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2.5.2 Settling time

The settling time is the time required for a system to settle within a certain percentage of the input amplitude. For a second order system, a settling time is desired in which the response remains within 2% of its desired value.

Definitions

Settling time of 1st order system

Equation 19. 4

τ

Settiling time of 2nd order system

Equation 20.

t_{s} = \frac{1}{σ} l n (\frac{c}{δ})

Equation 21.

c = \frac{ω_{n}}{ω_{d}}

Damping coefficient

Equation 22.

σ = ζ ω_{n}

Lograrithmic decrement

Equation 23.

δ = l n (\frac{x_{0}}{x_{1}})

Tolerance fraction for underdamped systems (in most cases this is 0.02)

Equation 24.

\frac{c}{δ} = \sqrt{1 - ζ^{2}}

Where

$τ$ = time constant (time it takes for the step response to reach 63% of its final value)

$x_{0} / x_{1}$ = the amplitudes of two successive peaks within a step response

$ω_{n}$ = un-damped natural frequency

$ω_{d}$ = damped natural frequency

$ζ$ = damping ratio