'**************************************************************************** 'GLIPICW.BAS Graphic application for use with a Samsung KS0108 (or compatible) 'graphic LCD controller connected to a Microchip(TM) PIC 16F877 microcontroller 'Written in MELabs PicBasicPro(TM) Ver 3.32 'Beta version 0.8.0 'GLiPIC.exe Beta 0.8.0 is an MS Windows based interface that is used in conjunction 'with GLIPICW.BAS '================== NOT FOR COMMERICIAL USE ================================= ' ' Author: Ranjit Diol - COMPSys LLC, March 2000 ' (c) Copyright Ranjit Diol, 2001 ' ' DISCLAIMER: This file is being released as non-commericial ' freeware. It is being provided "AS IS", neither the author, ' nor COMPSys LLC shall be held liable for any damages caused ' by its use. ' ' LICENSE: This application may be used in its entirety or ' in parts within some other non-commercial application(s) as long ' as the author is given credit for those parts used. ' ' Contact: rsdiol@compsys1.com for more information ' '************************************************************************ ' IMPORTANT, PLEASE NOTE THE FOLLOWING 'This application assumes you have a 64KBit external eeprom connected 'via I2C. Without that you will only be able to send images directly 'to the LCD display and not be able to store them -- See the readme.txt 'for the Windows GLiPIC interface. ' 'Adjust the PIN assignments as neccessary for your prototype 'This was tested using a 20MHz xtal if you use a different OSC speed 'you may have to make some adjustement in the 'strobe' subroutine. '************************************************************************ DEFINE ONINT_USED 1 'Required if using ISP DEFINE OSC 20 'OSC speed, you may have to tweak the 'strobe' 'routine's e_pause constant for other speeds ADCON1 = 7 'Make all pins digital, you may adjust as needed lcd_dat VAR PORTD 'LCD bus Pins 7-14 LSB-MSB scl VAR PORTC.3 'I2C SCL for ext eeprom sda VAR PORTC.4 'I2C SDA for ext eeprom in_pin VAR PORTC.7 'Serial input pin out_pin VAR PORTC.6 'Serial output pin lcd_e VAR PORTC.0 'Enable pin on LCD lcd_cd VAR PORTC.1 'Data/Command Pin 4 on LCD lcd_rw VAR PORTC.2 'Read/Write Pin 5 on LCD lcd_cs1 VAR PORTB.1 'ChipSelect1 Pin 15 on LCD lcd_cs2 VAR PORTB.2 'ChipSelect2 Pin 16 on LCD lcd_rst VAR PORTC.5 'Reset Pin 17 on LCD 'Set pins for output TRISB.0 = 0 TRISB.1 = 0 TRISB.2 = 0 TRISD = 0 TRISC.0 = 0 TRISC.1 = 0 TRISC.2 = 0 TRISC.3 = 0 TRISC.4 = 0 TRISC.5 = 0 'Constants used ser_baud CON 84 '9600 baud serout/serin ctl CON $A0 'EEprom control code row CON $b8 'LCD page 0 last_row CON $bf 'LCD page 7 col CON $40 'Line byte position 0 last_col CON 63 'Last column (1-64) first_col CON 0 'First column max_col CON 128 'Last column (1-127) max_line CON 8 'Line 8 (based on 1-8) max_pos CON 64 'Column 64 positon per side (1-64) cr CON 13 'CR for serout lf CON 10 'LF for serout disp_on CON $3f 'LCD Display ON disp_off CON $3e 'LCD Display OFF disp_ram CON $c0 'Ram Display 0 (Page 0 at top of display) blank CON $00 'Blank character e_pause