Analyze the circuit shown below. a. Use the constant voltage drop (CVD) model with 0.7V forward voltage drop to quickly verify that the diode is forward-biased. What is the DC output voltage? What is the DC current through the diode? b. Make a better estimate of the DC output voltage by employing the diode equation (Shockley equation). Assume Iş = 10-14, n= 1, and room temperature (300K). c. Determine the dynamic resistance ra (small-signal resistance) of the diode from the operating point information in part b). Now, consider the case in which a 60HZ sinusoid with 1V peak amplitude is applied [ Vs signal model) to find the AC output voltage due to the sinusoidal component at the supply terminal. What is the resulting total (DC + AC) output voltage at the given DC operating point? 1V-sin(2n-60-t) ]. Use the CVD + resistance diode model (small- 3kQ Vs No 6V
Analyze the circuit shown below. a. Use the constant voltage drop (CVD) model with 0.7V forward voltage drop to quickly verify that the diode is forward-biased. What is the DC output voltage? What is the DC current through the diode? b. Make a better estimate of the DC output voltage by employing the diode equation (Shockley equation). Assume Iş = 10-14, n= 1, and room temperature (300K). c. Determine the dynamic resistance ra (small-signal resistance) of the diode from the operating point information in part b). Now, consider the case in which a 60HZ sinusoid with 1V peak amplitude is applied [ Vs signal model) to find the AC output voltage due to the sinusoidal component at the supply terminal. What is the resulting total (DC + AC) output voltage at the given DC operating point? 1V-sin(2n-60-t) ]. Use the CVD + resistance diode model (small- 3kQ Vs No 6V
Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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![Analyze the circuit shown below.
a. Use the constant voltage drop (CVD) model with 0.7V forward voltage drop to quickly verify
that the diode is forward-biased. What is the DC output voltage? What is the DC current through
the diode?
b. Make a better estimate of the DC output voltage by employing the diode equation (Shockley
equation). Assume Iş = 10-14, n= 1, and room temperature (300K).
c. Determine the dynamic resistance ra (small-signal resistance) of the diode from the operating
point information in part b). Now, consider the case in which a 60HZ sinusoid with 1V peak
amplitude is applied [ Vs
signal model) to find the AC output voltage due to the sinusoidal component at the supply
terminal. What is the resulting total (DC + AC) output voltage at the given DC operating point?
1V-sin(2n-60-t) ]. Use the CVD + resistance diode model (small-
3kQ
Vs
No
6V](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa8b19969-d0d2-4224-9e4a-71105821ab15%2Fd4b3eb63-0492-4f0c-a5e6-5162cdf2b978%2F8u0e02a.png&w=3840&q=75)
Transcribed Image Text:Analyze the circuit shown below.
a. Use the constant voltage drop (CVD) model with 0.7V forward voltage drop to quickly verify
that the diode is forward-biased. What is the DC output voltage? What is the DC current through
the diode?
b. Make a better estimate of the DC output voltage by employing the diode equation (Shockley
equation). Assume Iş = 10-14, n= 1, and room temperature (300K).
c. Determine the dynamic resistance ra (small-signal resistance) of the diode from the operating
point information in part b). Now, consider the case in which a 60HZ sinusoid with 1V peak
amplitude is applied [ Vs
signal model) to find the AC output voltage due to the sinusoidal component at the supply
terminal. What is the resulting total (DC + AC) output voltage at the given DC operating point?
1V-sin(2n-60-t) ]. Use the CVD + resistance diode model (small-
3kQ
Vs
No
6V
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