Published December 7, 2018 © CC BY

444 LED Cube Using Arduino Embedded Prototyping Platform

This project will show you how to make a DIY flashing LED cube.

AdvancedFull instructions provided8,435

4*4*4 LED Cube Using Arduino Embedded Prototyping Platform

Things used in this project

Hardware components

STEMpedia evive

LED (generic)

Jumper wires (generic)

Arduino Mega 2560

Software apps and online services

Arduino IDE

Hand tools and fabrication machines

Soldering iron (generic)

Story

And a one, and a two! Christmas, Christmas time is here! And so is the time give our homes a colourful festive makeover! This year, we’re going to up our home-decorating skills and add a touch of DIYing to it by making something totally unique! Presenting to you the DIY Flashing LED Cube - the coolest way to add some colour and light to your life and your home, that too with just some easy-peasy Japan-esy DIYing and some coding.

Ready for some electrifying decor?

Beginning in 3, 2, 1… Now!

Step 1: Things You'll Need

evive

LEDs

Thick Cardboard

Male to Male Jumper Cable

Soldering Iron

Step 2: The Platform

We will be making a platform or base upon which we will be making our cube. Also, this platform is used as a reference to make the levels or rows of the cube similar.

We will be taking a cardboard upon which we make holes of the size of the LED.

As we are going to make 4 x 4 x 4 LED Cube, we will need 16 LEDs in each row. Thus, the number of holes on cardboard will be 16.

Also, the distance between each hole is equal to the length of the leg of the LED.

Once you made the holes, draw the directions arrows as shown in the image.

NOTE: You can also make PVC Plate or Wooden Plank as the base.

Step 3: The Assembly of the LED

NOTE: It is a good practice once you check the LEDs before using them.

As mentioned above, the base will also be used a reference.

We will be inserting the LEDs in this hole.

But before that, make sure you bend the anode or the positive terminal of the LED slightly.

After you have inserted the LEDs bent the cathode of the LEDs completely horizontal along the direction given.

Once you have bent all the legs of the LED, it’s time to solder them.

Solder cathode of one LED to the cathode of the LED next to it.

1 / 2

Step 4: Making the Cube

Once you have soldered the LEDs, remove them from the base.

As we are going to make 4 x 4 x 4 Cube, we have one level ready with us. We need to make three more levels similarly. Once you have all the four levels with you. It’s time to connect them.

Place one level above the other and then solder the anode of the upper level to the corresponding anode of the lower level.

Connect all 16 anodes of Level 1 to Level 0.

Similarly, complete the cube.

On completing the cube, you will notice that the anodes of Level 0 are left unconnected.

Take 20 Male-to-Male Jumper Cables, connect 16 to the 16 remaining anodes of Level 0.

Take other 4 Jumper Cables and connect each of them to the cathode channel of each and every level.

Thus, we have successfully built our LED Cube.

1 / 4

Step 5: Connection With Evive and Code

Make the following connections with the evive.

NOTE: You can use the given image as a reference for the labeling.

Rows:

L0 = A0 L1 = A1 L2 = A2 L3 = A3

Columns:

0.0 = D13 0.1 = D12 0.2 = D11 0.3 = D10

1.0 = D9 1.1 = D8 1.2 = D7 1.3 = D6

2.0 = D5 2.1 = D4 2.2 = D3 2.3 = D2

3.0 = D1 3.1 = D0 3.2 = A5 3.3 = A4

After connecting, upload the following code for generating patterns in your cube.

Also, you can code it as you want.

Step 6: Conclusion

With this, your very own Flashing LED Cube is ready to electrify your home and make it Christmas-ready!

Code

Arduino Code for LED Cube

/*
 * evive
 * 
 * 4x4x4 LED Cube
 * Connection Setup: 
 * Columns
 * [(x,y)-Pin] from left to right
 *             (1,1)-13 (1,2)-12 (1,3)-11 (1,4)-10
 *             (2,1)-9  (2,2)-8  (2,3)-7  (2,4)-6
 *             (3,1)-5  (3-2)-4  (3-3)-3  (3,4)-2
 *             (4,1)-1  (4,2)-0  (4,3)-A5 (4,4)-A4
 * Layers
 * [layer-Pin] from bottom to top
 * a-A0  b-A1 c-A2 d-A3
*/
#include<evive.h>