CON 6 'Pauseus 6 for Strobe routine 'Word variables used eepaddr VAR WORD addr VAR WORD 'Arrays used in_array VAR byte[32] in_ctl VAR byte[8] 'Byte Variables used buff_count VAR BYTE 'buffer count hex_nibble VAR BYTE 'hex nibble from serin in_ascii VAR BYTE 'ASCII char from serin buf_cnt VAR BYTE 'buffer counter byte_pos VAR BYTE 'To keep track of a byte's position in_byte VAR BYTE 'The incoming byte tmp VAR BYTE 'Temporary var index VAR BYTE 'Index for arrays j VAR BYTE 'General counter k VAR BYTE 'General counter line VAR BYTE 'An LCD row delay VAR BYTE 'Execution delay, used with 'pause' 'Initialize variables hex_nibble = 0 byte_pos = 0 delay = 10 in_byte = 0 tmp = 0 index = 0 'Reset LCD lcd_dat = 0 ' Clear PORTD lcd_cd = 0 lcd_rw = 0 lcd_e = 0 lcd_cs1 = 1 lcd_cs2 = 0 lcd_rst = 1 pause 100 'Let things stabilize lcd_rst = 0 pause 10 ' Reset LCD lcd_rst = 1 pause 500 'Jump over subroutines to main program goto main ' **** (GO)SUB ROUTINES **** strobe: lcd_e = 1 pauseus e_pause lcd_e = 0 return clearall: lcd_cd = 0 ' Command mode lcd_dat = disp_off ' Display Off gosub strobe lcd_cs1=1 lcd_cs2=0 for index = 1 to 2 for j = row to last_row lcd_cd = 0 'Command mode gosub strobe ' Write the data lcd_dat = col ' Column address = 0 gosub strobe lcd_dat = j gosub strobe lcd_cd = 1 ' Write mode for k = first_col to last_col lcd_dat = blank gosub strobe next next swap lcd_cs1,lcd_cs2 next lcd_cs1=0 lcd_cs2=1 lcd_cd=0 lcd_dat=row gosub strobe lcd_dat = disp_ram ' Ram Line 0 gosub strobe lcd_dat=col gosub strobe lcd_cs1=1 lcd_cs2=0 lcd_dat=row gosub strobe lcd_dat = disp_ram ' Ram Line 0 gosub strobe lcd_dat=col gosub strobe lcd_dat = disp_on 'display on gosub strobe lcd_cd = 1 ' Set Data command lcd_cs1 = 1 ' Left side active lcd_cs2 = 0 return init: 'Initialization lcd_cd = 0 ' Set command mode lcd_cs1 = 1 ' Left Side on lcd_cs2 = 0 ' Right Side off for index = 1 to 2 lcd_dat = disp_off ' Display Off lcd_dat = disp_ram ' Ram Line 0 gosub strobe ' Write the data lcd_dat = col ' Y address = 0 gosub strobe lcd_dat = row ' Page = 0 gosub strobe lcd_dat = disp_on ' Display On gosub strobe swap lcd_cs1,lcd_cs2 next lcd_cs1=1 lcd_cs2=0 return '****Place char on LCD Routine ***** 'Place byte of data on lcd assumes in_byte, byte_pos and line (line) 'Char position on LCD byte_pos = 0-127 (Horiz), ROW 0-7 (vert) putbyte: lcd_dat = in_byte 'Display the byte gosub strobe byte_pos=byte_pos+1 'Increment position 'Now do some LCD house cleaning and adjust counters if byte_pos=max_pos then lcd_cs1=0 lcd_cs2=1 lcd_cd = 0 lcd_dat = col gosub strobe lcd_dat = disp_ram gosub strobe lcd_dat = row + line gosub strobe lcd_cd = 1 endif if byte_pos = max_col then 'Check if line = line + 1 'New Line if line = max_line then line = 0 endif byte_pos = 0 'Reset byte_pos lcd_cs1=1 lcd_cs2=0 lcd_cd = 0 lcd_dat=col gosub strobe lcd_dat = row + line gosub strobe lcd_dat = disp_ram gosub strobe lcd_cd =1 endif return '***** Convert incoming ascii to hex byte Routine ***** find: Lookdown in_array[index],["0123456789abcdef"],hex_nibble