Mercurial > public > mk2
view code_part1/OSTC_code_asm_part1/adc_rtc.asm @ 441:4826dd98514b
NEW: Decoplanner OC volumes in liters (or bars), up to 65000.
author | JeanDo |
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date | Tue, 09 Aug 2011 18:30:19 +0200 |
parents | ab962c4b19d6 |
children | 3091628b2742 |
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; OSTC - diving computer code ; Copyright (C) 2008 HeinrichsWeikamp GbR ; This program is free software: you can redistribute it and/or modify ; it under the terms of the GNU General Public License as published by ; the Free Software Foundation, either version 3 of the License, or ; (at your option) any later version. ; This program is distributed in the hope that it will be useful, ; but WITHOUT ANY WARRANTY; without even the implied warranty of ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ; GNU General Public License for more details. ; You should have received a copy of the GNU General Public License ; along with this program. If not, see <http://www.gnu.org/licenses/>. ; routines for AD converter, Realtime clock initialisation ; written by: Matthias Heinrichs, info@heinrichsweikamp.com ; written: 10/30/05 ; last updated: 05/15/08 ; known bugs: ; ToDo: get_battery_voltage: ; starts ADC and waits until fnished ; In MPLAB Sim mode (hardware emulation), use a DMCI slider to ; directly set a 16 bit value in the range 0..1023 ; In normal mode, jut wait for the value to be ready: ifndef TESTING bsf ADCON0,0 ; power on ADC nop bsf ADCON0,1 ; start ADC get_battery_voltage2: btfsc ADCON0,1 ; Wait... bra get_battery_voltage2 endif ; 3.3V/1024=3,2227mV Input/Bit=9,6680mV Battery/Bit. ; Example: 434*9,6680mV=4195,9mV Battery. movff ADRESH,xA+1 movff ADRESL,xA+0 movlw LOW d'966' movwf xB+0 movlw HIGH d'966' movwf xB+1 call mult16x16 ; AD_Result*966 movlw d'100' movwf xB+0 clrf xB+1 call div32x16 ;xC:4 / xB:2 = xC+3:xC+2 with xC+1:xC+0 as remainder movff xC+0,batt_voltage+0 ; store value movff xC+1,batt_voltage+1 bcf ADCON0,0 ; power off ADC ; Check if we should enter deep-sleep mode movff batt_voltage+0,sub_b+0 movff batt_voltage+1,sub_b+1 movlw LOW d'2600' ; must be greater then 2600mV... movwf sub_a+0 movlw HIGH d'2600' movwf sub_a+1 call sub16 ; sub_c = sub_a - sub_b bcf enter_error_sleep ; Clear flag btfsc neg_flag ; neg_flag=1 if eeprom40:41 < 2000 bra get_battery_voltage3 ; Battery in OK range movlw d'2' movwf fatal_error_code ; Battery very low! bsf enter_error_sleep ; enter error routine get_battery_voltage3: SAFE_2BYTE_COPY amb_pressure, sub_b movlw LOW d'15001' ; must be lower then 15001mbar movwf sub_a+0 movlw HIGH d'15001' movwf sub_a+1 call sub16 ; sub_c = sub_a - sub_b bcf enter_error_sleep ; Clear flag btfss neg_flag ; bra get_battery_voltage4 ; Pressure in OK range movlw d'3' movwf fatal_error_code ; too deep bsf enter_error_sleep ; enter error routine ; Continue with rest of routine get_battery_voltage4: ; check if the battery control memory needs to be initialised! bcf initialize_battery1 ; clear check-flags bcf initialize_battery2 read_int_eeprom d'40' ; get lowest battery voltage seen in mV movff EEDATA,sub_b+0 read_int_eeprom d'41' movff EEDATA,sub_b+1 movlw LOW d'2000' ; must be greater then 2000mV... movwf sub_a+0 movlw HIGH d'2000' movwf sub_a+1 call sub16 ; sub_c = sub_a - sub_b btfss neg_flag ; neg_flag=1 if eeprom40:41 < 2000 bsf initialize_battery1 ; battery need to be initialised movlw LOW d'4500' ; must be lower then 4500mV... movwf sub_a+0 movlw HIGH d'4500' movwf sub_a+1 call sub16 ; sub_c = sub_a - sub_b btfss neg_flag ; neg_flag=1 if eeprom40:41 < 4500 bsf initialize_battery2 ; battery need to be initialised btfss initialize_battery1 ; battery need to be initialised? bra get_battery_no_init ; No, we have already