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Physics Exam  >  Physics Tests  >  Topic wise Tests for IIT JAM Physics  >  OP–amp Nat Level – 1 - Physics MCQ

OP–amp Nat Level – 1 - Physics MCQ


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10 Questions MCQ Test Topic wise Tests for IIT JAM Physics - OP–amp Nat Level – 1

OP–amp Nat Level – 1 for Physics 2024 is part of Topic wise Tests for IIT JAM Physics preparation. The OP–amp Nat Level – 1 questions and answers have been prepared according to the Physics exam syllabus.The OP–amp Nat Level – 1 MCQs are made for Physics 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for OP–amp Nat Level – 1 below.
Solutions of OP–amp Nat Level – 1 questions in English are available as part of our Topic wise Tests for IIT JAM Physics for Physics & OP–amp Nat Level – 1 solutions in Hindi for Topic wise Tests for IIT JAM Physics course. Download more important topics, notes, lectures and mock test series for Physics Exam by signing up for free. Attempt OP–amp Nat Level – 1 | 10 questions in 30 minutes | Mock test for Physics preparation | Free important questions MCQ to study Topic wise Tests for IIT JAM Physics for Physics Exam | Download free PDF with solutions
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OP–amp Nat Level – 1 - Question 1
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The natural semiconductor LH0063C has a slew rate of

Detailed Solution for OP–amp Nat Level – 1 - Question 1

National semiconductor LH0063C has a slew rate of 6000V/µs. Generally, the practical op-amp is available with slew rate from 0.1V/µs to well above 1000V/µs.

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OP–amp Nat Level – 1 - Question 2
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A certain Op-Amp has bias currents of 50μA and 49.3μA. The input offset current is (in nA).


Detailed Solution for OP–amp Nat Level – 1 - Question 2

The input offset current is the different of input bias currents i.e.

The correct answer is: 700

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OP–amp Nat Level – 1 - Question 3
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What is the minimum voltage required to make the PN junction of a real silicon transistor in forward biased?


Detailed Solution for OP–amp Nat Level – 1 - Question 3

0.7 volts is the minimum voltage required to make the PN junction of a real silicon transistor in forward biased. This 0.7 volt potential difference makes the PN junction between base and emitter terminal in forward biased.

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OP–amp Nat Level – 1 - Question 4
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How many PN junctions is/are present in a bipolar junction transistor?

Detailed Solution for OP–amp Nat Level – 1 - Question 4

A bipolar junction transistor (BJT) contains 2 PN junctions. If the transistor is NPN type then it contains a P-type semiconductor sandwiched between two N-type semiconductor. If the transistor is PNP type then it contains a N-type semiconductor sandwiched between two P-type semiconductor. In both the cases there are two PN junctions.

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OP–amp Nat Level – 1 - Question 5
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If a certain Op-Amp has a mid range open-loop gain of 200000 and a unity-gain frequency of 5MHz, the gain bandwidth product in Hz is :

Detailed Solution for OP–amp Nat Level – 1 - Question 5

gain bandwidth product = frequency at which gain is unity
= 5 MHz
= 5000000 Hz
The correct answer is: 5000000

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OP–amp Nat Level – 1 - Question 6
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A certain Op-Amp has three terminal amplifier stages with the following gains
Stage I : Av1 = 40 dB
Stage I : Av2 = 32 dB
Stage I : Av3 = 20 dB
The open-loop mid range gain in decibels?

Detailed Solution for OP–amp Nat Level – 1 - Question 6


The correct answer is: 92

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OP–amp Nat Level – 1 - Question 7
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How many op-amps are required to implement this equation

op-amps

 

If the answer is X. Write X-8

Detailed Solution for OP–amp Nat Level – 1 - Question 7

The output voltage of inverting amplifier is Vout = (-Rf/Rin)Vin. By keeping 1 inverting amplifier and three no of sources (V1, V2, V3) in series corresponding input resistors(R1, R2, R3), we can get this equation.

So 1-8= -7

OP–amp Nat Level – 1 - Question 8
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Determine V0 if R= 100KΩ, R= 500KΩ and Vi = 2V in the circuit shown 

F35 Neha B 12-4-2021 Swati D17
Detailed Solution for OP–amp Nat Level – 1 - Question 8

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OP–amp Nat Level – 1 - Question 9
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The gain of the amplifier shown in figure. The open loop voltage gain of the Op-Amp is 1,00,000.

This is a non-inverting Op-Amp configuration. Therefore, the closed loop voltage gain is

Detailed Solution for OP–amp Nat Level – 1 - Question 9


This is a non-inverting Op-Amp configuration. Therefore, the closed loop voltage gain is
= 22.3
The correct answer is: 22.3

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OP–amp Nat Level – 1 - Question 10
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The output voltage of a certain Op-Amp appears as shown in figure in response to a step input. What is the slew rate (in V/μs)

Detailed Solution for OP–amp Nat Level – 1 - Question 10

The output goes from the lower to the upper limit. Since, this response is not ideal, the limit are taken at the 90% points, as indicated. So the upper limit is + 9Vand the lower limit is - 9V. The slew rate is 

= 18 V/μs
The correct answer is: 18

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