// MultiStepper
// -*- mode: C++ -*-
//
// Control both Stepper motors at the same time with different speeds
// and accelerations.
// Requires the AFMotor library (https://github.com/adafruit/Adafruit-Motor-Shield-library)
// And AccelStepper with AFMotor support (https://github.com/adafruit/AccelStepper)
// Public domain!
#include <AccelStepper.h>
#include <AFMotor.h>
// two stepper motors one on each port
AF_Stepper motor1(200, 1);
AF_Stepper motor2(200, 2);
// you can change these to DOUBLE or INTERLEAVE or MICROSTEP!
// wrappers for the first motor!
void forwardstep1() {
motor1.onestep(FORWARD, SINGLE);
}
void backwardstep1() {
motor1.onestep(BACKWARD, SINGLE);
}
// wrappers for the second motor!
void forwardstep2() {
motor2.onestep(FORWARD, SINGLE);
}
void backwardstep2() {
motor2.onestep(BACKWARD, SINGLE);
}
// Motor shield has two motor ports, now we'll wrap them in an AccelStepper object
AccelStepper stepper1(forwardstep1, backwardstep1);
AccelStepper stepper2(forwardstep2, backwardstep2);
void setup()
{
stepper1.setMaxSpeed(200.0);
stepper1.setAcceleration(100.0);
stepper1.moveTo(100);
stepper2.setMaxSpeed(300.0);
stepper2.setAcceleration(100.0);
stepper2.moveTo(100);
}
void loop()
{
// Change direction at the limits
if (stepper1.distanceToGo() == 0)
stepper1.moveTo(-stepper1.currentPosition());
if (stepper2.distanceToGo() == 0)
stepper2.moveTo(-stepper2.currentPosition());
stepper1.run();
stepper2.run();
}
// -*- mode: C++ -*-
//
// Control both Stepper motors at the same time with different speeds
// and accelerations.
// Requires the AFMotor library (https://github.com/adafruit/Adafruit-Motor-Shield-library)
// And AccelStepper with AFMotor support (https://github.com/adafruit/AccelStepper)
// Public domain!
#include <AccelStepper.h>
#include <AFMotor.h>
// two stepper motors one on each port
AF_Stepper motor1(200, 1);
AF_Stepper motor2(200, 2);
// you can change these to DOUBLE or INTERLEAVE or MICROSTEP!
// wrappers for the first motor!
void forwardstep1() {
motor1.onestep(FORWARD, SINGLE);
}
void backwardstep1() {
motor1.onestep(BACKWARD, SINGLE);
}
// wrappers for the second motor!
void forwardstep2() {
motor2.onestep(FORWARD, SINGLE);
}
void backwardstep2() {
motor2.onestep(BACKWARD, SINGLE);
}
// Motor shield has two motor ports, now we'll wrap them in an AccelStepper object
AccelStepper stepper1(forwardstep1, backwardstep1);
AccelStepper stepper2(forwardstep2, backwardstep2);
void setup()
{
stepper1.setMaxSpeed(200.0);
stepper1.setAcceleration(100.0);
stepper1.moveTo(100);
stepper2.setMaxSpeed(300.0);
stepper2.setAcceleration(100.0);
stepper2.moveTo(100);
}
void loop()
{
// Change direction at the limits
if (stepper1.distanceToGo() == 0)
stepper1.moveTo(-stepper1.currentPosition());
if (stepper2.distanceToGo() == 0)
stepper2.moveTo(-stepper2.currentPosition());
stepper1.run();
stepper2.run();
}
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