Umut ŞİMŞEK: PIC 16F84A İLE LCD ARAYÜZÜ

Mikrodenetleyici dünyasında, pratik kullanımda insan ile etkileşimde büyük bir önemi olan LCD göstergeri yönetmek ve kullanmak gereklidir. Aşağıda PIC 16F84A ile gerçekleştirilmiş bir devre ve bunun ASM Örnek olarak aşağıdaki devrede mikrodenetleyiciye besleme, XT osilatör eklenmiştir. Bundan sonra ortak anotlu 7 segment displayin 8 bacağına PIC’in B Portları bağlanmıştır.

LCD Arayüzünün Gerçekleştirilmiş Hali

LCD Arayüzü Devre Şeması

LCD Assembly Programı

LIST P=16F84A, F=INHX8M

; ERRORLEVEL 2

__CONFIG _CP_OFF & _WDT_OFF & _XT_OSC

;include

#include "p16f84A.inc"

;*****************************************************************************

RESET_V EQU 0x0000 ; Address of RESET Vector

ISR_V EQU 0x0004 ; Address of Interrupt Vector

OSC_FREQ EQU D'4000000' ; Oscillator Frequency is 4 MHz

LCD_DATA EQU PORTB ; LCD data lines interface

LCD_DATA_TRIS EQU TRISB

LCD_CTRL EQU PORTA ; LCD control lines interface

LCD_LINE0 EQU 0x000

LCD_LINE1 EQU 0x040

LCD_LINE2 EQU 0x014

LCD_LINE3 EQU 0x054

; PORTA bits

LCD_E EQU 2 ; LCD Enable control line

LCD_RW EQU 1 ; LCD Read/Write control line

LCD_RS EQU 0 ; LCD Register-Select control line

; PORTB bits

DB7 EQU 7 ; LCD dataline 7 (MSB)

DB6 EQU 6 ; LCD dataline 6

DB5 EQU 5 ; LCD dataline 5

DB4 EQU 4 ; LCD dataline 4

DB3 EQU 3 ; LCD dataline 3

DB2 EQU 2 ; LCD dataline 2

DB1 EQU 1 ; LCD dataline 1

DB0 EQU 0 ; LCD dataline 0 (LSB)

; misc.

LCD_TEMP EQU 0x020 ; LCD subroutines internal use

TABLE_INDEX EQU 0x021 ; Index to table strings

COUNT EQU 0x022 ; A counter

DELAY equ 0x023 ; Used in DELAYxxx routines

X_DELAY equ 0x024 ; Used in X_DELAYxxx routines

;*****************************************************************************

; Program Baslangic

;*****************************************************************************

ORG RESET_V ; RESET vector location

RESET GOTO START

;*****************************************************************************

ORG ISR_V ; Interrupt vector location

INTERRUPT BCF STATUS, RP0 ; Select bank 0

GOTO INTERRUPT

;*****************************************************************************

START ; POWER_ON Reset (Beginning of program)

CLRF STATUS ; Do initialization, Select bank 0

CLRF INTCON ; Clear int-flags, Disable interrupts

CLRF PCLATH ; Keep in lower 2KByte

CLRF PORTA ; ALL PORT output should output Low.

CLRF PORTB

BSF STATUS, RP0 ; Select bank 1

MOVLW 0x0F8 ; RA2-0 outputs, RA4-3 inputs

MOVWF TRISA

MOVLW 0x000 ; RB7-0 outputs

MOVWF TRISB

BSF OPTION_REG, NOT_RBPU

; Disable PORTB pull-ups

BCF STATUS, RP0 ; Select bank 0

CALL LCDINIT ; Initialize LCDisplay

;*****************************************************************************

; Display some lines, here

MOVLW 0x030 ; ASCII '0'

