Subject description - A1M14RPO

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A1M14RPO Electric Drive Control Extent of teaching:2+2L
Guarantors:  Roles:PO,V Language of
Teachers:  Completion:Z,ZK
Responsible Department:13114 Credits:5 Semester:L


Controlled electric drive, control computer of electric drive - system view, modulation methods, scalar control, quantity transformation, FOC control, DTC control, compatible rectifier, servo-drives, digital signal processing, discrete function, difference equation, digital filters, digital controllers, PSD controller, derivation and difference equation coefficients calculation, fixed point and floating point calculations, relative units and quantity normalization, digital signal processors, modulator hardware support, control algorithm implementation, microprocessor control system hardware implementation, protection circuitry, debugging, testing and monitoring

Course outlines:

1. Controlled electric drive, control computer of electric drive - system view
2 Modulation methods
3. Scalar control
4. Coordinate transformation, motor model
5. FOC control
6. DTC control
7. Compatible rectifier, servo-drives
8. Digital signal processing, discrete function, difference equation
9. Z-transformation, sampled systems, aliasing, digital filters
10. Digital controllers, PSD controllers, coefficient calculation
11. Relative unit system and quantity normalization, fixed point and floating point calculations, fraction system
12. Digital signal processors for drives, modulator hardware support
13. Control algorithm implementation, quantization errors.
14. Protection circuitry, debugging, testing and monitoring

Exercises outline:

1. Introduction. Lab work security briefing. MPLAB IDE
2. DSP drive control unit MC1
3. Power converters MC1H a MC1L for control of induction motor or synchronous PM motor
4. C30 compiler, linker and assembler A30, modular and procedural programming
5. MPLAB C30 simulator and ICD2 emulator, program debugging inside MC1 unit
6. Three-phase PWM modulator, dead time generation
7. Induction motor scalar control, program design example, solution analysis
8. Induction motor vector control, coordinate transformation, motor model calculation, solution analysis
9. Induction motor vector control, PS controllers, modulator, solution analysis
10. BLDC motor control, program design example
11. Relative units and quantity normalization, synthesis of partial block, fixed point calculations
12. Induction motor vector control, floating point DSP for drive control
13. Vector control, summary and solution overview
14. Credit


[1] Kuo, B. C.: Digital Control Systems. New York, Oxford University Press, 1995. ISBN-0195120647
[2] Leonhard, W.: Control of Electrical Drives, Springer Verlag, 2001, ISBN-978-3-540-41820-7
[3] dsPIC30F6010 Data Sheet DS70119D. Chandler: Microchip Technology Inc., USA, 2004
[4] Kernighan B. W., Ritchie D. M., C Programming Language, 2nd Edition, USA, 2012


Active participation on labs, presentation of own lab works


Subject is included into these academic programs:

Program Branch Role Recommended semester
MPIB Common courses V
MPKME1 Wireless Communication V 2
MPKME5 Systems of Communication V 2
MPKME4 Networks of Electronic Communication V 2
MPKME3 Electronics V 2
MPKME2 Multimedia Technology V 2
MPKYR4 Aerospace Systems V 2
MPKYR1 Robotics V 2
MPKYR3 Systems and Control V 2
MPKYR2 Sensors and Instrumentation V 2
MPEEM2 Electrical Machines, Apparatus and Drives PO 2

Page updated 18.10.2019 07:53:05, semester: Z,L/2020-1, L/2018-9, Z,L/2019-20, Send comments about the content to the Administrators of the Academic Programs Proposal and Realization: I. Halaška (K336), J. Novák (K336)