DSP in Power Electronics
| Code | Completion | Credits | Range | Language |
|---|---|---|---|---|
| XD14SIP | KZ | 4 | 12+4 | Czech |
- Lecturer:
- Tutor:
- Supervisor:
- Department of Electric Drives and Traction
- Synopsis:
-
Lectures give comprehensive information on DSP computers design in power electronics, using mainly stock available units and blocks (hw and sw). Included is overwiev of DSP parameters targeted to power electronics converter control (electric traction vehicles, stationary application, automotive and other applications). Explained are DSP system solution for high speed calculations, special hw blocks for control, development, debugging and maintenance software tools, real time sw design principles and multiprocessor systém connection (industrial computer networks). Several typical application examples of power electronics with DSP will be stated (traction, space, automotive).
- Requirements:
- Syllabus of lectures:
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Note: Digital Signal Processor=DSP
1. Introduction-DSP processors in power electronics
2. DSP core architecture, typical parameters
3. Fixed and floating point computations, DSP high speed calculation support
4. DSP special hw blocks for power electronics control applications
5. DSP software development tools
6. DSP programming languages
7. DSP software debugging and maintenance tools
8. Multiprocessor systems, industrial computer networks architecture
9. DSP families of Texas Instruments, Intel, Motorola, Analog Devices and other important manufacturers
10. Choise of hw and sw for power electronics applications
11. DSP software design part 1., analog values measurement, regulators, pulse generators, communication
12. DSP software design part 2., tasks scheduling and dispatching
13. Selected examples of using DSP in electrical traction and other applications
14. Selected examples of using DSP in automotive applications
- Syllabus of tutorials:
-
Note: Digital Signal Processor=DSP
1. Working place introduction, DSP evaluation board unit, measurement equipment, using in power electronics
2. DSP-PC communication, technological monitor, text and graphic tools, variable access, control program
3. (continuation) handling - demo
4. Measurement of noisy analog values with DSP, digital filtering, tools for block programming
5. (continuation)
6. Programming of pulse generator for stepper motor control, several working modes
7. (continuation)
8. Simple digital regulator with DSP, DC motor control
9. (continuation)
10. Induction motor control with DSP - demo
11. Conection of control units in multioprocesor systém using computer network. CAN bus
12. (continuation)
13. Diagnostics of system with DSP, metodology of system debugging and maintenance
14. Final test. Credit.
- Study Objective:
- Study materials:
- Note:
- Further information:
- No time-table has been prepared for this course
- The course is a part of the following study plans:
-
- Heavy-current Engineering - Electroenergetics- structured studies (elective specialized course)
- Telecommunications and Radio-engineering - High-frequency and Microwave Technology- structured studi (elective specialized course)
- Heavy-current Engineering - Technological Systems- structured studies (elective specialized course)
- Cybernetics and Measurements - Control Engineering- structured studies (elective specialized course)
- Electronics - Electronic Systems- structured studies (elective specialized course)
- Economics and Management of Power Engineering- structured studies (elective specialized course)
- Biomedical Engineering- structured studies (elective specialized course)
- Economics and Management in Electrical Engineering- structured studies (elective specialized course)
- Electronics - Electronic Applications- structured studies (elective specialized course)
- Electronics - Electronics and Photonics- structured studies (elective specialized course)
- Cybernetics and Measurements - Artificial Intelligence- structured studies (elective specialized course)
- Cybernetics and Measurements - Measurement and Instrumentation Systems- structured studies (elective specialized course)
- Cybernetics and Measurements - Aeronautical Engineering and Control Systems- structured studies (elective specialized course)
- Heavy-current Engineering - Electric Drives- structured studies (elective specialized course)
- Heavy-current Engineering - Electrical Engineering Applications- structured studies (elective specialized course)
- Telecommunications and Radio-engineering - Opto-electric Systems- structured studies (elective specialized course)
- Telecommunications and Radio-engineering - Radio Communications, Navigation and Radar Systems- struc (elective specialized course)
- Telecommunications and Radio-engineering - Multimedia, Sound and Television Technology- structured s (elective specialized course)
- Telecommunications and Radio-engineering - Telecommunications- structured studies (elective specialized course)