MOVWF COUNT

MOVLW LCD_LINE0

CALL LCDSDDA ; Position cursor leftmost on first line

CALL TABLE_MSG ; Display message

MOVLW LCD_LINE0 + 0x013

CALL LCDSDDA ; Position cursor

MOVF COUNT, W

CALL LCDPUTCHAR ; Display line number

INCF COUNT, F

MOVLW LCD_LINE1

CALL LCDSDDA

CALL TABLE_MSG2

MOVLW LCD_LINE1 + 0x013

CALL LCDSDDA

MOVF COUNT, W

CALL LCDPUTCHAR

INCF COUNT, F

MOVLW LCD_LINE2

CALL LCDSDDA

CALL TABLE_MSG

MOVLW LCD_LINE2 + 0x013

CALL LCDSDDA

MOVF COUNT, W

CALL LCDPUTCHAR

INCF COUNT, F

MOVLW LCD_LINE3

CALL LCDSDDA

CALL TABLE_MSG

MOVLW LCD_LINE3 + 0x013

CALL LCDSDDA

MOVF COUNT, W

CALL LCDPUTCHAR

;*****************************************************************************

; Program ends here

;*****************************************************************************

LOOP

GOTO LOOP ; Stay here forever

;*****************************************************************************

; Send a message using a table to output a message

;*****************************************************************************

TABLE_MSG

MOVLW 0 ; Startindex of table message

DISP_MSG

MOVWF TABLE_INDEX ; Holds message address

CALL MSG1

ANDLW 0x0FF ; Check if at end of message

BTFSC STATUS, Z ; (zero returned at end)

GOTO TABLE_MSG_END

CALL LCDPUTCHAR ; Display character

MOVF TABLE_INDEX, W ; Point to next character

ADDLW 1

GOTO DISP_MSG

TABLE_MSG_END RETURN

;*****************************************************************************

; Send a message using a table to output a message

; OK

;*****************************************************************************

TABLE_MSG2

MOVLW 0 ; Startindex of table message

DISP_MSG2

MOVWF TABLE_INDEX ; Holds message address

CALL MSG2

ANDLW 0x0FF ; Check if at end of message

BTFSC STATUS, Z ; (zero returned at end)

GOTO TABLE_MSG2_END

CALL LCDPUTCHAR ; Display character

MOVF TABLE_INDEX, W ; Point to next character

ADDLW 1

GOTO DISP_MSG2

TABLE_MSG2_END RETURN

;*****************************************************************************

; LCD Module Subroutines

;*****************************************************************************

;

;=============================================================================

; LCDINIT

; Initilize LC-Display Module

; Should be modified to your needs (i.e. display type, cursor on/off, etc.)

; OK

;=============================================================================

LCDINIT

; Busy-flag is not yet valid

CLRF LCD_CTRL ; ALL PORT output should output Low.

; power-up delay

MOVLW 0x01E

CALL X_DELAY500 ; 30 * 0.5mS = 15mS

; Busy Flag should be valid from here

MOVLW 0x038 ; 8-bit-interface, 2-lines

CALL LCDPUTCMD

MOVLW 0x000 ; disp.off, curs.off, no-blink

CALL LCDDMODE

CALL LCDCLEAR

MOVLW 0x004 ; disp.on, curs.off

CALL LCDDMODE

MOVLW 0x002 ; auto-inc (shift-cursor)