//initializing and declaring led rows
  int column[16]={13,12,11,10,9,8,7,6,5,4,3,2,1,0,A5,A4};
//initializing and declaring led layers
  int layer[4]={A3,A2,A1,A0};

  int time = 250;
 
void setup()
{
  //setting rows to ouput
  for(int i = 0; i<16; i++)
  {
    pinMode(column[i], OUTPUT);
  }
  //setting layers to output
  for(int i = 0; i<4; i++)
  {
    pinMode(layer[i], OUTPUT);
  }
  //seeding random for random pattern
  randomSeed(analogRead(10));
//---------TFT initialization--------------

  tft_init(INITR_BLACKTAB);
  tft.setRotation(1);
  tft.fillScreen(ST7735_BLACK);

  tft.setCursor(25,10);
  tft.setTextSize(2);
  tft.setTextColor(ST7735_WHITE,ST7735_BLACK);
  tft.print("STEMpedia");

   tft.setCursor(30,40);
  tft.setTextSize(2);
  tft.setTextColor(ST7735_GREEN,ST7735_BLACK);
  tft.print("LED CUBE");

  tft.setCursor(50,80);
  tft.setTextSize(1.5);
  tft.setTextColor(ST7735_WHITE,ST7735_BLACK);
  tft.print("Made By:");
  tft.setCursor(40,90);
  tft.print("Rizul Yadav");
  tft.setCursor(30,100);
  tft.print("Punit Chotaliya"); 
}

void loop()
{
  turnEverythingOff();//turn all off
  flickerOn();
  turnEverythingOn();//turn all on
  delay(time);
  turnOnAndOffAllByLayerUpAndDownNotTimed();
  layerstompUpAndDown();
  turnOnAndOffAllByColumnSideways();
  delay(time);
  aroundEdgeDown();
  turnEverythingOff();
  randomflicker();
  randomRain();
  diagonalRectangle();
  goThroughAllLedsOneAtATime();
  propeller();
  spiralInAndOut();
  flickerOff();
  turnEverythingOff();
  delay(2000);
}

///////////////////////////////////////////////////////////turn all off
void turnEverythingOff()
 {
   for(int i = 0; i<16; i++)
   {
     digitalWrite(column[i], 1);
   }
   for(int i = 0; i<4; i++)
   {
     digitalWrite(layer[i], 0);
   }
 }
 
