

 1 Example 85 OGATA 4ed(Bode plot)
Let's plot Bode plot by Scilab (Bode, syslin,xtitle)
 2 Example 86 OGATA 4ed(Bode plot)
Let's plot Bode plot by Scilab (Bode, logspace,xtitle,tf2ss,repfreq
,dbphi,subplot,xgrid,plot2d,mtlb_axis)
 3 Example 810 OGATA 4ed(Nyquist plot)
Let's plot Nyquist plot by Scilab (nyquist, syslin, xgrid, xtitle, mtlb_axis)
 4 Example 811 OGATA 4ed(Nyquist plot)
Let's plot Nyquist plot by Scilab (nyquist, syslin, xgrid, xtitle, mtlb_axis)
 5 Example 821 OGATA 4ed(Phase and gain margins)
Let's calculate the phase and gain margins when K=10 and K=100. Calculations and checks by Scilab (g_margin, p_margin)
 6 Example 822 OGATA 4ed(Phase and gain margins, Bode plot)
Let's calculate the phase and gain margins. Checks and Bode plot by Scilab (g_margin, p_margin, bode, show_margins)
 7 Example 824 OGATA 4ed(Bode plot, resonant peak magnitude, resonant peak frequency, bandwidth)
Let's calculate Bode plot, resonant peak magnitude, resonant peak frequency, bandwidth by Scilab (tf2ss, repfreq, dbphi, max)
 8 Problem A8.4 OGATA 4ed (Bode plot)
Let's plot Bode plot of the feedback closeloop system for the gain values K=1,10,20 by Scilab (bode)
 9 Problem A8.5 OGATA 4ed(Polar plot)
Let's show that the polar plot is a semicircle
 10 Problem A8.11 OGATA 4ed(Nyquist plot)
Let's plot Nyquist plot by Scilab (nyquist, syslin, mtlb_axis).
 11 Problem A8.13 OGATA 4ed(Nyquist plot)
Let's draw on polar plot the points of frequency w=0.2,0.3,0.5,1,2,6,10,20 and calculate the phase and gain of these points by Scilab.(repfreq, nyquist real, imag, string, dbphi)
 12 Problem A8.14 OGATA 4ed(Nyquist plot)
Let's draw the polar plot of positive and negative feedback transfer functions by Scilab (Nyquist, syslin, xstring, mtlb_axis)
 13 Problem A8.17 OGATA 4ed(Nyquist plot)
Let's draw Nyquist plot for the values of K=1,7.5,20 by Scilab (nyquist, syslin, mtlb_axis)
 14 Problem A8.18 OGATA 4ed(Nichols chart)
Let's draw the Bode plot and the G(jw) locus on Nichols chart by Scilab (bode, chart, black, mtlb_axis).
 15 Example 9.1 OGATA 4ed(Lead compensator, Bode and Nyquist plot)
Let's draw the Bode plot, polar plot and output by Scilab (bode, legend, nyquist, m_circle, xgrid, mtlb_axis, csim, step, plot, xtitle).
 16 Example 9.2 OGATA 4ed(lag compensator, Bode and Nyquist plot)
Let's calculate the lag compensator. Checks and calculations by Scilab (bode, nyquist, g_margin, p_margin, tf2ss, logspace, dbphi, plot2d, subplot, clf, horner, mtlb_axis, legend).
 17 Problem A9.3 OGATA 4ed(Lead compensator, Bode plot)
We want the phase margin equal to 60. Let's calculate K. (tf2ss, repfreq, dbphi, subplot, plot2d, legends, xgrid, p_margin, show_margins, horner, polarplot)
 18 Problem A9.5 OGATA 4ed(Lead compensator, Nichols chart)
Let's insert a compensator for the openloop system is tangent to circle M=3dB in w=3rad/seg. (clf, chart, black, mtlb_axis)
 19 Problem A9.7 OGATA 4ed(Lead compensator, Nyquist plot)
Let's draw the Nyquist plot of G(jw),G1(jw) and Gc(jw) *G1(jw) by Scilab (horner, polarplot, real, imag, mtlb_axis, legends)
 20 Problem A9.8 OGATA 4ed(Lead compensator, Bode plot)
Let us calculate a compensator that satisfies the following requirements of static velocity error constant Kv=20, phase margin 50 and gain margin >10dB (g_margin, p_margin, bode, csim, plot, step, clf, xgrid, xtitle, legends)
 21 Problem A9.9 OGATA 4ed(Laglead Compensator)
Let us calculate a laglead compensator that satisfies the following requirements static velocity constant error Kv=10, phase margin 50 and gain margin > 10dB (logspace, tf2ss, repfreq, dbphi, clf, subplot, plot2d, xgrid, bode, g_margin, p_margin, bode, csim, plot, step, clf, xgrid, xtitle, legends)
 22 Problem A9.10 OGATA 4ed(PID compensator)
Let's do the programming by Scilab of compensator that the system verifies the following values: static velocity constant error Kv=4, phase margin 50 and gain margin > 10dB.(bode, clf, csim, step, subplot, plot, xgrid, xtitle, legends)
