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How make a LCD menu
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densimitre



Joined: 21 Dec 2004
Posts: 45

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How make a LCD menu
PostPosted: Sun Dec 26, 2004 8:01 pm     Reply with quote

Hi

Tha is, how make a LCD menu with 4 keys, up/down, menu and enter??

some experience??

Thank you
kender



Joined: 09 Aug 2004
Posts: 768
Location: Silicon Valley

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PostPosted: Sun Dec 26, 2004 8:32 pm     Reply with quote

Pick a serial LCD (Jameco, for example, has a good selection). Probably you'll be able to get away with just polling the buttons.

One of my favorite tricks is to put the buttons next to the display and then use it to show the captions for the buttons (instead of putting the captions into the artwork of the front panel).

Good luck,
Nick
Haplo



Joined: 06 Sep 2003
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Re: How make a LCD menu
PostPosted: Mon Dec 27, 2004 3:45 am     Reply with quote

densimitre wrote:
Hi

Tha is, how make a LCD menu with 4 keys, up/down, menu and enter??

some experience??

Thank you


A good way to create menus is to implement a state machine.
Guest








4x40 line LCD driver file
PostPosted: Thu Jan 06, 2005 2:44 pm     Reply with quote

Anybody have modified the 2x16 driver to drive a 4x40 LCD?

I have a AND791GST/GST-LED http://www.purdyelectronics.com/pdf/AND791GST.pdf which is
a 4x40 LCD with enable1 and enable2 line. I couldn't get it to work. I modified the driver use by PIC Demo 2 Plus per forum

http://www.ccsinfo.com/forum/viewtopic.php?t=19496&highlight=

Any help, would be appreciate.
treitmey



Joined: 23 Jan 2004
Posts: 1094
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PostPosted: Thu Jan 06, 2005 3:35 pm     Reply with quote

Guest, show us your code. The controler chip isn't show in the pdf, so all we can do is try to debug your code.
Guest








4 line x 40 characters LCD module with HD44780 Controller
PostPosted: Thu Jan 06, 2005 3:51 pm     Reply with quote

Here is the "main.c" code:
Code:
#fuses XT,NOWDT,NOPROTECT,NOLVP
#use delay(clock=4000000)
#use rs232(baud=9600, xmit=PIN_C6, rcv=PIN_C7) 
#include <LCD_40_char.c>

void main()
{
   

   lcd_init();


   
 
   while(1)
   {   

      delay_ms(400);
      printf(lcd_putc,"\fThis is Line One of the LCD\n");
     delay_ms(20);
     printf(lcd_putc,"\This is Line Two\n");
     delay_ms(20);
     printf(lcd_putc,"\This is Line Three\n");
     delay_ms(20);
     printf(lcd_putc,"\This is Line Four");
     delay_ms(1000);
    



    }
}


============================================
//
// Driver "LCD_40_char.c " as follow:
//
//
=============================================
Code:
////////////////////////////////////////////////////////////////////////////
////                             LCDD.C                                 ////
////                 Driver for common LCD modules                      ////
////                                                                    ////
////  lcd_init()   Must be called before any other function.            ////
////                                                                    ////
////  lcd_putc(c)  Will display c on the next position of the LCD.      ////
////                     The following have special meaning:            ////
////                      \f  Clear display                             ////
////                      \n  Go to start of second line                ////
////                      \b  Move back one position                    ////
////                                                                    ////
////  lcd_gotoxy(x,y) Set write position on LCD (upper left is 1,1)     ////
////                                                                    ////
////  lcd_getc(x,y)   Returns character at position x,y on LCD          ////
////                                                                    ////
////////////////////////////////////////////////////////////////////////////
////        (C) Copyright 1996,1997 Custom Computer Services            ////
//// This source code may only be used by licensed users of the CCS C   ////
//// compiler.  This source code may only be distributed to other       ////
//// licensed users of the CCS C compiler.  No other use, reproduction  ////
//// or distribution is permitted without written permission.           ////
//// Derivative programs created using this software in object code     ////
//// form are not restricted in any way.                                ////
////////////////////////////////////////////////////////////////////////////

