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I'm having trouble with my 4x20 LCD display. I've been looking at a numerous guides and code snippets the last few days, but nothing seems to help. The problem is that the displays shows nothing.

When I compile it on my computer and print it all on my screen, everything seems to be ok.

I would appreciate it if somebody would look through it and see if there are any obvious errors.

Thanks in advance.

//  Connection:
//
//  Atmega32    LCD
//  PB0     ->  DB4
//  PB1     ->  DB5
//  PB2     ->  DB6
//  PB3     ->  DB7
//  PB4     ->  RS
//  PB5     ->  R/W
//  PB6     ->  E
//  PB7     ->  

#include <avr/io.h>
#include <util/delay.h>

#define LCDPort PORTB
#define LCDDDR  DDRB
#define enable 6        //Enable = on
#define readWrite 5     //Read = on, Write = off
#define RS 4            //Send command = off, send data = on

void checkBusy(void);
void updateLCD(void);
void sendCommand(unsigned char command);
void sendData(unsigned char character);
void sendInitCommand(unsigned char command);

int main(void)
{
    LCDDDR |= 15;
    LCDDDR |= 1 << enable;                      //Set control lines as output (high)
    LCDDDR  |= 1 << readWrite;
    LCDDDR  |= 1 << RS;                         

    _delay_ms(100);                              //Wait for LCD to boot
    sendInitCommand(0x3);                        //Init function set 1
    _delay_ms(100);
    sendInitCommand(0x3);                        //Init function set 2
    _delay_us(100);
    sendInitCommand(0x3);                        //Init function set 3
    _delay_us(100);
    sendInitCommand(0x2);                        //Function set (set 4 bit mode)
    _delay_us(100);
    sendInitCommand(0x28);                       //Funcion set I=1, N=0, F=0
    //sendInitCommand(0x8);                      
    _delay_us(60);
    sendInitCommand(0x8);                        //On/off control D=0, C=0, B=0
    //sendInitCommand(0x8);
    _delay_us(60);
    sendCommand(0x01);                           //Clear display
    //sendInitCommand(0x1);
    _delay_ms(60);
    sendCommand(0x06);                           //Entry mode set I/D=1, S=0
    //sendInitCommand(0x6);
    _delay_us(60);
    sendCommand(0x0C);                           //On/off control D=1, C=0, B=0
    //sendInitCommand(0xC);
    _delay_us(60);


    sendData(0x41);                             //Display "A"
    sendData(0x42);                             //Display "B"
    sendData(0x43);                             //Display "C"
    sendData(0x44);                             //Display "D"
    sendData(0x45);                             //Display "E"



    while(1) {

    }

    return 0;
}

void checkBusy() {

    LCDDDR &= ~15;                              //Set data DDR lines read (low)

/*  LCDPort |= 1 << readWrite;                  //Forget read for now - use delay instead
    LCDPort &= ~1 << RS;

    while((LCDPort & 15) >= 0x8) {
        updateLCD();
    }
*/
    _delay_ms(50);
    LCDDDR |= 15;                               //Set data lines DDR to write (high)


}

void updateLCD() {

    LCDPort |= 1 << enable;                     //Enable
    asm volatile ("nop");
    asm volatile ("nop");
    LCDPort &= ~1 << enable;                    //Disable
}

void sendCommand(unsigned char command) {

    checkBusy();
    LCDPort &= ~(1 << readWrite | 1 << RS);     //Set R/W and RS low (write command)
    LCDPort |= (command >> 4) & 15;             //Send 4 ms bits
    updateLCD();
    LCDPort &= ~15; 
    LCDPort |= command & 15;                    //Send 4 ls bits
    updateLCD();
    LCDPort &= ~15;                             //Clear data lines

}

void sendData(unsigned char character) {

    checkBusy();
    LCDPort &= ~1 << readWrite;                 //Set R/W low and RS high (write data)
    LCDPort |= 1 << RS;
    LCDPort |= (character >> 4 & 15);           //Send 4 ms bits
    updateLCD();
    LCDPort &= ~1 << readWrite;
    LCDPort &= ~15;
    LCDPort |= 1 << RS;
    LCDPort |= (character & 15);                //Send 4 ls bits
    updateLCD();
    LCDPort &= ~15;                             //Clear data lines
}

void sendInitCommand(unsigned char command) {

    LCDPort &= ~(1 << readWrite | 1 << RS);     //Set R/W and RS low (write command)
    LCDPort |= command & 15;                    
    updateLCD();
    LCDPort &= ~15;                             //Clear data lines
}
share|improve this question
4  
Time to break out the scope... –  Carl Norum Jan 4 '13 at 23:35
    
What model or chipset is the display? Do you have a link to its specsheet? –  Ashley Ross Jan 4 '13 at 23:38
    
I got it from a friend who had it working in 4 bit mode. The only datasheet I could find is this: powertipusa.com/pdf/pc2004a.pdf –  nettogrisen Jan 4 '13 at 23:54

1 Answer 1

up vote 0 down vote accepted

Seems this is a HD44780 compatible Controller.

Note that every 4x20 Display is a 2x40 in real which is cutted in the middle. This can be implemented with one Display Controller, but the Display need several Drivers. Get an eyeful of this: HD44780

nonetheless you can interface the Display in 4-Bit Mode.

Here is a sample how to Interface the 4x20 in Bit Mode (note that Pin15 (LED+) and Pin16 (LED-) are missing, thats only the backlight pins). Dont forget to connect Pin5 (R/W) to GND.

HD44780 in 4 Bit Mode

A very good lib to interfacing a HD44780 4x20 is written by Peter Fleury: http://homepage.hispeed.ch/peterfleury/avr-software.html#libs in section "LCD library for HD44870 based LCD's" give it a try

share|improve this answer
    
Thanks a lot :) I was wondering about that. When i adjust the contrast I only see black boxes on 2 lines (line 1 and 3). So does this mean that I'm way off with my program? I'm going to go study the lib you posted now. –  nettogrisen Jan 5 '13 at 1:40
    
no, but the lib is a fast and cheap way to learn more about interfacing a character lcd. with a few minor changes in lcd.h you can interface every HD44780 (2x16, 4x16, 4x20, and so on...) –  derWilly Jan 5 '13 at 1:52
    
when you only see line 1 and 3 take a look at the "Definitions for Display Size" in lcd.h, there are the starting adresses of each line. this could solve your problem –  derWilly Jan 5 '13 at 2:02

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