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Signals Basic Types



Here are a few basic signals:

Unit Step Function

Unit step function is denoted by u(t). It is defined as u(t) = $left{begin{matrix}1 & t geqslant 0\ 0 & t
Unit Step Function

  • It is used as best test signal.
  • Area under unit step function is unity.

Unit Impulse Function

Impulse function is denoted by δ(t). and it is defined as δ(t) = $left{begin{matrix}1
& t = 0\ 0
& tneq 0
end{matrix}right.$

Unit Impulse Function

$$ int_{-infty}^{infty} δ(t)dt=u (t)$$

$$ delta(t) = {du(t) over dt } $$

Ramp Signal

Ramp signal is denoted by r(t), and it is defined as r(t) = $left{begin {matrix}t
& tgeqslant 0\ 0
& t

Ramp Signal

$$ int u(t) = int 1 = t = r(t) $$

$$ u(t) = {dr(t) over dt} $$

Area under unit ramp is unity.

Parabolic Signal

Parabolic signal can be defined as x(t) = $left{begin{matrix} t^2/2
& t geqslant 0\ 0
& t

Parabolic Signal

$$iint u(t)dt = int r(t)dt = int t dt = {t^2 over 2} = parabolic signal $$

$$ Rightarrow u(t) = {d^2x(t) over dt^2} $$

$$ Rightarrow r(t) = {dx(t) over dt} $$

Signum Function

Signum function is denoted as sgn(t). It is defined as sgn(t) = $ left{begin{matrix}1
& t>0\ 0
& t=0\ -1
& t

Signum Function
sgn(t) = 2u(t) – 1

Exponential Signal

Exponential signal is in the form of x(t) = $e^{alpha t}$.

The shape of exponential can be defined by $alpha$.

Case i: if $alpha$ = 0 $to$ x(t) = $e^0$ = 1

Exponential signal

Case ii: if $alpha$
Exponential signal

Case iii: if $alpha$ > 0 i.e. +ve then x(t) = $e^{alpha t}$. The shape is called raising exponential.

Exponential signal

Rectangular Signal

Let it be denoted as x(t) and it is defined as

Rectangular signal

Triangular Signal

Let it be denoted as x(t)

Triangular signal

Sinusoidal Signal

Sinusoidal signal is in the form of x(t) = A cos(${w}_{0},pm phi$) or A sin(${w}_{0},pm phi$)

Sinusoidal signal

Where T0 = $ 2pi over {w}_{0} $

Sinc Function

It is denoted as sinc(t) and it is defined as sinc

$$ (t) = {sin pi t over pi t} $$

$$ = 0, text{for t} = pm 1, pm 2, pm 3 … $$

Sinc Function

Sampling Function

It is denoted as sa(t) and it is defined as

$$sa(t) = {sin t over t}$$

$$= 0 ,, text{for t} = pm pi,, pm 2 pi,, pm 3 pi ,… $$

Sampling Function

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