// This structure is overlayed onto the data ports so that you may use
// whatever ports you desire

struct lcd_pin_map

  int unusedA;        // portA is not used
  int unusedB;        // portB is not used
  int unusedC;        // portC is not used
  int     data : 4;   // lower nibble of portD is used for data lines
  BOOLEAN enable;     // PinD4
  BOOLEAN rw;         // PinD5
  BOOLEAN rs;         // PinD6
  BOOLEAN dummy;      // PinD7 is not used
} lcd;
#if defined(__PCH__)
  #locate lcd = 0xF80
#else
  #locate lcd = 5
#endif

struct lcd_tris_map
{
  int unusedA;        // portA is not used
  int unusedB;        // portB is not used
  int unusedC;        // portC is not used
  int data     : 4;   // lower nibble of portD is used for data lines
  int control  : 3;
  BOOLEAN dummy;      // PinD7 is not used
} lcdtris;

#if defined(__PCH__)
  #locate lcdtris = 0xF92
#else
  #locate lcdtris = 0x85
#endif

#define set_tris_lcd(x) lcdtris.data = (x); lcdtris.control = 0;



#define lcd_type 2           // 0=5x7, 1=5x10, 2=2 lines
#define lcd_line_two 0x40    // LCD RAM address for the second line


BYTE const LCD_INIT_STRING[4] = {0x20 | (lcd_type << 2), 0xc, 1, 6};
                             // These bytes need to be sent to the LCD
                             // to start it up.


                             // The following are used for setting
                             // the I/O port direction register.

#define LCD_WRITE    0       // For write mode all pins are out
#define LCD_READ     15      // For read mode data pins are in

BYTE lcd_read_byte() {
      BYTE low,high;
      set_tris_lcd(LCD_READ);
      lcd.rw = 1;
      delay_cycles(1);
      lcd.enable = 1;
      delay_cycles(1);
      high = lcd.data;
      lcd.enable = 0;
      delay_cycles(1);
      lcd.enable = 1;
      delay_us(1);
      low = lcd.data;
      lcd.enable = 0;
      set_tris_lcd(LCD_WRITE);
      return( (high<<4) | low);
}


void lcd_send_nibble( BYTE n ) {
      lcd.data = n;
      delay_cycles(1);
      lcd.enable = 1;
      delay_us(2);
      lcd.enable = 0;
}


void lcd_send_byte( BYTE address, BYTE n ) {

      lcd.rs = 0;
      while ( bit_test(lcd_read_byte(),7) ) ;
      lcd.rs = address;
      delay_cycles(1);
      lcd.rw = 0;
      delay_cycles(1);
      lcd.enable = 0;
      lcd_send_nibble(n >> 4);
      lcd_send_nibble(n & 0xf);
}


void lcd_init() {
    BYTE i;
    set_tris_lcd(LCD_WRITE);
    lcd.rs = 0;
    lcd.rw = 0;
    lcd.enable = 0;
    delay_ms(15);
    for(i=1;i<=3;++i) {
       lcd_send_nibble(3);
       delay_ms(5);
    }
    lcd_send_nibble(2);
    for(i=0;i<=3;++i)
       lcd_send_byte(0,LCD_INIT_STRING[i]);
}


void lcd_gotoxy( BYTE x, BYTE y) {
   BYTE address;

   if(y!=1)
     address=lcd_line_two;
   else
     address=0;
   address+=x-1;
   lcd_send_byte(0,0x80|address);
}

void lcd_putc( char c) {
   switch (c) {
     case '\f'   : lcd_send_byte(0,1);
                   delay_ms(2);
                                           break;
     case '\n'   : lcd_gotoxy(1,2);        break;
     case '\b'   : lcd_send_byte(0,0x10);  break;
     default     : lcd_send_byte(1,c);     break;
   }
}

char lcd_getc( BYTE x, BYTE y) {
   char value;

    lcd_gotoxy(x,y);
    lcd.rs=1;
    value = lcd_read_byte();
    lcd.rs=0;
    return(value);
}


========================
I need to modify the above code / driver to use in a 4x40 LCD module
instead of 2x16. The above work fine with the first 2 lines.

