Title: INETELE CASPOC for Education
1INETELE CASPOC for Education
- Brno, November 2002
- P.J. van Duijsen
2Outline
- Not only Simulation
- Versions
- Media
- Creating Content
- Interactive Simulation / Animation
- Features of Caspoc
- Questions
3Not only Simulation
- Simulation (Showing graphs and Numbers)
- Animation (Animation of the circuit)
- Interactive (Quasi real time representation)
4Versions
- FreeWare
- Basic converters, small drives, simple control
- Viewer
- View and run all simulations and animations
interactive - Professional version
- View, edit and run all simulations and animations
interactive
5Media
- CD-Rom / DVD
- FreeWare and Viewer (No installation)
- Web Enabled
- FreeWare and Viewer (Release planned for 2004)
- PC
- Installation required from CD-Rom or web
6Creating content
- Create a sample in Caspoc
- Add text as HTML to the sample
- Export the report in HTML (Internet ready)
7Interactive Simulation / Animation
- FreeWare runs directly from CD-Rom
- Model can be edited by the user
- Viewer runs directly from the CD-Rom
- The user can run the simulation, change dedicated
parameters and view the results directly.
8Modeling
- Circuit components
- Block-diagram
- Modeling Language
9Simulation
- Fast
- No convergence problems
- View results immediately
- Change parameters during the simulation
interactive
10Components
- Fast ideal semiconductor models
- Dynamic semiconductor models
- Electrical machine and mechanical models
- Control blocks
11Ease of use
- All in one schematic (Drag Drop)
- Scopes are directly connected to nodes or
components (Drag Drop) - Results are immediately displayed during the
simulation
12Animation
- Animation gives better understanding of the
behavior of the total system. - Animations shows the operation of switches,
current through components, nodal voltages and
animated components
13Visualizing simulation results
- Voltage, current or signal level indicated by
color - Node color voltage level
- Component color current level
- Block diagram color signal level
- Components animation motors, switches, lamps
- Object animation crane, car, elevator, spindle,
etc.
14Interactive
- Parameters can be changed during the simulation
and the simulation can be continued - Using the interactive components the simulation /
animation shows directly the response
15Animation and Teaching!
- Multimedia and Simulation/Animation technologies
- makes studying more attractive to students.
- makes teaching much easier.
- complex technical problems are easy to follow and
understand.
16INETELE
- Development of Multi-Media Teaching Material for
Interactive and Unified E-Based Education and
Training in Electrical Engineering - European universities in the INETELE project
17Partners in the INETELE project
- Montanuniversität Leoben, Institut für
Elektrotechnik, A - Brno University of Technology, Faculty of El.
Eng. and Communication Technology, CZ - Institut National Polytechnique de Lorraine,
Nancy, F - National Technical University of Athens, GR
- Budapest University of Economics and Technology,
Budapest, HU - Silesian Technical University, Faculty of El.
Engineering, Gliwice, PL - Technical University of Kosice, Faculty of El.
Engineering and Informatics, SK - Delft University of Technology, NL
- Simulation Research, NL
18Modules in the INETELE project
- Basics
- Power Electronics
- Electrical drives
- Control theory
191. CAD and Applied SW in Electrical Engineering
- 1.1 Automatic Design and Projecting in EE
- 1.2 Simulation of Power Electronics
- 1.3 FEM in CAD of Electromechanical and
Electromagnetic Devices
202. Fundamentals of Electrical Engineering
- 2.1 Electro-Static Circuits
- 2.2 Magnetic Circuits
- 2.3 Electrical DC Circuits
- 2.4 Electrical One-phase Circuits
- 2.5 Electrical Three-phase Circuits
- 2.6 Electrical Measurement
213. Electrical Machines
- 3.1 Basic Principles of Electrical Machines
- 3.2 Transformers
- 3.3 DC Machines
- 3.4 AC Machines (Asynchronous and Synchronous)
224. Electronics and Power Electronics
- 4.1 Practical Electronics
- 4.2 Power Electronic Devices
- 4.3 Power Electronics
- 4.4 Control in Power Electronics
- 4.5 Harmonic Treatment in Power Systems
- 4.6 Power Electronic Applications (Power
Quality, FACTS, Industrial Applications)
235. Electro-Mechanical Systems, Motion Control and
Mechatronics
- 5.1 Electrical Drives Fundamentals
- 5.2 Controlled Electrical Drives
- 5.3 Motion Control
- 5.4 Automotive Electrical Systems
- 5.5 Mechatronic Systems
24Project Manager
- Keep all project data together
- Update and keep history lists (Release II)
- Run project dedicated tools directly from the
project manager
25Coupling
- Coupling with FEM analysis package ANSYS by
Reduced Order Modeling - Coupling to Simulink to use Caspoc simulations as
part of the simulink model - Coupling to design tools like Tesla and Compare,
etc
26Extended features
- Use C-script to create custom blocks and
components (No compiler required) - Small signal analysis for any type of system
(including SMPS and resonant converters) - Automated report generator
- Use C-script to control your simulations and
perform various simulation runs with varying
parameters
27Example DC Shunt machine with crane
- Animation object crane
- Depending on the angle, the crane lifts the load
28Example Switched Reluctance Machine
- Current control
- non-linear inductance
29Example simple control systems
30Example Three level inverter in Caspoc
31Example Automotive in Caspoc
32Concluding remarks
- Short learning curve
- Tutorials
- Samples