Scilab 5.5.2
Please note that the recommended version of Scilab is 2025.0.0. This page might be outdated.
See the recommended documentation of this function
bode_asymp
Bode plot asymptote
Calling Sequence
bode_asymp(sl, [wmin, wmax])
Arguments
- sl
syslin
list (SISO or SIMO linear system) in continuous time (type state-space or rational).- wmin, wmax
Real scalars: lower and upper frequency bounds (in rad/s).
Description
Plots the asymptote of the system
sl
.
The optional arguments wmin
and wmax
(in rad/s) can be used to plot asymptote in a specific range of frequency.
Warning: this function is not applicable when the first input argument is a real matrix. |
Examples
s = poly(0, "s"); h = syslin("c", (s^2+2*0.9*10*s+100)/(s^2+2*0.3*10.1*s+102.01)); clf(); bode(h, 0.01, 100); bode_asymp(h);
s = poly(0, "s"); h1 = syslin("c", (s^2+2*0.9*10*s+100)/(s^2+2*0.3*10.1*s+102.01)); h2 = syslin("c", (10*(s+3))/(s*(s+2)*(s^2+s+2))); clf(); bode([h1; h2], 0.01, 100, ["h1"; "h2"]); bode_asymp([h1; h2]);
s = %s; G = (s+10)/(s*(s+100)); // A rational matrix sys = syslin("c", G); // A continuous-time linear system in transfer matrix representation. f_min = .0001; f_max = 1600; // Frequencies in Hz clf(); bode(sys, f_min, f_max, "rad"); // The optional argument "rad" converts Hz to rad/s bode_asymp(sys, 10, 1000); // Plots asymptotes in the given range of frequency (in rad/s).
See Also
- bode — Bode plot
- black — Black-Nichols diagram of a linear dynamical system
- nyquist — nyquist plot
- gainplot — magnitude plot
- repfreq — frequency response
- g_margin — gain margin and associated crossover frequency
- p_margin — phase margin and associated crossover frequency
- calfrq — frequency response discretization
- phasemag — phase and magnitude computation
- datatips — Tool for placing and editing tips along the plotted curves.
- show_margins — display gain and phase margin and associated crossover frequencies
History
Версия | Описание |
5.5.0 | bode_asymp() function introduced. |
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