Details

FH-Prof. DI Gerhard Engelmann



Room: B.3.27
Favoritenstraße 226
1100 Wien


Lectures 2019/20

Engineering

> Actuators & Sensors VO
Electronic Systems Engineeringmore

Actuators & Sensors VO

Lector: FH-Prof. DI Gerhard Engelmann, FH-Prof. Dipl.-Ing. Markus Wellenzohn

1 SWS
2 ECTS

Lecture contents

- Physical fundamentals
- Different principles of sensors for the measurement of non-electric quantities
- Methods to avoid/compensate interfering factors such as non-linearities or temperature-dependencies
- Different principles of actuators

Assessment methods

Written exam at the end of the course.

Teaching methods

Presentation with laptop and beamer, additional explanations on whiteboard.

Language

German

> Applied Electronic Circuit Design ILV
Applied Electronicsmore

Applied Electronic Circuit Design ILV

Lector: FH-Prof. DI Gerhard Engelmann

3 SWS
4 ECTS

Lecture contents

Circuits with operational amplifiers
Non-ideal properties of operational amplifiers and relevant counter measures
Stability of operational amplifiers
Power amplifier
Signal theory of amplifiers
Linear voltage regulator
DC-DC Converter
Application of special components
Protection circuits (ESD)

Assessment methods

Final exam

Teaching methods

Lecture with Laptop, Beamer and explanations on whiteboard

Language

German

> Circuit Design Laboratory UE
Applied Electronicsmore

Circuit Design Laboratory UE

Lector: FH-Prof. DI Gerhard Engelmann, FH-Prof. DI Christian Halter, FH-Prof. DI Rudolf Oberpertinger, MBA, FH-Prof. Dipl.-Ing. Andreas Posch, Dipl.-Ing. Gerald Renner, Hubert Wimmer, MSc

2 SWS
4 ECTS

Language

German

> Computer Aided Engineering and Simulation ILV
Electronic Systems Engineeringmore

Computer Aided Engineering and Simulation ILV

Lector: FH-Prof. DI Gerhard Engelmann

4 SWS
6 ECTS

Language

German-English

> Control Engineeering ILV
Applied Electronicsmore

Control Engineeering ILV

Lector: FH-Prof. DI Gerhard Engelmann

2.5 SWS
5 ECTS

Lecture contents

- Structure of control systems
- Transfer function
- Stability
- Frequency response
- Controller design

Assessment methods

Immanent examination character with final written exam.

Teaching methods

- Lecture notes
- Presentation with beamer
- Solving problems using MATLAB
- Discussion
- Step-by-step explanation of complex contents on the whiteboard

Language

German-English

> Control Engineeering Laboratory UE
Applied Electronicsmore

Control Engineeering Laboratory UE

Lector: FH-Prof. DI Gerhard Engelmann

1 SWS
2 ECTS

Lecture contents

Practical application of the theory from related lectures.
Documentation and interpretation of measurement results.

Assessment methods

Immanent examination character

Teaching methods

Lab exercises

Language

German

> Design of Elelectronic Apparatuses II UE
Applied Electronicsmore

Design of Elelectronic Apparatuses II UE

Lector: FH-Prof. DI Gerhard Engelmann, FH-Prof. DI Christian Halter, FH-Prof. DI Rudolf Oberpertinger, MBA, FH-Prof. Dipl.-Ing. Herbert Paulis, Eveline Prochaska, BSc MSc, Dipl.-Ing. Gerald Renner, FH-Prof. Dipl.-Ing. Markus Wellenzohn, Hubert Wimmer, MSc

1.5 SWS
5 ECTS

Language

German

> Digital Control System VO
Electronic Systems Engineeringmore

Digital Control System VO

Lector: FH-Prof. DI Gerhard Engelmann

2 SWS
4 ECTS

Lecture contents

- Overview to analog control systems
- Structure of digital control systems
- Transfer function
- Stability
- Discrete frequency response
- Controller design

Assessment methods

Computer-aided (MATLAB) written exam at the end of the course.
At least 60% are necessary for successful completion of the course.

Teaching methods

- Lecture notes
- Presentation with beamer
- Solving problems using MATLAB
- Discussion
- Step-by-step explanation of complex contents on the whiteboard

Language

English

> Digital Signal Processing ILV
Electronic Systems Engineeringmore

Digital Signal Processing ILV

Lector: FH-Prof. DI Gerhard Engelmann

4 SWS
6 ECTS

Lecture contents

• Basic terms and definitions
• Continuous-time/discrete-time signals
• Deterministic/stochastic signals
• Sampling & reconstruction
• Convolution, correlation
• Z-Transform
• Discrete-Time Fourier-Transform (DTFT)
• Linear time-invariant discrete-time systems
• Digital filters (FIR, IIR)
• Discrete Fourier-Transform (DFT, FFT)
• Window functions
• Number representations

Assessment methods

Computer-aided (MATLAB) written exam at the end of the course.
At least 60% are necessary for successful completion of the course.

Teaching methods

- Lecture notes
- Presentation with beamer
- Solving problems using MATLAB
- Discussion
- Step-by-step explanation of complex contents on the whiteboard

Language

English

> Digital Systems ILV
Applied Electronicsmore

Digital Systems ILV

Lector: FH-Prof. DI Gerhard Engelmann, Eveline Prochaska, BSc MSc, Hubert Wimmer, MSc

2.5 SWS
5 ECTS

Lecture contents

Part I:
------
Fundamentals of computer networks
OSI reference model
Error detection and correction in data transmission

Part II:
-------
Logic families
Digital circuit techniques
Memory technologies
Interface circuits

Part III:
--------
Analog-to-Digital/Digital-to-Analog conversion

Assessment methods

Immanent examination

Teaching methods

ILV

Language

German

> Mobile and Embedded Security VO
IT-Securitymore

Mobile and Embedded Security VO

Lector: FH-Prof. DI Gerhard Engelmann, Silvia Schmidt, MSc BSc, DI Mathias Tausig

2 SWS
3 ECTS
> Selected Chapters of Electronics II SE
Applied Electronicsmore

Selected Chapters of Electronics II SE

Lector: FH-Prof. DI Gerhard Engelmann

2 SWS
3 ECTS

Language

German-English