Please help.....

Thanks..
treitmey



Joined: 23 Jan 2004
Posts: 1094
Location: Appleton,WI USA

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PostPosted: Thu Jan 06, 2005 5:34 pm     Reply with quote

I don't see the include for the processor.
So I can't tell if your doing the #locate ontop of the i/o pins correctly.

I need to know the processor, and the physical way you wired it.

Is it to port A,B,C,D...
densimitre



Joined: 21 Dec 2004
Posts: 45

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LCD driven by 74ls164
PostPosted: Thu Jan 06, 2005 9:48 pm     Reply with quote

Hi, how can i introduce this code to make that LCD work with a 74ls164 shif register in 8 bit mode and not in 4 bit mode??

How can i modify de lcd.c to do this??

Or how make a C code than do the same funcion like this asm code???

I know a littel of C....thank you






Code:

; Send the byte in W to the 74HCT164
__LCD_SEND:
        MOVWF   __LCD_TEMP              ; Store byte
        MOVLW   .8                              ; Eight data bits
        MOVWF   __LCD_CNTR              ; Store in counter
__LCD_SENDLOOP:
        MOVLW   0
        RLF     __LCD_TEMP,F          ; Rotate left into carry
        BCF     LCD_DATA                    ; Assume carry low
        BTFSC   STATUS, C                  ; Carry high?
        BSF     LCD_DATA                    ; Yes. Set port bit
;        GOTO    $+1                           ; Wait for the data line to settle
        BSF     LCD_CLOCK                   ; Clock high
;        GOTO    $+1                             ; Make sure the HC164 sees the transition
        BCF     LCD_CLOCK      ; Clock low
        DECFSZ  __LCD_CNTR,   F   ; Decrement counter
        GOTO    __LCD_SENDLOOP          ; Not zero yet; keep going
        RETURN                          ; Counter=0; return.




http://www.piclist.com/techref/io/lcd/unilcd.htm


Bye
Guest








4x40 LCD Problem
PostPosted: Fri Jan 07, 2005 7:17 am     Reply with quote

I use the PIC18F452

My hardware connection as follow:

I use 4 bit data bus

LCD --- PIC
---------------
DB4 --- RD0
DB5 --- RD1
DB6 --- RD2
DB7 --- RD3


Enable1 --- RD4
R/W ------- RD5
RS --------- RD6
Enable2 --- RD7

I hope that the above information will help you understand my hardware connection.
Mark



Joined: 07 Sep 2003
Posts: 2838
Location: Atlanta, GA

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Re: LCD driven by 74ls164
PostPosted: Fri Jan 07, 2005 7:54 am     Reply with quote

densimitre wrote:
Hi, how can i introduce this code to make that LCD work with a 74ls164 shif register in 8 bit mode and not in 4 bit mode??

How can i modify de lcd.c to do this??

Or how make a C code than do the same funcion like this asm code???

I know a littel of C....thank you






Code:

; Send the byte in W to the 74HCT164
__LCD_SEND:
        MOVWF   __LCD_TEMP              ; Store byte
        MOVLW   .8                              ; Eight data bits
        MOVWF   __LCD_CNTR              ; Store in counter
__LCD_SENDLOOP:
        MOVLW   0
        RLF     __LCD_TEMP,F          ; Rotate left into carry
        BCF     LCD_DATA                    ; Assume carry low
        BTFSC   STATUS, C                  ; Carry high?
        BSF     LCD_DATA                    ; Yes. Set port bit
;        GOTO    $+1                           ; Wait for the data line to settle
        BSF     LCD_CLOCK                   ; Clock high
;        GOTO    $+1                             ; Make sure the HC164 sees the transition
        BCF     LCD_CLOCK      ; Clock low
        DECFSZ  __LCD_CNTR,   F   ; Decrement counter
        GOTO    __LCD_SENDLOOP          ; Not zero yet; keep going
        RETURN                          ; Counter=0; return.




http://www.piclist.com/techref/io/lcd/unilcd.htm


Bye


Take a look at the 74595.C file in your drivers directory. It is very similar.
densimitre



Joined: 21 Dec 2004
Posts: 45

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PostPosted: Sun Jan 09, 2005 10:52 am     Reply with quote

HI

Can you explain me that code 74595.c ???

