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esp32c3_I2C_LTR303.ino
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/***************************************************
This is an example for the LTR329 light sensor that reads both channels
and demonstrates how to set gain and check data validity
Designed specifically to work with the LTR-329 light sensor from Adafruit
----> https://www.adafruit.com/product/5591
These sensors use I2C to communicate, 2 pins are required to
interface
****************************************************/
#include "Adafruit_LTR329_LTR303.h"
#define I2C_SDA 4
#define I2C_SCL 5
TwoWire I2CSensors = TwoWire(0);
Adafruit_LTR329 ltr = Adafruit_LTR329();
void setup() {
Serial.begin(115200);
Serial.println("Adafruit LTR-329 advanced test");
I2CSensors.begin(I2C_SDA, I2C_SCL, 100000);
ltr.begin(&I2CSensors);
Serial.println("Found LTR sensor!");
ltr.setGain(LTR3XX_GAIN_2);
Serial.print("Gain : ");
switch (ltr.getGain()) {
case LTR3XX_GAIN_1: Serial.println(1); break;
case LTR3XX_GAIN_2: Serial.println(2); break;
case LTR3XX_GAIN_4: Serial.println(4); break;
case LTR3XX_GAIN_8: Serial.println(8); break;
case LTR3XX_GAIN_48: Serial.println(48); break;
case LTR3XX_GAIN_96: Serial.println(96); break;
}
ltr.setIntegrationTime(LTR3XX_INTEGTIME_100);
Serial.print("Integration Time (ms): ");
switch (ltr.getIntegrationTime()) {
case LTR3XX_INTEGTIME_50: Serial.println(50); break;
case LTR3XX_INTEGTIME_100: Serial.println(100); break;
case LTR3XX_INTEGTIME_150: Serial.println(150); break;
case LTR3XX_INTEGTIME_200: Serial.println(200); break;
case LTR3XX_INTEGTIME_250: Serial.println(250); break;
case LTR3XX_INTEGTIME_300: Serial.println(300); break;
case LTR3XX_INTEGTIME_350: Serial.println(350); break;
case LTR3XX_INTEGTIME_400: Serial.println(400); break;
}
ltr.setMeasurementRate(LTR3XX_MEASRATE_200);
Serial.print("Measurement Rate (ms): ");
switch (ltr.getMeasurementRate()) {
case LTR3XX_MEASRATE_50: Serial.println(50); break;
case LTR3XX_MEASRATE_100: Serial.println(100); break;
case LTR3XX_MEASRATE_200: Serial.println(200); break;
case LTR3XX_MEASRATE_500: Serial.println(500); break;
case LTR3XX_MEASRATE_1000: Serial.println(1000); break;
case LTR3XX_MEASRATE_2000: Serial.println(2000); break;
}
}
void loop() {
bool valid;
uint16_t visible_plus_ir, infrared;
if (ltr.newDataAvailable()) {
valid = ltr.readBothChannels(visible_plus_ir, infrared);
if (valid) {
Serial.print("CH0 Visible + IR: ");
Serial.print(visible_plus_ir);
Serial.print("\t\tCH1 Infrared: ");
Serial.println(infrared);
}
}
delay(100);
}