Welcome to Periodic Control and Filtering in Power Electronic Converter Systems
Description:
A key issue for power electronic converters is the ability to tackle periodic signals in electrical power processing (e.g. sinusoidal voltage/current regulation, power harmonics mitigation, synchronous frame transformation, grid synchronization, etc.) in such a way to precisely and flexibly convert and regulate electrical power. Classical controllers (e.g., PID control) are not able to remove the dynamic periodic error completely. The residual periodic errors will not only degrade the power quality and even the stability and reliability of the electrical power systems.
This Ph.D. course is thus to lay a foundation of the Internal Model Principle (IMP) -based periodic control and filtering theory with basic theory, derivation of applied equations, know-how on the control synthesis, and some most recent progress, which is found to provide power electronic converters with a superior control solution to the compensation of periodic signals with high accuracy, fast dynamic response, good robustness, and cost-effective implementation. This course also contributes to this discipline combined with demonstrative practical examples of the application of periodic control and filtering to: standalone/grid-connected power converters; high frequency link converters; shunt active power filters; and PLLs for grid synchronizations, which can be fruitful in future controller designs, and the control methods are in some cases already applied in industry.
As an emerging topic, the periodic control has the great potential to be one of the best control solutions for power converters but not limited to, and to be a very popular standard industrial controller like the PID control.
The course will be organized as:
Day 1:
- Fundamentals of Periodic Control and Filtering
- Motivation and background
- General power converter control
- Internal model principle
- Basis function for periodic control and filtering
- Fundamental Periodic Control in Power Electronic Conversion
- Repetitive control
- Resonant control
- Optimal periodic control
- Application examples
Day 2:
- Advanced Periodic Control in Power Electronic Conversion
- Digital control issues
- Frequency adaptive periodic control
- Application examples
- Periodic Filtering for Power Electronic Conversion
- Harmonics and pre-filtering
- Periodic filtering for power conversion
- Application examples
Day 3 (half-day):
- Extensive Applications of Periodic Control and Filtering
- Course wrap-up
Prerequisites: This course is intended for researchers and engineers in the field of power electronics and their applications, for control specialists exploring new applications of control theory in power electronics, and for advanced university students in these fields. General knowledge in power electronic converters, and basic control theory are preferred. Course exercises will be performed on MATLAB/Simscape/Sim Power Systems.
Form of evaluation: Individual evaluation of the course participant will be performed on a basis of:
- Attendance rate (5%)
- Mini-project (95%)
Course lecturers will design three simulation mini-projects for the Ph.D. course. Each student will be assigned with or select a specific mini-project within the lectured topics, where the students should model the system, design the controllers, and perform simulations. Students are required to finalize the mini-projects within three weeks after the course by submitting a formal technical report with simulation results, which will be assessed by the lecturers in two weeks.
Organizer: Yongheng Yang, Assistant Professoryoy@et.aau.dk
Lecturers: Yongheng Yang, Assistant Professor, Aalborg University, Keliang Zhou, Senior Lecturer, University of Glasgow, Tomislav Dragičević, Associate Professor, Aalborg University
ECTS: 2.5
Time: April 9-11, 2018
Place:
City:
Number of seats: 30
Deadline: March 19
Important information concerning PhD courses
We have over some time experienced problems with no-show for both project and general courses. It has now reached a point where we are forced to take action. Therefore, the Doctoral School has decided to introduce a no-show fee of DKK 5,000 for each course where the student does not show up. Cancellations are accepted no later than 2 weeks before start of the course. Registered illness is of course an acceptable reason for not showing up on those days. Furthermore, all courses open for registration approximately three months before start. This can hopefully also provide new students a chance to register for courses during the year. We look forward to your registration.
- Teacher: Yongheng Yang