GY-63_MS5611/libraries/PulsePattern/examples/pulse_sender/pulse_sender.ino

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2021-01-29 06:31:58 -05:00
//
// FILE: pulse_sender.ino
// AUTHOR: Rob Tillaart
// DATE: 2020-08-08
//
// PUPROSE: for callibrating the pulselength
// uses timer1
//
// This sketch sends a testpattern of 1000 ms LOW and 1000 ms HIGH ==> Duty Cycle = 50%
// From measuring the duration of the pulses one can derive the correction factor to adjust the timing.
//
// Pulse sender used an UNO R3 board.
//
// Used two ways to measure
// 1: ESP32 with pulse_measure.ino sketch
// 2: Saleae Logic analyzer 2.3.4 Alpha
//
// The correction factor was not identical but close -2.46% vs -2.78%
// The Saleae gave a pulselength after correction of 999.99 mSec so pretty good for UNO.
// Currently the correction factor is in steps of 1/4096, to get in the order of 0.1% accuracy
///////////////////////////////////////////////////////////////////////////////////////////////
//
// CODE STARTS HERE
//
#include "PulsePattern.h"
// uint16_t test_pattern[] = { 1,2,3,4,5,6,7,8,9,10,20,30,40,50,60,70,80,90,100,200,300,400,500,600,700,800,900,1000,2000,3000,4000,5000};
// uint8_t patternSize = 30;
uint16_t test_pattern[] = { 1000, 1000 }; // 0.5 Hz 50% duty cycle
uint8_t patternSize = 2;
uint8_t startLevel = LOW;
void setup()
{
Serial.begin(115200);
Serial.println(__FILE__);
// as the prescaler = 1024 the periods of the pattern are a
// few percent less than a millisecond
// -0.0278 = - 2.78% Saleae logic analyzer
// -0.0246 = - 2.46% ESP32
PPGenerator.setFactor(-0.0248);
Serial.println(PPGenerator.getFactor(), 6);
// PIN 13 shows a blinking LED.
PPGenerator.init(13, test_pattern, patternSize, startLevel, PRESCALE_1024);
PPGenerator.start();
}
void loop()
{
}
// -- END OF FILE --