(14 intermediate revisions by the same user not shown)
Line 9: Line 9:
 
These are given without guarantee of correctness. If you see a typo or error, please let me know.
 
These are given without guarantee of correctness. If you see a typo or error, please let me know.
 
----
 
----
 +
 +
* [[Media:ECE301Summer2016_Aug01.pdf|Mon Aug 1st]]
 +
 +
* [[Media:ECE301Summer2016_Jul28.pdf|Thu Jul 28th]]
 +
 +
* [[Media:ECE301Summer2016_Jul27.pdf|Wed Jul 27th]]
 +
** Moving from sampling a CT signal to a discrete time sequence.
 +
 +
* [[Media:ECE301Summer2016_Jul21.pdf|Thu Jul 21st]]
 +
 +
* [[Media:ECE301Summer2016_Jul20.pdf|Wed Jul 20th]]
 +
** [[Media:ece301Summer2016_samplingExample.zip| Code]] for sampling a sine wave.
 +
 +
* [[Media:ECE301Summer2016_Jul19.pdf|Tue Jul 19th]]
 +
 +
* [[Media:ECE301Summer2016_Jul18.pdf|Mon Jul 18th]]
 +
 +
* [[Media:ECE301Summer2016_Jul15.pdf|Fri Jul 15th]]
 +
 +
* [[Media:ECE301Summer2016_Jul14.pdf|Thu Jul 14th]]
 +
** This is a short lecture because of our quiz.
 +
 +
* [[Media:ECE301Summer2016_Jul13.pdf|Wed Jul 13th]]
 +
 +
* [[Media:ECE301Summer2016_Jul11.pdf|Mon Jul 11th]]
 +
 +
* [[Media:ECE301Summer2016_Jul08.pdf|Fri Jul 8th]]
 +
** [[Media:classMovingAverage.zip| Code]] to plot the moving average.
 +
 +
* [[Media:ECE301Summer2016_Jul07.pdf|Thu Jul 7th]]
 +
** [[Media:euler.png|Plot]] of the complex exponential. Modified matlab [[Media:classExample_jun07.zip| code]].
 +
 +
* [[Media:ECE301Summer2016_Jul06.pdf| Wed Jul 6th]]
  
 
* [[Media:ECE301Summer2016_Jul05.pdf| Tue Jul 5th]]
 
* [[Media:ECE301Summer2016_Jul05.pdf| Tue Jul 5th]]

Latest revision as of 20:09, 1 August 2016


ECE301, Summer 2016, Trey E. Shenk

Lecture Notes

These are given without guarantee of correctness. If you see a typo or error, please let me know.


  • Wed Jul 27th
    • Moving from sampling a CT signal to a discrete time sequence.
  • Tue Jul 5th
    • Fourier series representation of CT periodic signals and FS properties.
  • Thu Jun 29th
    • Includes a list of what is covered on Exam 1, and some worked examples.
  • Tue Jun 28th
    • Mainly looked at some examples from the homework. They will be revisited on Wednesday.
    • Here is the matlab example that was run in class (with some additional comments).
  • Friday June 24th
    • Note that there was a change to page 6 (the length of the output). It should be an equality (length(x[n]*h[n]) = length(x[n]) + length(h[n]) - 1). Also note that the upper bound of 14 came from y[14]=0, not the length of the sequences being convolved. More explanation has been added to the notes.



Discussions

Alumni Liaison

Basic linear algebra uncovers and clarifies very important geometry and algebra.

Dr. Paul Garrett