CALL LCDEMODE

RETURN

;=============================================================================

; LCD_ENABLE

; Pulses LCD enable pin

; OK

;=============================================================================

LCD_ENABLE

BSF LCD_CTRL, LCD_E ; LCD E-line High

BCF LCD_CTRL, LCD_E ; LCD E-line Low

RETURN

;=============================================================================

; LCDBUSY

; Returns when LCD busy-flag is inactive

; OK

;=============================================================================

LCDBUSY

BSF STATUS,RP0 ; Select Register page 1

MOVLW 0x0FF ; Set PORTB for input

MOVWF LCD_DATA_TRIS

BCF STATUS, RP0 ; Select Register page 0

BCF LCD_CTRL, LCD_RS; Set LCD for command mode

BSF LCD_CTRL, LCD_RW; Setup to read busy flag

BSF LCD_CTRL, LCD_E ; LCD E-line High

MOVF LCD_DATA, W ; Read busy flag + DDram address

BCF LCD_CTRL, LCD_E ; LCD E-line Low

ANDLW 0x80 ; Check Busy flag, High = Busy

BTFSS STATUS, Z

GOTO LCDBUSY

LCDNOTBUSY BCF LCD_CTRL, LCD_RW

BSF STATUS, RP0 ; Select Register page 1

MOVLW 0x000

MOVWF LCD_DATA_TRIS ; Set PORTB for output

BCF STATUS, RP0 ; Select Register page 0

RETURN

;=============================================================================

; LCDCLEAR

; Clears display and returns cursor to home position (upper-left corner).

;

;=============================================================================

LCDCLEAR

MOVLW 0x001

CALL LCDPUTCMD

RETURN

;=============================================================================

; LCDHOME

; Returns cursor to home position.

; Returns display to original position (when shifted).

;

;=============================================================================

LCDHOME

MOVLW 0x002

CALL LCDPUTCMD

RETURN

;=============================================================================

; LCDEMODE

; Sets entry mode of display.

; Required entry mode must be set in W

; b0 : 0 = no display shift 1 = display shift

; b1 : 0 = auto-decrement 1 = auto-increment

; b2-7 : don't care

; OK

;=============================================================================

LCDEMODE

ANDLW 0x003 ; Strip upper bits

IORLW 0x004 ; Function set

CALL LCDPUTCMD

RETURN

;=============================================================================

; LCDDMODE

; Sets display control.

; Required display mode must be set in W

; b0 : 0 = cursor blink off 1 = cursor blink on

; b1 : 0 = cursor off 1 = cursor on

; b2 : 0 = display off 1 = display on (display data remains in DDRAM)

; b3-7 : don't care

; OK

;=============================================================================

LCDDMODE

ANDLW 0x007 ; Strip upper bits

IORLW 0x008 ; Function set

CALL LCDPUTCMD

RETURN

;=============================================================================

; LCDSCGA

; Sets Character-Generator-RAM address. CGRAM is read/written after

; this setting.

; Required CGRAM address must be set in W

; b0-5 : required CGRAM address

; b6-7 : don't care

;

;=============================================================================

LCDSCGA

ANDLW 0x03F ; Strip upper bits

IORLW 0x040 ; Function set

CALL LCDPUTCMD

RETURN

;=============================================================================

; LCDSDDA

; Sets the Display-Data-RAM address. DDRAM data is read/written after

; this setting.

; Required DDRAM address must be set in W

; b0-6 : required DDRAM address

; b7 : don't care

; OK

;=============================================================================

LCDSDDA

IORLW 0x080 ; Function set

CALL LCDPUTCMD

RETURN

;=============================================================================

; LCDGADDR

; Returns address counter contents, used for both DDRAM and CGRAM.

; RAM address is returned in W

;

