GATE ECE 2001 | Operational Amplifier Question 58 | Analog Circuits

An Amplifier using an Op-Amp with a Slew-Rate SR = V/$$\mu $$sec, has a gain of 40 dB. If this amplifier has to faith fully amplify sinsoidal signals from dc to 20 KHz. Without introducing any Slew Rate induced distortion, then the input signal level must not exceed.

795 mV

395 mV

79.5 mV

39.5 mV

GATE ECE 2001

MCQ (Single Correct Answer)

-0.6

In the figure assume the Op-Amps to be ideal. The output V₀ of the circuit is GATE ECE 2001 Analog Circuits - Operational Amplifier Question 54 English

GATE ECE 2001 Analog Circuits - Operational Amplifier Question 54 English

10 $$\cos $$ (100 t)

10 $$\int\limits_0^t {\cos \,\,\left( {100\tau } \right)} \,\,d\tau $$ v

$${10^{ - 4}}\int\limits_0^t {\cos \,\,\left( {100\tau } \right)} \,\,d\tau $$

$${10^{ - 4}}{d \over {dt}}\cos \left( {100t} \right)$$

GATE ECE 2001

MCQ (Single Correct Answer)

-0.6

The Inverting Op-Amp shown in the figure, has an Open-loop gain of 100. The closed loop gain $${{{V_o}} \over {{V_s}}}$$ is GATE ECE 2001 Analog Circuits - Operational Amplifier Question 55 English

GATE ECE 2001 Analog Circuits - Operational Amplifier Question 55 English

-8

-9

-10

-11

GATE ECE 2000

MCQ (Single Correct Answer)

-0.6

If the Op-Amp in the figure has an input offset voltage of 5 mV and an open-loop voltage gain of 10,000, V₀ will be GATE ECE 2000 Analog Circuits - Operational Amplifier Question 62 English

GATE ECE 2000 Analog Circuits - Operational Amplifier Question 62 English

0 V

5 mV

+ 15 V (or) - 15V

+50 V (or) -50V

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GATE ECE Subjects

Signals and Systems

Network Theory

Control Systems

Digital Circuits

General Aptitude

Electronic Devices and VLSI

Analog Circuits

Engineering Mathematics

Microprocessors

Communications

Electromagnetics