AAU logo
Uddannelse
Forskning
Samarbejde

PhD defence by Hechao Wang on Position Estimation Error Analysis, Self-Commissioning and Compensation for Low-Speed Sensorless Synchronous Machine Drives

Tidspunkt

23.09.2019 kl. 13.00 - 16.00

Beskrivelse

Hechao Wang, Department of Energy Technology, will defend the thesis "Position Estimation Error Analysis, Self-Commissioning and Compensation for Low-Speed Sensorless Synchronous Machine Drives".

TITLE

Position Estimation Error Analysis, Self-Commissioning and Compensation for Low-Speed Sensorless Synchronous Machine Drives

PHD DEFENDANT

Hechao Wang

SUPERVISOR

Associate Professor Kaiyuan Lu

MODERATOR

Associate Professor Pooya Davari

OPPONENTS

Associate Professor Pooya Davari, Dept. of Energy Technology, Aalborg University (Chairman)
Dr.-Ing. Ralph Kennel, Technische Universität München, Germany
Professor Radu Bojoi, Politecnico di Torino, Italy

ABSTRACT

Synchronous machine is widely used in modern industries due to its well-known advantages of high efficiency, compact size and high torque density. Field Oriented Control (FOC) is often adopted for effective control of the synchronous machine which requires the rotor position information. Position sensors, such as encoder, resolver or Hall component, will increase the cost and reduce the reliability of the drive. Instead of using a shaft position sensor, various position estimation methods (known as sensorless drives) have been extensively studied in the last few decades for the purposes of reducing the cost and increasing the reliability. In medium-high speed operation range, back electromotive force (EMF), which contains the information of rotor position, is utilized to estimate the position. However, for low-speed operation, the signal of back EMF is too low to be observed. Thus, high frequency (HF) signals are injected into the motor to track the rotor saliency for position estimation.

It is known that a lot of factors may affect the accuracy of the estimated position in pulse-injection based sensorless drive, such as inverter nonlinearity, resistive voltage drop, speed dependent back EMF, injection voltage magnitude and the self- & cross-saturation effects. The influence of the aforementioned factors and their compensation methods have been researched separately in existing studies. However their influences on position estimation interact with each. Therefore detailed quantitative comparison and analysis of their influences on position estimation error are investigated, which will be helpful in developing effective position error compensation methods for improving the performance of sensorless drives.

The position estimation error caused by load-dependent cross-saturation effect is an important issue in the saliency tracking based sensorless methods. It is found out through the entire study that this load-dependent position estimation error caused by the machine cross-coupling effect is an intrinsic error that cannot be detected and compensated by the position estimation algorithms themselves. Furthermore, the load-dependent position estimation error can be significant for the HF signal injection based position estimation algorithms, where the machine HF model is utilized. Thus, it is important to find an efficient and simple-to-implement method to identify this error. The self-commissioning and on-line identification methods proposed in this report are verified to be effective and can be a beneficial supplement in achieving high performance synchronous machine sensorless drive systems.

DOWNLOAD AS A PDF

PhD defence by Hechao Wang on Position Estimation Error Analysis, Self-Commissioning and Compensation for Low-Speed Sensorless Synchronous Machine Drives

ALL ARE WELCOME. THE DEFENCE WILL BE IN ENGLISH.

AFTER THE DEFENCE THERE WILL BE AN INFORMAL RECEPTION AT PONTOPPIDANSTRAEDE 111 IN ThE COFFEE ROOM.

 

Arrangør

Department of Energy Technology

Adresse

Pontoppidanstræde 101 room 1.001

Gå til arrangementslisten

Alle arrangementer

Se listen