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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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CIN
HE--To VN
V
Vcc
R2
10uF
R V2
-VOUT
VIN 3
Vcc R222KS
Rp4
V REF
The capacitor Cin is used to AC couple an input signal to the node Vin in the amplifier
shown. If the frequency of the pole due to the Cin capacitor is 2.2Hz, and the
frequency of the pole due to the 10µF capacitor is 5.9Hz, then what is the lowest
frequency input signal that can be used in Hertz in order to keep the errors due to
these capacitors less than 10%? Assume that the opamp is ideal.
Answer: 986
Check
Transcribed Image Text:CIN HE--To VN V Vcc R2 10uF R V2 -VOUT VIN 3 Vcc R222KS Rp4 V REF The capacitor Cin is used to AC couple an input signal to the node Vin in the amplifier shown. If the frequency of the pole due to the Cin capacitor is 2.2Hz, and the frequency of the pole due to the 10µF capacitor is 5.9Hz, then what is the lowest frequency input signal that can be used in Hertz in order to keep the errors due to these capacitors less than 10%? Assume that the opamp is ideal. Answer: 986 Check
-- Το V
Vcc
R,
10µF
R V2
2
6
-VOUT
VIN 3
+
Vcc R222k2
Rp
V REF
The amplifier shown was built using an opamp whose output is capable of swinging up to
0.6V below the positive supply voltage and down to 1.0V above the negative supply
voltage. Also the input common-mode voltage range of this opamp is between 2.2V above
the negative supply voltage and 24V below the positive supply voltage. Given these
opamp specifications, if this amplifier uses power supplies of +8V and ground, then what
will the negative clipping level at the output be in Volts? Use: R1 = 2.8kN, R2 = 63.9k2, RB
= 22kn, RP = 4.0kN, Cin = 3.7µF, and VREF = 5.4V. Assume that the opamp is ideal except
for the limited output swing and input common-mode voltage range.
Answer:
Check
4.
Transcribed Image Text:-- Το V Vcc R, 10µF R V2 2 6 -VOUT VIN 3 + Vcc R222k2 Rp V REF The amplifier shown was built using an opamp whose output is capable of swinging up to 0.6V below the positive supply voltage and down to 1.0V above the negative supply voltage. Also the input common-mode voltage range of this opamp is between 2.2V above the negative supply voltage and 24V below the positive supply voltage. Given these opamp specifications, if this amplifier uses power supplies of +8V and ground, then what will the negative clipping level at the output be in Volts? Use: R1 = 2.8kN, R2 = 63.9k2, RB = 22kn, RP = 4.0kN, Cin = 3.7µF, and VREF = 5.4V. Assume that the opamp is ideal except for the limited output swing and input common-mode voltage range. Answer: Check 4.
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