In-Vp characteristics of both Di and D, in Fig.2 is approximated using a constant battery model of 0.6V; “Va" is a sinusoidal signal with amplitude 10V and 1 kHz frequency; R1=R,=2k2 and V3=1.4V. • Derive the circuit output voltage "Vour", "Ibı" and "Ip2" as a function in "Va" • Sketch "Vout", “Ipı" and “Ip2" vs. "Vn" Sketch "Vour" vs. time D1 R1 Vout Vina D2 VB R2 Figure 2
In-Vp characteristics of both Di and D, in Fig.2 is approximated using a constant battery model of 0.6V; “Va" is a sinusoidal signal with amplitude 10V and 1 kHz frequency; R1=R,=2k2 and V3=1.4V. • Derive the circuit output voltage "Vour", "Ibı" and "Ip2" as a function in "Va" • Sketch "Vout", “Ipı" and “Ip2" vs. "Vn" Sketch "Vour" vs. time D1 R1 Vout Vina D2 VB R2 Figure 2
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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ID-VD characteristics of both D1 and D2 in Fig.2 is approximated using a constant battery model of 0.6V; “Vin” is a sinusoidal signal with amplitude 10V and 1 kHz frequency; R1=R2=2kΩ and VB=1.4V.
1-Derive the circuit output voltage “Vout”, “ID1” and “ID2” as a function in “Vin”
2-Sketch “Vout”, “ID1” and “ID2” vs. “Vin”
3-Sketch “Vout” vs. time
Transcribed Image Text:In-Vp characteristics of both Di and D, in Fig.2 is approximated using a constant
battery model of 0.6V; “Va" is a sinusoidal signal with amplitude 10V and 1 kHz
frequency; R1=R,=2k2 and V3=1.4V.
• Derive the circuit output voltage "Vour", "Ibı" and "Ip2" as a function in "Va"
• Sketch "Vout", “Ipı" and “Ip2" vs. "Vn"
Sketch "Vour" vs. time
D1
R1
Vina
Vout
D2
VB
R2
Figure 2
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