;=============================================================================

LCDGADDR

BSF STATUS,RP0 ; Select Register page 1

MOVLW 0x0FF ; Set PORTB for input

MOVWF LCD_DATA_TRIS

BCF STATUS, RP0 ; Select Register page 0

BCF LCD_CTRL, LCD_RS; Set LCD for command mode

BSF LCD_CTRL, LCD_RW; Setup to read busy flag

BSF LCD_CTRL, LCD_E ; LCD E-line High

MOVF LCD_DATA, W ; Read busy flag + RAM address

BCF LCD_CTRL, LCD_E ; LCD E-line Low

ANDLW 0x07F ; Strip upper bit

BCF LCD_CTRL, LCD_RW

BSF STATUS, RP0 ; Select Register page 1

MOVLW 0x000

MOVWF LCD_DATA_TRIS ; Set PORTB for output

BCF STATUS, RP0 ; Select Register page 0

RETURN

;=============================================================================

; LCDPUTCHAR

; Sends character to LCD

; Required character must be in W

; OK

;=============================================================================

LCDPUTCHAR

MOVWF LCD_TEMP ; Character to be sent is in W

CALL LCDBUSY ; Wait for LCD to be ready

BCF LCD_CTRL, LCD_RW; Set LCD in read mode

BSF LCD_CTRL, LCD_RS; Set LCD in data mode

BSF LCD_CTRL, LCD_E ; LCD E-line High

MOVF LCD_TEMP, W

MOVWF LCD_DATA ; Send data to LCD

BCF LCD_CTRL, LCD_E ; LCD E-line Low

RETURN

;=============================================================================

; LCDPUTCMD

; Sends command to LCD

; Required command must be in W

; OK

;=============================================================================

LCDPUTCMD

MOVWF LCD_TEMP ; Command to be sent is in W

CALL LCDBUSY ; Wait for LCD to be ready

BCF LCD_CTRL, LCD_RW; Set LCD in read mode

BCF LCD_CTRL, LCD_RS; Set LCD in command mode

BSF LCD_CTRL, LCD_E ; LCD E-line High

MOVF LCD_TEMP, W

MOVWF LCD_DATA ; Send data to LCD

BCF LCD_CTRL, LCD_E ; LCD E-line Low

RETURN

;*****************************************************************************

; Delay_time = ((DELAY_value * 3) + 4) * Cycle_time

; DELAY_value = (Delay_time - (4 * Cycle_time)) / (3 * Cycle_time)

;

; i.e. (@ 4MHz crystal)

; Delay_time = ((32 * 3) + 4) * 1uSec

; = 100uSec

; DELAY_value = (500uSec - 4) / 3

; = 165.33

; = 165

;*****************************************************************************

DELAY500 MOVLW D'165' ; +1 1 cycle

MOVWF DELAY ; +2 1 cycle

DELAY500_LOOP DECFSZ DELAY, F ; step 1 1 cycle

GOTO DELAY500_LOOP ; step 2 2 cycles

DELAY500_END RETURN ; +3 2 cycles

;

X_DELAY500 MOVWF X_DELAY ; +1 1 cycle

X_DELAY500_LOOP CALL DELAY500 ; step1 wait 500uSec

DECFSZ X_DELAY, F ; step2 1 cycle

GOTO X_DELAY500_LOOP ; step3 2 cycles

X_DELAY500_END RETURN ; +2 2 cycles

;=============================================================================

; Table message to display

;=============================================================================

MSG1

addwf PCL ,F ;Jump to char pointed to in W reg

retlw 'H'

retlw 'a'

retlw 'l'

retlw 'i'

retlw 'c'

retlw ' '

retlw 'U'

retlw 'n'

retlw 'i'

retlw '.'

retlw ' '

retlw '2'

retlw '0'

retlw '9'

retlw ' '

retlw '#'

MSG1_END

retlw 0

;

IF ( (MSG1 & 0x0FF) >= (MSG1_END & 0x0FF) )

MESSG "Warning - User Definded: Table 'MSG1' crosses page boundry in computed jump"

ENDIF

MSG2

addwf PCL ,F ;Jump to char pointed to in W reg

retlw ' '

retlw 'U'

retlw 'm'

retlw 'u'

retlw 't'

retlw ' '

retlw 'S'

retlw 'I'

retlw 'M'

retlw 'S'

retlw 'E'

retlw 'K'

retlw ' '

retlw '#'

MSG2_END

retlw 0

;

IF ( (MSG2 & 0x0FF) >= (MSG2_END & 0x0FF) )

MESSG "Warning - User Definded: Table 'MSG1' crosses page boundry in computed jump"

ENDIF

END ; End of program

Wednesday, June 10, 2009

PIC 16F84A İLE LCD ARAYÜZÜ

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