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Last modified: August 12, 2008  
University of Florida

EEL 3112 – Circuits II

 

Catalog Description: Credits: 3 Continuation of EEL 3111 with emphasis on circuit applications of convolution, the Fourier series, and Laplace and Fourier transforms.

Prerequisites: EEL 3111C and MAP 2302; Coreq: EGM 4313

Textbook: Signal Processing and Linear Systems by B.P. Lathi, Oxford University Press 1998 ISBN 0-19-521917-1

Course Objective: The topics in this course are part of the fundamental theory of electrical engineering and provides depth in the analysis, design, and implementation skills in those areas of electrical engineering needed to solve problems in the domain of electrical engineering.

Professional Component: 3 credits of Engineering Design

Relationship to Outcomes: (To view how the outcomes of this course fit in with the curriculum, click here)

  • EE1 - knowledge of probability and statistics, including applications
  • EE2 - knowledge of mathematics, basic and engineering sciences necessary to analyze and design complex systems
  • a - an ability to apply knowledge of mathematics, science, and engineering
  • k - an ability to use the techniques, skills, and modern engineering tools necessary for engineering practice

Class Schedule: 3 classes per week of 50 minutes each

Topics:

  • Intro, continuous-time signals and systems
  • Continuous-time linear systems: zero-state and zero-input responses, impulse response and convolution
  • Lumped-parameter systems and circuits – differential eqs: solution in the time domain, natural modes, impulse response. BIBO stability
  • Spectra of periodic signals: Fourier series.  Response of LTI systems to periodic signals: frequency response
  • Spectra of a periodic signals: Fourier transform.  Frequency response of LTI systems and impulse response
  • Frequency response of systems and circuits modeled by diff eqs; passive one-ports, impedance functions
  • Laplace transform and its application to circuits and system analysis: system function, poles, zeros, natural modes, stability
  • More frequency response: Bode plots, analog filter design by pole and zero placement

Course Committee: Dr. Srivastava, Chair, Dr. Principe, Dr. Wu, Dr. Shea

Course Committee Reports for:

Fall Term
Spring Term
Summer Term
2005   2006   2006