valid values, just check for new extremas btfss initialize_battery2 ; battery need to be initialised? bra get_battery_no_init ; No, we have already valid values, just check for new extremas get_battery_voltage_reset: ; Init EEPROM for battery control ; Reset lowest battery seen movlw LOW d'4200' ; reset to 4.2V movwf EEDATA write_int_eeprom d'40' movlw HIGH d'4200' ; reset to 4.2V movwf EEDATA write_int_eeprom d'41' movff month,EEDATA write_int_eeprom d'42' movff day,EEDATA write_int_eeprom d'43' movff year,EEDATA write_int_eeprom d'44' SAFE_2BYTE_COPY temperature,lo movff lo,EEDATA write_int_eeprom d'45' movff hi,EEDATA write_int_eeprom d'46' ; Reset charge statistics clrf EEDATA write_int_eeprom d'47' ; last complete charge write_int_eeprom d'48' ; last complete charge write_int_eeprom d'49' ; last complete charge write_int_eeprom d'50' ; total cycles write_int_eeprom d'51' ; total cycles write_int_eeprom d'52' ; total complete cycles write_int_eeprom d'53' ; total complete cycles ; Reset temperature extremas SAFE_2BYTE_COPY temperature,lo movff lo,EEDATA ; Reset mimimum extrema write_int_eeprom d'54' movff hi,EEDATA write_int_eeprom d'55' movff month,EEDATA write_int_eeprom d'56' movff day,EEDATA write_int_eeprom d'57' movff year,EEDATA write_int_eeprom d'58' movff lo,EEDATA ; Reset maximum extrema write_int_eeprom d'59' movff hi,EEDATA write_int_eeprom d'60' movff month,EEDATA write_int_eeprom d'61' movff day,EEDATA write_int_eeprom d'62' movff year,EEDATA write_int_eeprom d'63' get_battery_no_init: read_int_eeprom d'40' ; get lowest battery voltage seen in mV movff EEDATA,sub_b+0 read_int_eeprom d'41' movff EEDATA,sub_b+1 movff batt_voltage+0,sub_a+0 movff batt_voltage+1,sub_a+1 call sub16 ; sub_c = sub_a - sub_b btfss neg_flag ; new lowest battery voltage? return ; no, quit routine ; Yes, store new value together with the date and temperature values movff batt_voltage+0,EEDATA write_int_eeprom d'40' movff batt_voltage+1,EEDATA write_int_eeprom d'41' movff month,EEDATA write_int_eeprom d'42' movff day,EEDATA write_int_eeprom d'43' movff year,EEDATA write_int_eeprom d'44' SAFE_2BYTE_COPY temperature,lo movff lo,EEDATA write_int_eeprom d'45' movff hi,EEDATA write_int_eeprom d'46' return RTCinit: ; resets RTC movlw 0x80 movwf TMR1H clrf TMR1L ; Reset RTC if any part of the time/date is out of range movlw d'60' ; Limit cpfslt secs ; Check part bra RTCinit2 ; Reset time... movlw d'60' ; Limit cpfslt mins ; Check part bra RTCinit2 ; Reset time... movlw d'24' ; Limit cpfslt hours ; Check part bra RTCinit2 ; Reset time... movlw d'32' ; Limit cpfslt day ; Check part bra RTCinit2 ; Reset time... movlw d'12' ; Limit cpfslt month ; Check part bra RTCinit2 ; Reset time... movlw d'100' ; Limit cpfslt year ; Check part bra RTCinit2 ; Reset time... bsf PIE1, TMR1IE return RTCinit2: movlw .00 movwf secs movlw .00 movwf mins movlw .12 movwf hours movlw .5 movwf day movlw .5 movwf month movlw .11 movwf year bsf PIE1, TMR1IE return reset_battery_stats: bcf uart_reset_battery_stats ; Clear flag bcf PIE1,RCIE ; no interrupt for UART call rs232_get_byte ; Get Byte bcf PIR1,RCIF ; clear flag btfsc rs232_recieve_overflow ; Byte received? bra reset_battery_stats_exit ; No, exit movlw 'f' cpfseq RCREG ; Really reset statistics? bra reset_battery_stats_exit ; No, exit call rs232_get_byte ; Get byte bcf PIR1,RCIF ; clear flag btfsc rs232_recieve_overflow ; Byte received? bra reset_battery_stats_exit ; No, exit movlw 'f' cpfseq RCREG ; Really reset statistics? bra reset_battery_stats_exit ; No, exit ; Yes, Reset now. rcall get_battery_voltage_reset ; Reset Statistics movlw 'f' movwf TXREG call rs232_wait_tx ; Wait for uart reset_battery_stats_exit: bsf PIE1,RCIE ; re-enable interrupt for UART goto surfloop_loop ; return to surface loop