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Particle photon

Particle Photon

Particle photon and Easy Module Shield examples

by shedboy71
written by shedboy71

On to another Arduino shield and this is one of my favourites, its a low cost shield which contains a variety of resources on it making it ideal for beginners. We will again connect this to a Particle Photon fitted to a Shield Shield for Spark Core and the examples will be written in the web online IDE

here is a picture of the shield

Features

You can see most of the features but here is a quick summary of what is fitted to the shield

two LEDs
two switches
reset button
Measuring temperature and humidity with DHT11 temperature and humidity sensor
Using revolving potentiometer to do analog input
passive buzzer module
Full-color RGB LED
Utilizing photovaristor to detect the brightness of light
LM35D temperature sensor
infrared receiver
2-channel digital port(D7.D8)
1-channel analog port(A3)

 

Code Examples

None of these examples need any external libraries,

Buzzer

[codesyntax lang=”cpp”]

/*
Arduino - Shield shield
5	        D1
*/


int speakerPin = D1;

// Notes defined in microseconds (Period/2) 
// from note C to B, Octaves 3 through 7
int notes[] = 
{0,
/* C,  C#,   D,  D#,   E,   F,  F#,   G,  G#,   A,  A#,   B */
3817,3597,3401,3205,3030,2857,2703,2551,2404,2273,2146,2024,   // 3 (1-12)
1908,1805,1701,1608,1515,1433,1351,1276,1205,1136,1073,1012,   // 4 (13-24)
 956, 903, 852, 804, 759, 716, 676, 638, 602, 568, 536, 506,   // 5 (25-37)
 478, 451, 426, 402, 379, 358, 338, 319, 301, 284, 268, 253,   // 6 (38-50)
 239, 226, 213, 201, 190, 179, 169, 159, 151, 142, 134, 127 }; // 7 (51-62)

#define NOTE_G3  2551
#define NOTE_G4  1276
#define NOTE_C5  956
#define NOTE_E5  759
#define NOTE_G5  638
#define RELEASE  20
#define BPM      100

// notes in the melody:
int melody[] = {NOTE_E5,NOTE_E5,0,NOTE_E5,0,NOTE_C5,NOTE_E5,0,NOTE_G5,0,0,NOTE_G4};

// note durations: 4 = quarter note, 2 = half note, etc.:
int noteDurations[] = {4,4,4,4,4,4,4,4,4,2,4,4};

void setup() {
  // iterate over the notes of the melody:
  for (int thisNote = 0; thisNote < 12; thisNote++) {

    // to calculate the note duration, take one second
    // divided by the note type.
    // e.g. quarter note = 1000 / 4, eighth note = 1000/8, etc.
    int noteDuration = 60*1000/BPM/noteDurations[thisNote];
    tone(speakerPin, (melody[thisNote]!=0)?(500000/melody[thisNote]):0,noteDuration-RELEASE);

    // blocking delay needed because tone() does not block
    delay(noteDuration);
  }
}

[/codesyntax]

 

LDR example

[codesyntax lang=”cpp”]

int ldrValue = 0;
char *message = "my name is particle";
String aString;

void setup()
{
  // variable name max length is 12 characters long
  Particle.variable("ldrValue", ldrValue);
  if (Particle.variable("mess", message)==false)
  {
      // variable not registered!
  }
  Particle.variable("mess2", aString);

  pinMode(A1, INPUT);
}

void loop()
{
  // Read the analog value of the sensor
  ldrValue = analogRead(A1);
  delay(200);
}

[/codesyntax]

 

LED example

[codesyntax lang=”cpp”]

/*
Arduino - Shield shield	
12	        A4	
13	        A3
*/

#define redLed A4
#define blueLed A3

void setup() 
{
  pinMode(redLed, OUTPUT);
  pinMode(blueLed, OUTPUT);
}
 
void loop() 
{
  digitalWrite(redLed, HIGH);   // turn the LED on (HIGH is the voltage level)
  digitalWrite(blueLed, LOW);    // turn the LED off by making the voltage LOW
  delay(1000);
  digitalWrite(redLed, LOW);    // turn the LED off by making the voltage LOW
  digitalWrite(blueLed, HIGH);   // turn the LED on (HIGH is the voltage level)
  delay(1000);
}

[/codesyntax]

 

POT example

[codesyntax lang=”cpp”]

int vrValue = 0;
char *message = "my name is particle";
String aString;

void setup()
{
  // variable name max length is 12 characters long
  Particle.variable("vrValue", vrValue);
  if (Particle.variable("mess", message)==false)
  {
      // variable not registered!
  }
  Particle.variable("mess2", aString);

  pinMode(A0, INPUT);
}

void loop()
{
  // Read the analog value of the sensor
  vrValue = analogRead(A0);
  delay(200);
}

