ECE 2200

ECE 2200

Course information provided by the Courses of Study 2020-2021.

Introduction to signal processing. Topics include frequency-based representations: Fourier analysis and synthesis; discrete time linear systems: input/output relationships, filtering, spectral response; analog-to-digital and digital-to-analog conversion; continuous time signals and linear time invariant systems: frequency response and continuous-time Fourier transform.

When Offered Fall, Spring.

Prerequisites/Corequisites Prerequisite: MATH 2930, CS 1110 or CS 1112. Corequisite: MATH 2940.

Outcomes
  • Use phasors and spectra in analysis of complex exponentials and sinusoids.
  • Use convolution, frequency response, and z and Fourier transforms to analyze input-output behavior of continuous-time and discrete-time LTI systems.
  • Understand sampling, aliasing, and reconstruction in the time and frequency domains and analyze signals in time or frequency domain in a system composed of continuous-time and discrete-time components in addition to discrete-to-continuous and continuous-to-discrete converters.
  • Use the relationship of frequency response, time response, and system function singularities to design frequency selective filters and discrete-time and continuous-time LTI systems.

View Enrollment Information

Syllabi: none
  •   Regular Academic Session.  Choose one lecture and one laboratory. Combined with: ENGRD 2220

  • 4 Credits Graded

  • 10146 ECE 2200   LEC 001

    • TR Online Meeting
    • Sep 2 - Dec 16, 2020
    • Tong, L

  • Instruction Mode: Online

  • 10173 ECE 2200   LAB 401

    • F Online Meeting
    • Sep 2 - Dec 16, 2020
    • Tong, L

  • Instruction Mode: Online

  • 10523 ECE 2200   LAB 402

    • T Online Meeting
    • Sep 2 - Dec 16, 2020
    • Tong, L

  • Instruction Mode: Online

  • 10524 ECE 2200   LAB 403

    • W Online Meeting
    • Sep 2 - Dec 16, 2020
    • Tong, L

  • Instruction Mode: Online

  • 10525 ECE 2200   LAB 404

    • R Online Meeting
    • Sep 2 - Dec 16, 2020
    • Tong, L

  • Instruction Mode: Online