void init() {
Serial.begin(SERIAL_BAUD_RATE); // 115200 by default
Serial.systemDebugOutput(false); // Enable debug output to serial
WifiStation.enable(false);
WifiAccessPoint.enable(false);
initDisplay();
ReadTemp.Init(DS_PIN);
ReadTemp.StartMeasure();
displayTemps();
system_deep_sleep(30 * 1000 * 1000);
}
void init()
{
if (USE_SERIAL)
{
Serial.begin(SERIAL_BAUD_RATE); // 115200 by default
Serial.systemDebugOutput(true); // Debug output to serial
Serial.println("booting up");
}
//Setup temp sensors
temperatureSensor.Init(TEMP_PIN);
temperatureSensor.StartMeasure();
System.onReady(ready);
WifiStation.config(WIFI_SSID, WIFI_PWD);
WifiStation.enable(true);
WifiAccessPoint.enable(false);
// Run our method when station was connected to AP (or not connected)
WifiStation.waitConnection(connectOk, 20, connectFail); // We recommend 20+ seconds for connection timeout at start
}
String getTemperature()
{
if (!temperatureSensor.MeasureStatus()) // the last measurement completed
{
if (temperatureSensor.GetSensorsCount()) // is minimum 1 sensor detected ?
{
for(int a=0;a<temperatureSensor.GetSensorsCount();a++) // prints for all sensors
{
if (temperatureSensor.IsValidTemperature(a)) // temperature read correctly ?
return String(temperatureSensor.GetFahrenheit(a));
else
if (USE_SERIAL) Serial.println("Temperature not valid");
}
}
}
else
if (USE_SERIAL) Serial.println("No valid Measure so far! wait please");
return "-1111";
}
void displayTemps() {
uint8_t a;
if (!ReadTemp.MeasureStatus()) {
display.clearDisplay();
display.setCursor(0, 0);
for (a = 0; a < ReadTemp.GetSensorsCount(); a++) {
if (ReadTemp.IsValidTemperature(a)) {
display.printf("T%d: %.2f %cC\n", a + 1, ReadTemp.GetCelsius(a), (char) 0x7f);
}
}
display.display();
}
else {
display.println("Measure err.");
Serial.println("Measure err.");
}
}
//**********************************************************
// DS18S20 example, reading
// You can connect multiple sensors to a single port
// (At the moment 4 pcs - it depends on the definition in the library)
// Measuring time: 1.2 seconds * number of sensors
// The main difference with the previous version of the demo:
// - Do not use the Delay function () which discourages by manufacturer of ESP8266
// - We can read several sensors
// Usage:
// Call Init to setup pin eg. ReadTemp.Init(2); //pin 2 selected
// Call ReadTemp.StartMeasure();
// if ReadTemp.MeasureStatus() false read sensors
// You can recognize sensors by the ID or index.
//***********************************************************
void readData()
{
uint8_t a;
uint64_t info;
if (!ReadTemp.MeasureStatus()) // the last measurement completed
{
if (ReadTemp.GetSensorsCount()) // is minimum 1 sensor detected ?
Serial.println("******************************************");
Serial.println(" Reding temperature DEMO");
for(a=0;a<ReadTemp.GetSensorsCount();a++) // prints for all sensors
{
Serial.print(" T");
Serial.print(a+1);
Serial.print(" = ");
if (ReadTemp.IsValidTemperature(a)) // temperature read correctly ?
{
Serial.print(ReadTemp.GetCelsius(a));
Serial.print(" Celsius, (");
Serial.print(ReadTemp.GetFahrenheit(a));
Serial.println(" Fahrenheit)");
}
else
Serial.println("Temperature not valid");
Serial.print(" <Sensor id.");
info=ReadTemp.GetSensorID(a)>>32;
Serial.print((uint32_t)info,16);
Serial.print((uint32_t)ReadTemp.GetSensorID(a),16);
Serial.println(">");
}
Serial.println("******************************************");
ReadTemp.StartMeasure(); // next measure, result after 1.2 seconds * number of sensors
}
else
