Welcome to Encoderless Control of Electric Drives Moters and Generators

Description: Variable speed drives are now used for almost 50% of all drives, to control motion(energy flow) to save energy and increase productivity in variable output processes in all industries: from info-gadgets , robotics through transport, pumps, ventilators, compressors etc , home appliances and electric generators for renewable energy conversion and control. Advanced position, speed and torque control that produces high precision and quick response performance requires encoder-precision feedback. In low power(torque) applications ,however, the encoder is more expensive than the motor/actuator and in medium and large power they are mechanically fragile; in all drives the accidental stopping of a drive in a safely critical application means large “production interruption costs” until the faulty encoder is replaced. This is how Encoderless control, with position, speed ,torque and flux state observers came into play; in general applications only encoderless control is used while in servo drives the encoderless control is available at least for redundancy.

The Intensive Course here presents an Overview of present status and trends in Encoderless control of electric drives as follows:

V/f and I-f scalar control of ac drives with stabilizing loops for faster torque response, extended speed range and high efficiency with variable load and speed: with sample spectacular results, including regenerative braking experiments
Encoderless Field Oriented Control(E-FOC) of IMs ,SPMSMs, IPMSMs, PM-RSMs and dc excited SMs: with case studies
Encoderless direct torque and flux control(E-DTFC) of IMs, IPMSMs,PM-RSMs, dc excited SMs: with case studies
Encoderless FOC of Induction, Doubly fed induction,doubly fed reluctance(brushless), PM and dc excited synchronous variable speed GENERATORS for wind and hydro ,with case studies
Encoderless Direct active and reactive power control(DPQC) of variable speed generator drives, with case studies
Robust control of advanced electric drives by case studies: feedback linearization and supertwisting sliding mode FOC and DTFC of IMs and IPMSMs
Prerequisites: Basic control theory and MATLAB/Simulink

Form of evaluation: Quiz in class (90%) and attendance rate (10%)

Link: http://www.et.aau.dk/phd/phd-courses/

Organizer: Professor Frede Blaabjerg, fbl@et.aau.dk, Aalborg University

Lecturers: Professor Ion Boldea, IEEE Fellow, DL, Romania


Time: 14-15 November 2019


Zip code:


Number of seats: 30

Deadline: 24 October 2019

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 registrations.