ECET 300: Circuit Analysis: Transform Methods - Rockland
Instructor: Dr. Ronald Rockland
Course Description: The principles, theorems and techniques of circuit analysis are reviewed. The technique of waveform and circuit transforms is introduced. Laplace transforms are studied and applied in the solution of circuit problems with a variety of input functions. Fourier analysis is also introduced. Course makes extensive use of computer simulation software Prerequisites: DC and AC circuit analysis (AAS level). Corequisite: Math 322.
All of these works are licensed under a Creative Commons Attribution-Noncommercial-Share Alike 3.0 United States License.
| Course Syllabus | File (PDF) |
| MATLAB - Overview | Video |
| MATLAB - Basic Functions | Video |
| MATLAB - Complex Numbers | Video |
| MATLAB - Applying Functions to Row Vectors | Video |
| MATLAB - Automatically Creating Vectors | Video |
| MATLAB - Plotting Basics | Video |
| Step and Ramp Functions | Video |
| Exponent and Sinusoid Function | Video |
| Introduction to Complex Numbers | Video |
| Building Waveforms From Basic Functions | Video |
| Graphical Differentiation and Integration of Waveforms | Video |
| Introduction to Laplace Transform | Video |
| Finding Roots of a Polynomial with MATLAB | Video |
| Laplace Transforms to Solve Differential Equations | Video |
| Inverse Laplace Transforms - Real and Simple Roots | Video |
| Inverse Laplace Transforms Complex Roots | Video |
| Inverse Laplace Transforms Multiple Real Roots | Video |
| Laplace Transforms to Solve Differential Equations | Video |
All of these works are licensed under a Creative Commons Attribution-Noncommercial-Share Alike 3.0 United States License.
