16 by 40 Dual Color LED Sign being sold on eBay Part 2

I have finally made the sign work! It takes a slight trick in the code to send the serial bit to the 4015's for the rows.  It is " if (row= =0) digitalWrite(OutEnable, LOW);" in the code.

Here is what it looked like when it first came to life.  I was sending the code for making a smiley face.

This is what it looks like with an Arduino running the code that is listed below.

This is what it looks like connected to an Arduino Pins 1-6, and a 5 volt 2.5 amp AC adapter.  For the schematic and pin connections see my older post on this sign.

Here is the code to make it work;

//********************************************//
//  Name    : LED 24x40 array Driver    
//  Author  : Bob Davis                           
//  Date    : 12 May, 2013                   
//  Version : 1.0                                
//********************************************//
// Pins for the clocks and data
int TCLK = 1;
int TSerial = 5;
int BCLK = 6;
int BSerial = 3;
int Strobe = 4;
int OutEnable = 2;

// arrays to say Arduino
byte Tbitmap[][8] = {  //red characters
  {0,  4, 10, 17, 17, 31, 17, 17}, //A
  {0, 0,0,0,0,0,0,0},
  {0, 28, 18, 17, 17, 17, 18, 28}, //D
  {0, 0,0,0,0,0,0,0},
  {0, 14, 04, 04, 04, 04, 04, 14}, //I
  {0, 17, 25, 25, 21, 19, 19, 17}, //N
  {0, 14, 17, 17, 17, 17, 17, 14}, //O
};
byte Bbitmap[][8] = {  //green characters
  {0,  4, 10, 17, 17, 31, 17, 17}, //A
  {0, 30, 17, 17, 30, 20, 18, 17}, //R
  {0, 0,0,0,0,0,0,0},
  {0, 17, 17, 17, 17, 17, 17, 14}, //U
  {0, 14, 04, 04, 04, 04, 04, 14}, //I
  {0, 0,0,0,0,0,0,0},
  {0, 14, 17, 17, 17, 17, 17, 14}, //O
};
// Set the pins to output to the array
void setup() {
  pinMode(TCLK, OUTPUT);
  pinMode(TSerial, OUTPUT);
  pinMode(BCLK, OUTPUT);
  pinMode(BSerial, OUTPUT);
  pinMode(Strobe, OUTPUT);
  pinMode(OutEnable, OUTPUT);
}
void loop() {
  for (int row = 0; row < 8; row++){   //there are actually 16 rows
    for (int character = 7; character >=0; character--){
      for (int shiftbit = 0; shiftbit < 6; shiftbit++){
      digitalWrite(TSerial, HIGH); 
      digitalWrite(BSerial, HIGH);
      if bitRead(Tbitmap[character][row],shiftbit) digitalWrite(TSerial, LOW); 
      if bitRead(Bbitmap[character][row],shiftbit) digitalWrite(BSerial, LOW); 
      digitalWrite(TCLK, HIGH); 
      digitalWrite(TCLK, LOW);
      digitalWrite(BCLK, HIGH); 
      digitalWrite(BCLK, LOW);
      }   }
    digitalWrite(OutEnable, HIGH);  // turns off display
    if (row==0) digitalWrite(OutEnable, LOW);  // turns on display
    //latch the data
    digitalWrite(Strobe, LOW);  
    digitalWrite(Strobe, HIGH);
    digitalWrite(OutEnable, LOW);  // turns on display
    delay(.5);   
}  }  

Dual Color Scrolling LED sign using Cadaces modules and Arduino.

A lot of people have requested that I write a dual color scrolling program for the Cadaces modules.  Well I have done that!  I have also reversed the scrolling by turning the sign over.  Turn the sign over so that the Arduino now connects on the left side.  This also uses the new quick and easy connection pinout.

Here is a link to the video on YouTube:
http://youtu.be/znCA6V8arLw

Here is the code (If blogger will let me upload it).

