(New page: =This pages contains exercises to practice computing the Fourier series of a DT signal = ---- ==Recall the basic formulas== *Fourier series of a discrete-time signal x[n] periodic with pe...)
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Revision as of 11:22, 10 September 2010

This pages contains exercises to practice computing the Fourier series of a DT signal


Recall the basic formulas

  • Fourier series of a discrete-time signal x[n] periodic with period N
$ x[n]=\sum_{k=0}^{N-1} a_k e^{j \frac{2\pi}{N}kn} $
  • Fourier series coefficients of a continuous-time signal x(t) periodic with period T
$ a_k=\frac{1}{N} \sum_{0}^{N-1} x[n] e^{-j \frac{2\pi}{N}nk} $

Case 1: For some periodic functions, the Fourier series coefficients must be obtained using the above summation formula

The following pages contain a periodic signal along with a computation of the Fourier series coefficients of that signal. These were contributed by your peers in ECE301. Check whether the answers are correct. Are all the steps explained clearly and logically? Do you have questions? Feel free to comment directly on the pages!



Case 2: Some periodic functions (e.g. sine and cosine) can be directly expanded into a linear combination of complex exponentials

The following pages contain a periodic signal along with a computation of the Fourier series coefficients of that signal. These were contributed by your peers in ECE301. Check whether the answers are correct. Are all the steps explained clearly and logically? Do you have questions? Feel free to comment directly on the pages!


Questions

  • What is the difference between the Fourier series of a signal, and the Fourier series coefficients for a signal?
    • Answer here

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