Lesson 28--Microduino 8*8 Lattice Transverse Move Display

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Objective

We have learned display a static smiling face, this lesson will teach you transverse move this smiling face.

Equipment

8*8 lattice LED is:LD-1088BS, the following is its pin definition:

第二十八课-8 8点阵引脚定义.jpg

Schematic

第二十八课-Microduino8 8点阵横向移动原理图.jpg


Pin Table:

Lattice ROW Lattice 16pin 74HC595 74HC595
1 13 15 Q0
2 3 1 Q1
3 4 2 Q2
4 10 3 Q3
5 6 4 Q4
6 11 5 Q5
7 15 6 Q6
8 16 7 Q7
Lattice COL Lattice 16pin 74HC595 74HC595
1 5 15 Q0
2 2 1 Q1
3 7 2 Q2
4 1 3 Q3
5 12 4 Q4
6 8 5 Q5
7 14 6 Q6
8 9 7 Q7


Program

//Connect to 74HC595的ST_CP
int latchPin = 8;
//Connect to 74HC595的SH_CP
int clockPin = 12;
//Connect to 74HC595的DS
int dataPin = 11;

//Set the timer
unsigned long time;

//Hide line definition
byte masks[8]={
  B01111111,B10111111,B11011111,B11101111,B11110111,B11111011,B11111101,B11111110};

  
//Definition for smiling face transverse moves
byte rows[4][8]={
  {
    B00111100,B01000010,B10100101,B10000001,B10100101,B10011001,B01000010,B00111100  }
  ,
  {
    B00011110,B00100001,B11010010,B11000000,B11010100,B11001100,B00100001,B00011110  }
  ,
  {
    B00001111,B10010000,B11101001,B01100000,B01101010,B01100110,B10010000,B00001111  }
  ,
   {
    B10000111,B01001000,B11110100,B00110000,B00110101,B00110011,B01001000,B10000111  }
};


void setup() {
  //Set baud rate 9600        
  Serial.begin(9600);
  //Set latchpin as output
  pinMode(latchPin, OUTPUT);

}

void loop() {

  //Smiling face transverse moves
  for(int j=0;j<4;j++) {
    unsigned long startTime = millis();
    for (unsigned long elapsed=0; elapsed < 1000; elapsed = millis() - startTime) {//Dispaly 600ms
      for(int i=0;i<8;i++) {
        digitalWrite(latchPin, 0);
        shiftOut(dataPin, clockPin, masks[i]);  //mask(col)
        shiftOut(dataPin, clockPin, rows[j][i]);  //row
        digitalWrite(latchPin, 1);
      }
    }
    //time=0;

  }
}

void shiftOut(int myDataPin, int myClockPin, byte myDataOut) {
  // This shifts 8 bits out MSB first,
  //on the rising edge of the clock,
  //clock idles low

  //internal function setup
  int i=0;
  int pinState;
  pinMode(myClockPin, OUTPUT);
  pinMode(myDataPin, OUTPUT);

  //clear everything out just in case to
  //prepare shift register for bit shifting
  digitalWrite(myDataPin, 0);
  digitalWrite(myClockPin, 0);

  //for each bit in the byte myDataOut&#239;&#191;&#189;
  //NOTICE THAT WE ARE COUNTING DOWN in our for loop
  //This means that %00000001 or "1" will go through such
  //that it will be pin Q0 that lights.
  for (i=7; i>=0; i--)  {
    digitalWrite(myClockPin, 0);

    //if the value passed to myDataOut and a bitmask result
    // true then... so if we are at i=6 and our value is
    // %11010100 it would the code compares it to %01000000
    // and proceeds to set pinState to 1.
    if ( myDataOut & (1<<i) ) {
      pinState= 1;
    }
    else {       
      pinState= 0;
    }

    //Sets the pin to HIGH or LOW depending on pinState
    digitalWrite(myDataPin, pinState);
    //register shifts bits on upstroke of clock pin  
    digitalWrite(myClockPin, 1);
    //zero the data pin after shift to prevent bleed through
    digitalWrite(myDataPin, 0);
  }

  //stop shifting
  digitalWrite(myClockPin, 0);
}

Define the four transverse move actions in array "byte rows[4][8]"

Debug

Step 1: Copy the code to IDE and compile it

Step 2: Set up circuit:

第二十八课-Microduino8 8点阵横向移动连接图.jpg

In order to protect the circuit, plus a 220Ω resistor on the every connection line (total 8 lines) between one 74HC595 chip and 8*8 lattice LED. In our example, we don't use the resistor, so the LED's brightness is strong. If the lattice's quality is bad and easily broken.

Step 3: Run program


Result

On 8*8 lattice LED, the smiling face will transverse move.

Video