GATE ECE 2023 | GATE ECE Year Wise Previous Years Questions

GATE ECE 2023

MCQ (More than One Correct Answer)

-0.33

For a real signal, which of the following is/are valid power spectral density/densities?

$${S_x}(\omega ) = {2 \over {9 + {\omega ^2}}}$$

$${S_x}(\omega ) = {e^{ - {\omega ^2}}}{\cos ^2}\omega $$

GATE ECE 2023

MCQ (Single Correct Answer)

-0.67

A random variable X, distributed normally as N(0, 1), undergoes the transformation Y = h(X), given in the figure. The form of the probability density function of Y is

(In the options given below, a, b, c are non-zero constants and g(y) is piece-wise continuous function)

GATE ECE 2023 Communications - Random Signals and Noise Question 6 English

$$a\delta (y - 1) + b\delta (y + 1) + g(y)$$

$$a\delta (y + 1) + b\delta (y) + c\delta (y - 1) + g(y)$$

$$a\delta (y + 2) + b\delta (y) + c\delta (y - 2) + g(y)$$

$$a\delta (y + 2) + b\delta (y - 2) + g(y)$$

GATE ECE 2023

MCQ (Single Correct Answer)

-0.67

Let a frequency modulated (FM) signal $$x(t) = A\cos ({\omega _c}t + {k_f}\int_{ - \infty }^t {m(\lambda )d\lambda )} $$, where $$m(t)$$ is a message signal of bandwidth W. It is passed through a non-linear system with output $$y(t) = 2x(t) + 5{(x(t))^2}$$. Let $${B^T}$$ denote the FM bandwidth. The minimum value of $${\omega _c}$$ required to recover $$x(t)$$ from $$y(t)$$ is

$${B_T} + W$$

$${3 \over 2}{B_T}$$

$$2{B_T} + W$$

$${5 \over 2}{B_T}$$

GATE ECE 2023

MCQ (Single Correct Answer)

-0.67

Let x$$_1$$(t) and x$$_2$$(t) be two band-limited signals having bandwidth $$B=4\pi\times10^3$$ rad/s each. In the figure below, the Nyquist sampling frequency, in rad/s, required to sample y(t), is

GATE ECE 2023 Communications - Analog Communication Systems Question 3 English

$$20\pi\times10^3$$

$$40\pi\times10^3$$

$$8\pi\times10^3$$

$$32\pi\times10^3$$

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