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Fall 2014
Nov 27, 2020
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Information Select the Course Number to get further detail on the course. Select the desired Schedule Type to find available classes for the course. The Schedule Type links will be available only when the schedule of classes is available for the selected term.

ECE 20200 - Linear Circuit Analysis II
Credit Hours: 3.00. Continuation of ECE 20100. Use of Laplace Transform techniques to analyze linear circuits with and without initial conditions. Characterization of circuits based upon impedance, admittance, and transfer function parameters. Determination of frequency response via analysis of poles and zeros in the complex plane. Relationship between the transfer function and the impulse response of a circuit. Use of continuous time convolution to determine time domain responses. Properties and practical uses of resonant circuits and transformers. Input - output characterization of a circuit as a two-port. Low and high-pass filter design. Typically offered Fall Spring Summer.
3.000 Credit hours

Syllabus Available
Levels: Graduate, Professional, Undergraduate
Schedule Types: Distance Learning, Lecture

Offered By: School of Elec & Computer Engr
Department: Electrical & Computer Engr

Course Attributes:
Lower Division

May be offered at any of the following campuses:     
      PU Fort Wayne
      Northwest- Westville
      Northwest- Hammond
      West Lafayette

Learning Outcomes: 1. An ability to compute impedances and admittances of components and circuits. 2. An ability to compute responses of linear circuits with and without initial conditions via one-sided Laplace transform techniques. 3. An ability to compute responses to linear circuits using transfer function and convolution techniques. 4. An ability to analyze and compute responses of linear circuits containing mutually couples inductors and ideal transformers in the s-domain. 5. An ability to analyze basic two port circuits using the various types of two port parameters and be able to construct such parameters from a given circuit. 6. An ability to analyze and design basic LP, BP, HP and resonant circuits in the s-domain.

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