When operating a permanent magnet synchronous motor (PMSM) with a quadrature encoder sensor, we need an initial position to start running the motor. Because we do not have a method to determine the initial position at the beginning (before starting the motor), run the motor using open-loop control and ensure that the quadrature encoder index pulse is read at least once. At the quadrature encoder index pulse, the quadrature encoder sensor resets its position to align with the mechanical angle of the motor. The motor switches from an open-loop run to closed-loop speed control to maintain the reference speed. This step is only applicable for a quadrature encoder sensor (and is not needed for a Hall position sensor). A Hall sensor outputs the initial position of the rotor segment from the Hall signal port inputs.
Follow these steps to implement an open-loop motor run with a transition to closed-loop control:
Control/Control_system subsystem to your model. This adds the
algorithm to run the motor in open-loop. This subsystem switches the control
from open-loop to closed-loop if EnClosedLoop input is
1. Add an input port
Addition of the Open Loop Start-Up subsystem adds the Data Store Read blocks for Enable and SpeedRef. In addition, add the Data Store Memory blocks for Enable, EnClosedLoop, and SpeedRef at the topmost level of the model.
When the open-loop run begins, the sign of SpeedRef (for algorithm details, see the Open Loop Start-Up subsystem) decides the direction of the initial motor run. If SpeedRef is negative, the motor spins in the opposite direction during the open-loop run.
Scaling/Calculate Position and Speed subsystem to your model.
This adds the
IndexFinder subsystem to your model. When
quadrature encoder index pulse is detected for the first time, this
subsystem sets the
IndexFound port to
1. Add an output port (that is connected to the
IndexFound port) to the Calculate Position
and Speed subsystem and rename it to
Connect the output port
EnClosedLoop from the
Input Scaling subsystem to the input port
EnClosedLoop in the
Control_System subsystem as shown in this
Control/Speed_Ref_Selector subsystem to your model and
integrate it with the speed controller subsystem. When the closed-loop
control begins, this subsystem provides the
ouput signal. For a smooth transition from open-loop to closed-loop, the
speed measured is used as the speed reference during the open-loop run. Add
a Data Store Write block SpeedRef to the
PI_Controller_Speed input port.
In the plant model, add a step input to simulate the
IndexFinder block for simulation. Rename the step input
Switch to closed loop. See the
mcb_pmsm_foc_qep_f28379d/Inverter and Motor - Plant
Model/Sensor_Measurments subsystem to see how the step input
switches to closed-loop. Select the step time of
sample time of Ts_motor.
Create Data Store Memory blocks for EnClosedLoop, Enable, and SpeedRef. Enable block is used to reset the PI integrator before running the motor.
Add these default values in the Data Store Memory blocks:
The Data Store Memory blocks are used to share data across the subsystem.
Run the simulation and observe the speed reference and the speed feedback signals.