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Farm-Data-Relay-System/resources/Sensors/LilyGo_HiGrow_32/LilyGo_HiGrow_32.ino

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Cleaned up library base structure * keywords.txt (for syntax highlighting), library.properties (for a proper description added * moved Universal_Sensor_beta to the examples directory * moved Sensors, FDRS_Sensor and FDRS_Gateway to resources folder. They contain documentation which needs to be kept (to be discussed where to put that later on) but are fully redundant as they are just duplicates of the different sensors / gateways in the examples folder.
2 years ago
// FARM DATA RELAY SYSTEM
//
// LILYGO HIGROW SENSOR MODULE
//
#define I2C_SDA 25
#define I2C_SCL 26
#define DHT12_PIN 16
#define BAT_ADC 33
#define SALT_PIN 34
#define SOIL_PIN 32
#define BOOT_PIN 0
#define USER_BUTTON 35
#define DS18B20_PIN 21
#include "sensor_setup.h"
#include <fdrs_sensor.h>
#include <BH1750.h>
#include <Adafruit_BME280.h>
BH1750 lightMeter(0x23); //0x23
Adafruit_BME280 bmp; //0x77
RTC_DATA_ATTR int the_count = 0;
void setup() {
//Init Sensors
Wire.begin(I2C_SDA, I2C_SCL);
while (!bmp.begin()) {
//Serial.println("bmp");
delay(10);
}
if (lightMeter.begin(BH1750::CONTINUOUS_HIGH_RES_MODE)) {
Serial.println(F("BH1750 Advanced begin"));
} else {
Serial.println(F("Error initialising BH1750"));
}
}
void loadData() {
float s_battery = readBattery();
float bme_temp = bmp.readTemperature();
float bme_pressure = (bmp.readPressure() / 100.0F);
//float bme_altitude = bmp.readAltitude(1013.25);
float bme_humidity = bmp.readHumidity();
float s_soil = readSoil();
float s_salt = readSalt();
while (! lightMeter.measurementReady()) {
delay(10);
}
float lux = lightMeter.readLightLevel();
the_count++;
Serial.println();
Serial.println("Temp: " + String(bme_temp));
Serial.println("Humidity: " + String(bme_humidity));
Serial.println("Light: " + String(lux));
Serial.println("Pressure: " + String(bme_pressure));
Serial.println("Salt: " + String(s_salt));
Serial.println("Soil: " + String(s_soil));
Serial.println("Voltage: " + String(s_battery));
Serial.println("Count: " + String(the_count));
loadFDRS(bme_temp, TEMP_T);
loadFDRS(bme_humidity, HUMIDITY_T);
loadFDRS(lux, LIGHT_T);
loadFDRS(bme_pressure, PRESSURE_T);
loadFDRS(s_salt, SOILR_T);
loadFDRS(s_soil, SOIL_T);
loadFDRS(s_battery, VOLTAGE_T);
loadFDRS(float(the_count), IT_T);
}
uint32_t readSalt() //Soil Electrodes: This code came from the LilyGo documentation.
{
uint8_t samples = 120;
uint32_t humi = 0;
uint16_t array[120];
for (int i = 0; i < samples; i++) {
array[i] = analogRead(SALT_PIN);
delay(2);
}
std::sort(array, array + samples);
for (int i = 0; i < samples; i++) {
if (i == 0 || i == samples - 1)continue;
humi += array[i];
}
humi /= samples - 2;
return humi;
}
uint16_t readSoil() //Soil Capacitance: This code came from the LilyGo documentation.
{
uint16_t soil = analogRead(SOIL_PIN);
return map(soil, 0, 4095, 100, 0);
}
float readBattery() //Battery Voltage: This code came from the LilyGo documentation.
{
int vref = 1100;
uint16_t volt = analogRead(BAT_ADC);
float battery_voltage = ((float)volt / 4095.0) * 2.0 * 3.3 * (vref);
return battery_voltage;
}
void loop() {
}