//**************************************************************//
//  Name    : Cadaces dual color Scrolling                      //
//  Author  : Bob Davis                                         //
//  Date    : 2 May, 2013                                      //
//  Version : 1.0                                               //
//  Based on work of Hari Wiguna - http://g33k.blogspot.com/    //
//****************************************************************
// Pins for the row and data drivers
int row1Pin = 2;
int row2Pin = 7;
int row3Pin = 1;
int rowEnable = 8;
int rclockPin = 6;
int clockPin = 3;
int dataPin = 5;
int gdataPin = 4;   

// Set the pins to output to the circuit
void setup() {
  pinMode(clockPin, OUTPUT);
  pinMode(dataPin, OUTPUT);
  pinMode(row1Pin, OUTPUT);
  pinMode(row2Pin, OUTPUT);
  pinMode(row3Pin, OUTPUT);
  pinMode(rowEnable, OUTPUT);
  pinMode(rclockPin, OUTPUT);
  pinMode(gdataPin, OUTPUT);
}

//=== B I T M A P ===
// Bits in this array represents one LED of the matrix
// 8 is number of rows, 10 is number of LED matrixes we have
byte bitmap[8][10]; // Change the 10 to however many matrices you want to use.
byte gbitmap[8][10]; // Change the 10 to however many matrices you want to use.
int numZones = sizeof(bitmap) / 8; 
//int numZones = sizeof(gbitmap) / 8; 
// I will refer to each group of 8 columns (represented by one matrix) as a Zone.
int maxZoneIndex = numZones-1;
int numCols = numZones * 8;

//=== F O N T ===
// Font courtesy of aspro648
// http://www.arduino.cc/cgi-bin/yabb2/YaBB.pl?num=1203747843/22
// First char is @, next is A, B, etc.  Only upper case, no symbols.  
// The @ will display as space character.
byte alphabets[][5] = {
  {0,0,0,0,0},
  {31, 36, 68, 36, 31},
  {127, 73, 73, 73, 54},
  {62, 65, 65, 65, 34},
  {127, 65, 65, 34, 28},
  {127, 73, 73, 65, 65},
  {127, 72, 72, 72, 64},
  {62, 65, 65, 69, 38},
  {127, 8, 8, 8, 127},
  {0, 65, 127, 65, 0},
  {2, 1, 1, 1, 126},
  {127, 8, 20, 34, 65},
  {127, 1, 1, 1, 1},
  {127, 32, 16, 32, 127},
  {127, 32, 16, 8, 127},
  {62, 65, 65, 65, 62},
  {127, 72, 72, 72, 48},
  {62, 65, 69, 66, 61},
  {127, 72, 76, 74, 49},
  {50, 73, 73, 73, 38},
  {64, 64, 127, 64, 64},
  {126, 1, 1, 1, 126},
  {124, 2, 1, 2, 124},
  {126, 1, 6, 1, 126},
  {99, 20, 8, 20, 99},
  {96, 16, 15, 16, 96},
  {67, 69, 73, 81, 97},
};

//=== F U N C T I O N S ===
// This routine takes whatever we've setup in the bitmap array and display it on the matrix
void RefreshDisplay()
{
  for (int row = 0; row < 8; row++) {
    //-- turn off the display --
    digitalWrite(rowEnable, HIGH); 

    //-- Shift out to each matrix (zone is 8 columns represented by one matrix)
    for (int zone = maxZoneIndex; zone >= 0; zone--) {
     for (int shiftbit = 7; shiftbit > -1; shiftbit--){
      digitalWrite(gdataPin, LOW);
      digitalWrite(dataPin, LOW);
      if bitRead(gbitmap[row][zone],shiftbit) digitalWrite(gdataPin, HIGH); 
      if bitRead(bitmap[row][zone],shiftbit) digitalWrite(dataPin, HIGH); 
      digitalWrite(clockPin, HIGH); 
      digitalWrite(clockPin, LOW);
     } 
    }       
    digitalWrite(rclockPin, LOW); 
    digitalWrite(rclockPin, HIGH);
    //-- turn the current row on NOTE - INVERTED high=on --
    digitalWrite(row1Pin, HIGH);  
    digitalWrite(row2Pin, HIGH);  
    digitalWrite(row3Pin, HIGH);  
    if bitRead(row,0) digitalWrite (row1Pin, LOW);  
    if bitRead(row,1) digitalWrite (row2Pin, LOW);  
    if bitRead(row,2) digitalWrite (row3Pin, LOW);
    digitalWrite(rowEnable, LOW);
    
    //-- Wait a little bit to let humans see what we've pushed out onto the matrix ;
    delayMicroseconds(500);
  }
}

