354.058 RF Techniques
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2021W, VU, 4.0h, 6.0EC


  • Semester hours: 4.0
  • Credits: 6.0
  • Type: VU Lecture and Exercise
  • Format: Presence

Learning outcomes

After successful completion of the course, students are able to use and understand scattering parameters (S-parameters), use the Smith-chart to solve linear RF-problems, and understand basic RF-elements like attenuators, directional couplers, hybrids, circulators. Students will learn how to design matching networks for optimizing gain or noise figurre and unerstand the basic concepts of RF power amplifiers and their distinguation from small signal amplifiers. In the field of RF system design, students will be able to analyze the signal to noise ratio (SNR) of an entire RF receiver by level-planning, know the effects of nonlinearities (intermodulation), understand concepts of homodyne (direct conversion) and heterodyne receivers. Furthermore, students will learn the basics of analog/digital modulation formats and parameters to characterize modulation quality. Also, students will get a general understand of phase locked loop synthesizers and the effect of phase noise.

Subject of course

RF-Signals propagating along transmission lines; Scattering parameters; Linear two-ports; Nonlinearity and intermodulation; Transceiver; Nonlinear RF-Circuits, mixers, frequency conversion; Analog modulation formats; Digital RF-modulation formats and their spectra; RF-transmitters

Teaching methods

The lecture is split into an oral presentation (most lectures) and exercises (six lectures). Before each exercise, students can hand in solved problems which will be discussed during the exercise. Most years, we also find time to have a demo with a spectrum analyzer to analyze the electromagnetic spectrums and/or devices brought be students.

Mode of examination


Additional information

Administrative Meeting (together with first lecture)

Administrative issues concerning the lecture will be discussed in the first lecture on October 5th 2021, 9:15


The examples for the exercise part and course related materials can be found on the course homepage in TUWEL.



Course dates

Tue09:00 - 11:0005.10.2021 - 25.01.2022EI 4 Reithoffer HS RF Techniques
Thu09:00 - 11:0007.10.2021 - 27.01.2022EI 4 Reithoffer HS RF Techniques
RF Techniques - Single appointments
Tue05.10.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Thu07.10.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Tue12.10.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Thu14.10.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Tue19.10.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Thu21.10.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Thu28.10.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Thu04.11.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Tue09.11.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Thu11.11.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Tue16.11.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Thu18.11.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Tue23.11.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Thu25.11.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Tue30.11.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Thu02.12.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Tue07.12.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Thu09.12.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Tue14.12.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques
Thu16.12.202109:00 - 11:00EI 4 Reithoffer HS RF Techniques

Examination modalities


  1. Two multiple choice tests in the exercise part of the lecture
  2. Written and oral examination: The written exam has 4 problems, up to 100 credits can be earned, at least 20 credits each are needed in the "linear systems" and "nonlinear systems"). For the written exam you get a copy of the lecture notes provided (you are not allowed to bring your own).A positive written exam is required for the oral exam.

Exercise part

Attendence of the ongoing lecture is voluntary but highly recommended.
For both, the multiple choice tests and the handed in examples with correct solutions, you will receive additional credits, which will be added to those of the written exam, so that the final grade can be improved by max. one degree. If students do not hand in examples and do not attend the multiple choice tests, the final grade will be degraded by one degree.


DayTimeDateRoomMode of examinationApplication timeApplication modeExam
Thu - 27.06.2024oral20.05.2024 08:00 - 20.06.2024 08:00TISSregistration for oral exam: the oral exam does not take place on 27.06.2024. Exact date will follow
Thu14:00 - 17:0027.06.2024 Lecture room EI 9written&oral20.05.2024 08:00 - 20.06.2024 08:00TISSWritten Part of the exam

Course registration

Begin End Deregistration end
07.10.2021 00:00 16.02.2022 23:59 16.02.2022 23:59

Registration modalities

Please register for the course in order to have access to the course downloads (e.g. slide decks)!


Study CodeObligationSemesterPrecon.Info
066 507 Telecommunications Not specified1. Semester


The lecture notes will be available online.

Previous knowledge

Bachelor's degree in electrical engineering or equivalent knowledge is required.

Continuative courses