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Control DC Motor with PWM Voltage Source and H-Bridge Driver

Open Model

This example shows how to control a DC motor by using the Controlled PWM Voltage and H-Bridge blocks. The DC Motor block delivers a mechanical power of 10 W at 2500 rpm and turns at a no-load speed of 4000 rpm when the DC supply voltage is 12 V. Consequently, if you set the PWM reference voltage to its maximum value of 5 V, the motor runs at 4000 rpm. If you set the PWM reference voltage to 2.5 V, the motor runs at approximately 2000 rpm. To achieve fast simulation, this example sets the Simulation mode parameter of the Controlled PWM Voltage and H-Bridge blocks to Averaged. To validate the averaged behavior, set the Simulation mode parameter to PWM in both the Controlled PWM Voltage and H-Bridge blocks.

For more information about this example and to learn how to build this model, see Build and Simulate a Simple DC Motor.

Open Model

Open the PWMControlledDCMotor model. The Controlled PWM Voltage block generates a pulse-width modulated signal. The H-Bridge block receives this PWM signal and drives the motor by generating a constant output voltage equal to the average value of the PWM signal. When the motor is on, the H-Bridge block connects the motor terminals to the power supply. When the motor is off, the H-Bridge block acts as a freewheeling diode to maintain the motor current.

View Simulation Results from Simscape Logging

This plot shows the current passing through the motor and the speed of the motor shaft. As expected, the motor runs at about 2000 rpm when you apply a DC voltage of 2.5 V.

Results from Real-Time Simulation

This example has been tested on a Speedgoat Performance real-time target machine with an Intel® 3.5 GHz i7 multi-core CPU. This model can run in real time with a step size of 30 microseconds.

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