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Fall 2016 Semester
May 24, 2020
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EECE 2520 - Fundamentals of Linear Systems
Develops the basic theory of continuous and discrete systems, emphasizing linear time-invariant systems. Discusses the representation of signals and systems in both the time and frequency domain. Topics include linearity, time invariance, causality, stability, convolution, system interconnection, and sinusoidal response. Develops the Fourier and Laplace transforms for the discussion of frequency-domain applications. Analyzes sampling and quantization of continuous waveforms (A/D and D/A conversion), leading to the discussion of discrete-time FIR and IIR systems, recursive analysis, and realization. The Z-transform and the discrete-time Fourier transform are developed and applied to the analysis of discrete-time signals and systems. Prereq. (a) EECE 2150 or EECE 2410 and (b) MATH 2341; engineering students only.
4.000 Credit hours
4.000 Lecture hours

Levels: Undergraduate
Schedule Types: Lecture

Electrical and Comp Engineerng Department

Course Attributes:
Engineering

Restrictions:
Must be enrolled in one of the following Levels:     
      Undergraduate
Must be enrolled in one of the following Colleges:     
      College of Engineering

Prerequisites:
(Undergraduate level EECE 2150 Minimum Grade of D- or Undergraduate level EECE 2410 Minimum Grade of D-) and Undergraduate level MATH 2341 Minimum Grade of D-

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