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Scenix Lcd

;;;OK 
;;;; last modified : 98-3-2,16:00:00
;
;This example implement a simple ohm-measure with MCU ,
;demonstrating how to utilise SX18/28's:
;   I/O operation
;
;Hardware:
;  Display:              8 segment LCD(working in scaning mode)
;  Volatile Resistance:  0--10K
;  Immutable Resistance: 10K,series connected with the former
;  Standard Resistance:  10K
;  Capacitor:            104:   0.01uF
; 
;  I/O connection:
;      ra0--------COM1
;      ra1--------COM2
;      ra2--------COM3
;      ra3--------COM4
;      
;      rc0--------LCD.a
;      rc1--------LCD.b
;      rc2--------LCD.c
;      rc3--------LCD.d
;      rc4--------LCD.e
;      rc5--------LCD.f
;      rc6--------LCD.g
;
;      rb3--------LCD control
;      rb5--------Volatile Resistance
;      rb6--------Standard Resistance
;      rb7--------Detected Pin
; Configuration data
; The Chip's configuration is  28 pin, 2K EEPROM, 136 byte RAM,
; internal 4MHz internal RC driven, single clock per instruction.
;	device pins28,pages4,banks8,osc4mhz,turbo,stackx,optionx

RA        equ	  05h
RB	  equ	  06h
RC	  equ	  07h
PORTA     EQU     05H
PORTB     EQU     06H
PORTC     EQU     07H
INDF      EQU     0
TMR0      EQU     1
PCL       EQU     2
STATUS    EQU     3
FSR       EQU     4
RTCC      EQU     1H
WREG      EQU     1H
PC        EQU     2H
C         EQU     STATUS.0
DC        EQU     STATUS.1
Z         EQU     STATUS.2
PD        EQU     STATUS.3
TO        EQU     STATUS.4
PA0       EQU     STATUS.5
PA1       EQU     STATUS.6
PA2       EQU     STATUS.7

;port define
common		equ	ra
com1		equ	ra.0
com2		equ	ra.1
com3		equ	ra.2
com4		equ	ra.3
lcd_control	equ	rb.3
lcd_data 	equ	rc

;Varialbes

temp			equ	10h		;1 byte
second			equ       0eh
minute			equ	0fh
databyte_1		equ	11h
databyte_2		equ	12h
databyte_3		equ	13h
databyte_4		equ	14h
lcd_data_pointer		equ	15h
lcd_common_pointer		equ	16h
lcd_phase			equ	17h
lcd_odd_phase		equ	18h

time_countl		equ	19h
time_counth		equ	1ah

rm_countl			equ	1bh
rm_counth			equ	1ch

rc_countl			equ	1dh
rc_counth			equ	1eh

ohm_measure_delay		equ	1fh

dec_l	equ	0eh
dec_h	equ	0fh
dec_u	equ	23h


	device pins28,pages4,banks8,osc4mhz,turbo,stackx,optionx
	
	reset start

	org	0
		
	;jmp InitProg
	
 	
InitProg  ;
;	inc second
;	sb Z	
;	jmp InitEnd
;	jmp Measure1
	 
InitEnd	;	
 	reti

Measure1	inc databyte_1
	mov w,#0fh
	and databyte_1,w
	mov w,#3
	mov databyte_2,w
;	call	Measure
	jmp InitEnd	

	org	$40
	
start
	mov	w,#0		;rc all out
	mov	!rc,w
	mov	w,#0		;ra0..3 out
	mov	!ra,w
	mov	w,#%0		;rb3 out
 	mov	!rb,w
;	mov	w,#0eh
;	mov	m,w

	mov	w,#0e2h		;1110 0010
	mov	!option,w		;      ^^^PS2 PS1 PS0------1:8
				;     ^--------------------PSA=0      prescaler assigned to RTCC   
				;   ^----------------------RTE_ES=0   RTCC   L->H
				;  ^-----------------------RTS=0      RTCC internal inc
				; ^------------------------RTE_IE=0   RTCC interrupt is enabled
				;^-------------------------RTW=1      register 01h addresses RTCC
	
