Description
This course studies Laplace transforms, Fourier transforms, convolution and the applications to circuits, frequency selective circuits, design of active filters, and state space analysis of circuits.
Prerequisites
"C" or higher ECE 211. "C" or higher or concurrent enrollment in MATH 244.
Course Student Learning Outcomes (CSLOs)
- Represent circuit responses in terms of sinusoidal phasor notation, Laplace transformations, convolutional determination, and Fourier representations.
- Perform nodal, loop, and state formulations and analysis of sinusoidal steady state circuits.
- Design simple filters including a Butterworth filter.
- Build and measure circuits, and work in a team.
- Write clear and complete laboratory reports.
- Apply Matlab or similar math analysis software to analyze and design circuits.