Crossover frequencies for sector bound
When a frequency-domain sector plot exists, these frequencies are the frequencies
at which the relative sector index (R-index) for
Q equals 1. See About Sector Bounds and Sector Indices for details.
Find Sector Crossover Frequency
Find the crossover frequencies for the dynamic system and the sector defined by:
for various values of a and b.
In U/Y space, this sector is the shaded region of the following diagram (for a, b > 0).
Q matrix for this sector is given by:
getSectorCrossover finds the frequencies at which is singular, for . For instance, find these frequencies for the sector defined by
Q with a = 0.1 and b = 10.
G = tf([1 2],[1 1]); H = [G;1]; a = 0.1; b = 10; Q = [1 -(a+b)/2 ; -(a+b)/2 a*b]; w = getSectorCrossover(H,Q)
w = 0x1 empty double column vector
The empty result means that there are no such frequencies.
Now find the frequencies at which is singular for a narrower sector, with a = 0.5 and b = 1.5.
a2 = 0.5; b2 = 1.5; Q2 = [1 -(a2+b2)/2 ; -(a2+b2)/2 a2*b2]; w2 = getSectorCrossover(H,Q2)
w2 = 1.7321
Here the resulting frequency is where the R-index for
Q2 is equal to 1, as shown in the sector plot.
Thus, when a sector plot exists for a system
H and sector
getSectorCrossover finds the frequencies at which the R-index is 1.
H — Model to analyze
dynamic system model
Model to analyze against sector bounds, specified as a dynamic
system model such as a
H can be continuous or discrete. If
H is a generalized model with tunable or uncertain
getSectorCrossover analyzes the current,
nominal value of
To get the frequencies at which the I/O trajectories (u,y) of a linear system G lie in a
particular sector, use
H = [G;I], where
nu is the number of inputs of
Introduced in R2016a