////////////////////////////////////////////////////////////turn all on
void turnEverythingOn()
{
  for(int i = 0; i<16; i++)
  {
    digitalWrite(column[i], 0);
  }
  //turning on layers
  for(int i = 0; i<4; i++)
  {
    digitalWrite(layer[i], 1);
  }
}
///////////////////////////////////////////////////////turn columns off
void turnColumnsOff()
{
  for(int i = 0; i<16; i++)
  {
    digitalWrite(column[i], 1);
  }
}
/////////////////////////////////////////////////////////////flicker on
void flickerOn()
{
  int i = 150;
  while(i != 0)
  {
    turnEverythingOn();
    delay(i);
    turnEverythingOff();
    delay(i);
    i-= 5;
  }
}
//////////////turn everything on and off by layer up and down NOT TIMED
void turnOnAndOffAllByLayerUpAndDownNotTimed()
{
  int x = 75;
  for(int i = 5; i != 0; i--)
  {
    turnEverythingOn();
    for(int i = 4; i!=0; i--)
    {
      digitalWrite(layer[i-1], 0);
      delay(x);
    }
    for(int i = 0; i<4; i++)
    {
      digitalWrite(layer[i], 1);
      delay(x);
    }
      for(int i = 0; i<4; i++)
    {
      digitalWrite(layer[i], 0);
      delay(x);
    }
    for(int i = 4; i!=0; i--)
    {
      digitalWrite(layer[i-1], 1);
      delay(x);
    }
  }
}
//////////////////////////turn everything on and off by column sideways
void turnOnAndOffAllByColumnSideways()
{
  int x = 75;
  turnEverythingOff();
  //turn on layers
  for(int i = 0; i<4; i++)
  {
    digitalWrite(layer[i], 1);
  }
  for(int y = 0; y<3; y++)
  {
    //turn on 0-3
    for(int i = 0; i<4; i++)
    {
      digitalWrite(column[i], 0);
      delay(x);
    }
    //turn on 4-7
    for(int i = 4; i<8; i++)
    {
      digitalWrite(column[i], 0);
      delay(x);
    }
    //turn on 8-11
    for(int i = 8; i<12; i++)
    {
      digitalWrite(column[i], 0);
      delay(x);
    }
    //turn on 12-15
    for(int i = 12; i<16; i++)
    {
      digitalWrite(column[i], 0);
      delay(x);
    }
    //turn off 0-3
    for(int i = 0; i<4; i++)
    {
      digitalWrite(column[i], 1);
      delay(x);
    }
    //turn off 4-7
    for(int i = 4; i<8; i++)
    {
      digitalWrite(column[i], 1);
      delay(x);
    }
    //turn off 8-11
    for(int i = 8; i<12; i++)
    {
      digitalWrite(column[i], 1);
      delay(x);
    }
    //turn off 12-15
    for(int i = 12; i<16; i++)
    {
      digitalWrite(column[i], 1);
      delay(x);
    }
    //turn on 12-15
    for(int i = 12; i<16; i++)
    {
      digitalWrite(column[i], 0);
      delay(x);
    }
    //turn on 8-11
    for(int i = 8; i<12; i++)
    {
      digitalWrite(column[i], 0);
      delay(x);
    }
    //turn on 4-7
    for(int i = 4; i<8; i++)
    {
      digitalWrite(column[i], 0);
      delay(x);
    }
    //turn on 0-3
    for(int i = 0; i<4; i++)
    {
      digitalWrite(column[i], 0);
      delay(x);
    }
    //turn off 12-15
    for(int i = 12; i<16; i++)
    {
      digitalWrite(column[i], 1);
      delay(x);
    }
    //turn off 8-11
    for(int i = 8; i<12; i++)
    {
      digitalWrite(column[i], 1);
      delay(x);
    }
    //turn off 4-7
    for(int i = 4; i<8; i++)
    {
      digitalWrite(column[i], 1);
      delay(x);
    }
    //turn off 0-3
    for(int i = 0; i<4; i++)
    {
      digitalWrite(column[i], 1);
      delay(x);
    }
  }
}
/////////////////////////////////////////up and down single layer stomp
void layerstompUpAndDown()
{
  int x = 75;
  for(int i = 0; i<4; i++)
  {
    digitalWrite(layer[i], 0);
  }
  for(int y = 0; y<5; y++)
  {
    for(int count = 0; count<1; count++)
    { 
      for(int i = 0; i<4; i++)
      {
        digitalWrite(layer[i], 1);
        delay(x);
        digitalWrite(layer[i], 0);
      }
      for(int i = 4; i !=0; i--)
      {
        digitalWrite(layer[i-1], 1);
        delay(x);
        digitalWrite(layer[i-1], 0);
      }
    }
    for(int i = 0; i<4; i++)
    {
      digitalWrite(layer[i], 1);
      delay(x);
    }
    for(int i = 4; i!=0; i--)
    {
      digitalWrite(layer[i-1], 0);
      delay(x);
    }
  }
}
////////////////////////////////////////////////////////////flicker off
void flickerOff()
{
  turnEverythingOn();
  for(int i = 0; i!= 150; i+=5)
  {
    turnEverythingOff();
    delay(i+50);
    turnEverythingOn();
    delay(i);
  }
}
///////////////////////////////////////////around edge of the cube down
void aroundEdgeDown()
{
  for(int x = 200; x != 0; x -=50)
  {
    turnEverythingOff();
    for(int i = 4; i != 0; i--)
    {
      digitalWrite(layer[i-1], 1);
      digitalWrite(column[5], 0);
      digitalWrite(column[6], 0);
      digitalWrite(column[9], 0);
      digitalWrite(column[10], 0);
      
