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introduction_to_the_internet_of_things

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THINGS TO DO BEFORE THE CLASS

Software Setup You should do the following things before the class:

If you are using a Macintosh, install these drivers for the serial board - https://github.com/adrianmihalko/ch340g-ch34g-ch34x-mac-os-x-driver. I find the CH34x serial chip support on OS X to be spotty at best. Follow the instructions carefully. YOU MUST DELETE ANY OLD VERSIONS OF THE DRIVERS, or kernel panics WILL happen! Linux and Windows machines should just work, but if not look for the current CH34x drivers.

Install Arduino IDE if you don't already have it, and upgrade to something recent if you're below version 1.7 - http://arduino.cc

  • In Boards Manager, add ESP8266 Board support

Set up a Cayenne account - https://cayenne.mydevices.com

Install the following libraries:

Modify BME280 library

  • on OS X, navigate using the finder or otherwise cd ~/Documents/Arduino/libraries/Adafruit_BME280_Library-master/
    • On Windows & Linux the files will be somewhere similar.
  • edit Adafruit_BME280.h using your favorite editor- change #define BME280_ADDRESS from 0x77 to 0x76
  • more advanced C programmers may do something like:
#define BME280_ADDRESS 0x77
#ifdef CLASS_BME280 
#define BME280_ADDRESS 0x76
#endif

and then add #define CLASS_BME280 at the beginning of your program, so that way if you get an Adafruit BME280 board in the future, it will continue to work right…

If Using Your Phone to Tether

I have not tested phone tethering- the prototype worked directly with our in-space WiFi. However, if you wish to try it, there are some instructions to be found here:

THINGS WE WILL DO AT THE CLASS

Your kit should consist of a number of boards:

  • ESP8266 Wifi-enabled microcontroller
  • BME280 sensor array
  • AMS1117 voltage regulator
  • CH34x-based programmer for the ESP8266
Hardware Construction
  • On the programming board, wire an SPST or SPDT switch between GPIO and GND
  • If you plan on re-using the boards for something else in the future, solder in header pins on the other boards. If you're building this as a fixed-in-place design, you'll want to just solder wires to the boards. Theoretically, the person that designed this de-solders the pins from the ESP8266 board, but that seems foolhardy to me (makes it MUCH more difficult to reprogram…)
  • wiring:
    • ESP8266→BME280: GND→GND, GPIO2→SCL, GPIO0→SDA, 3.3V→3.3V
    • AMS1117→ESP8266: GND→GND, VOUT→3.3V
Software Programming
#define CAYENNE_PRINT Serial  // Comment this out to disable prints and save space
#define CLASS_BME280 1 //enable BME280 board hack

#include <Wire.h>
#include <Adafruit_Sensor.h>
#include <Adafruit_BME280.h>
#include <CayenneMQTTESP8266.h>
#include <SimpleTimer.h>

// Your network name and password.
char ssid[] = "your_mobile_phone_tether_ssid";  //  your network SSID (name)  
char pass[] = "your_mobile_phone_password";       // your network password  
// Cayenne authentication info. This should be obtained from the Cayenne Dashboard.
char username[] = "xxxxxxxxxxxxxxxxxxxxxxx5c2";  
char mqtt_password[] = "xxxxxxxxxxxxxxxxxxxxxxxxx190";  
char client_id[] = "xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx";

// Virtual Pins of the BME280 widget.
#define TEMPERATURE_PIN V0
#define BAROMETER_PIN V1
#define HUMIDITY_PIN V2
#define  ALTITUDE_PIN V3

#define SEALEVELPRESSURE_HPA (1013.25)

Adafruit_BME280 bme; // I2C  
unsigned long delayTime;

void setup()  
{
  Serial.begin(9600);
  Cayenne.begin(username, mqtt_password, client_id, ssid, pass);
  Wire.begin(0, 2); // SDA, SDL
  bme.begin();

}

void loop()  
{
  Cayenne.loop();
}

// These functions are called when the Cayenne widget requests data for the Virtual Pin.
CAYENNE_OUT(V0)  
{
  // Send the Temperature value to Cayenne
  Cayenne.virtualWrite(V0, bme.readTemperature());
}

CAYENNE_OUT(V1)  
{
  // Send the Pressure value to Cayenne
  Cayenne.virtualWrite(V1, bme.readPressure());
}

CAYENNE_OUT(V2)  
{
  // Send the Humidity value to Cayenne
  Cayenne.virtualWrite(V2, bme.readHumidity());
}

CAYENNE_OUT(V3)  
{
  // Send the Altitude value to Cayenne
  Cayenne.virtualWrite(V3, bme.readAltitude(SEALEVELPRESSURE_HPA));
}

Power considerations The kit does not come with a power source. The regulator board requires at least 4.5V (and at most 15V!) to adequately supply 3.3V to the ESP8266 and BME280 boards. A 9V battery or 6V AA case should work. You should be able to power via USB with the serial board as well- just run wires from 3.3v & ground to the appropriate ESP8266 pins and leave out the AMS1117.

introduction_to_the_internet_of_things.1532973735.txt.gz · Last modified: 2018/07/30 14:02 by sdh7