return '=============================== ' **** BEGIN MAIN PROGRAM ****** '=============================== main: gosub init ' Initialize LCD gosub clearall ' Clear all pages goto term logo: gosub init ' Initialize LCD gosub clearall ' Clear all pages '**** DISPLAY IMAGES IN EXTERNAL 64KBit EEPROM VIA I2C ***** ' Load opening screen from eeprom assuming a 64KBit eeprom byte_pos=0 line =0 for addr = 0 to 8192 'Eight 1kbyte pages of eeprom I2CREAD sda,scl,ctl,addr,[in_byte] gosub putbyte if (addr=1024) OR (addr=2048) OR (addr= 3072) OR (addr=4096) OR (addr=5120) OR (addr=6144) OR (addr=7168) OR (addr=8192) then pause 4000 gosub init gosub clearall endif if addr=8192 then addr = 0 endif next goto logo 'Continue looping inifitum! '******************************************** 'Terminal Subroutine term: 'Assumes Home Position 'Setup variables j=0 index=0 k=0 line=0 addr=0 in_ascii = 0 buff_count = 32 delay = 10 addr = 0 byte_pos = 0 'Get the initial parameters get_param: serin2 in_pin,ser_baud,[wait ("*"),STR in_ctl\9] for index = 0 to 8 Lookdown in_ctl[index],["0123456789abcdef"],hex_nibble in_ctl[index]=hex_nibble next delay = (in_ctl[7]<<4) | in_ctl[8] buff_count = (in_ctl[1]<<4) | in_ctl[2] addr.byte1 = (in_ctl[3] <<4) | in_ctl[4] addr.byte0 = (in_ctl[5] <<4) | in_ctl[6] buf_cnt = (buff_count - 1) eepaddr = addr j=in_ctl[0] if j = 0 then lcd_loop 'Display directly on LCD if j = 1 then eep_loop 'Load ext eeprom if j = 2 then logo 'Display images loop goto get_param eep_loop: serin2 in_pin,ser_baud,[wait ("]"),STR in_array\buff_count] 'Wait for ] and the load in_array for index = 0 to buf_cnt 'Get char and place in array Lookdown in_array[index],["0123456789abcdef"],hex_nibble in_array[index]=hex_nibble next for index = 0 to buf_cnt step 2 in_byte = (in_array[index]<<4) | (in_array[index+1]) 'Form a hex number MSB-LSB I2CWRITE sda,scl,ctl,eepaddr,[in_byte] pause 10 eepaddr=eepaddr+1 next goto eep_loop lcd_loop: serin2 in_pin,ser_baud,[wait ("]"),STR in_array\buff_count] 'Wait for ] and the load in_array for index = 0 to (buff_count - 1) gosub find 'Get char and place in array in_array[index]=hex_nibble next for index = 0 to (buff_count - 1) step 2 in_byte = (in_array[index]<<4) | (in_array[index+1]) 'Form a hex number MSB-LSB gosub putbyte next goto lcd_loop '*********** E N D ************ end ' **** END OF MAIN PROGRAM ****
file: /Techref/io/lcd/GLiPIC_bas.htm, 9KB, , updated: 2001/4/16 09:31, local time: 2024/11/25 12:16,
3.135.206.229:LOG IN
|
©2024 These pages are served without commercial sponsorship. (No popup ads, etc...).Bandwidth abuse increases hosting cost forcing sponsorship or shutdown. This server aggressively defends against automated copying for any reason including offline viewing, duplication, etc... Please respect this requirement and DO NOT RIP THIS SITE. Questions? <A HREF="http://massmind.org/Techref/io/lcd/GLiPIC_bas.htm"> io lcd GLiPIC_bas</A> |
Did you find what you needed? |
Welcome to massmind.org! |
Welcome to massmind.org! |
.