Abstract
Different modulation modes of PWM technology and inverters can be selected for different types of the motors, a variety of AC variable frequency variable speed system structures can also be derived based on the same control principle. So it brings a great challenge to teaching AC variable speed systems. We have identified four factors that hinder students’ learning in this topic: 1) the abstraction of the mathematical logic behind the control theory; 2) the complexity of system structures; 3) the diversity of implementation methods; 4) lack of motivation to explore more engineering applications due to boring textbook contents. To facilitate and inspire student learning, we developed an innovative way to teach the AC Variable Speed Systems course using the simulation models library. The library was implemented based on MATLAB/Simulink to assist students in studying five different types of AC variable speed systems. We assessed the effectiveness of our new teaching practice by evaluating students’ cognitive and affective behavior under both the traditional lecture-based teaching environment and the new simulation-assisted teaching environments. The practice assessment tools that take into accounts the in-class performance (attendance accounts for 10% and the experimental reports account for 20%), the lab assignments computer operation score (30%) includes software operation (10%) and system constitution and design (20%), and the final exam (40%) are designed to assess the students’ understanding of AC variable speed systems. The student group learning under the simulation-assisted teaching environment delivered a superior performance in all measures including the noticeable improved scores on the final exam. We also developed a survey to evaluate the students' affective behavior by measuring their motivation for learning and their perceptions of effectiveness of practice. Ninety percent of students reported that the new teaching practice using the simulation models library is much more interesting and inspiring than the traditional lecture-based teaching approach.
Highlights
The concept of computer simulation, that is a vivid imitation of the structure, function and behavior of the system, was first introduced in 1960s
MATLAB is mainly used for scientific computing, data analysis and visualization, and interactive programming
The power system toolbox of Simulink is a module base dedicated to the RLC circuit, power electronic circuit, motor drive control, and power system simulation
Summary
The concept of computer simulation, that is a vivid imitation of the structure, function and behavior of the system, was first introduced in 1960s. MATLAB is mainly used for scientific computing, data analysis and visualization, and interactive programming. As the family member of MATLAB, Simulink is a visual simulation tool, which supports dynamic system modeling and simulation analysis of linear systems, nonlinear systems, digital control and DSP systems. The power system toolbox of Simulink is a module base dedicated to the RLC circuit, power electronic circuit, motor drive control, and power system simulation. It contains a variety of AC / DC power supply and a large number of electrical components, electrical measuring instruments and analysis tools [1, 2]. MATLAB can be used as a technology assisted tool for teaching electrical engineering theoretical concepts on power
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
