Modulhandbuch MaCSN2012_RF_System_Design

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Verantwortlich: Prof. Dr.-Ing. Rainer Kronberger

Modul

Organisation

Bezeichnung Lang MaCSN2012_RF_System_Design MID MaKSN2012_RFSD MPID

Zuordnung Studiengang MaKSN2012 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

anerkennbare LV

• F07 RFSD

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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<br>
  • 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

Exemplarische inhaltliche Operationalisierung