EE 313 Networks III

1996-97 Catalog Data: 3 credits

Network solutions using Fourier Series, Fourier Transforms, and Laplace Transforms, Two-Port Network. Prerequisite: EE 214. Corequisite: EE 313L and Math 392.

Additional Information

Textbooks:

Electric Circuits, James W. Nilsson, 4th edition, Addison Wesley Publishing Co.

Reference:

None

Coordinator:

Nadipuram R. Prasad, Assistant Professor of Electrical and Computer Engineering.

Goals:

This course is designed to introduce methods for analyzing electric circuits using Fourier Series, Fourier Transforms, and Laplace Transforms. The course expands the usefulness of the above methods through the introduction of transfer functions, Bode plots, and convolution integral.

Prerequisites by Topic:

1. Node and mesh analysis using time-varying inputs.
2. Thevenin's and Norton's equivalent.
3. Solution to first- and second-order differential equations.

Topics:

1. Fourier series: Definition, properties, alternate forms, and the application to circuit analysis. (8 classes)
2. Fourier transforms: Definition, properties, functional and operational transforms, inverse transforms, Perseval's theorem and their application to circuit analysis. (9 classes)
3. Laplace transforms: Definition, properties, functional and operational transforms, and inverse transforms. (6 classes)
4. Circuit Analysis: Application of Laplace transforms to circuit analysis. (7 classes)
5. Related topics: Transfer functions, impulse response, convolution, steady-state and transient analysis, Bode plots, and an introduction to two-port networks (12 classes).

Computer Usage:

See EE 313L Networks III laboratory.

ABET Category Content:

Engineering science: 3 credits or 100%

Prepared by:

Steven Omick

Date: February 25, 1994

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