Chapter 3 problems: Difference between revisions

Latest revision as of 16:05, 2 March 2010

3.9

Part A

Using KVL: $4=1.5I_{A}+V_{A}$
Thus the two points for the load line are $V_{A}=4$ and $I_{A}=2.66$
Overlay the above two points with the diode characteristics to find the answer.

Part B

Thevenin Equivalent: $V_{oc}=200*.005=1V$ and $R_{th}=200+200=400$
Using KVL: $-1+400*I_{B}+V_{X}=0$ , thus $V=1$ and $I=0.0025$ for the load line.
$I_{B}$ can be read from the load line graph. We can then use this information to find the voltage over $V_{B}$ .

Part C

KVL & KCL: $I_{C}-V_{C}/500-V_{C}/500=0$ and $-0.5+V_{C}+V_{X}=0$ . Note that $I_{C}$ is the same thing as $I_{X}$

Thus $V_{C}=250I_{C}$ and $V_{X}=1/2-250I_{C}$ . Using the load line to find the I & V of device X. Then plug into the second equation to find $V_{C}$

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. $I=7.5mA$ and $V=7.5$ .

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.

$I=0$ and $V=7.5$ . D1, D2, D3 pass.

Part B

$V_{in}=0$ , $V=5$ : D1, D2, D3, D4 on.
$V_{in}=2$ , $V=5$ : D1, D2, D3, D4 on.
$V_{in}=6$ , $V=5$ : D2, D3 on. D1, D4 off.
$V_{in}=10$ , $V=5$ : D2, D3 on. D1, D4 off.

$V=-5$ for $-10\leq V_{in}\leq -5$
$V=$ for $-5\leq V_{in}\leq 5$
$V=5$ for $5\leq V_{in}\leq 10$

3.32

How does this circuit work?

@@ Line 9: / Line 9: @@
 *<math>I_B</math> can be read from the load line graph. We can then use this information to find the voltage over <math>V_B</math>.
 '''Part C'''
-*Thevenin Equivalent: <math>R_{th}=500</math> and <math>V_{oc}=</math>
+*KVL & KCL: <math>I_C-V_C/500-V_C/500=0</math> and <math>-0.5+V_C+V_X=0</math>. Note that <math>I_C</math> is the same thing as <math>I_X</math>
+:*Thus <math>V_C=250I_C</math> and <math>V_X=1/2-250I_C</math>. Using the load line to find the I & V of device X. Then plug into the second equation to find <math>V_C</math>
 ===3.17===
@@ Line 20: / Line 21: @@
 :*<math>I=0</math> and <math>V=7.5</math>. D1, D2, D3 pass.
-Check each guess please. More importantly, check the wrong assumptions.
-'''Part B''' Need help on this one.
+'''Part B'''
-*<math>V_{in}=0</math>, <math>V=-5</math>: D1, D4 on. D2, D3 off.
+*<math>V_{in}=0</math>, <math>V=5</math>: D1, D2, D3, D4 on.
-*<math>V_{in}=2</math>, <math>V=-5</math>: D1, D4 on. D2, D3 off.
+*<math>V_{in}=2</math>, <math>V=5</math>: D1, D2, D3, D4 on.
 *<math>V_{in}=6</math>, <math>V=5</math>: D2, D3 on. D1, D4 off.
 *<math>V_{in}=10</math>, <math>V=5</math>: D2, D3 on. D1, D4 off.
+*<math>V=-5</math> for <math>-10 \le V_{in} \le -5</math>
-V=0. D1, D4 on. Can you really sink current into a voltage source? I don't see how you will ever have negative voltage across the diodes.
+*<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>
 ===3.32===
@@ Line 37: / Line 39: @@
 ===3.37===
+[[Image:P3.37.PNG‎|300px|none]]
+===3.38===
+[[Image:P3.38.PNG‎|300px|none]]

Chapter 3 problems: Difference between revisions

Latest revision as of 16:05, 2 March 2010

Contents

3.9

3.17

3.32

3.33

3.37

3.38

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Chapter 3 problems: Difference between revisions

Latest revision as of 16:05, 2 March 2010

3.9

3.17

3.32

3.33

3.37

3.38

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