Lab for Control Systems

Students in the Laboratory for Control Systems.

Laboratory: Room 1.1.08

Teaching

Practical course in Control Systems (BET and IMC)

During the practical course, students will get to know modern tools of control engineering. Using these tools, theoretic knowledge from the lecture is transferred experimental setups in the real world. The following experiments are conducted during the practical part of Control Systems:

Rapid Control Prototyping (RCP) with Matlab/Simulink
Temperature control of an air gap
Analysis of conventional controllers
Modelling and identification of a DC drive
RPM control of a DC drive

Practical course: State control (BET)

This practical course is project-oriented. All tasks of the control engineering project are carried out almost autonomously. The focus lies on linear and non-linear systems in state-space representation.

Tasks include:

Initial operation of hard- and software
Configuration of sensor and actuator interfaces
Modelling and identification of the closed-loop control system
Computer-aided design of a state controller
Controller test via simulation
Designing a state observer
Implementation and test of the controller in a real system

Project examples are:

Controlling a quadrocopter
Inverted pendulum
Ball on the Plate
Ball on the Wheel
Ball on the Beam
Automation of tabletop football
Magnetic Levitation
Pneumatic Levitation
Omni-directional robot
Multi-joint manipulator

Practical course in automation (BMC)

This practical course is part of the elective module “Automation and Robotics” for the degree programme BMC. In the scope of this practical course, the students will learn how to design, implement, and optimise control circuits via Matlab/Simulink. Another focus of the practical course lies on controlling electric drives, which is very important for robotics.

Focus topics of research and development

Controlling electric drives
Noise cancellation for automotive applications
Fault-tolerant actuators
Analysis and synthesis of switching controls

Equipment

Among other equipment, the lab offers

Computer workstations equipped with hard- and software for measuring and controlling.
For the rapid prototyping of feedback control systems, the following hard- and software is available:
- Simulink Desktop Real-Time with hardware by National Instruments, Humusoft etc.
- Simulink Real-Time
- dSPACE systems
- FPGA-based systems with direct programming in Simulink
- Microcontroller solutions based on Embedded Coder by Texas Instruments, ST Microelectronics etc.
- Controller implementation based on Arduino and Raspberry Pi
Programmable frequency converter/inverter systems for small-scale three-phase drives
Various testing setups, e. g.
- Electric drive systems consisting of direct current and three-phase current motors
- Systems for representing a temperature control
- Systems for implementing a level control
- Electronic throttle valve for representing the position control
- Electronic hardware simulators for dynamic systems
- Inverted pendulum
- Pneumatic Levitation
- Magnetic Levitation
- Ball on the Wheel
- Ball on the Plate
- Ball on the Beam
- various types of drones (quadrocopter)
- omni-directional robot
- multi-joint manipulator
- automatable tabletop football
- camera-based positioning/tracking system by OptiTrack/Natural Point.
a soldering station to be operated by students
as well as standard devices, e. g. for measuring current/voltage, oscilloscopes, power supply units ...

Students developing an autonomously driving vehicle

Team

Name	E-Mail	Details
Prof. Dr. Abid Ali Contact Information Prof. Dr. Abid Ali Technical University of Applied Sciences Würzburg-Schweinfurt Room 1.1.64 Ignaz-Schön-Straße 11 97421 Schweinfurt Phone +49 9721 940-8454 E-Mail abid.ali[at]thws.de	E-Mail	Show
Daniel Popp Contact Information Daniel Popp Technical University of Applied Sciences Würzburg-Schweinfurt Room 1.1.07 Ignaz-Schön-Straße 11 97421 Schweinfurt Phone +49 9721 940-8697 E-Mail daniel.popp[at]thws.de	E-Mail	Show

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