- Docente: Luca Zarri
- Credits: 9
- SSD: ING-IND/32
- Language: Italian
- Moduli: Fiorenzo Filippetti (Modulo 1) Luca Zarri (Modulo 2)
- Teaching Mode: Traditional lectures (Modulo 1) Traditional lectures (Modulo 2)
- Campus: Bologna
- Corso: First cycle degree programme (L) in Automation Engineering (cod. 0920)
Learning outcomes
The aim of this course is to present the behavior of modern electrical drives. DC and AC electrical drives will be analyzed and their use in automation engineering will be presented. The main topics are dc motors, ac induction motors, brushless motors, stepper motors. The use of power converters for the control of torque, position and speed will be analyzed. Finally, the design and the selection criteria of the most suitable drive for a given application will be considered.
Course contents
Please, note that the couse is divided into two parts, and there are two different professors.
PART I
Fundamentals of Electric Machines (Prof. Fiorenzo
Filippetti, 3 credits)
Introduction
Fundamentals of electromechanical energy conversion,
generation of forces and torque in electrical machines, energy
balance principles.
Synchronous Motors
Operating principles. Model and equations. Steady-state
behavior.
Induction Motor
Operating principles. Model and equations. Steady-state
behavior.
PART II
Fundamentals of Electric Drives (Prof. Luca Zarri,
6 credits)
DC Motor Drives
Separately excited DC machines. Mathematical model. Steady
state characteristics with armature and field control. Control of
DC motors in the armature control region and in the field-weakening
region. Transition from driving to breaking operation. DC drives
with line-commutated converters. DC drives with force-commutated
converters. Single-, double-, and four-quadrant operation. Constant
torque and constant horsepower operation. Application DC motor
drives.
Brushless DC Motors
Magnetic circuit analysis. Torque and e.m.f. equations.
Winding inductances and armature reaction. Torque/speed
characteristics: performance and efficiency. The three-phase
half-wave brushless DC motor. The three-phase full-wave brushless
DC motor. Commutation phenomena. Position sensors. Drive
characteristics and control principles. Application of brushless DC
motor drives.
Synchronous Motor Drives
Magnetic circuit analysis of synchronous machines with
surface-mounted magnets and with interior magnets. Synchronous
reactances (d-, q-axis). Torque and machine equations. Steady-state
characteristics. Open-loop control of voltage source inverter
drives. Closed-loop control of current controlled PWM inverter
drives. Synchronous motor drives with load-commutated inverter.
Applications.
Induction Motor Drives
Analysis of induction motors based on steady-state machine
model. Torque and machine equations. Steady-state characteristics.
Starting of induction motors. Constant terminal volts/hertz
operation. Torque characteristics. Low-frequency performance with
increased volts/hertz. Constant air-gap flux operation. Torque
characteristics. Current-source inverter drive with slip frequency
control. Current controlled PWM inverter drive with slip frequency
control. Constant-horsepower operation. Applications.
Stepping Motors
Classification of stepping motors. Stepping motors
characteristics. Tooth structure, number of teeth, steps per
revolution, and number of poles. Static torque production in
variable reluctance stepping motor. Static torque production in
hybrid stepping motors. Single-step response. Torque versus speed
characteristics. Resonances and instabilities. Open-loop control of
stepping motors. Logic sequencers. Motor drivers. One?phase on and
two-phase on excitation. Half-step operation. Application of
stepping motors.
Readings/Bibliography
For the first part:
- A.E. FITZGERALD C. KINGSLEY JR. A. KUSKO: MACCHINE ELETTRICHE,
FRANCO ANGELI ED. MILANO
- F. CIAMPOLINI: ELETTROTECNICA GENERALE, PITAGORA ED.
BOLOGNA
- notes of the teacher
For the second part:
A.E. FITZGERALD, C. KINGSLEY JR., A. KUSKO, Macchine Elettriche,
Franco Angeli Editore, Milano, 1978.
JOHN M.D. MURPHY, F.G. TURNBULL, Power Electronic Control of AC
Motors, Pergamon Press, Oxford, 1988.
TAKASHI KENJO, Stepping motors and their microprocessor controls,
Clarendon Press, Oxford, 1985.
T.J.E. MILLER, Brushless permanent-magnet and reluctance motor
drives, Clarendon Press, Oxford, 1989.
T.J.E. MILLER, Switched reluctance motor and their control,
Clarendon Press, Oxford, 1989.
Assessment methods
The exam is divided into two parts. The first one is related to the fundamentals of electric machines, the second one is related to electric drives.
Part I:
Written and oral exam.
Part II:
Written exam on the theoretical topics
and presentation of a report on the laboratory
activity.
Teaching tools
The course is integrated with some case studies concerning the sizing of electric drives for industrial applications. In addition, the operating characteristics of dc and ac electrical drives are verified by experimental tests carried out in laboratory. Finally, some computer models of the most common electric drives are used and explained.
Office hours
See the website of Luca Zarri
See the website of Fiorenzo Filippetti