Link

Stepper Driver - StepperDriver4PWM

This is the class which provides an abstraction layer of most of the common 4PWM stepper drivers out there. Basically any stepper driver board that can be run using 4PWM signals can be represented with this class. Examples:

  • L298n
  • MX1508
  • Shield R3 DC Motor Driver Module
  • etc.

Step 1. Hardware setup

To create the interface to the stepper driver you need to specify the 4 pwm pin numbers for each motor phase and optionally enable pin for each phase en1 and en2.

//  StepperDriver4PWM( int ph1A,int ph1B,int ph2A,int ph2B, int en1 (optional), int en2 (optional))
//  - ph1A, ph1B - phase 1 pwm pins
//  - ph2A, ph2B - phase 2 pwm pins
//  - en1, en2  - enable pins (optional input)
StepperDriver4PWM driver = StepperDriver4PWM(5, 6, 9, 10, 7,  8);

Step 2.1 PWM Configuration

// pwm frequency to be used [Hz]
// for atmega328 fixed to 32kHz
// esp32/stm32/teensy configurable
driver.pwm_frequency = 50000;
⚠️ Arduino devices based on ATMega328 chips have fixed pwm frequency of 32kHz.

Here is a list of different microcontrollers and their PWM frequency and resolution used with the Arduino SimpleFOClibrary.

MCUdefault frequencyMAX frequencyPWM resolutionCenter-alignedConfigurable freq
Arduino UNO(Atmega328)32 kHz32 kHz8bityesno
STM3250kHz100kHz14bityesyes
ESP3240kHz100kHz10bityesyes
Teensy50kHz100kHz8bityesyes

All of these settings are defined in the drivers/hardware_specific/x_mcu.cpp/h of the library source.

Step 2.2 Voltages

Driver class is the one that handles setting the pwm duty cycles to the driver output pins and it is needs to know the DC power supply voltage it is plugged to. Additionally driver class enables the user to set the absolute DC voltage limit the driver will be set to the output pins.

// power supply voltage [V]
driver.voltage_power_supply = 12;
// Max DC voltage allowed - default voltage_power_supply
driver.voltage_limit = 12;

This parameter is used by the StepperMotor class as well. As shown on the figure above the once the voltage limit driver.voltage_limit is set, it will be communicated to the FOC algorithm in StepperMotor class and the phase voltages will be centered around the driver.voltage_limit/2.

Therefore this parameter is very important if there is concern of too high currents generated by the motor. In those cases this parameter can be used as a security feature.

Step 2.3 Initialisation

Once when all the necessary configuration parameters are set the driver function init() is called. This function uses the configuration parameters and configures all the necessary hardware and software for driver code execution.

// driver init
driver.init();

Step 3. Using encoder in real-time

BLDC driver class was developed to be used with the SimpleFOClibrary and to provide the abstraction layer for FOC algorithm implemented in the StepperMotor class. But the StepperDriver4PWM class can used as a standalone class as well and once can choose to implement any other type of control algorithm using the bldc driver.

FOC algorithm support

In the context of the FOC control all the driver usage is done internally by the motion control algorithm and all that is needed to enable is is just link the driver to the StepperMotor class.

// linking the driver to the motor
motor.linkDriver(&driver)

Standalone driver

If you wish to use the bldc driver as a standalone device and implement your-own logic around it this can be easily done. Here is an example code of a very simple standalone application.

// Stepper driver standalone example
#include <SimpleFOC.h>

// Stepper driver instance
StepperDriver4PWM driver = StepperDriver4PWM(5, 6, 9,10, 7, 8);

void setup() {
  
  // pwm frequency to be used [Hz]
  driver.pwm_frequency = 50000;
  // power supply voltage [V]
  driver.voltage_power_supply = 12;
  // Max DC voltage allowed - default voltage_power_supply
  driver.voltage_limit = 12;
  
  // driver init
  driver.init();

  // enable driver
  driver.enable();

  _delay(1000);
}

void loop() {
    // setting pwm
    // phase 1: 3V, phase 2: 6V
    driver.setPwm(3,6);
}