I dont understand it...

Thank you
dyeatman



Joined: 06 Sep 2003
Posts: 1934
Location: Norman, OK

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How 74595.c works
PostPosted: Sun Jan 09, 2005 5:49 pm     Reply with quote

The driver is sending out the bits serially, one at a time MSB first, to the 74595.

First a loop is set up with the loop terminator multiplied by the number of 74595s being serviced times 8 bits since they are daisy chained.

Then the code line below tests the high bit of EO (&0x80) to see if it is zero. If it is, the DO (data output) bit is set as a low bit output else it is set as a high bit output.


if((*(eo+(NUMBER_OF_74595-1))&0x80)==0)
output_low(EXP_OUT_DO);

In the lines following the one above EO is then rotated left one position and the clock line (EXP_OUT_CLOCK) is toggled to clock the DO bit just set to the 74595. Then it loops back and E0 is tested again for a zero in the MSB.
densimitre



Joined: 21 Dec 2004
Posts: 45

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PostPosted: Mon Jan 10, 2005 4:40 am     Reply with quote

OK

Thank you very much

Isīt like 74164, i will try to modify the lcd.c driver to use 74ls164 as driver of lcd 16x2

Bye
Mark



Joined: 07 Sep 2003
Posts: 2838
Location: Atlanta, GA

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PostPosted: Mon Jan 10, 2005 7:11 am     Reply with quote

densimitre wrote:
OK

Thank you very much

Isīt like 74164, i will try to modify the lcd.c driver to use 74ls164 as driver of lcd 16x2

Bye


Wrong, it is pretty close to it. Aside from the setting/clearing then EXP_OUT_ENABLE, it does the same thing as your asm code.
Code:


void write_LCD_port(BYTE data) {
  BYTE i;

  output_low(LCD_CLOCK);

  for(i=1;i<=8;++i) {  // Clock out bits
    if((data&0x80)==0)
      output_low(LCD_DATA);
    else
      output_high(LCD_DATA);
   data <<= 1;
   output_high(LCD_CLOCK);
   output_low(LCD_CLOCK);
  }
}
Guest








PostPosted: Wed Jan 12, 2005 2:27 pm     Reply with quote

Mark wrote:
densimitre wrote:
OK

Thank you very much

Isīt like 74164, i will try to modify the lcd.c driver to use 74ls164 as driver of lcd 16x2

Bye


Wrong, it is pretty close to it. Aside from the setting/clearing then EXP_OUT_ENABLE, it does the same thing as your asm code.
Code:


void write_LCD_port(BYTE data) {
  BYTE i;

  output_low(LCD_CLOCK);

  for(i=1;i<=8;++i) {  // Clock out bits
    if((data&0x80)==0)
      output_low(LCD_DATA);
    else
      output_high(LCD_DATA);
   data <<= 1;
   output_high(LCD_CLOCK);
   output_low(LCD_CLOCK);
  }
}





WOW Mark, you are a Master....i am learning C but ist a little complicated...

Thank you so much....I hope this code will work for my project...


How can i use this code like a driver.c and set the control lines (DATA, CLOCK) from a main source code, and how i can share the RS and DATA lines without imcompatibility in PIC C, ex: portb.1 = RS and portb.1 DATA?...

after shifted the byte, i will not use CLOCK, then DATAīs status doesnt affect the 74164, then i can use it to control RS line of LCD...


Thank you
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