// Converts row and colum to actual bitmap bit and turn it off/on
void Plot(int col, int row, bool isOn)
{
  int zone = col / 8;
  int colBitIndex = col % 8;
  byte colBit = 1 << colBitIndex;
  if (isOn) bitmap[row][zone] = bitmap[row][zone] | colBit;
  else bitmap[row][zone] = bitmap[row][zone] & (~colBit);
}
void GPlot(int col, int row, bool isOn)
{
  int zone = col / 8;
  int colBitIndex = col % 8;
  byte colBit = 1 << colBitIndex;
  if (isOn)gbitmap[row][zone] = gbitmap[row][zone] | colBit;
  else gbitmap[row][zone] = gbitmap[row][zone] & (~colBit);
}

// Plot each character of the message one column at a time, updated the display, shift bitmap left.
void AlphabetSoup()
{
//load in the characters
  char msg[] = "AR U NO LED SIGN ";  
  char gmsg[] = "A D I O LED SIGN ";
  for (int charIndex=0; charIndex < (sizeof(msg)-1); charIndex++)
  {
    int alphabetIndex = msg[charIndex] - '@';
    int galphabetIndex = gmsg[charIndex] - '@';
    if (alphabetIndex < 0) alphabetIndex = 0;
    if (galphabetIndex < 0) galphabetIndex = 0;
    //-- Draw one character of the message --
    for (int col = 0; col < 6; col++)
    {
      for (int row = 0; row < 8; row++)
      {
        // Set the pixel to the alphabet for columns 0 thru 4
        bool isOn = 0;
        if (col<5) isOn = bitRead( alphabets[alphabetIndex][col], 7-row ) == 1;
        Plot( numCols-1, row, isOn); 
        isOn = 0;
        if (col<5) isOn = bitRead( alphabets[galphabetIndex][col], 7-row ) == 1;
        GPlot( numCols-1, row, isOn); 
      }
      //-- The more times you repeat this loop, the slower we would scroll --
      for (int refreshCount=0; refreshCount < 50; refreshCount++)
        RefreshDisplay();
      //-- Shift the bitmap one column to left --
      for (int row=0; row<8; row++) //right shift
      {
        for (int zone=0; zone < numZones; zone++)
        {
          // This right shift would show a left scroll on display.
          bitmap[row][zone] = bitmap[row][zone] >> 1;  //right shift
          gbitmap[row][zone] = gbitmap[row][zone] >> 1;  //right shift
          // Roll over lowest bit from the next zone as highest bit of this zone.
          if (zone < maxZoneIndex) bitWrite(bitmap[row][zone], 7, bitRead(bitmap[row][zone+1], 0));
          if (zone < maxZoneIndex) bitWrite(gbitmap[row][zone], 7, bitRead(gbitmap[row][zone+1], 0));
        }
      }
    }
  }
} 
//=== L O O P ===
void loop() {
  AlphabetSoup();
} 

Silent Radio LED sign to Arduino Continued

I am playing with the Silent Radio LED sign once again.  There are two problems to fix, the brightness and the scrolling. 

Working on the brightness problem, I know that the 4017 design did not work well because there was no way to turn off the sign while updating the shift registers.  As a result I went back to having the Arduino directly drive the TIP120 drivers.  Another possible solution might be to use an ULN2003’s as a level shifter.  That would require a 6 or 7 volt power supply as well.  I wanted to stay with a 5 volt power supply.  I have observed that the Cadaces modules use 22 ohm current limiting resistors.  The Silent Radio signs use 100 ohm resistors.  Maybe changing the resistors is a better solution?  Here is the schematic.

 This is what it looks like, the Arduino is underneath the circuit board.

On the scrolling issue, I have suspects that the sign scrolls backwards because it is upside down.  So I changed two lines of code so the sigh would work upside down and viola, it works.  It now scrolls from right to left like it should have been doing.

Here is the code to make it work.

//**************************************************************//
//  Name    : Silent Radio Driver                               //
//  Author  : Bob Davis                                         //
//  Date    : 25 April, 2011                                    //
//  Version : 1.0                                               //
//  Based on work of Hari Wiguna - http://g33k.blogspot.com/    //
//****************************************************************
// Pins for the row drivers
int row1Pin = 1;
int row2Pin = 2;
int row3Pin = 3;
int row4Pin = 4;
int row5Pin = 5;
int row6Pin = 6;
int row7Pin = 7;

// Pins for column shift registers
int clockPin = 8;
int dataPin = 9;

// Set the pins to output to the circuit
void setup() {
  pinMode(clockPin, OUTPUT);
  pinMode(dataPin, OUTPUT);
  pinMode(row1Pin, OUTPUT);
  pinMode(row2Pin, OUTPUT);
  pinMode(row3Pin, OUTPUT);
  pinMode(row4Pin, OUTPUT);
  pinMode(row5Pin, OUTPUT);
  pinMode(row6Pin, OUTPUT);
  pinMode(row7Pin, OUTPUT);
}

