Control System Analysis
Versione 1.0.0 (295 KB) da
Sneha
he system has a damped oscillatory response due to complex poles. Step Response: Shows oscillations that gradually die out and settle to a
The numerator and denominator are defined, and the transfer function model is created using tf(num, den). The code then plots the step response to show how the system reacts to a sudden change in input. The response is damped and oscillatory, indicating the presence of complex poles.
The system poles are located at s=−2±j4.58s = -2 \pm j4.58s=−2±j4.58, which lie in the left-half of the s-plane, confirming that the system is stable. The natural frequency of the system is ωn=5\omega_n = 5ωn=5 rad/s, and the damping ratio is ζ=0.4\zeta = 0.4ζ=0.4, showing that the system is underdamped.
Finally, the Bode plot is used to study the system’s frequency response, illustrating how the gain and phase vary with frequency.
Cita come
Sneha (2026). Control System Analysis (https://it.mathworks.com/matlabcentral/fileexchange/182531-control-system-analysis), MATLAB Central File Exchange. Recuperato .
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| Versione | Pubblicato | Note della release | |
|---|---|---|---|
| 1.0.0 |
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