Assuming the diodes to be ideal, find the values of I and V in the circuits of Fig. 4.6. + 10 V + 10 V 10 kM 5 k. V B 5 kM 10 kΩ - 10 V - 10 V (a) (b) Figure 4.6 Circuits for Example 4.2. Solution In these circuits it might not be obvious at first sight whether none, one, or both diodes are conducting. In such a case, we make a plausible assumption, proceed with the analysis, and then check whether we end up with a consistent solution. For the circuit in Fig. 4.6(a), we shall assume that both diodes are conducting. It follows that V, = 0 and V= 0. The current through D, can now be determined from

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Example 4.2
Assuming the diodes to be ideal, find the values of I and V in the circuits of Fig. 4.6.
+ 10 V
+ 10 V
10 kN
5 kN
D,
ZD2
V
B
5 kN
10 kn
- 10 V
- 10 V
(a)
(b)
Figure 4.6 Circuits for Example 4.2.
Solution
In these circuits it might not be obvious at first sight whether none, one, or both diodes are conducting.
In such a case, we make a plausible assumption, proceed with the analysis, and then check whether we
end up with a consistent solution. For the circuit in Fig. 4.6(a), we shall assume that both diodes are
conducting. It follows that V, = (0 and V=0. The current through D, can now be determined from
Transcribed Image Text:Example 4.2 Assuming the diodes to be ideal, find the values of I and V in the circuits of Fig. 4.6. + 10 V + 10 V 10 kN 5 kN D, ZD2 V B 5 kN 10 kn - 10 V - 10 V (a) (b) Figure 4.6 Circuits for Example 4.2. Solution In these circuits it might not be obvious at first sight whether none, one, or both diodes are conducting. In such a case, we make a plausible assumption, proceed with the analysis, and then check whether we end up with a consistent solution. For the circuit in Fig. 4.6(a), we shall assume that both diodes are conducting. It follows that V, = (0 and V=0. The current through D, can now be determined from
4.38 Solve the problems in Example 4.2 using the constant-
voltage-drop (V,= 0.7 V) diode model.
Transcribed Image Text:4.38 Solve the problems in Example 4.2 using the constant- voltage-drop (V,= 0.7 V) diode model.
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