Represent connected DC motor and set motor speed
Simulink Coder Support Package for ARM Cortex-based Microcontroller / Actuators
The DC Motor block represents a DC motor connected to a specified motor channel on an ARM® Cortex®-based VEX® Microcontroller. The input signal sets the speed of the motor. There are 10 motor channels, or pins, on the VEX microcontroller that you can connect to DC motors. For information on the pin layout of the microcontroller, see the VEX Cortex Pin-Out diagram from VEX Robotics.
Port_1 — Input analog signal that sets motor speed
integer in [ –128 127]
The block input value can range from –128 to 127. The sign determines the
direction of rotation of the motor, and the amplitude determines the speed. A block
input value of
0 stops the motor.
The input analog signal for the DC Motor block can be derived from the output of other blocks in the model (for example, from a Gamepad Joystick block).
During simulations without the hardware, the DC Motor block emits zeroes if there is no block connected to the input port (see Block Produces Zeros or Does Nothing in Simulation). If the input value to DC Motor is beyond the range of –128 to 127, you receive an error message during simulation.
Port_1 — Motor speed during simulation
The output is the speed of the motor, calculated by multiplying the value from the input port by the value of the Gearing Ratio parameter and rounding the product to the nearest integer. Connect a Sink block, such as a Display block or Scope block, to the output port to view the simulation output. The Sink blocks are available in the Utilities library in Simulink® Support Package for ARM Cortex-based VEX Microcontroller.
This port appears only when you select the Add output port to measure speed during simulation parameter.
Motor Channel — Motor channel for DC motor
1 (default) | 1 to 10
Select the motor channel or pin on the ARM Cortex-based VEX Microcontroller that is connected to the DC motor.
Do not assign the same channel number to more than one DC Motor block within the same model.
Gearing Ratio — Gear ratio of motor during simulation
1/13.5 (default) | (
driving gear) / (
This parameter is applicable for simulation behavior only. The gear ratio value is a scaling factor that scales the input value of the block (–128 to 127) to an approximate motor RPM. Adjust it accordingly to match the simulated motor speed with the motor speed in the actual installation.
Add output port to measure speed during simulation — Add output port for simulation
off (default) |
Select this check box to add the output port to emit the speed of the DC motor during simulation.
C/C++ Code Generation
Generate C and C++ code using Simulink® Coder™.
During code generation, simulation block that is connected to the output port of a DC Motor block is ignored and has no effect on the generated code.
Introduced in R2016a