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- #include <OneWire.h>
- #include <DallasTemperature.h>
- // Data wire is plugged into port 2 on the Arduino
- #define ONE_WIRE_BUS 2
- // Setup a oneWire instance to communicate with any OneWire devices (not just Maxim/Dallas temperature ICs)
- OneWire oneWire(ONE_WIRE_BUS);
- // Pass our oneWire reference to Dallas Temperature.
- DallasTemperature sensors(&oneWire);
- // arrays to hold device addresses
- DeviceAddress insideThermometer, outsideThermometer;
- // function that will be called when an alarm condition exists during DallasTemperatures::processAlarms();
- void newAlarmHandler(uint8_t* deviceAddress)
- {
- Serial.println("Alarm Handler Start");
- printAlarmInfo(deviceAddress);
- printTemp(deviceAddress);
- Serial.println();
- Serial.println("Alarm Handler Finish");
- }
- void printCurrentTemp(DeviceAddress deviceAddress)
- {
- printAddress(deviceAddress);
- printTemp(deviceAddress);
- Serial.println();
- }
- void printAddress(DeviceAddress deviceAddress)
- {
- Serial.print("Address: ");
- for (uint8_t i = 0; i < 8; i++)
- {
- if (deviceAddress[i] < 16) Serial.print("0");
- Serial.print(deviceAddress[i], HEX);
- }
- Serial.print(" ");
- }
- void printTemp(DeviceAddress deviceAddress)
- {
- float tempC = sensors.getTempC(deviceAddress);
- if (tempC != DEVICE_DISCONNECTED_C)
- {
- Serial.print("Current Temp C: ");
- Serial.print(tempC);
- }
- else Serial.print("DEVICE DISCONNECTED");
- Serial.print(" ");
- }
- void printAlarmInfo(DeviceAddress deviceAddress)
- {
- char temp;
- printAddress(deviceAddress);
- temp = sensors.getHighAlarmTemp(deviceAddress);
- Serial.print("High Alarm: ");
- Serial.print(temp, DEC);
- Serial.print("C");
- Serial.print(" Low Alarm: ");
- temp = sensors.getLowAlarmTemp(deviceAddress);
- Serial.print(temp, DEC);
- Serial.print("C");
- Serial.print(" ");
- }
- void setup(void)
- {
- // start serial port
- Serial.begin(9600);
- Serial.println("Dallas Temperature IC Control Library Demo");
- // Start up the library
- sensors.begin();
-
- // locate devices on the bus
- Serial.print("Found ");
- Serial.print(sensors.getDeviceCount(), DEC);
- Serial.println(" devices.");
- // search for devices on the bus and assign based on an index
- if (!sensors.getAddress(insideThermometer, 0)) Serial.println("Unable to find address for Device 0");
- if (!sensors.getAddress(outsideThermometer, 1)) Serial.println("Unable to find address for Device 1");
- Serial.print("Device insideThermometer ");
- printAlarmInfo(insideThermometer);
- Serial.println();
-
- Serial.print("Device outsideThermometer ");
- printAlarmInfo(outsideThermometer);
- Serial.println();
-
- // set alarm ranges
- Serial.println("Setting alarm temps...");
- sensors.setHighAlarmTemp(insideThermometer, 26);
- sensors.setLowAlarmTemp(insideThermometer, 22);
- sensors.setHighAlarmTemp(outsideThermometer, 25);
- sensors.setLowAlarmTemp(outsideThermometer, 21);
-
- Serial.print("New insideThermometer ");
- printAlarmInfo(insideThermometer);
- Serial.println();
-
- Serial.print("New outsideThermometer ");
- printAlarmInfo(outsideThermometer);
- Serial.println();
- // attach alarm handler
- sensors.setAlarmHandler(&newAlarmHandler);
- }
- void loop(void)
- {
- // ask the devices to measure the temperature
- sensors.requestTemperatures();
-
- // if an alarm condition exists as a result of the most recent
- // requestTemperatures() request, it exists until the next time
- // requestTemperatures() is called AND there isn't an alarm condition
- // on the device
- if (sensors.hasAlarm())
- {
- Serial.println("Oh noes! There is at least one alarm on the bus.");
- }
- // call alarm handler function defined by sensors.setAlarmHandler
- // for each device reporting an alarm
- sensors.processAlarms();
- if (!sensors.hasAlarm())
- {
- // just print out the current temperature
- printCurrentTemp(insideThermometer);
- printCurrentTemp(outsideThermometer);
- }
-
- delay(1000);
- }
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