An ideal voltage divider consists of only R1, R2, and the voltage source in series with each other. In practical use, the terminals of the divider has a stray capacitance Cs, making the circuit frequency dependent. The compensating capacitance C1 is added to the circuit to make V2/V1 independent of the frequency again. Determine the value of the compensating capacitance C1 in terms of R1, R2, and CS
An ideal voltage divider consists of only R1, R2, and the voltage source in series with each other. In practical use, the terminals of the divider has a stray capacitance Cs, making the circuit frequency dependent. The compensating capacitance C1 is added to the circuit to make V2/V1 independent of the frequency again. Determine the value of the compensating capacitance C1 in terms of R1, R2, and CS
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:R1
Im
C1
V₁
R2
V₂
Cs
An ideal voltage divider consists of only R1, R2, and the voltage
source in series with each other. In practical use, the terminals of
the divider has a stray capacitance Cs, making the circuit frequency
dependent. The compensating capacitance C1 is added to the
circuit to make V2/V1 independent of the frequency again.
Determine the value of the compensating capacitance C1 in terms
of R1, R2, and CS
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