      digitalWrite(column[0], 0);
      delay(x);
      digitalWrite(column[0], 1);
      digitalWrite(column[4], 0);
      delay(x);
      digitalWrite(column[4], 1);
      digitalWrite(column[8], 0);
      delay(x);
      digitalWrite(column[8], 1);
      digitalWrite(column[12], 0);
      delay(x);
      digitalWrite(column[12], 1);
      digitalWrite(column[13], 0);
      delay(x);
      digitalWrite(column[13], 1);
      digitalWrite(column[15], 0);
      delay(x);
      digitalWrite(column[15], 1);
      digitalWrite(column[14], 0);
      delay(x);
      digitalWrite(column[14], 1);
      digitalWrite(column[11], 0);
      delay(x);
      digitalWrite(column[11], 1);
      digitalWrite(column[7], 0);
      delay(x);
      digitalWrite(column[7], 1);
      digitalWrite(column[3], 0);
      delay(x);
      digitalWrite(column[3], 1);
      digitalWrite(column[2], 0);
      delay(x);
      digitalWrite(column[2], 1);
      digitalWrite(column[1], 0);
      delay(x);
      digitalWrite(column[1], 1);
    }
  }
}
/////////////////////////////////////////////////////////random flicker
void randomflicker()
{
  turnEverythingOff();
  int x = 10;
  for(int i = 0; i !=750; i+=2)
  {
  int randomLayer = random(0,4);
  int randomColumn = random(0,16);
  