	clr	ra	
	clr	rb
	clr	rc
	clr	rm_countl
	clr	rm_counth
	clr	rc_countl
	clr	rc_counth
	call	Proc_Init_LCD_Display
loop0
	mov	w,#0
	mov	ohm_measure_delay,w
:loop1
	call	Display	;1
	call	Proc_Delay
	decsz	ohm_measure_delay
	jmp	:loop1
	call	Measure
	jmp	loop0
	ret

Proc_Delay
	mov	w,#54	;67;#100;#135;#100;90;#77;#67;#54;#30;#10;#19
	mov	time_counth,w
Proc_Delay_1
	mov	w,#25;#32
	mov	time_countl,w
;	clr	time_countl
Proc_Delay_2
	decsz	time_countl
	jmp	Proc_Delay_2
	decsz	time_counth
	jmp	Proc_Delay_1
	ret
proc_read_rtcc
	mov	w,rtcc
	mov	rm_countl,w
	mov	w,#0
	mov	w,rm_countl-w
	sb	3.2	;z=0
	inc	rm_counth
	ret

Measure
	call	proc_encharge_rm
	call	proc_discharge
	call	proc_bin_bcd
	call	proc_update_display	

Measure_end
	ret


proc_discharge
	mov	w,#000h	;0000 0000
			;  ^---------------------rb.5 input to detecte Cap is discharged
			; ^----------------------rb.6 ouput to discharge the Cap
			;^-----------------------rb.7 input to disable
	mov	!rb,w

:waitdischarge	
	clrb	rb.6
	clrb	rb.5
	clrb	rb.7
;	snb	rb.5
	;jmp	:waitdischarge
	;call	proc_delay			;here will restore the portb status
	ret


;;;measure the rm value
proc_encharge_rm
	mov	w,#60h	;0110 0000
			;  ^---------------------rb.5-input -- detecte
			; ^----------------------rb.6 input --disable
			;^-----------------------rb.7 output--encharge
	mov	!rb,w


	clr	rm_countl
	clr	rm_counth
	mov	w,#80h
	mov	rm_countl,w
	setb	rb.7	;begin encharge
wait_encharge_rm
	inc	rm_countl
	snb	z	;overflow?
	jmp	encharge_rm_1
	inc	rm_counth
	snb	z	;rm_counth overflow?
	dec	rm_counth
	mov	w,#80h
	mov	rm_countl,w
encharge_rm_1
	snb	rb.5	;encharged?
	jmp	encharge_rm_end
	jmp	wait_encharge_rm
encharge_rm_end

	mov	w,#0f0h
	sub	rm_counth,w
	mov	w,#020h
	sub	rm_counth,w
	ret

proc_bin_bcd
	mov	w,rm_counth
	clr	dec_h
	mov	dec_l,w
bin_bcd_1
	mov	w,#10
	mov	w,dec_l-w
	sb	3.0
	jmp	bin_bcd_end
	mov	dec_l,w
	inc	dec_h
	jmp	bin_bcd_1
bin_bcd_end	
;	mov	w,#9
;	mov	w,dec_h-w
;	snb	3.0
;	jmp	bin_bcd_end_1
;	mov	w,#0fh
;	mov	dec_h,w
;	mov	dec_l,w
bin_bcd_end_1
	clrb	3.0
	rl	dec_h
	rl	dec_h
	rl	dec_h
	rl	dec_h
	mov	w,#0f0h
	and	dec_h,w
	mov	w,#0fh
	and	dec_l,w
	mov	w,dec_l
	or	w,dec_h
	mov	rm_counth,w

;	mov	w,#099h
;	mov	w,rm_counth-w
;	snb	3.0
;	jmp	bin_bcd_end_2
;	mov	w,#0ffh
;	mov	rm_counth,w
bin_bcd_end_2
	retw	0


