X-Git-Url: https://git.rvb.name/weathermon.git/blobdiff_plain/e7a2d1b901dbeb947e0ad605a53badc845e23ebc..357607fbe9159afef9ba89f1dbe86abe7966efc8:/Weather_Station.ino?ds=sidebyside diff --git a/Weather_Station.ino b/Weather_Station.ino deleted file mode 100644 index 9358d3d..0000000 --- a/Weather_Station.ino +++ /dev/null @@ -1,272 +0,0 @@ -/* SFE_BMP180 library example sketch - -This sketch shows how to use the SFE_BMP180 library to read the -Bosch BMP180 barometric pressure sensor. -https://www.sparkfun.com/products/11824 - -Like most pressure sensors, the BMP180 measures absolute pressure. -This is the actual ambient pressure seen by the device, which will -vary with both altitude and weather. - -Before taking a pressure reading you must take a temparture reading. -This is done with startTemperature() and getTemperature(). -The result is in degrees C. - -Once you have a temperature reading, you can take a pressure reading. -This is done with startPressure() and getPressure(). -The result is in millibar (mb) aka hectopascals (hPa). - -If you'll be monitoring weather patterns, you will probably want to -remove the effects of altitude. This will produce readings that can -be compared to the published pressure readings from other locations. -To do this, use the sealevel() function. You will need to provide -the known altitude at which the pressure was measured. - -If you want to measure altitude, you will need to know the pressure -at a baseline altitude. This can be average sealevel pressure, or -a previous pressure reading at your altitude, in which case -subsequent altitude readings will be + or - the initial baseline. -This is done with the altitude() function. - -Hardware connections: - -- (GND) to GND -+ (VDD) to 3.3V - -(WARNING: do not connect + to 5V or the sensor will be damaged!) - -You will also need to connect the I2C pins (SCL and SDA) to your -Arduino. The pins are different on different Arduinos: - -Any Arduino pins labeled: SDA SCL -Uno, Redboard, Pro: A4 A5 -Mega2560, Due: 20 21 -Leonardo: 2 3 - -Leave the IO (VDDIO) pin unconnected. This pin is for connecting -the BMP180 to systems with lower logic levels such as 1.8V - -Have fun! -Your friends at SparkFun. - -The SFE_BMP180 library uses floating-point equations developed by the -Weather Station Data Logger project: http://wmrx00.sourceforge.net/ - -Our example code uses the "beerware" license. You can do anything -you like with this code. No really, anything. If you find it useful, -buy me a beer someday. - -V10 Mike Grusin, SparkFun Electronics 10/24/2013 -*/ - -// Your sketch must #include this library, and the Wire library. -// (Wire is a standard library included with Arduino.): - -#include -#include -#include "DHT.h" - -// You will need to create an SFE_BMP180 object, here called "pressure": - -SFE_BMP180 pressure; - -// DHT object for humidity sensor -DHT dht; - -#define CO2_PIN A1 -#define DHT_PIN 4 -#define GAS_PIN A0 -#define START_DELAY 20000 -#define DELAY 50000 - -byte HasBaro; - -#define READ_SAMPLE_INTERVAL 50 -#define READ_SAMPLE_TIMES 5 - -#define MQ135_RES 1000 - -float MQRead(int mq_pin) -{ - - int i; - float rs=0; - float rr; - - for (i=0;i