After successful completion of the course, students are able to understand the basic principles and basics of system integration of mechatronic systems.
This includes system dynamics and the physical working principles of mechatronic components and subsystems, since they are used as high-tech automation solutions in modern mechatronic systems.
In the lecture, a comprehensive approach and related system concepts are presented for technical analysis and the evaluation of existing mechatronic systems, as well as the design and selection of optimal components and working principles.
In the corresponding lab course, the theoretical principles are applied to real systems. Students build up mechatronic systems and analyze/change their dynamic behavior.
Analysis and synthesis of mechatronic systems, including system integration and design.
Systems Engineering, CAD, dynamic of positioning systems and their design (system design), compliance, transmissibility, damping in precision positioning, zero-stiffness actuation, Lorentz actuator, reluctance actuator, linear motor, dual stage actuation, piezo actuators, analog electronics, power electronics, Servo problems, real-time systems (hardware / software), DSP, FPAA, FPGA, regulation and control of mechatronic systems, Iterative Learning Control, system integration (including controllability, observability), measurement technology in mechatronics, Abbe principle , resolution, precision, accuracy, A/D -D/A conversion, quantization, sampling, signal processing, sensors in mechatronics, strain gauges, light lever, encoders, interferometers, vibrometer, LVDT, capacitive sensors, ultrasonic sensors, accelerometers (MEMS based and geophones), measurement amplifiers, optical metrology, speckle metrology, smart cameras, system integration, examples of complex mechatronic systems of high technology, adaptive optics, scanning probe microscopy, nano-lithography systems (wafer scanners)
Introduction to finite element simulation.
Computational exercises as home-work assignments for deepening the lecture content.
Lectures with examples. Detailed explanations are also given in the book The Design of High Performance Mechatronics (see literature section below).
- Due to the eased measures against Corona-Virus SARS-CoV-2, the lecture "Mechatronic Systems" takes place in presence.
- The platform for providing documents and information is TUWEL.
- Make sure to register in TISS for this course, in order to get access to TUWEL, to obtain all the necessary information in time.
- The discussion and solution of the computational exercises takes place in the assignment lecture of the next exercise.
Computation exercise (mandatory)
For the successful completion of the computation exercises, all four exercises have to be submitted and a positive result (>= 50 points) is required for three exercises. Computation exercises must be submitted in the form of a PDF file by uploading it to TUWEL. The submission of an exercise is possible until 6 PM on the day before the solution of this exercise is presented. The exact deadlines are shown in TUWEL.
CAX exercise (mandatory)
For successful completion of the CAx exercise, at least 50% of the total points, as with the computation exercises, have to be reached. The corresponding files have to be uploaded to TUWEL for submission. The deadline is also shown in TUWEL:
This course has an immanent examination character, beginning with the registration for the lab excercises (computational exercises and CAx exercises) in TUWEL.
The successful completion of the CAx exercise and the computational exercises during the course is a prerequisite for admission to the final oral exam - if this prerequisite is not fulfilled a negative grade has to be given for the entire course.
If the prerequisite for the orgal exam is given (successful completion of the CAx exercise and of the computational excercises) it will persist also beyond the respective course run, i.e. you can also do the oral exam at a later stage and you do NOT HAVE TO take the exam within 1 year of the respective course run.
Oral examinations
As of 1. October 2021, the oral examinations will take place at the institute (ACIN) in person.
In time periods when exams in person at the institute are not allowed due to regulations from the government or TU Wien, the oral exams will be taken online via ZOOM.
Board examination
Registration for board examinations is not possible in TISS. For this purpose, please contact us at least two weeks before the examination date by email to mechatronics376050@acin.tuwien.ac.at
This course is based on the book:
The Design of High Performance Mechatronics: High-Tech Functionality by Multidisciplinary System Integration, 2nd revised edition, R. Munnig Schmidt, G. Schitter, J. Van Eijk,
Delft University Press, ISBN 978-1-61499-367-4 (2014)
The book (900 pages) can be purchased for a discounted student price of €45 (standard price is €180) at the secretary office of Mrs. Grabensteiner at ACIN.
A List with Errata for the book can be found at:
errata.rmsmechatronics.nl