//=== B I T M A P ===
//Bits in this array represents one LED of the matrix
// 8 is # of rows, 7 is # of LED matrix we have
byte bitmap[8][12]; // Change the 7 to however many matrices you want to use.
int numZones = sizeof(bitmap) / 8; 
// I will refer to each group of 8 columns (represented by one matrix) as a Zone.
int maxZoneIndex = numZones-1;
int numCols = numZones * 8;

//=== F O N T ===
// Font courtesy of aspro648
// http://www.arduino.cc/cgi-bin/yabb2/YaBB.pl?num=1203747843/22
// First char is @, next is A, B, etc.  Only lower case, no symbols.  
// The @ will display as space character.
byte alphabets[][5] = {
  {0,0,0,0,0},
  {31, 36, 68, 36, 31},
  {127, 73, 73, 73, 54},
  {62, 65, 65, 65, 34},
  {127, 65, 65, 34, 28},
  {127, 73, 73, 65, 65},
  {127, 72, 72, 72, 64},
  {62, 65, 65, 69, 38},
  {127, 8, 8, 8, 127},
  {0, 65, 127, 65, 0},
  {2, 1, 1, 1, 126},
  {127, 8, 20, 34, 65},
  {127, 1, 1, 1, 1},
  {127, 32, 16, 32, 127},
  {127, 32, 16, 8, 127},
  {62, 65, 65, 65, 62},
  {127, 72, 72, 72, 48},
  {62, 65, 69, 66, 61},
  {127, 72, 76, 74, 49},
  {50, 73, 73, 73, 38},
  {64, 64, 127, 64, 64},
  {126, 1, 1, 1, 126},
  {124, 2, 1, 2, 124},
  {126, 1, 6, 1, 126},
  {99, 20, 8, 20, 99},
  {96, 16, 15, 16, 96},
  {67, 69, 73, 81, 97},
};

//=== F U N C T I O N S ===
// This routine takes whatever we've setup in the bitmap array and display it on the matrix
void RefreshDisplay()
{
  for (int row = 0; row < 8; row++) {
    //-- turn off the display --
    digitalWrite(row1Pin, LOW);  
    digitalWrite(row2Pin, LOW);  
    digitalWrite(row3Pin, LOW);  
    digitalWrite(row4Pin, LOW);  
    digitalWrite(row5Pin, LOW);  
    digitalWrite(row6Pin, LOW);  
    digitalWrite(row7Pin, LOW); 
    //-- Shift out to each matrix (zone is 8 columns represented by one matrix)
    for (int zone = maxZoneIndex; zone >= 0; zone--) {
      shiftOut(dataPin, clockPin, MSBFIRST, bitmap[row][zone]);
    }

    //-- turn the current row on --
    if (row == 1) digitalWrite (row7Pin, HIGH);  
    if (row == 2) digitalWrite (row6Pin, HIGH);  
    if (row == 3) digitalWrite (row5Pin, HIGH);  
    if (row == 4) digitalWrite (row4Pin, HIGH);  
    if (row == 5) digitalWrite (row3Pin, HIGH);  
    if (row == 6) digitalWrite (row2Pin, HIGH);  
    if (row == 7) digitalWrite (row1Pin, HIGH);  

    //-- Wait a little bit to let humans see what we've pushed out onto the matrix --
    delayMicroseconds(500);
  }
}

// Converts row and colum to actual bitmap bit and turn it off/on
void Plot(int col, int row, bool isOn)
{
  int zone = col / 8;
  int colBitIndex = col % 8;
  byte colBit = 1 << colBitIndex;
  if (isOn)
    bitmap[row][zone] =  bitmap[row][zone] | colBit;
  else
    bitmap[row][zone] =  bitmap[row][zone] & (~colBit);
}

