1. a) For Figure 1, calculate the values to right of the circuit. Use the 2nd approximation of a Si diode. PIV in this circuit is the maximum voltage developed across a reverse biased diode. b) In Figure 2, on this page, neatly draw the VR2 waveform. Show the OV reference points of both VSEC and VRz, as well as, their peak values. c) Repeat both a) and b) for Figures 3 and 4, but in Figure 4 draw the VR1 waveform. Figure 1 VSEC VR2 Figure 2 D1 VSEC 12VAC 60 Hz A & AA R1 2.2kn www B R2 1.8kQ VA(pk) VB(av) VR1(av) ID1(av) VR2(pk) PIV
1. a) For Figure 1, calculate the values to right of the circuit. Use the 2nd approximation of a Si diode. PIV in this circuit is the maximum voltage developed across a reverse biased diode. b) In Figure 2, on this page, neatly draw the VR2 waveform. Show the OV reference points of both VSEC and VRz, as well as, their peak values. c) Repeat both a) and b) for Figures 3 and 4, but in Figure 4 draw the VR1 waveform. Figure 1 VSEC VR2 Figure 2 D1 VSEC 12VAC 60 Hz A & AA R1 2.2kn www B R2 1.8kQ VA(pk) VB(av) VR1(av) ID1(av) VR2(pk) PIV
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Solve a and b
Transcribed Image Text:1. a) For Figure 1, calculate the values to right of the circuit. Use the 2nd approximation of a
Si diode. PIV in this circuit is the maximum voltage developed across a reverse biased
diode.
b) In Figure 2, on this page, neatly draw the VR2 waveform. Show the OV reference
points of both VSEC and VRZ, as well as, their peak values.
c) Repeat both a) and b) for Figures 3 and 4, but in Figure 4 draw the VR1 waveform.
Figure 1
VSEC
VR2
Figure 2
VSEC
12VAC
60 Hz A
D1
R1
2.2k
R2
1.8kQ
AA
VA(pk)
VB(av)
VR1(av)
ID1(av)
VR2(pk)
PIV
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