søndag den 4. december 2016

Connecting an ESP8266-12 to a DS1820 thermometer and do a http post data to the internet.

Here's how to connect an ESP8266-12 to a DS1820 thermometer and perform a

Pre-requisites! I'll be using these components:

@ A standard ESP8266-12 on a breakout-board such as the one shown.
@ Three 4.7k resistors.
@ A 3v battery (I use a CR123a) for powering the ESP826612.
@ A DS1820 (i use the DO-92 packaged version below)

The following requirements should be met:

@ All connections, including those on the The ESP 8266-12 on the breakout-board, are solid and conduct power as they should.
@ The battery holds at least 2.8v of power.
@ The ESP8266-12 has been programmed with the following sketch:

#include OneWire.h
#include DallasTemperature.h
#include ESP8266WiFi.h
#include ESP8266WiFiMulti.h
#include ESP8266HTTPClient.h

#define ONEWIRE_PIN 13

OneWire oneWire(ONEWIRE_PIN);
DallasTemperature sensors(&oneWire);

boolean TempSensorAvailable = false;
DeviceAddress TempSensor;
float tempCtry1;
float tempCtry2;

//AP definitions
#define AP_SSID "your wifi-network name here"
#define AP_PASSWORD "wifi password here"

void setup() {

//enable this to test from the arduino serial monitor


Serial.print("Found ");
Serial.print(sensors.getDeviceCount(), DEC);
Serial.println(" OneWire device(s).");

// report parasite power requirements
Serial.print("Parasite power: ");
if (sensors.isParasitePowerMode()) Serial.println("ON");
else Serial.println("OFF");

if (!sensors.getAddress(TempSensor, 0)) {
Serial.println("No OneWire Device Found");
} else {
TempSensorAvailable = true;
Serial.println("OneWire Device Found");
sensors.setResolution(TempSensor, 12);

void loop() {


delay(60 * 1000);

void postTemperature()
sensors.requestTemperatures(); // Get temprature
tempCtry1 = sensors.getTempC(TempSensor); // save temprature
sensors.requestTemperatures(); // Get temprature
tempCtry2 = sensors.getTempC(TempSensor); // save temprature

HTTPClient http;
http.addHeader("Content-Type", "application/json");
String postMessagePart1 = String("{ 'sensorId' : 'L15-Out1', 'temperature' : '");
String postMessagePart2 = String("', 'postAttempts' : '");
String postMessagePart3 = String("', 'batteryVoltage' : '");
String postMessagePart4 = String("' }");
String postMessage = postMessagePart1 + ((tempCtry1+tempCtry2)/2) + postMessagePart2 + retries + postMessagePart3 + vdd + postMessagePart4 ;
int httpCode = http.POST(postMessage);
Serial.print("http result:");


if ( httpCode != 200 && httpCode != 201)

void wifiConnect()
Serial.print("Connecting to AP");
while (WiFi.status() != WL_CONNECTED) {

Serial.println("WiFi connected");

Don't forget to import the libraries into the arduino IDE environment.
Given the above is in order, go ahead and connect the components as per the following pictures:

- The RESET and GPIO16 pins should be connected - this enables the ESP 8266-12 to wake up from deep sleep mode.
- The GPIO0 and GPIO2 should be connected to VCC with a 4.7k resistor in the middle. This is to prevent a so-called 'zombie-mode', in which the ESP8266-12 has trouble waking up from deep sleep.
- The data-line and the VCC line of the DS1820 should be joined by a 4.7k resistor, or the temperature will not be read.
- The data-line of the DS1820 should be connected to the GPIO13-pin of the stand-alone ESP8266-12, as this corresponds with the "#define ONEWIRE_PIN 13" statement of the code.

With the ESP connected like so, my ESP8266-12 happily does a http post to my web-service every 60 seconds, before repeating the cycle.

You should put the ESP8266-12 into deep sleep mode if you power your thermometer via battery.

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