How to Model a DC Motor in State-Space with Load Torque Disturbance Rejection?

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boutegui
boutegui am 5 Jun. 2025
Beantwortet: Sabin am 5 Aug. 2025
I’m working on a DC motor control system and need to implement a state-space model that accounts for load torque disturbances. The motor is armature-controlled with parameters:
Inertia (J), damping (B), torque constant (Kt), back-EMF (Ke).
States: Angular velocity (ω) and armature current (iₐ).
Problem:
State-Space Setup: How to properly structure the state-space matrices to include both control input (Va) and disturbance input (Tl)?
Disturbance Rejection:
If using a PID controller, how to ensure the integral term compensates for Tl?
Is a disturbance observer (DOB) better for this case?
Simulation:
In MATLAB, how to simulate the system with lsim when there are two inputs (Va and Tl)?
Should I manually inject Tl into the derivative equations?
Request:
Theoretical guidance on state-space disturbance modeling.
MATLAB/Simulink implementation tips.

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Sabin
Sabin am 5 Aug. 2025
The state-space can be constructed as xdot=A.x+B.u+w, where w is the disturbance. If the disturbance is known a coordinate transformation can be derived to cast the state-space system as zdot=F.z+G.s. The integral term will ensure zero steady-state error. An alternative is to use a disturbance observer. Perhaps you can try the Active Disturbance Rejection Control instead of PID. There are also many relevant examples on mathworks.com:
https://www.mathworks.com/help/sps/ug/dc-motor-control-state-feedback-and-observer.html
https://www.mathworks.com/help/slcontrol/ug/design-adrc-for-bldc-motor.html

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