GY-63_MS5611/libraries/moduloMap/examples/moduloMap_rotations/moduloMap_rotations.ino

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2022-10-23 04:36:41 -04:00
//
// FILE: moduloMap_rotations.ino
// AUTHOR: Rob Tillaart
// PURPOSE: demo math for wirecutter
// URL: https://github.com/RobTillaart/moduloMap
// This example shows the basic math to implement a suspencer
// for a wire cutter device. The length of the wire is measured
// by the number of rotations of a steppermotor.
//
// A real wirecutter application needs length input and
// a signal to start rolling and cut (automatically).
// and probably much more (default lengths, wire detection etc)
#include "Arduino.h"
#include "moduloMap.h"
MODMAP wireCutter;
// assume the distance measurement wheel for a wirecutter
// has a radius of 5 centimeter = about 2 inch
float radius = 5.0;
// assume we want to cut off 20 centimeter every time.
float wireLength = 50;
// assume steppermotor has e.g 200 steps per rotation
uint16_t stepsPerRotation = 200;
void setup()
{
Serial.begin(115200);
while (!Serial);
Serial.println(__FILE__);
Serial.print("MODMAP_LIB_VERSION: ");
Serial.println(MODMAP_LIB_VERSION);
Serial.println();
wireCutter.begin(0, 2 * PI * radius);
// how many rotations need to be made for given length.
float rots = wireCutter.rotations(wireLength);
// how many steps are this? (note we round up)
uint16_t steps = ceil(rots * stepsPerRotation);
Serial.print("Wirelength ");
Serial.print(wireLength);
Serial.print(" cm => ");
Serial.print(rots);
Serial.print(" rotations => ");
Serial.print(steps);
Serial.print(" steps.");
Serial.println();
Serial.println("\ndone...");
}
void loop()
{
}
// -- END OF FILE --