Deploying the PID autotuner blocks lets you tune your system in real time without Simulink® in the loop. However, it can be useful to run the autotuning algorithm on hardware while controlling the experiment from Simulink.
One way to do so is to use a model that contains a PID controller and a PID autotuner block, and run this model in external simulation mode. External mode allows communication between the Simulink block diagram and the standalone program that is built from the generated code. In this mode, Simulink serves as a real-time monitoring interface in which you can interact with the tuning algorithm running on hardware. For instance, you can start and stop the experiment or change tuning goals from the Simulink interface while the model is running.
When tuning in external mode, you can deploy the experiment algorithm only, such that the PID tuning part of the calculation is performed in Simulink. Doing so can save memory on your target hardware. Running the PID autotuning algorithm in external mode requires a code-generation product such as Simulink Coder™.
A Simulink model for PID autotuning in external mode resembles the following illustration.
Here, the blocks marked
Read plant output from hardware and
Write plant input to hardware represent hardware interfaces that
read data from or write data to your physical plant. When you are ready for tuning, you
run this model in external simulation mode.
When using PID autotuning in external simulation mode, do not use the
XCP on Serial communication interface. Use
Serial instead. To specify the communication
interface, in the model configuration parameters, in the Hardware
Choose your hardware from the Hardware board menu.
In Hardware board settings, under Target
hardware resources, in the External mode
pane, set Communication interface to
When you use the Open-Loop PID Autotuner, if your controller includes integrator action, consider implementing signal tracking to avoid integrator windup during the tuning experiment. Signal tracking enables the PID controller to continue to track the real plant input while it is out of the loop. Without it, your system can experience a bump when the control loop is closed at the end of the tuning process.
If your PID controller is a Simulink PID Controller block, you can use the Enable tracking mode parameter of the controller block to avoid this bump. The following diagram illustrates a module containing an Open-Loop PID Autotuner block and a PID Controller block with tracking mode configured. The plant input feeds into the tracking input of the controller block.
For external-mode tuning, you configure the
as described in
PID Autotuning for a Plant Modeled in Simulink. The models
illustrated here use a simple switch with a binary signal to start and stop the
You also configure controller parameters, tuning goals, and experiment parameters as described in PID Autotuning for a Plant Modeled in Simulink.
After configuring the block parameters for the experiment, in the model, select
external mode, set the simulation time to infinite, and
run the model.
Simulink compiles the model and deploys it to your connected hardware.
If you have configured the
start/stop signal to begin and
end the tuning process at specific times, allow the simulation to run through
the end of the experiment.
If you have configured a manual
start/stop signal, begin
the experiment when your plant has reached steady-state. Observe the signal at
% conv output, and stop the experiment when the signal
stabilizes near 100%.
When tuning is complete, examine and validate the tuned gains as described in PID Autotuning for a Plant Modeled in Simulink.
For a more detailed example that illustrates the use of external mode to control the autotuning process via Simulink, see Tune PID Controller in Real Time Using Open-Loop PID Autotuner Block.
The autotuner blocks contain two modules, one that performs the real-time frequency-response estimation, and one that uses the resulting estimated response to tune the PID gains. When you run a Simulink model containing the block in the external simulation mode, by default both modules are deployed. You can save memory on the target hardware by deploying the estimation module only. In this case, the tuning algorithm runs on the Simulink host computer instead of the target hardware. To do so, use the Reduce memory and avoid task overrun option in the autotuner block. When this option is selected, the deployed algorithm uses about a third as much memory as when the option is cleared.
Additionally, the PID gain calculation demands more computational load than the frequency-response estimation. For fast controller sample times, some hardware might not finish the gain calculation within one execution cycle. Therefore, when using hardware with limited computing power, selecting this option lets you tune a PID controller with a fast sample time.
When you use this option, the model must be configured such that numeric block parameters are tunable in generated code, not inlined. To specify tunable parameters:
In the model editor: In Configuration Parameters, in Code Generation > Optimization, set Default parameter behavior to
At the command line: Use