits using S parameters. 6. Passive microwave components. 7. Microwave electron tubes 8. Microwave semiconductor components 7. Microwave amplifiers Laboratory: 1. Designing of impedance matching circuits 2. Analysis of the impedance of microwave elements using a Smith chart 3. Designing microwave transmission lines 4. Designing microwave couplers
Basic reference materials 
  1. Barué, Gérard, "Microwave engineering : land & space radiocommunications", Hoboken : John Wiley & Sons, cop. 2008. XXV, 429 s. 
  2. R. J. Collier, A. D. Skinner, "Microwave measurements", London : The Institution of Engineering and Technology, cop. 2007. XX, 484 s. 
  3.  Andrey D. Grigoriev, Vyacheslav A. Ivanov, Sergey I. Molokovsky, Microwave Electronics, Springer, 2018
Other reference materials 
  1. Sima Noghanian, Abas Sabouni, Travis Desell, Ali Ashtari, Microwave Tomography, Springer, 2014
Course workload
Type of classes Teaching hours
Lecture 10
Laboratory 20
Other 15
Preparation of results obtained during laboratory classes 7
Preparation of the report 15
SUM : 67
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                        Updated on 
                        2022-10-21 17:05:36