12 V2 5Vpk R1 ли 1kO D1 D2 12 1kHz 0° V3 V1 -6V 2V Vout Figure 3 (3-a) Assume D₁ and D₂ are both ideal diodes, explains what happens during the positive and negative half cycles, then on the same set of axes plot Vout and Vin Vesrus time, and on another set of axes plot IR, Vesrsus time. (3-b) Assume D₁ and D, are both silicon diodes, with threshold potential 0.7V, use the practical diode model to explains what happens during the positive and negative half cycles, then on the same set of axes plot Vout and Vin Vesrus time, and on another set of axes plot IR, Vesrsus time. (3-c) Assume D₁ and D₂ are both silicon diodes, with threshold potential 0.7V and dynamic diode forward resistance = 300, explains what happens during the positive and negative half cycles, then on the same set of axes plot Vout and Vin Vesrus time, and on another set of axes plot IR, Vesrsus time.

Introductory Circuit Analysis (13th Edition)
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12
V2
5Vpk
R1
ли
1kO
D1
D2
12
1kHz
0°
V3
V1
-6V
2V
Vout
Figure 3
(3-a) Assume D₁ and D₂ are both ideal diodes, explains what happens during the positive and negative half
cycles, then on the same set of axes plot Vout and Vin Vesrus time, and on another set of axes plot
IR, Vesrsus time.
(3-b) Assume D₁ and D, are both silicon diodes, with threshold potential 0.7V, use the practical diode
model to explains what happens during the positive and negative half cycles, then on the same set of axes
plot Vout and Vin Vesrus time, and on another set of axes plot IR, Vesrsus time.
(3-c) Assume D₁ and D₂ are both silicon diodes, with threshold potential 0.7V and dynamic diode forward
resistance = 300, explains what happens during the positive and negative half cycles, then on the
same set of axes plot Vout and Vin Vesrus time, and on another set of axes plot IR, Vesrsus time.
Transcribed Image Text:12 V2 5Vpk R1 ли 1kO D1 D2 12 1kHz 0° V3 V1 -6V 2V Vout Figure 3 (3-a) Assume D₁ and D₂ are both ideal diodes, explains what happens during the positive and negative half cycles, then on the same set of axes plot Vout and Vin Vesrus time, and on another set of axes plot IR, Vesrsus time. (3-b) Assume D₁ and D, are both silicon diodes, with threshold potential 0.7V, use the practical diode model to explains what happens during the positive and negative half cycles, then on the same set of axes plot Vout and Vin Vesrus time, and on another set of axes plot IR, Vesrsus time. (3-c) Assume D₁ and D₂ are both silicon diodes, with threshold potential 0.7V and dynamic diode forward resistance = 300, explains what happens during the positive and negative half cycles, then on the same set of axes plot Vout and Vin Vesrus time, and on another set of axes plot IR, Vesrsus time.
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