Elective courses (Acceptance Not Guaranteed - subject to faculty's capacity)

Table of contents

Advanced Control Engineering

Credits 5 ECTS                                          

Learning Outcomes and Competences:

Understanding the key concepts and methods of advanced control engineering, such as model-based design, pole placement, observer design, observer based state-space controller, and Kalman filter design. Ability to apply the methods to develop model-based control systems for real world problems.

Content:

- Review classic control methods

- Introduction in time discrete control

- Linear algebra review

- State-space models

 - Continuous-time linear state-space models

 - Discrete-time linear state-space models

 - Canonical forms

 - Controllability, observability

 - Pole placement method

 - Linear quadratic regulator approach

 - Observer design (full and reduced models)

 - Computer aided system design using Matlab

 - Controller validation with assessment criteria

Plant Engineering and Construction

Credits 5 ECTS

Learning Outcomes and Competences: This module enables the latest topics in electrical engineering to be integrated into lectures. It is generally designed in collaboration with industry or other research institutions.

Content:

- Plant design phases

- Cost estimation and contract negotiation

- Risk management - Project management

- Time-line & cost tracking

- Contract management

- Sub-contracting & EPCs

- Acceptance Test

– Safety

Electronics

Credits 5 ECTS                                                               

Content:

- Passive building elements: (discrete and integrated building elements), ohmic resistance, coil and capacity

- Semiconductor technologies: terms and principles of IC design and production, pn junction, semiconductor technologies

- Active building elements: bipolar transistor, CMOS transistor

- Principles of analogue technology: basic circuits, biasing, static and dynamic behaviour, 2-port network theory, simulation techniques

BioMEMS

Credits 5 ECTS  

Students obtain basic knowledge on the analogies between biology and engineering. They are familiar with various kinds, methods, and applications of biosensors. They understand technologies and manufacturing steps of BioMEMS. A discussion of current research trends is an important part of this module. Students are enabled to contribute to microsystems engineering related tasks and projects in this area.

Advanced Microsystems Engineering

Credits 5 ECTS  

The course content can be divided into three main parts.

 

The first part is front-end-of-line technology:

- Overview of important semiconductors

- Properties of important semiconductors

- Fabrication of single crystal silicon wafers

- Clean room technology

- Cleaning technology

- Thin film deposition (thermal oxidation, CVD, PVD)

- Lithography

- Etching techniques for thin films

- Metallization and Ohmic contact to semiconductor

- Surface micromachining

 

The second part is focusing on volume micromachining:

- KOH, TMAH

- DRIE (Deep Reactive Ion Etching)

- HARMS (High Aspect Ratio Microstructures)

- 3D systems by using Wafer bonding technologies

 

The third part is focusing on Back-end-of-line technologies:

- Bonding

- TAB

- Flip-chip