//
//    FILE: ADS_setWireClock.ino
//  AUTHOR: Rob.Tillaart
// VERSION: 0.1.0
// PURPOSE: read analog inputs - straightforward.
//

// test
// connect 1 potmeter per port.
//
// GND ---[   x   ]------ 5V
//            |
//
// measure at x (connect to AIN0).
//


#include "ADS1X15.h"

ADS1115 ADS(0x48);


void setup()
{
  Serial.begin(115200);
  Serial.println(__FILE__);
  Serial.print("ADS1X15_LIB_VERSION: ");
  Serial.println(ADS1X15_LIB_VERSION);

  ADS.begin();

  Serial.println(F("\nSET\tACTUAL\n=================="));
  for (uint32_t speed = 50000; speed <= 1000000; speed += 50000)
  {
    ADS.setWireClock(speed);
    Serial.print(speed);
    Serial.print("\t");
    Serial.println(ADS.getWireClock());
  }
  ADS.setWireClock(100000);
  Serial.println();
}


void loop()
{
  ADS.setGain(0);

  int16_t val_0 = ADS.readADC(0);
  int16_t val_1 = ADS.readADC(1);
  int16_t val_2 = ADS.readADC(2);
  int16_t val_3 = ADS.readADC(3);

  float f = ADS.toVoltage(1);  // voltage factor

  Serial.print("\tAnalog0: "); Serial.print(val_0); Serial.print('\t'); Serial.println(val_0 * f, 3);
  Serial.print("\tAnalog1: "); Serial.print(val_1); Serial.print('\t'); Serial.println(val_1 * f, 3);
  Serial.print("\tAnalog2: "); Serial.print(val_2); Serial.print('\t'); Serial.println(val_2 * f, 3);
  Serial.print("\tAnalog3: "); Serial.print(val_3); Serial.print('\t'); Serial.println(val_3 * f, 3);
  Serial.println();

  delay(1000);
}


// -- END OF FILE --