First stage · Second stage х R2 R1 Xз 1,-(1+) -n) R2 (v – v½) R1 R2 X2 Figure 13.34 Table P13.36 Available Parts for Design Problems Standard 5%-tolerance resistors. (See AppendixB .) Standard 1%-tolerance resistors. (Don't use these if a 5%-tolerance resistor will do, because 1%-tolerance resistors are more expensive.) Ideal op amps. Adjustable resistors (trimmers) having maximum values ranging from 100 Q to 1 MQ in a 1- 2-5 sequence (i.e., 100 Q, 200 2, 500 N, 1 kN, etc.). Don't use trimmers if fixed resistors willI suffice.
First stage · Second stage х R2 R1 Xз 1,-(1+) -n) R2 (v – v½) R1 R2 X2 Figure 13.34 Table P13.36 Available Parts for Design Problems Standard 5%-tolerance resistors. (See AppendixB .) Standard 1%-tolerance resistors. (Don't use these if a 5%-tolerance resistor will do, because 1%-tolerance resistors are more expensive.) Ideal op amps. Adjustable resistors (trimmers) having maximum values ranging from 100 Q to 1 MQ in a 1- 2-5 sequence (i.e., 100 Q, 200 2, 500 N, 1 kN, etc.). Don't use trimmers if fixed resistors willI suffice.
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...
Related questions
Question
Using the parts listed in TableP13.36 , design a single-op-amp differential amplifier having a nominal differential gain of 10.
Repeat ProblemP13.70 , using the instrumentation-quality circuit shown in Figure13.34 on page 677.
![First stage ·
Second stage
х
R2
R1
Xз
1,-(1+) -n)
R2
(v – v½)
R1
R2
X2
Figure 13.34](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F470b2d79-c71a-47f0-8fce-462d445818ca%2F373d10a7-31fb-4e31-b2ef-555fe2d12f6c%2Fiy7phm.png&w=3840&q=75)
Transcribed Image Text:First stage ·
Second stage
х
R2
R1
Xз
1,-(1+) -n)
R2
(v – v½)
R1
R2
X2
Figure 13.34
![Table P13.36 Available Parts for Design Problems
Standard 5%-tolerance resistors. (See AppendixB .)
Standard 1%-tolerance resistors. (Don't use these if a 5%-tolerance resistor will do, because
1%-tolerance resistors are more expensive.)
Ideal op amps.
Adjustable resistors (trimmers) having maximum values ranging from 100 Q to 1 MQ in a 1-
2-5 sequence (i.e., 100 Q, 200 2, 500 N, 1 kN, etc.). Don't use trimmers if fixed resistors willI
suffice.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F470b2d79-c71a-47f0-8fce-462d445818ca%2F373d10a7-31fb-4e31-b2ef-555fe2d12f6c%2Fp6ugcel.png&w=3840&q=75)
Transcribed Image Text:Table P13.36 Available Parts for Design Problems
Standard 5%-tolerance resistors. (See AppendixB .)
Standard 1%-tolerance resistors. (Don't use these if a 5%-tolerance resistor will do, because
1%-tolerance resistors are more expensive.)
Ideal op amps.
Adjustable resistors (trimmers) having maximum values ranging from 100 Q to 1 MQ in a 1-
2-5 sequence (i.e., 100 Q, 200 2, 500 N, 1 kN, etc.). Don't use trimmers if fixed resistors willI
suffice.
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