(b) The circuit in Figure Q2 (b) below shows a rectifier circuit where Vin is a 10kHz sine wave with an amplitude of 2Vpp and RL is 10k02. (i) The componet between A and B is a PN diode, sketch and label its silicon structure and explain its characteristics. (ii) (iii) Sketch the waveforms you would see at A and B and explain or sketch how you would connect your scope probes to measure them. Label your sketches clearly showing values and axis details. Comment on any similarities or differences between the waveforms at A and B.
(b) The circuit in Figure Q2 (b) below shows a rectifier circuit where Vin is a 10kHz sine wave with an amplitude of 2Vpp and RL is 10k02. (i) The componet between A and B is a PN diode, sketch and label its silicon structure and explain its characteristics. (ii) (iii) Sketch the waveforms you would see at A and B and explain or sketch how you would connect your scope probes to measure them. Label your sketches clearly showing values and axis details. Comment on any similarities or differences between the waveforms at A and B.
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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Transcribed Image Text:(b)
The circuit in Figure Q2 (b) below shows a rectifier circuit where Vin is a
10kHz sine wave with an amplitude of 2Vpp and RL is 10k.
(i)
(iii)
The componet between A and B is a PN diode, sketch and label its
silicon structure and explain its characteristics.
Sketch the waveforms you would see at A and B and explain or sketch
how you would connect your scope probes to measure them. Label
your sketches clearly showing values and axis details.
Comment on any similarities or differences between the waveforms at
A and B.
Transcribed Image Text:Vin
A
Figure Q2 (b)
B
WW
RL
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