The performance of controlled mechanical servosystems in an industrial setting is generally achieved by using PID controllers. In systems that suffer from dynamics and vibrations it is often useful to use additional filters, like notch-filters. The application of frequency domain techniques for analyzing requirements, describing controllers and carrying out experiments to find the optimal settings is very useful and will be treated during this course.
Starting with the time domain, the complete basis of control is repeated, placed in a modern framework, validated experimentally and applied to mechanical servo systems. During the course all aspects of 'motion control' are covered, including the use of feedforward steering.
After completion of the course you understand time and frequency techniques that are used in control and you are able to analyse industrial servo systems and determine proper settings for the controller. Next to tuning of the controller, you will be able to judge what the maximum performance is and which aspect is the limiting factor. Also you will gain practical experience with implementation and analysis instrumentation.
€ 4.495,00 excl. VAT
6 days in a period of 2 weeks
Prof.dr.ir. Maarten Steinbuch
Dr.ir. Ton van der Weiden
Ir. Michiel Vervoordeldonk
Dr.ir. Pieter Nuij
Dr.ir. Tom Oomen
Ir. Frank Sperling
Dr.ir. Joost Bolder
Ir. Rick van der Maas
Dr.ir. Marc van de Wal
Dr.ir. Gert Witvoet
Ir. Tom Gommans
Dr.ir. Adrian Rankers
Dr.ir. David Rijlaarsdam
Dr.ir. Ewout van der Laan
Annemiek van der Maas - Rietschoten
Robert van der Weijst
Robin de Rozario
Jurgen van Zundert
06-02-2019 | 09:00 - 22:00
07-02-2019 | 09:00 - 16:30
08-02-2019 | 09:00 - 16:30
13-02-2019 | 09:00 - 18:00
14-02-2019 | 09:00 - 16:30
15-02-2019 | 09:00 - 16:30
This course focuses at engineers that are involved in controlled mechanical servo systems and wan...
This course focuses at engineers that are involved in controlled mechanical servo systems and want to gain more insight into the possibilities and limitations of servo control in an industrial setting.
Participants have a Bachelor or Master education in electrical engineering, mechanical engineering, mechatronics, physics or equivalent practical experience and need some basic understanding of servo control.
The course consists of a mixture of lectures, demonstrations, exercises and experiments. For the ...
The course consists of a mixture of lectures, demonstrations, exercises and experiments. For the exercises a userfriendly Matlab application is used, whereas the experiments are performed with RTLinux based instrumentation.
The following topics are covered:
- Modelling of mechanical servo systems
- Time domain tuning
- Introduction frequency domain
- Experimenting in the frequency domain
- Mechanical design for servo control
- Design competition
- Design for performance
- Feedforward steering
- Digital control
- Interaction between control loops
- Robust and learning control
This course is certified by the European society f...
This course is certified by the European society for precision engineering & nanotechnology (euspen) and the Dutch Society for Precision Engineering (DSPE) and leads to the ECP2-certificate.
'Most important items I have learned: FRF measurement, loopshaping game.'
'I like the high diversity of lecturers, all explaining things in their own words, with overlap in subjects which helps to understand.'
The AFC course is intended for all engineers active in mechatronics who want to gain more insight into the possibilities, limitations and implementations of these techniques in an industrial setting.
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Follow-up of the basic course 'Motion control tuning'. Focusses on the analysis and control of multi-variable servo systems with in-depth treatment of interaction analysis, decoupling, MIMO-control.
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June 2018 edition:
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