How can I minimise or eliminate overshoot from PI controller?

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Zachary
Zachary el 22 de Sept. de 2025 a las 8:33
Comentada: Zachary hace alrededor de 20 horas
I am trying to control a motor's speed based on torque demand. I have set up a reference torque and reference speed profile, but while the motor is able to track the speed demand relatively well, the torque demand seems to have massive overshoots at the transition points.
The output torque from the motor is as shown:
The input is as shown:
My PI controller parameters are as shown, the gains were achieved via the tuning function:
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Sam Chak
Sam Chak hace alrededor de 18 horas
Hi @Zachary
Thank you for your update. However, without the knowledge of the mathematical model, I can only speculate that the overshoot issues were caused by the "zeros" of the closed-loop dynamics, resulting from the step changes in the input signal.
Zachary
Zachary hace alrededor de 17 horas
@Sam Chak Since the motor is able to track the changes in RPM well, can I assume that the issues stem from the step changes in the torque demand signal? Would a more gradual change in torque demand result in less overshoots?

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Sam Chak
Sam Chak el 23 de Sept. de 2025 a las 7:29
Editada: Sam Chak el 23 de Sept. de 2025 a las 10:38
Ran in:
Hi @Zachary
In theory, a smooth transient change in the torque demand should be able to reduce the overshoot.
Case 1: Step torque demand
% System
w = 7.108;
sys = tf([5, 2*w, w^2], [1, 2*w, w^2])
sys = 5 s^2 + 14.22 s + 50.52 ----------------------- s^2 + 14.22 s + 50.52 Continuous-time transfer function.
% Step torque demand input signal
U = tf(1);
opt = RespConfig;
opt.Delay = 2;
t = 0:0.01:8;
[u1, tout] = step(U, t, opt);
% System's response to step torque demand
figure
lsim(sys, u1, t), grid on
title('System''s response to step torque demand')
ylim([-0.5, 5.5])
Case 2: Smooth torque demand
% Smooth torque demand input signal
u2 = (1 - exp(-2*(t - 2))).*heaviside(t - 2);
% System's response to smooth torque demand
figure
lsim(sys, u2, t), grid on
title('System''s response to smooth torque demand')
ylim([-0.5, 1.5])

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