104 lines
2.8 KiB
Plaintext
104 lines
2.8 KiB
Plaintext
// AFMotor_ConstantSpeed.pde
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// -*- mode: C++ -*-
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//
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// Shows how to use AccelStepper to control a 3-phase motor, such as a HDD spindle motor
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// using the Adafruit Motor Shield
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// http://www.ladyada.net/make/mshield/index.html.
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// Create a subclass of AccelStepper which controls the motor pins via the
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// Motor Shield serial-to-parallel interface
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#include <AccelStepper.h>
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// Arduino pin names for interface to 74HCT595 latch
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// on Adafruit Motor Shield
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#define MOTORLATCH 12
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#define MOTORCLK 4
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#define MOTORENABLE 7
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#define MOTORDATA 8
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// PWM pins, also used to enable motor outputs
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#define PWM0A 5
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#define PWM0B 6
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#define PWM1A 9
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#define PWM1B 10
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#define PWM2A 11
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#define PWM2B 3
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// The main purpose of this class is to override setOutputPins to work with Adafruit Motor Shield
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class AFMotorShield : public AccelStepper
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{
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public:
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AFMotorShield(uint8_t interface = AccelStepper::FULL4WIRE, uint8_t pin1 = 2, uint8_t pin2 = 3, uint8_t pin3 = 4, uint8_t pin4 = 5);
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virtual void setOutputPins(uint8_t mask);
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};
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AFMotorShield::AFMotorShield(uint8_t interface, uint8_t pin1, uint8_t pin2, uint8_t pin3, uint8_t pin4)
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: AccelStepper(interface, pin1, pin2, pin3, pin4)
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{
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// Enable motor control serial to parallel latch
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pinMode(MOTORLATCH, OUTPUT);
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pinMode(MOTORENABLE, OUTPUT);
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pinMode(MOTORDATA, OUTPUT);
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pinMode(MOTORCLK, OUTPUT);
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digitalWrite(MOTORENABLE, LOW);
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// enable both H bridges on motor 1
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pinMode(PWM2A, OUTPUT);
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pinMode(PWM2B, OUTPUT);
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pinMode(PWM0A, OUTPUT);
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pinMode(PWM0B, OUTPUT);
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digitalWrite(PWM2A, HIGH);
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digitalWrite(PWM2B, HIGH);
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digitalWrite(PWM0A, HIGH);
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digitalWrite(PWM0B, HIGH);
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setOutputPins(0); // Reset
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};
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// Use the AF Motor Shield serial-to-parallel to set the state of the motor pins
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// Caution: the mapping of AccelStepper pins to AF motor outputs is not
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// obvious:
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// AccelStepper Motor Shield output
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// pin1 M4A
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// pin2 M1A
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// pin3 M2A
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// pin4 M3A
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// Caution this is pretty slow and limits the max speed of the motor to about 500/3 rpm
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void AFMotorShield::setOutputPins(uint8_t mask)
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{
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uint8_t i;
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digitalWrite(MOTORLATCH, LOW);
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digitalWrite(MOTORDATA, LOW);
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for (i=0; i<8; i++)
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{
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digitalWrite(MOTORCLK, LOW);
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if (mask & _BV(7-i))
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digitalWrite(MOTORDATA, HIGH);
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else
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digitalWrite(MOTORDATA, LOW);
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digitalWrite(MOTORCLK, HIGH);
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}
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digitalWrite(MOTORLATCH, HIGH);
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}
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AFMotorShield stepper(AccelStepper::HALF3WIRE, 0, 0, 0, 0); // 3 phase HDD spindle drive
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void setup()
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{
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stepper.setMaxSpeed(500); // divide by 3 to get rpm
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stepper.setAcceleration(80);
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stepper.moveTo(10000000);
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}
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void loop()
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{
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stepper.run();
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}
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