Simulink Constant Ramp Controller
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Alexander Reiter
on 6 Jul 2023
Commented: Alexander Reiter
on 7 Jul 2023
Hi all,
In order to explain my problem, I've attached a Simulink model to this post. It consists of a classic PID control loop which calculates the response of the system to a signal step at the input. What I am looking for is a controller to replace the PID, which guarantees a constant slope over the entire step response, ideally without any remaining controll error. I've already tried different approaches, none of them seem to work reliably. Any ideas?:)
Cheers
Alex
2 Comments
Nikhil
on 6 Jul 2023
Can you explain what you mean by ' a constant slope over the entire step response ' ?
Accepted Answer
Sam Chak
on 6 Jul 2023
I didn't check the Simulink model. However, the desired response can be achieved with a nonlinear controller. See example below.
tspan = linspace(0, 4, 10001);
x0 = 0;
opts = odeset('RelTol', 1e-12, 'AbsTol', 1e-9);
[t, x] = ode45(@odefcn, tspan, x0, opts);
% Solution Plot
plot(t, x, 'linewidth', 1.5), hold on,
plot(t, heaviside(t - 1), 'r--'), grid on,
xlabel('t'), ylabel('x(t)')
legend('output', 'input', 'location', 'east')
function xdot = odefcn(t, x)
k = 1; % parameter that determines the strength of u
g = 1000; % parameter that determines steepness of u
ref = heaviside(t - 1); % reference input to be tracked
% controller
u = - k*tanh(g*(x - ref)); % nonlinear controller
% system
xdot = u; % equivalent to the plant transfer function, Gp(s) = 1/s
end
More Answers (1)
Nikhil
on 6 Jul 2023
Edited: Nikhil
on 6 Jul 2023
Yes, It helps. You can derive the transfer function for the controller since you know the transfer function for the system and the desired output from the equation:
where Y(s) is the output, which would be for a signal of constant slope m,
G(s) is C(s)*P(s), where P(s) is the system tranfer function, which in your case is as your system is an integrator,
H(s) is the feedback transfer function, which is 1,
U(s) is the input signal, which would be for the case of a step input.
The controller transfer function would then turn out to be
You can then use a Transfer Function block to implement the controller.
3 Comments
Nikhil
on 6 Jul 2023
You can limit the output of the integrator block by enabling Limit output option.
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