GATE ECE 2014 Set 1 | Operational Amplifier Question 31 | Analog Circuits

In the circuit shown, the op-amp has finite input impedance, infinite voltage gain and zero input offset voltage. The output voltage V_out is GATE ECE 2014 Set 1 Analog Circuits - Operational Amplifier Question 31 English

GATE ECE 2014 Set 1 Analog Circuits - Operational Amplifier Question 31 English

$$ - {I_2}\left( {{R_1} + {R_2}} \right)$$

$${I_2}{R_2}$$

$${I_1}{R_2}$$

$$ - {I_1}\left( {{R_1} + {R_2}} \right)$$

GATE ECE 2013

MCQ (Single Correct Answer)

-0.6

In the circuit shown below the op-amps are ideal. Then V_out in Volts is GATE ECE 2013 Analog Circuits - Operational Amplifier Question 33 English

GATE ECE 2012

MCQ (Single Correct Answer)

-0.6

The circuit shown is a GATE ECE 2012 Analog Circuits - Operational Amplifier Question 34 English

low pass filter with
$${f_3}dB = \,{1 \over {\left( {{R_1} + {R_2}} \right)C}}rad/s$$

high pass filter with
$${f_3}dB = \,{1 \over {{R_1}C}}rad/s$$

low pass filter with
$${f_3}dB = {1 \over {{R_1}C}}rad/s$$

high pass filter with
$${f_3}dB = {1 \over {\left( {{R_1} + {R_2}} \right)C}}rad/s$$

GATE ECE 2008

MCQ (Single Correct Answer)

-0.6

Consider the following circuit using an ideal Op-Amp. The I-V characteristics of the diode is described by the relation $$$I = {I_0}\left[ {{e^{{V \over {VT}}}} - 1} \right], where \,{V_T}\,\, = \,\,25mV,{I_0}\,\, = 1 \mu {\rm A}$$$

and V is the voltage across the diode (taken as positive for forward bias). For an input voltage $${V_i}\,\, = \,\, - 1V,$$ the output voltage V₀ is

GATE ECE 2008 Analog Circuits - Operational Amplifier Question 37 English

0 V

0.1 V

0.7 V

1.1 V

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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