GY-63_MS5611/libraries/DHTINT/examples/dhtint_test/dhtint_test.ino
2022-05-08 13:05:13 +02:00

145 lines
3.1 KiB
C++

//
// FILE: dhtint_test.ino
// AUTHOR: Rob Tillaart
// PURPOSE: DHTINT library test sketch for Arduino
// URL: https://github.com/RobTillaart/DHTINT
// DHT PIN layout from left to right
// =================================
// FRONT : DESCRIPTION
// pin 1 : VCC
// pin 2 : DATA
// pin 3 : Not Connected
// pin 4 : GND
#include <dhtint.h>
DHTINT mySensor(5); // ESP 16 UNO 5 MKR1010 5
void setup()
{
while(!Serial); // MKR1010 needs this
Serial.begin(115200);
Serial.println("dhtint_test.ino");
Serial.print("DHTINT_LIB_VERSION: ");
Serial.println(DHTINT_LIB_VERSION);
Serial.println();
// MKR1010
// mySensor.setDisableIRQ(false);
Serial.println("\n1. Type detection test, first run might take longer to determine type");
Serial.println("STAT\tHUMI\tTEMP\tTIME\tTYPE");
test();
test();
test();
test();
Serial.println("\n2. Humidity offset test");
Serial.println("STAT\tHUMI\tTEMP\tTIME\tTYPE");
mySensor.setHumOffset(2.5);
test();
mySensor.setHumOffset(5.5);
test();
mySensor.setHumOffset(-5.5);
test();
mySensor.setHumOffset(0);
test();
Serial.println("\n3. Temperature offset test");
Serial.println("STAT\tHUMI\tTEMP\tTIME\tTYPE");
mySensor.setTempOffset(2.5);
test();
mySensor.setTempOffset(5.5);
test();
mySensor.setTempOffset(-5.5);
test();
mySensor.setTempOffset(0);
test();
Serial.println("\n4. LastRead test");
mySensor.read();
for (int i = 0; i < 20; i++)
{
if (millis() - mySensor.lastRead() > 1000)
{
mySensor.read();
Serial.println("actual read");
}
Serial.print(mySensor.getHumidity(), 1);
Serial.print(",\t");
Serial.println(mySensor.getTemperature(), 1);
delay(250);
}
Serial.println("\nDone...");
}
void loop()
{
}
void test()
{
// READ DATA
uint32_t start = micros();
int chk = mySensor.read();
uint32_t stop = micros();
switch (chk)
{
case DHTLIB_OK:
Serial.print("OK,\t");
break;
case DHTLIB_ERROR_CHECKSUM:
Serial.print("Checksum error,\t");
break;
case DHTLIB_ERROR_TIMEOUT_A:
Serial.print("Time out A error,\t");
break;
case DHTLIB_ERROR_TIMEOUT_B:
Serial.print("Time out B error,\t");
break;
case DHTLIB_ERROR_TIMEOUT_C:
Serial.print("Time out C error,\t");
break;
case DHTLIB_ERROR_TIMEOUT_D:
Serial.print("Time out D error,\t");
break;
case DHTLIB_ERROR_SENSOR_NOT_READY:
Serial.print("Sensor not ready,\t");
break;
case DHTLIB_ERROR_BIT_SHIFT:
Serial.print("Bit shift error,\t");
break;
case DHTLIB_WAITING_FOR_READ:
Serial.print("Waiting for read,\t");
break;
default:
Serial.print("Unknown: ");
Serial.print(chk);
Serial.print(",\t");
break;
}
// DISPLAY DATA
Serial.print(mySensor.getHumidity(), 1);
Serial.print(",\t");
Serial.print(mySensor.getTemperature(), 1);
Serial.print(",\t");
uint32_t duration = stop - start;
Serial.print(duration);
Serial.print(",\t");
Serial.println(mySensor.getType());
delay(500);
}
// -- END OF FILE --