Chapter 3 problems: Difference between revisions

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*<math>V=-5</math> for <math>-10 \le V_{in} \le -5</math>
*<math>V=-5</math> for <math>-10 \le V_{in} \le -5</math>
*<math>V=-5</math> for <math>-5 \le V_{in} \le 5</math>
*<math>V=</math> for <math>-5 \le V_{in} \le 5</math>
*<math>V=5</math> for <math>5 \le V_{in} \le 10</math>
*<math>V=5</math> for <math>5 \le V_{in} \le 10</math>



Latest revision as of 16:05, 2 March 2010

3.9

Part A

  • Using KVL:
  • Thus the two points for the load line are and
  • Overlay the above two points with the diode characteristics to find the answer.

Part B

  • Thevenin Equivalent: and
  • Using KVL: , thus and for the load line.
  • can be read from the load line graph. We can then use this information to find the voltage over .

Part C

  • KVL & KCL: and . Note that is the same thing as
  • Thus and . Using the load line to find the I & V of device X. Then plug into the second equation to find

3.17

Part A

  • Guessing D1 is on, D2 and D3 are off. Looking at the voltage drops, this is very unlikely.
  • Guessing D1 off, D2 on, D3 off. and .
  • Checking for positive current through presumed on diodes and negative voltage across the presumed off diodes.
  • D1 and D2 fail. D3 passes.
  • Guessing D1 and D2 on, D3 off.
  • and . D1, D2, D3 pass.


Part B

  • , : D1, D2, D3, D4 on.
  • , : D1, D2, D3, D4 on.
  • , : D2, D3 on. D1, D4 off.
  • , : D2, D3 on. D1, D4 off.
  • for
  • for
  • for

3.32

  • How does this circuit work?

3.33

P3.33.PNG

3.37

P3.37.PNG

3.38

P3.38.PNG