GATE EE 2006 | GATE EE Year Wise Previous Years Questions

GATE EE 2006

MCQ (Single Correct Answer)

-0.3

For given sinusoidal input voltage, the voltage waveform at point $$P$$ of the clamper circuit shown in figure will be GATE EE 2006 Analog Electronics - Operational Amplifier Question 46 English 1

GATE EE 2006 Analog Electronics - Operational Amplifier Question 46 English 1

GATE EE 2006 Analog Electronics - Operational Amplifier Question 46 English 2

GATE EE 2006 Analog Electronics - Operational Amplifier Question 46 English Option 1

GATE EE 2006 Analog Electronics - Operational Amplifier Question 46 English Option 2

GATE EE 2006

MCQ (Single Correct Answer)

-0.6

Assuming the diodes $${D_1}$$ and $${D_2}$$ of the circuit shown in the figure to be ideal ones, the transfer characteristics of the circuit will be GATE EE 2006 Analog Electronics - Diode Circuits and Applications Question 7 English

GATE EE 2006 Analog Electronics - Diode Circuits and Applications Question 7 English

GATE EE 2006 Analog Electronics - Diode Circuits and Applications Question 7 English Option 1

GATE EE 2006 Analog Electronics - Diode Circuits and Applications Question 7 English Option 2

GATE EE 2006

MCQ (Single Correct Answer)

-0.3

What are the states of the three ideal diodes of the circuit shown in figure? GATE EE 2006 Analog Electronics - Diode Circuits and Applications Question 11 English

GATE EE 2006 Analog Electronics - Diode Circuits and Applications Question 11 English

$${D_1}$$ - $$ON,$$ $${D_2}$$ - $$OFF,$$ $${D_3}$$ - $$OFF$$

$${D_1}$$ - $$OFF,$$ $${D_2}$$ - $$ON,$$ $${D_3}$$ - $$OFF$$

$${D_1}$$ - $$ON,$$ $${D_2}$$ - $$OFF,$$ $${D_3}$$ - $$ON$$

$${D_1}$$ - $$OFF,$$ $${D_2}$$ - $$ON,$$ $${D_3}$$ - $$ON$$

GATE EE 2006

MCQ (Single Correct Answer)

-0.3

For a system with the transfer function $$H\left( s \right) = {{3\left( {s - 2} \right)} \over {{s^3} + 4{s^2} - 2s + 1}},\,\,$$ the matrix $$A$$ in the state space form $$\mathop X\limits^ \bullet = AX + BU$$ is equal to

$$\left( {\matrix{ 1 & 0 & 0 \cr 0 & 1 & 0 \cr { - 1} & 2 & { - 4} \cr } } \right)$$

$$\left( {\matrix{ 0 & 1 & 0 \cr 0 & 0 & 1 \cr { - 1} & 2 & { - 4} \cr } } \right)$$

$$\left( {\matrix{ 0 & 1 & 0 \cr 3 & { - 2} & 1 \cr 1 & { - 2} & 4 \cr } } \right)$$

$$\left( {\matrix{ 1 & 0 & 0 \cr 0 & 0 & 1 \cr { - 1} & 2 & { - 4} \cr } } \right)$$

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