;;;measure the rc value
proc_encharge_rc
	mov	w,#0a0h	;1010 0000
			;  ^---------------------rb.5 input-- detecte
			; ^----------------------rb.6 ouput-- encharge
			;^-----------------------rb.7	input-- disable
	mov	!rb,w

	clr	rc_countl
	clr	rc_counth
	mov	w,#080h
	mov	rc_countl,w
	setb	rb.6	;begin encharge
wait_encharge_rc
	inc	rc_countl
	snb	z	;overflow?
	jmp	encharge_rc_1
	inc	rc_counth
	mov	w,#080h
	mov	rc_countl,w
encharge_rc_1
	snb	rb.6
	jmp	encharge_rc_end
	jmp	wait_encharge_rc
encharge_rc_end
	ret
proc_freq_ohm
	mov	w,#0b0h
	mov	w,rc_counth-w
	snb	3.0		;c
	clr	w
	mov	temp,w
	clrc
	rr	temp
	mov	w,temp
	mov	rc_counth,w
	ret
	

proc_update_display
	mov	w,rm_counth
	mov	temp,w
	and	w,#0fh
	mov	databyte_1,w
	mov	w,#0f0h
	and	temp,w
	clrb	3.0
	rl	temp
	rl	temp
	rl	temp
	rl	temp
	mov	w,temp
	and	w,#0fh
	mov	databyte_2,w

	ret

Proc_Init_LCD_Display
;clear buffer
	mov	w,#$a
	mov	databyte_1,w
	mov	w,#$b
	mov	databyte_2,w
	mov	w,#$c
	mov	databyte_3,w
	mov	w,#$11
	mov	databyte_4,w
	
	clrb	rb.3
	mov	w,#0
	mov	lcd_data,w
	mov	w,#%1111
	mov	common,w
	
	mov	w,#databyte_1
	mov	lcd_data_pointer,w
	mov	w,#%0001
	mov	lcd_phase,w
	mov	w,#1
	mov	lcd_odd_phase,w
	ret
;LCD SEGMENT CODE TABLE
;	org	$30

Proc_Seg_Table
		jmp	pc+w
		retw	$3f	;0
		retw	$06	;1
		retw	$5b	;2
		retw	$4f	;3
		retw	$66	;4
		retw	$6d	;5
		retw	$7d	;6
		retw	$07	;7
		retw	$7f	;8
		retw	$6f	;9
		retw	$77	;A
		retw	$7c	;b
		retw	$58	;c
		retw	$5e	;d
		retw	$79	;E
		retw	$71	;F
		retw	$76	;H
		retw	$01	;1--Com4
		retw	$02	;AM
		retw	$04	;oo
		retw	$08	;TEMP
		retw	$10	;PM
		retw	$20	;TIMER
		retw	$40	;KEEP WARM


Display
	mov	w,lcd_data_pointer
	mov	fsr,w
	mov	w,indf
	call	Proc_Seg_Table
	
	sb	lcd_odd_phase.0
	jmp	Display_1		;2468
	not	w		;1357
	mov	rc,w
	mov	w,lcd_phase
	mov	ra,w
	setb	rb.3
	jmp	Display_2
Display_1
	mov	rc,w		;2468
	mov	w,lcd_phase
	not	w
	and	w,#0fh
	mov	ra,w
	clrb	rb.3
	inc	lcd_data_pointer
	mov	w,#0fh
	and	lcd_phase,w
	clrb	3.0		;clear c
	rl	lcd_phase
	mov	w,#databyte_2
	mov	w,lcd_data_pointer-w
	sb	3.2
	jmp	Display_2
	mov	w,#databyte_1
	mov	lcd_data_pointer,w
	mov	w,#%0001
	mov	lcd_phase,w

Display_2
	inc	lcd_odd_phase
	ret 



file: /Techref/scenix/lcd.src, 7KB, , updated: 1999/6/14 11:14, local time: 2017/10/22 18:08,
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