// Plot each character of the message one column at a time, updated the display, shift bitmap left.
void AlphabetSoup()
{
  char msg[] = "ARDUINO LED SIGN ";
  for (int charIndex=0; charIndex < (sizeof(msg)-1); charIndex++)
  {
    int alphabetIndex = msg[charIndex] - '@';
    if (alphabetIndex < 0) alphabetIndex=0;
    //-- Draw one character of the message --
    // Each character is only 5 columns wide
    for (int col = 0; col < 6; col++)
    {
      for (int row = 0; row < 8; row++)
      {
        // Set the pixel to the alphabet for columns 0 thru 4
        bool isOn = 0;
        if (col<5) isOn = bitRead( alphabets[alphabetIndex][col], 7-row ) == 1;
        Plot( numCols-1, row, isOn); 
      }
      //-- The more times you repeat this loop, the slower we would scroll --
      for (int refreshCount=0; refreshCount < 50; refreshCount++)
        RefreshDisplay();

      //-- Shift the bitmap one column to left --
      for (int row=0; row<8; row++)
      {
//        for (int zone=numZones; zone > 0; zone--)
        for (int zone=0; zone < numZones; zone++)
        {
          // This right shift would show a left scroll on display.
          bitmap[row][zone] = bitmap[row][zone] >> 1;
          
          // Roll over lowest bit from the next zone as highest bit of this zone.
          if (zone < maxZoneIndex) bitWrite(bitmap[row][zone], 7, bitRead(bitmap[row][zone+1],0));
        }
      }
    }
  }
} 
//=== L O O P ===
void loop() {
  AlphabetSoup();
} 

16 by 40 Dual color LED sign being sold on eBay by RDR Electronics.

They are advertising this sign as "10 - LED 8x8 5mm Dot Matrix Array Module Common Anode Red & Green 60mm".  The sign has a two pin power connector and a six pin pass through connector.  The pass through connector comes in on the right and leaves on the left.  The six signals pass through two 4049's on the way through the board.

Here is a picture of the back of the sign.  WO/32779/1 might mean something to someone?

 Here is a picture of the front side of the sign:

The six pin connector on the right has pin one at the top, here is what they connect to:
1 - CD4094 Pin 3 Clock top row.
2 - CD4094 Pin 15 Output Enable for all 4094's (And bottom 4015 pin 7 as data)
3 - CD4094 Pin 2 Serial Data bottom row
4 - CD4094 Pin 1 Strobe for all 4094's (And both 4015 pin 9 and 1 as clock)
5 - CD4094 Pin 2 Serial Data top row
6 - CD4094 Pin 3 Clock bottom row

CD4094 Eight bit shift registers are used throughout the sign.  They then used TD62083 drivers to drive the sign.  I do not know how it drives the rows as the CD4094's only are used for the columns.  There are some CD4015's that appear to be used for the rows.  The next step is to interface it to a Arduino.

You might notice that there are no references to the row selection hardware.  I have tried to get the sign working, but then I took it all back apart to trace out some more runs.  Here is what I found.  Pin 2 goes to the 4049's pin 15 as "output enable", but it also goes to the bottom 4015A pin 7 as "Data".  Pin 4 goes to the 4049's Pin 1 as "strobe" but it also goes to both 4015's pin 9 and 1 as "Clock".

Here I am working on it.  It will not run off a 5 volt 2.5V AC adapter, it needs more power!

Dell Inspiron Ultrabook 14Z Hard drive removal

Recently I had the fun of removing the hard drive from a Dell Inspiron Ultrabook 14Z.  The hard drive is located under the battery.  Where is the battery you may ask??

First you need to remove the memory cover and the memory modules.  Under one of the memory modules is a hidden screw.  With that screw removed you can remove the keyboard by pushing up on the three clips at the top of the keyboard.

Once the memory cover is removed the CD ROM is free to be removed as well.  There is one screw above the CD ROM that has to be removed. 

There are seven screws under plastic covers underneath the laptop and four screws under the keyboard that need to be removed.  Three are near the front edge and one is near the CPU fan as seen in the picture below.

Next release the four ribbon cables.  Then the top cover comes off by releasing catches all around the edges.  Now you can see the battery.  There are two screws holding the battery in.  The hard drive is then reachable.

Removing the CNet Download virus

Recently while working on a website, I noticed that some words were being underlined.  I did not make them links so I scrolled over the words and this popped up:

I immediately realized that I had a virus in my computer.  What on earth does "Sermons" have to do with eating bananas?  What total nonsense?  I tried scanning my computer with MSE and MBAM to no avail.  So I went to add/remove programs and there it was "GetSavin".  It easily removed itself that way. 

I did some research and this virus comes from going to download.com (download.cnet.com) and they install it on your computer. There was the day when I trusted download.com, I have long since learned to steer clear of them.  They install things on your computer without your permission and then activate it whenever they want.