1. (a) The input voltage, v-(t)=20 sin(500m) V is connected to a silicon diade, with Vr=0.7 V in the circuit as shown in Figure 4a. () Briefly describe how the cutput voltage, vt) is obtained during the positive and negative half cycles. (1) Sketch and label 2 cycles of the outpul voltage waveform, Ve(t) Indicate the period, maximum voltage and minimum voltage R=33 ΚΩ Vin(t) ( D 4V+ Vo(t)
1. (a) The input voltage, v-(t)=20 sin(500m) V is connected to a silicon diade, with Vr=0.7 V in the circuit as shown in Figure 4a. () Briefly describe how the cutput voltage, vt) is obtained during the positive and negative half cycles. (1) Sketch and label 2 cycles of the outpul voltage waveform, Ve(t) Indicate the period, maximum voltage and minimum voltage R=33 ΚΩ Vin(t) ( D 4V+ Vo(t)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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pls help on Q1 , A and B
Transcribed Image Text:01.
(a) The input voltage, ve(t)=20 sin(500m) V is connected to a silicon diade, with
Vr=0.7 V in the circuit as shown in Figure 4a.
(i) Briefly describe how the cutput voltage, wt) is obtained during the positive
and negative half cycles.
(4) Sketch and label 2 cycles of the output voltage waveform, ve(t)
Indicate the period, maximum voltage and minimum voltage
R=33 ΚΩ
Vin(t) (
Figure 4a
Vin(t)
D
(b) A student accidentally connected a silicon zener diode, Dz with Vz=5.1 Vas
shown in Figure 4b. Sketch and label 2 cycles of the new output voltage
waveform, vat). Indicate the period, maximum voltage and minimum voltage.
R=33 ΚΩ
Dz
4 V-
Figure 4b
Vo(t)
Voz(1)
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