[/codesyntax]

 

RGB led example

[codesyntax lang=”cpp”]

/*
Arduino - Shield shield
9	        D6	 
10      	A2	
11	        A5	
*/

#define redLed D6
#define greenLed A2
#define blueLed A5

void setup()
{

  pinMode(redLed, OUTPUT);
  pinMode(greenLed, OUTPUT);
  pinMode(blueLed, OUTPUT);  
}
 
void loop()
{
  //red on
  digitalWrite(redLed, HIGH);
  digitalWrite(greenLed, LOW);
  digitalWrite(blueLed, LOW);
  delay(1000);
  //green on
  digitalWrite(redLed, LOW);
  digitalWrite(greenLed, HIGH);
  digitalWrite(blueLed, LOW);
  delay(1000);
  //blue on
  digitalWrite(redLed, LOW);
  digitalWrite(greenLed, LOW);
  digitalWrite(blueLed, HIGH);
  delay(1000);
}

[/codesyntax]

 

Links

$10 for one of these shields

keyestudio Multi-purpose Shield V1 for arduino starter

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Particle Photon

Particle photon flashing LEDs example

by shedboy71
written by shedboy71

In this example we will connect 6 LEDs to a Shield Shield for Spark Core and flash them on and off

The Photon is a tiny Wi-Fi development kit for creating connected projects and products for the Internet of Things. It’s easy to use, powerful and connected to the Cloud. The tools that make up the Photon’s ecosystem are designed to let you build and create whether you’re an embedded engineer, web developer, Arduino enthusiast or IoT entrepreneur.

You’ll be able to write your firmware in our web or local IDE, deploy it over the air and build your web and mobile apps with ParticleJS and our Mobile SDK. The board itself uses a Broadcom Wi-Fi chip alongside a powerful STM32 ARM Cortex M3 microcontroller. It’s like the Spark Core, but better.

 

 

The shield is an adaptor which will allow you to connect an Arduino shield to a Particle Photon

The shield uses Texas Instruments TXB0108PWR to do voltage conversion in between the Spark Core’s 3.3V logic level and the Arduino’s 5V logic.

Parts List

Part Link
Particle Core Photon Particle Core Photon WiFi Development Board BCM43362 STM32F205 ARM Cortex M3 for the Internet of Things IoT
Shield Shield for Spark Core SPARK CORE ARDUINO SHIELD ADAPTOR Development Boards & Evaluation Kits
LED Test board Link to test board

Connection

The shield shield does not map one to one to the Arduino connections, the LED test board we use will use Arduino pins 8 to 13.

Arduino pin Spark Core pin
0 RX
1 TX
2 D2
3 D0
4 D3
5 D1
6 A7
7 D4
8 D5
9 D6
10 A2
11 A5
12 A4
13 A3
A0 A0
A1 A1
A2 A6

 

Code

The code is written in the https://build.particle.io – the code will be very familiar for people who use the Arduino IDE, you can also flash your device using the IDE

[codesyntax lang=”cpp”]

/*
Arduino - Shield shield
8	        D5	 
9	        D6	 
10      	A2	
11	        A5	
12	        A4	
13	        A3
*/
int led1 = D5; 
int led2 = D6; 
int led3 = A2; 
int led4 = A5; 
int led5 = A4; 
int led6 = A3; 

void setup() {

  // We are going to tell our device that D0 and D7 
  // It's important you do this here, inside the setup() function rather than outside it or in the loop function.

  pinMode(led1, OUTPUT);
  pinMode(led2, OUTPUT);
  pinMode(led3, OUTPUT);
  pinMode(led4, OUTPUT);
  pinMode(led5, OUTPUT);
  pinMode(led6, OUTPUT);
}

// Next we have the loop function, the other essential part of a microcontroller program.

void loop() {
  // To blink the LED, first we'll turn it on...
  digitalWrite(led1, HIGH);
  digitalWrite(led2, HIGH);
  digitalWrite(led3, HIGH);
  digitalWrite(led4, HIGH);
  digitalWrite(led5, HIGH);
  digitalWrite(led6, HIGH);
  // We'll leave it on for 1 second...
  delay(1000);

  // Then we'll turn it off...
  digitalWrite(led1, LOW);
  digitalWrite(led2, LOW);
  digitalWrite(led3, LOW);
  digitalWrite(led4, LOW);
  digitalWrite(led5, LOW);
  digitalWrite(led6, LOW);
  // Wait 1 second...
  delay(1000);

  // And repeat!
}

[/codesyntax]

 

Video

A video of the example above in action

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