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Communication System Design Using DSP Algorithms with Lab Expers for the TMS320C6713 DSK - S. Trette

<!-- <H1> <b><font color="#CC0000"> WARNING:  Attendance at the Wednesday
lab lecture as well as lab sessions is required.  Your grade
will be reduced if you do not attend the lab lectures. </font></H1><P>
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<H1> <b><font color="#CC0000">NOTICE: There will be no lab lecture Wednesday,
      December 10. </font></H1><P>

<H1> <b><font color="#CC0000">NOTICE: The last lab reports are due
      Wednesday, December 17. </font></H1><P>


<A HREF="ee428sylf08.pdf"> <H2> Complete Syllabus (PDF)
  </H2> </A>

<H2> <b> CHAPTER 1.  Overview of the Hardware and Software Tools </H2><P>

<UL>
  <LI> <A HREF="ch1.pdf"> <H3>  All Chapter 1 Slides in ch1.pdf (PDF)  
   </H3> </A>
</UL> <BR><P>

<H2> <b> CHAPTER 2.  Learning to Use the Hardware and Software Tools by 
  Generating a Sine Wave</H2> <P>

<UL>
  <LI><A HREF="ch2.pdf"> <H3> All Chapter 2 Slides in ch2.pdf
   (PDF) </H3></A>
  <LI><A HREF="dsk6713.cmd"> <H3> A Sample
   Linker Command File (dsk6713.cmd) </H3> </A> 
  <LI><A HREF="dskstart32.c"> <H3> A C Program to Use as a Starting Point
   (dskstart32.c) </H3> </A>
  <LI><A HREF="edma_sines.c"><H3> Sample EDMA C Code Segment </H3></A> 
</UL> <BR><P>


<H2> <b> CHAPTER 3.  Digital Filters</H2> <P>

 <UL>
   <LI><A HREF="ch3.pdf"> <H3> All Chapter 3 Slides in ch3.pdf (PDF)
     </H3> </A> 
  <LI><A HREF="convol1.sa"> <H3> A Simple Linear Assembly Convolution
     Function Callable from C (convol1.sa) </H3> </A>
   <LI><A HREF="convolve.sa"> <H3> A More Efficient Linear
     Assembly Convolution Function (convolve.sa) </H3></A> 

     <H3>DISPLAYING LISSAJOUS FIGURES ON THE HP SCOPES: <P> First make
     sure the volts per division on channel 1 and 4 are the same, that
     the probes on both channels are set to 1:1, and that both
     channels are DC coupled. Then press the "WFORM MATH"
     button. In the math options, select "VS." Select channel 1 in the
     box above "vs" and channel 4 in the box below "vs" and then set
     the display to "on."  You will see channels 1 and 4 superimposed
     on the top half of the screen and 1 vs. 4 on the bottom
     half.</H3> </UL> <br>

<H2> <b> CHAPTER 4. The FFT and Power Spectrum Estimation </H2> <P>

<UL>
    <LI><A HREF="ch4.pdf"> <H3> All Chapter 4 Slides in ch4.pdf
    (PDF) </H3> </A>
</H3>
</UL> <br>

<H2> <b> CHAPTER 5. Amplitude Modulation </H2> <P>
 <UL>
  <LI> <A HREF="ch5.pdf"> <H3> All Chapter 5 Slides in ch5.pdf (PDF)
     </H3> </A>
</UL><br>

<H2> <b> CHAPTER 6. Double-Sideband Suppressed-Carrier Amplitude Modulation
    and Coherent Detection </H2> <P>

 <UL>
  <LI> <A HREF="ch6.pdf"> <H3> All Chapter 6 Slides in ch6.pdf (PDF)
       </H3> </A>
</UL> <br>


<H2> <b> CHAPTER 7. Single-Sideband Modulation and Frequency
  Translation </H2> <P>
 <UL>
  <LI> <A HREF="ch7.pdf"> <H3> All Chapter 7 Slides in ch7.pdf (PDF)
        </H3> </A>
 </UL> <br>

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<H2> <b> CHAPTER 8. Frequency Modulation </H2> <P>
 <UL>
   <LI> <A HREF="ch8.pdf"> <H3> All Chapter 8 Slides in ch8.pdf (PDF)
       </H3> </A>
 </UL> <br>

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<H2> <b> CHAPTER 9. Pseudo-Random Binary Sequences and Data Scramblers
    </H2> <P>
 <UL>
   <LI> <A HREF="ch9.pdf"> <H3> All Chapter 9 Slides in ch9.pdf (PDF)
        </H3> </A>
 </UL> <br>


<H2> <b> CHAPTER 10. Introduction to the RS-232C Protocol and a Bit-Error
  Rate Tester </H2> <P>
<UL>
   <LI> <A HREF="ch10.pdf"> <H3> All Chapter 10 Slides in ch10.pdf (PDF)
        </H3> </A>
 </UL> <br>


<H2> <b> A Better Random Number Generator than the one in the C6x C
Compiler Library </H2> <P>
<UL>
  <LI> <A HREF="rand.pdf"> <H3> Descriptions of the C3x and C6x Random
  Number Generators and Why one is Better than the Other (PDF)
  </H3> </A>
  <LI><A HREF="c30rand.c"> <H3> Source Code for the C3x/C4x C Compiler
     Random Number Generator </H3> </A>
  <LI><A HREF="c6xrand.c"> <H3> Source Code for the C6x C Compiler
  Random Number Generator </H3> </A> 
</UL> <br>

<H2> <b> CHAPTER 11. Digital Data Transmission by Baseband Pulse Amplitude
  Modulation (PAM) </H2> <P>

<UL>
    <LI><A HREF="ch11.pdf">   <H3> All Chapter 11 Slides in ch11.pdf (PDF)
        </H3> </A>
 </UL> <br>


<H2> <b> CHAPTER 12  Variable Phase Interpolation </H2> <P>

<UL>
    <LI><A HREF="ch12.pdf">   <H3> All Chapter 12 Slides in ch12.pdf (PDF)
        </H3> </A>
</UL> <br>


<H2> <b> CHAPTER 13. Fundamentals of Quadrature Amplitude Modulation </H2> <P>

<UL>
    <LI><A HREF="ch13.pdf">   <H3> All Chapter 13 Slides in ch13.pdf (Postscipt)
          </H3> </A>
 </UL> <br>
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<H2> <b> CHAPTER 14. QAM Receiver I.  General Receiver Description, Clock
   Recovery, and Other Front-End Subsystems  </H2> <P>

<UL>
    <LI><A HREF="ch14_1.gif">   <H3> Slide 14.1 Block Diagram of a QAM
       Receiver </H3> </A>
 </UL> <br>
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