ECE 595S - Electric Drive Systems

Lecture Hours: 1 Lab Hours: 3 Credits: 3

Counts as:

Experimental Course Offered: Fall 2003

Catalog Description:
This is an advanced undergraduate / beginning level graduate course focusing on electric drive systems (power electronics driven electromechanical devises). The focus of the course will include permanent magnet synchronous machine and induction motor drives. There will be a heavy emphasis on operation, physical modeling, and applied control.

Required Text(s):
  1. Analysis of Electric Machinery, Second Edition, Krause, Wasynczuk, Sudhoff, IEEE Press / Wiley Inter-Science, ISBN No. 0-471-14326-X.

Recommended Text(s): None.

Learning Outcomes:

A student who successfully fulfills the course requirements will have demonstrated an ability to:
  1. Model and simulate electric drive systems. [a,b,e]
  2. Design modulation strategies for power electronics converters. [c,e]
  3. Design appropriate current-voltage regulators for electric drives. [c,e]
  4. Design appropriate supervisory (example torque) control algorithms. [c,e]
  5. Design speed and position controls for systems using electric drives. [c,e]

Lecture Outline:

Periods Topic (30 lecture periods at 2 per week)
3 Reference Fram Theory
2 Fully-Controlled Bridge Converters
5 Modulation Techniques
3 Voltage and Current Regulations
3 Review of Induction Machines
2 Volt/Hertz Induction Motor Drives
5 Indirect and Direct Field Oriented Control
1 Optimal Control of Induction Motor Devices
1 Review of SMPM Machines
5 Control of SMPM Drives

Lab Outline:

Lab Topic (15 laboratory periods at 1 per week)
1 Laboratory Safety & Introduction
1 High Power Measurements and Data Acquisition
1 Operation of the Six Step Inverter
1 Modulation Techniques
2 Voltage/Current Control Techniques
2 Induction Machine Characterization
2 Induction Machine Volts Per Hertz Control
2 Induction Machine Constant Slip Control
1 SMPM Characterization
2 Field Weakened SMPM Drive

Engineering Design Content:

Establishment of Objectives and Criteria
Synthesis
Testing
Evaluation

Engineering Design Consideration(s):

Economic
Performance