Modulhandbuch MaCSN2012_RF System Design
Verantwortlich: Prof. Dr.-Ing. Rainer Kronberger
Modul
Anerkennbare Lehrveranstaltung (LV)
Organisation
Bezeichnung |
Lang |
MaCSN2012_RF System Design |
MID |
MaCSN2012_RFSD |
MPID |
|
|
|
Zuordnung |
Studiengang |
MaCSN2012 |
Studienrichtung |
G |
Wissensgebiete |
G_VMINT |
|
|
Einordnung ins Curriculum |
Fachsemester |
1-2 |
Pflicht |
G |
Wahl |
|
|
|
Version |
erstellt |
2012-02-28 |
VID |
1 |
gültig ab |
WS 2012/13 |
gültig bis |
|
|
Zeugnistext
de
Analysis and design of radio frequency components and systems
en
Hochfrequenzsysteme und Komponeneten
Unterrichtssprache
Englisch
Modulprüfung
Form der Modulprüfung |
sMP |
80% (mündliche Prüfung) |
Beiträge ECTS-CP aus Wissensgebieten |
G_VMINT |
5 |
Summe |
5 |
Aufwand [h]: 150
Prüfungselemente
Vorlesung / Übung
Form Kompetenznachweis |
smB |
1 Vortrag zu ausgewählten Themen der Hochfrequenztechnik |
bÜA |
Präsenzübung und Selbstlernaufgaben |
Beitrag zum Modulergebnis |
bK |
20% |
bÜA |
unbenotet |
Spezifische Lernziele
Fertigkeiten
- Students understand the fundamentals of discrete-time signals and systems (PFK.6)
- Students can analyse the frequency content of a given signal using the appropriate Fourier-Transform and methods for spectrum estimation (PFK.6, PFK.7)
- Analysis of discrete-time LTI Systems (PFK.6, PFK.7)
- Students can calculate the output signal via convolution
- Students can determine the frequency response of a given system
- Students can characterize a given system in the frequency domain and in the z-domain
- Implementation of discrete-time LTI systems (PFK.1, PFK.2, PFK.6, PFK.8)
- Students can implement the convolution sum in software
- Students can implement different structures for IIR systems in software
- Sudents can use the FFT to implement an FIR system
- Analyze effects of practical sampling (PFK.6, PFK.7)
- Quantization noise
- Aliasing
- Trade-off pros and cons of advanced implementations like noise shaping
Kenntnisse
- Noise in RF systems (out of PFK1-11, PSK1-4)
- noise classification and characterization
- noise calculation
- noise figure
- noise matching
- Linear and nonlinear circuit behaviour (out of PFK1-11, PSK1-4)
- theory
- nonlinearities with mixers
- nonlinearities with amplifiers
- RF system components (out of PFK1-11, PSK1-4)
- receiver componenets
- transmitter components
- frequency generation
- RF Systems (out of PFK1-11, PSK1-4)
- frequencies, systems and applications
- propagation
- design tools
Fertigkeiten
- Students learn how high frequency components of wireless communication systems work (out of PFK1-11, PSK1-4)
- students get an introduction in rf systems (out of PFK1-11, PSK1-4)
- Students learn in detail how transmitters and receivers in wireless communication systems work (out of PFK1-11, PSK1-4)
- Students will learn in detail how the components of such systems (LNA, mixer, amplifier, oscillator, etc.) work (out of PFK1-11, PSK1-4)
- Students learn how to adapt the components to each other and how to plan and design the complete system (transmitter and / or receiver (out of PFK1-11, PSK1-4)
Exemplarische inhaltliche Operationalisierung
Praktikum
Form Kompetenznachweis |
bSZ |
Praktikum (Lab Experiments) |
Beitrag zum Modulergebnis |
bSZ |
Voraussetzung für Modulprüfung (prerequisite for final exam) |
Spezifische Lernziele
Lerninhalte(Knowledge)
- RF measurements of noise and nonlinearities (PFK1-11, PSK1-4)
- RF simulations ( (PFK1-11, PSK1-4)
- Designing RF circuits (PFK1-11, PSK1-4)
Fertigkeiten
- Analysis and design of RF systems (PFK1-11, PSK1-4)
- Performing RF measurments (PFK1-11, PSK1-4)
- Evaluation of measurment results (PFK1-11, PSK1-4)
Exemplarische inhaltliche Operationalisierung
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