  digitalWrite(layer[randomLayer], 1);
  digitalWrite(column[randomColumn], 0);
  delay(x);
  digitalWrite(layer[randomLayer], 0);
  digitalWrite(column[randomColumn], 1);
  delay(x); 
  }
}
////////////////////////////////////////////////////////////random rain
void randomRain()
{
  turnEverythingOff();
  int x = 100;
  for(int i = 0; i!=60; i+=2)
  {
    int randomColumn = random(0,16);
    digitalWrite(column[randomColumn], 0);
    digitalWrite(layer[0], 1);
    delay(x+50);
    digitalWrite(layer[0], 0);
    digitalWrite(layer[1], 1);
    delay(x);
    digitalWrite(layer[1], 0);
    digitalWrite(layer[2], 1);
    delay(x);
    digitalWrite(layer[2], 0);
    digitalWrite(layer[3], 1);
    delay(x+50);
    digitalWrite(layer[3], 0);
    digitalWrite(column[randomColumn], 1);
  }
}
/////////////////////////////////////////////////////diagonal rectangle
void diagonalRectangle()
{
  int x = 350;
  turnEverythingOff();
  for(int count = 0; count<5; count++)
  {
    //top left
    for(int i = 0; i<8; i++)
    {
      digitalWrite(column[i], 0);
    }
    digitalWrite(layer[3], 1);
    digitalWrite(layer[2], 1);
    delay(x);
    turnEverythingOff();
    //middle middle
    for(int i = 4; i<12; i++)
    {
      digitalWrite(column[i], 0);
    }
    digitalWrite(layer[1], 1);
    digitalWrite(layer[2], 1);
    delay(x);
    turnEverythingOff();
    //bottom right
    for(int i = 8; i<16; i++)
    {
      digitalWrite(column[i], 0);
    }
    digitalWrite(layer[0], 1);
    digitalWrite(layer[1], 1);
    delay(x);
    turnEverythingOff();
    //bottom middle
    for(int i = 4; i<12; i++)
    {
      digitalWrite(column[i], 0);
    }
    digitalWrite(layer[0], 1);
    digitalWrite(layer[1], 1);
    delay(x);
    turnEverythingOff();
    //bottom left
    for(int i = 0; i<8; i++)
    {
      digitalWrite(column[i], 0);
    }
    digitalWrite(layer[0], 1);
    digitalWrite(layer[1], 1);
    delay(x);
    turnEverythingOff();
    //middle middle
    for(int i = 4; i<12; i++)
    {
      digitalWrite(column[i], 0);
    }
    digitalWrite(layer[1], 1);
    digitalWrite(layer[2], 1);
    delay(x);
    turnEverythingOff();
    //top right
    for(int i = 8; i<16; i++)
    {
      digitalWrite(column[i], 0);
    }
    digitalWrite(layer[2], 1);
    digitalWrite(layer[3], 1);
    delay(x);
    turnEverythingOff();
    //top middle
    for(int i = 4; i<12; i++)
    {
      digitalWrite(column[i], 0);
    }
    digitalWrite(layer[2], 1);
    digitalWrite(layer[3], 1);
    delay(x);
    turnEverythingOff();
  }
  //top left
  for(int i = 0; i<8; i++)
  {
    digitalWrite(column[i], 0);
  }
  digitalWrite(layer[3], 1);
  digitalWrite(layer[2], 1);
  delay(x);
  turnEverythingOff();
}
//////////////////////////////////////////////////////////////propeller
void propeller()
{
  turnEverythingOff();
  int x = 90;
  for(int y = 4; y>0; y--)
  {
    for(int i = 0; i<6; i++)
    {
      //turn on layer
      digitalWrite(layer[y-1], 1);
      //a1
      turnColumnsOff();
      digitalWrite(column[0], 0);
      digitalWrite(column[5], 0);
      digitalWrite(column[10], 0);
      digitalWrite(column[15], 0);
      delay(x);
      //b1
      turnColumnsOff();
      digitalWrite(column[4], 0);
      digitalWrite(column[5], 0);
      digitalWrite(column[10], 0);
      digitalWrite(column[11], 0);
      delay(x);
      //c1
      turnColumnsOff();
      digitalWrite(column[6], 0);
      digitalWrite(column[7], 0);
      digitalWrite(column[8], 0);
      digitalWrite(column[9], 0);
      delay(x);
      //d1
      turnColumnsOff();
      digitalWrite(column[3], 0);
      digitalWrite(column[6], 0);
      digitalWrite(column[9], 0);
      digitalWrite(column[12], 0);
      delay(x);
      //d2
      turnColumnsOff();
      digitalWrite(column[2], 0);
      digitalWrite(column[6], 0);
      digitalWrite(column[9], 0);
      digitalWrite(column[13], 0);
      delay(x);
      //d3
      turnColumnsOff();
      digitalWrite(column[1], 0);
      digitalWrite(column[5], 0);
      digitalWrite(column[10], 0);
      digitalWrite(column[14], 0);
      delay(x);
    }
  }
  //d4
  turnColumnsOff();
  digitalWrite(column[0], 0);
  digitalWrite(column[5], 0);
  digitalWrite(column[10], 0);
  digitalWrite(column[15], 0);
  delay(x);
}
//////////////////////////////////////////////////////spiral in and out
void spiralInAndOut()
{
  turnEverythingOn();
  int x = 60;
  for(int i = 0; i<6; i++)
  {
    //spiral in clockwise
    digitalWrite(column[0], 1);
    delay(x);
    digitalWrite(column[1], 1);
    delay(x);
    digitalWrite(column[2], 1);
    delay(x);
    digitalWrite(column[3], 1);
    delay(x);
    digitalWrite(column[7], 1);
    delay(x);
    digitalWrite(column[11], 1);
    delay(x);
    digitalWrite(column[15], 1);
    delay(x);
    digitalWrite(column[14], 1);
    delay(x);
    digitalWrite(column[13], 1);
    delay(x);
    digitalWrite(column[12], 1);
    delay(x);
    digitalWrite(column[8], 1);
    delay(x);
    digitalWrite(column[4], 1);
    delay(x);
    digitalWrite(column[5], 1);
    delay(x);
    digitalWrite(column[6], 1);
    delay(x);
    digitalWrite(column[10], 1);
    delay(x);
    digitalWrite(column[9], 1);
    delay(x);
    ///////////////////////////////////////spiral out counter clockwise
    digitalWrite(column[9], 0);
    delay(x);
    digitalWrite(column[10], 0);
    delay(x);
    digitalWrite(column[6], 0);
    delay(x);
    digitalWrite(column[5], 0);
    delay(x);
    digitalWrite(column[4], 0);
    delay(x);
    digitalWrite(column[8], 0);
    delay(x);
    digitalWrite(column[12], 0);
    delay(x);
    digitalWrite(column[13], 0);
    delay(x);
    digitalWrite(column[14], 0);
    delay(x);
    digitalWrite(column[15], 0);
    delay(x);
    digitalWrite(column[11], 0);
    delay(x);
    digitalWrite(column[7], 0);
    delay(x);
    digitalWrite(column[3], 0);
    delay(x);
    digitalWrite(column[2], 0);
    delay(x);
    digitalWrite(column[1], 0);
    delay(x);
    digitalWrite(column[0], 0);
    delay(x);
    ///////////////////////////////////////spiral in counter clock wise
    digitalWrite(column[0], 1);
    delay(x);
    digitalWrite(column[4], 1);
    delay(x);
    digitalWrite(column[8], 1);
    delay(x);
    digitalWrite(column[12], 1);
    delay(x);
    digitalWrite(column[13], 1);
    delay(x);
    digitalWrite(column[14], 1);
    delay(x);
    digitalWrite(column[15], 1);
    delay(x);
    digitalWrite(column[11], 1);
    delay(x);
    digitalWrite(column[7], 1);
    delay(x);
    digitalWrite(column[3], 1);
    delay(x);
    digitalWrite(column[2], 1);
    delay(x);
    digitalWrite(column[1], 1);
    delay(x);
    digitalWrite(column[5], 1);
    delay(x);
    digitalWrite(column[9], 1);
    delay(x);
    digitalWrite(column[10], 1);
    delay(x);
    digitalWrite(column[6], 1);
    delay(x);
    //////////////////////////////////////////////spiral out clock wise
    digitalWrite(column[6], 0);
    delay(x);
    digitalWrite(column[10], 0);
    delay(x);
    digitalWrite(column[9], 0);
    delay(x);
    digitalWrite(column[5], 0);
    delay(x);
    digitalWrite(column[1], 0);
    delay(x);
    digitalWrite(column[2], 0);
    delay(x);
    digitalWrite(column[3], 0);
    delay(x);
    digitalWrite(column[7], 0);
    delay(x);
    digitalWrite(column[11], 0);
    delay(x);
    digitalWrite(column[15], 0);
    delay(x);
    digitalWrite(column[14], 0);
    delay(x);
    digitalWrite(column[13], 0);
    delay(x);
    digitalWrite(column[12], 0);
    delay(x);
    digitalWrite(column[8], 0);
    delay(x);
    digitalWrite(column[4], 0);
    delay(x);
    digitalWrite(column[0], 0);
    delay(x);
  }
}
//////////////////////////////////////go through all leds one at a time
void goThroughAllLedsOneAtATime()
{
  int x = 15;
  turnEverythingOff();
  for(int y = 0; y<5; y++)
  {
    //0-3
    for(int count = 4; count != 0; count--)
    {
      digitalWrite(layer[count-1], 1);
      for(int i = 0; i<4; i++)
      {
        digitalWrite(column[i], 0);
        delay(x);
        digitalWrite(column[i], 1);
        delay(x);
      }
    digitalWrite(layer[count-1], 0);
    }
    //4-7
    for(int count = 0; count < 4; count++)
    {
      digitalWrite(layer[count], 1);
      for(int i = 4; i<8; i++)
      {
        digitalWrite(column[i], 0);
        delay(x);
        digitalWrite(column[i], 1);
        delay(x);
      }
    digitalWrite(layer[count], 0);
    }
    //8-11
    for(int count = 4; count != 0; count--)
    {
      digitalWrite(layer[count-1], 1);
      for(int i = 8; i<12; i++)
      {
        digitalWrite(column[i], 0);
        delay(x);
        digitalWrite(column[i], 1);
        delay(x);
      }
    digitalWrite(layer[count-1], 0);
    }
    //12-15
    for(int count = 0; count < 4; count++)
    {
      digitalWrite(layer[count], 1);
      for(int i = 12; i<16; i++)
      {
        digitalWrite(column[i], 0);
        delay(x);
        digitalWrite(column[i], 1);
        delay(x);
      }
    digitalWrite(layer[count], 0);
    }
  }
}

