כ A {T} D: Si + Assignment_1Ele... X classification s... Chapter 2 ä Si ΙΚΩ Figure 2.143 Problem 18. -5V Si Si 2.2 k 12. Determine Vo₁, Vo₂, and I for the network of Fig. 2.141. * 13. Determine V, and ID for the network of Fig. 2.142. ΙΚΩ ww 0.47 ΚΩ w 2 k 20 V Si Ge +10 Vo Si 2 k 2 ΚΩ Figure 2.141 Problem 12 § 2.6 AND/OR Gates Figure 2.142 Problems 13, 51 14. Determine V for the network of Fig. 2.38 with 0 V on both inputs. 15. Determine V for the network of Fig. 2.38 with 10 V on both inputs. 16. Determine V for the network of Fig. 2.41 with 0 V on both inputs. 17. Determine V for the network of Fig. 2.41 with 10 V on both inputs. 18. Determine V for the negative logic OR gate of Fig. 2.143. 19. Determine V for the negative logic AND gate of Fig. 2.144. 20. Determine the level of V. for the gate of Fig. 2.145. 21. Determine Vo for the configuration of Fig. 2.146. 10 V Si 10 V K Si ΙΚΩ 610 V 5V Si 5V Ge 12.2 ΚΩ 6-5 V Figure 2.144 Problem 19 Ideal -V-2 V 2.2k2 Figure 2.145 Problem 20 Figure 2.146 Problem 21 § 2.7 Sinusoidal Inputs; Half-Wave Rectification 22. Assuming an ideal diode, sketch vi, vd, and id for the half-wave rectifier of Fig. 2.147. The in- put is a sinusoidal waveform with a frequency of 60 Hz * 23. Repeat Problem 22 with a silicon diode (V+ = 0.7 V). * 24. Repeat Problem 22 with a 6.8-k2 load applied as shown in Fig. 2.148. Sketch vz and iд. 25. For the network of Fig. 2.149, sketch vo and determine Vac- + Ideal Vdc -2 V "L Figure 2.147 Problems 22, 23, 2.2 ΚΩ w 24 2.2 k Re 168 ΚΩ V-110 V (ms) Ideal Figure 2.148 Problem 24 Figure 2.149 Problem 25 4

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Question 24

כ
A
{T}
D:
Si
+
Assignment_1Ele... X classification s...
Chapter 2 ä
Si
ΙΚΩ
Figure 2.143 Problem 18.
-5V
Si
Si
2.2 k
12. Determine Vo₁, Vo₂, and I for the network of Fig. 2.141.
* 13. Determine V, and ID for the network of Fig. 2.142.
ΙΚΩ
ww
0.47 ΚΩ
w
2 k
20 V
Si
Ge
+10 Vo
Si
2 k
2 ΚΩ
Figure 2.141 Problem 12
§ 2.6 AND/OR Gates
Figure 2.142 Problems 13, 51
14. Determine V for the network of Fig. 2.38 with 0 V on both inputs.
15. Determine V for the network of Fig. 2.38 with 10 V on both inputs.
16. Determine V for the network of Fig. 2.41 with 0 V on both inputs.
17. Determine V for the network of Fig. 2.41 with 10 V on both inputs.
18. Determine V for the negative logic OR gate of Fig. 2.143.
19. Determine V for the negative logic AND gate of Fig. 2.144.
20. Determine the level of V. for the gate of Fig. 2.145.
21. Determine Vo for the configuration of Fig. 2.146.
10 V
Si
10 V
K
Si
ΙΚΩ
610 V
5V
Si
5V
Ge
12.2 ΚΩ
6-5 V
Figure 2.144 Problem 19
Ideal
-V-2 V
2.2k2
Figure 2.145 Problem 20
Figure 2.146 Problem 21
§ 2.7 Sinusoidal Inputs; Half-Wave Rectification
22. Assuming an ideal diode, sketch vi, vd, and id for the half-wave rectifier of Fig. 2.147. The in-
put is a sinusoidal waveform with a frequency of 60 Hz
* 23. Repeat Problem 22 with a silicon diode (V+ = 0.7 V).
* 24. Repeat Problem 22 with a 6.8-k2 load applied as shown in Fig. 2.148. Sketch vz and iд.
25. For the network of Fig. 2.149, sketch vo and determine Vac-
+
Ideal
Vdc -2 V
"L
Figure 2.147 Problems 22, 23,
2.2 ΚΩ
w
24
2.2 k
Re
168 ΚΩ
V-110 V (ms)
Ideal
Figure 2.148 Problem 24
Figure 2.149 Problem 25
4
Transcribed Image Text:כ A {T} D: Si + Assignment_1Ele... X classification s... Chapter 2 ä Si ΙΚΩ Figure 2.143 Problem 18. -5V Si Si 2.2 k 12. Determine Vo₁, Vo₂, and I for the network of Fig. 2.141. * 13. Determine V, and ID for the network of Fig. 2.142. ΙΚΩ ww 0.47 ΚΩ w 2 k 20 V Si Ge +10 Vo Si 2 k 2 ΚΩ Figure 2.141 Problem 12 § 2.6 AND/OR Gates Figure 2.142 Problems 13, 51 14. Determine V for the network of Fig. 2.38 with 0 V on both inputs. 15. Determine V for the network of Fig. 2.38 with 10 V on both inputs. 16. Determine V for the network of Fig. 2.41 with 0 V on both inputs. 17. Determine V for the network of Fig. 2.41 with 10 V on both inputs. 18. Determine V for the negative logic OR gate of Fig. 2.143. 19. Determine V for the negative logic AND gate of Fig. 2.144. 20. Determine the level of V. for the gate of Fig. 2.145. 21. Determine Vo for the configuration of Fig. 2.146. 10 V Si 10 V K Si ΙΚΩ 610 V 5V Si 5V Ge 12.2 ΚΩ 6-5 V Figure 2.144 Problem 19 Ideal -V-2 V 2.2k2 Figure 2.145 Problem 20 Figure 2.146 Problem 21 § 2.7 Sinusoidal Inputs; Half-Wave Rectification 22. Assuming an ideal diode, sketch vi, vd, and id for the half-wave rectifier of Fig. 2.147. The in- put is a sinusoidal waveform with a frequency of 60 Hz * 23. Repeat Problem 22 with a silicon diode (V+ = 0.7 V). * 24. Repeat Problem 22 with a 6.8-k2 load applied as shown in Fig. 2.148. Sketch vz and iд. 25. For the network of Fig. 2.149, sketch vo and determine Vac- + Ideal Vdc -2 V "L Figure 2.147 Problems 22, 23, 2.2 ΚΩ w 24 2.2 k Re 168 ΚΩ V-110 V (ms) Ideal Figure 2.148 Problem 24 Figure 2.149 Problem 25 4
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