3. Design a PUT relaxation oscillator shown below by specifying the values of the other components in the figure below. The capacitor sawtooth waveform periodically charge up to 12.7V and discharges periodically to 2V. The frequency of oscillation is placed at 5Hz. R is at the midpoint between the maximum allowable R value and minimum allowable R value to guarantee oscillation. Ip=6uA, Iv=15mA, VDiode=0.7V g Vo=15V R, 10k R R. 1K
3. Design a PUT relaxation oscillator shown below by specifying the values of the other components in the figure below. The capacitor sawtooth waveform periodically charge up to 12.7V and discharges periodically to 2V. The frequency of oscillation is placed at 5Hz. R is at the midpoint between the maximum allowable R value and minimum allowable R value to guarantee oscillation. Ip=6uA, Iv=15mA, VDiode=0.7V g Vo=15V R, 10k R R. 1K
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:3. Design a PUT relaxation oscillator
shown below by specifying the values
of the other components in the figure
below. The capacitor sawtooth
waveform periodically charge up to
12.7V and discharges periodically to
2V. The frequency of oscillation is
placed at 5Hz. Ris at the midpoint
between the maximum allowable R
value and minimum allowable R value
to guarantee oscillation.
Ip=6uA, Iv=15mA, VDiode=0.7V
q Voo 15V
10k
R
IK
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