Credits

STEMpedia

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STEMpedia blends theory with experiential learning by offering state-of-the-art technology, projects, tutorials, courses, and much more.

444 LED Cube Using Arduino Embedded Prototyping Platform

Things used in this project

Hardware components

Software apps and online services

Hand tools and fabrication machines

Story

Step 1: Things You'll Need

Step 2: The Platform

Step 3: The Assembly of the LED

Step 4: Making the Cube

Step 5: Connection With Evive and Code

Step 6: Conclusion

Schematics

Labelled Diagram for LED Cube

Code

Arduino Code for LED Cube

Credits

STEMpedia

Comments

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4*4*4 LED Cube Using Arduino Embedded Prototyping Platform

4*4*4 LED Cube Using Arduino Embedded Prototyping Platform

Things used in this project

Hardware components

Software apps and online services

Hand tools and fabrication machines

Story

Step 1: Things You'll Need

Step 2: The Platform

Step 3: The Assembly of the LED

Step 4: Making the Cube

Step 5: Connection With Evive and Code

Step 6: Conclusion

Schematics

Labelled Diagram for LED Cube

Code

Arduino Code for LED Cube

Credits

STEMpedia

Comments

Related channels and tags

444 LED Cube Using Arduino Embedded Prototyping Platform

444 LED Cube Using Arduino Embedded Prototyping Platform