Mercurial > public > hwos_code
view src/sleepmode.asm @ 601:08a0162d3ca1
Fix false CNS readings in logbook
author | heinrichsweikamp |
---|---|
date | Tue, 14 Aug 2018 11:01:47 +0200 |
parents | b455b31ce022 |
children | ca4556fb60b9 |
line wrap: on
line source
;============================================================================= ; ; File sleepmode.asm Version 2.98 ; ; Sleepmode ; ; Copyright (c) 2011, JD Gascuel, HeinrichsWeikamp, all right reserved. ;============================================================================== ; HISTORY ; 2011-08-12 : [mH] moving from OSTC code #include "hwos.inc" ; Mandatory header #include "shared_definitions.h" ; Mailbox from/to p2_deco.c #include "surfmode.inc" #include "tft.inc" #include "isr.inc" #include "start.inc" #include "adc_lightsensor.inc" #include "math.inc" #include "ms5541.inc" #include "wait.inc" #include "eeprom_rs232.inc" #include "external_flash.inc" #include "ghostwriter.inc" #include "i2c.inc" #include "mcp.inc" extern vault_decodata_into_eeprom ;---- Private local variables ------------------------------------------------- CBLOCK local1 ; max size is 16 Byte !!! sm_temp1 ; sleepmode temporary 1 sm_temp2 ; sleepmode temporary 2 sm_timer1 ; timer for pressure check every 10 seconds sm_timer2 ; timer for 10 minutes tasks (updating of tissues) sm_timer3 ; timer for 15 minutes tasks (updating of surface pressure) ENDC ; used: 5 byte, remaining: 11 byte gui CODE ;============================================================================== global sleeploop sleeploop: ; enter sleepmode! call disable_ir_s8 ; IR/S8 off call mcp_sleep bcf LEDg bcf LEDr call TFT_Display_FadeOut call TFT_DisplayOff ; display off bcf enable_screen_dumps ; =1: Ignore vin_usb, wait for "l" command (Screen dump) call disable_rs232 ; USB off call vault_decodata_into_eeprom ; store deco data call ext_flash_enable_protection ; enable write protection for external flash call update_battery_registers ; update battery registers into EEPROM clrf sm_temp1 clrf sm_temp2 clrf sm_timer1 clrf sm_timer2 clrf sm_timer3 call speed_normal bsf no_sensor_int ; No sensor interrupt clrf ADCON0 ; Power-Down ADC Module sleeploop_pre: bcf deep_sleep ; Normal sleepmode call I2C_sleep_accelerometer call I2C_sleep_compass btfss analog_switches bra sleeploop_loop ; no analog switches bsf power_sw1 btfss power_sw1 bra $-4 bsf power_sw2 btfss power_sw2 bra $-4 movlw .4 ; Wait for button circuity movwf sm_temp1 ; Used as temp bcf onesecupdate sleeploop_pre1: rcall sleepmode_sleep btfss onesecupdate ; Wait 1 second bra sleeploop_pre1 bcf onesecupdate decfsz sm_temp1,F bra sleeploop_pre1 movlw .32 ; Wait for button circuity movwf sm_temp1 ; Used as temp sleeploop_pre2: call get_analog_switches decfsz sm_temp1,F bra sleeploop_pre2 bcf PIR1,TMR1IF bcf INTCON,INT0IF bcf INTCON3,INT1IF bcf PIR5,TMR7IF bcf switch_left bcf switch_right bcf analog_sw2_pressed bcf analog_sw1_pressed bsf PIE1,0 ; (Re)Start Timer 1 Interrupt bsf PIE2,1 ; (Re)Start Timer 2 Interrupt bsf PIE5,3 ; (Re)Start Timer 7 Interrupt bsf INTCON,4 ; (Re)Start INT0 Interrupt bsf INTCON3,3 ; (Re)Start INT1 Interrupt sleeploop_loop: btfsc onesecupdate ; one second in sleep? rcall onesec_sleep ; check switches, check pressure sensor, etc. btfss sleepmode ; wake up? (This bit will be set in other routines) goto restart ; yes btfsc deep_sleep ; Enter deep sleep? bra deepsleep ; Yes no_deepsleep: rcall sleepmode_sleep ; Wait at least 35ms (every 62,5ms Timer7 wakeup) ; Any button pressed in sleep? ; btfsc switch_left ; rcall onesec_sleep1a ; btfsc switch_right ; rcall onesec_sleep1a ; ; btfss sleepmode ; wake up? (This bit will be set in other routines) ; goto restart ; yes bra sleeploop_loop ; do loop until something happens deepsleep: btfss analog_switches bra no_deepsleep ; no analog switches, no deep sleep required bcf PIE1,0 ; Stop Timer 1 Interrupt bcf PIE2,1 ; Stop Timer 2 Interrupt bcf PIE5,3 ; Stop Timer 7 Interrupt bcf INTCON,4 ; Stop INT0 Interrupt bcf INTCON3,3 ; Stop INT1 Interrupt bcf power_sw1 bcf power_sw2 rcall deepsleep_get_accel ; Read accelerometer into WREG movwf sm_temp1 ; Store init value deepsleep_loop: btfsc onesecupdate ; one second in sleep? rcall onesec_deepsleep ; check accelerometer btfsc onesecupdate ; one second in sleep? rcall onesec_sleep ; check switches, check pressure sensor, etc. rcall sleepmode_sleep btfss deep_sleep ; Enter normal sleepmode? bra sleeploop_pre ; Yes bra deepsleep_loop ; do loop until something happens onesec_deepsleep: rcall deepsleep_get_accel ; Read accelerometer into WREG subwf sm_temp1,W ; sm_temp1 - accel_DZ+0 -> WREG btfsc STATUS,N ; Result negative? negf WREG ; Yes, negate it movwf sm_temp2 ; change of acceleration in Z-axis movlw .50 ; Threshold (mg) cpfslt sm_temp2 ; bigger then the threshold? bcf deep_sleep ; Yes! ; extern piezo_config_tx ; movff sm_temp1,WREG ; call piezo_config_tx ; movff accel_DZ+0,WREG ; call piezo_config_tx ; movff sm_temp2,WREG ; call piezo_config_tx return deepsleep_get_accel: call I2C_init_compass ; required for compass1 call I2C_init_accelerometer ; required for compass2 call I2C_RX_accelerometer ; read Accelerometer call I2C_sleep_compass ; required for compass1 call I2C_sleep_accelerometer ; required for compass2 movff accel_DZ+0,WREG return onehour_sleep: call update_battery_registers ; update battery registers into EEPROM call vault_decodata_into_eeprom ; update deco data bcf onehourupdate ; all done return onemin_sleep: btfsc onehourupdate ; one hour in sleep? rcall onehour_sleep ; Yes btfsc battery_gauge_available call get_battery_voltage ; Check for charger ;---- update tissues and CNS every 10 minutes when gradient factor is 0 (no supersaturation in any tissue any more) movff int_O_gradient_factor+0,WREG ; get gradient factor, only the lower byte is used for the value tstfsz WREG ; gradient factor = 0? bra onemin_sleep1 ; NO - continue with air pressure compensation incf sm_timer2,F ; count-up... movlw d'9' ; ...to 9 cpfsgt sm_timer2 ; 10 minutes over? bra onemin_sleep1 ; NO - continue with air pressure compensation clrf sm_timer2 ; reset counter SAFE_2BYTE_COPY amb_pressure, int_I_pres_respiration ; copy pressure to deco routine call deco_calc_dive_interval_10min ; calculate 10 minutes under surface conditions banksel common onemin_sleep1: ;---- adjust air pressure compensation any 15 minutes incf sm_timer3,F ; count-up... movlw d'14' ; ...to 14 cpfsgt sm_timer3 ; 15 minutes over? bra onemin_sleep2 ; NO - continue with every-minute-tasks ; Tasks every 15 minutes in sleep bsf deep_sleep ; enter deep-sleep mode clrf sm_timer3 ; reset counter SAFE_2BYTE_COPY last_surfpressure_15min, last_surfpressure_30min ; save older air pressure SAFE_2BYTE_COPY amb_pressure, last_surfpressure_15min ; save new air pressure movlw LOW max_surfpressure movff WREG,sub_a+0 ; max. "allowed" air pressure in mbar movlw HIGH max_surfpressure movff WREG,sub_a+1 ; max. "allowed" air pressure in mbar movff last_surfpressure_15min+0,sub_b+0 movff last_surfpressure_15min+1,sub_b+1 call subU16 ; sub_c = sub_a - sub_b btfss neg_flag ; Is 1080mbar < amb_pressure ? bra onemin_sleep2 ; NO: current air pressure is lower then "allowed" air pressure, ok! ; not ok! Overwrite with max. "allowed" air pressure movlw LOW max_surfpressure movff WREG,last_surfpressure_15min+0 ; max. "allowed" air pressure in mbar movlw HIGH max_surfpressure movff WREG,last_surfpressure_15min+1 ; max. "allowed" air pressure in mbar onemin_sleep2: ; Tasks every minute in sleep ;---- update tissues and CNS every minute when gradient factor is >0 (supersaturation in at least one tissue) movff int_O_gradient_factor+0,WREG ; get gradient factor, only the lower byte is used for the value tstfsz WREG ; gradient factor = 0? bra onemin_sleep3 ; NO - do tissue update on 1 minute schedule bra onemin_sleep4 ; YES - tissue update is done on 10 minutes schedule onemin_sleep3: SAFE_2BYTE_COPY amb_pressure, int_I_pres_respiration ; copy pressure to deco routine call deco_calc_dive_interval_1min ; calculate 1 minute under surface conditions banksel common onemin_sleep4: bcf oneminupdate ; all done return onesec_sleep: btfsc oneminupdate ; one minute in sleep? rcall onemin_sleep ; do one-minute tasks, e.g. calculate desaturation btfsc battery_gauge_available call get_battery_voltage ; Check for charger incf sm_timer1,F ; counts to #test_pressure_in_sleep (10) movlw d'10' cpfsgt sm_timer1 ; here: temp variable bra onesec_sleep1 ; #test_pressure_in_sleep not done yet clrf sm_timer1 ; clear counter rcall pressuretest_sleep_fast ; Gets pressure without averaging (faster!) ; compare current ambient pressure with wake_up_from_sleep movlw LOW wake_up_from_sleep movwf sub_a+0 ; power on if ambient pressure is greater threshold movlw HIGH wake_up_from_sleep movwf sub_a+1 ; power on if ambient pressure is greater threshold SAFE_2BYTE_COPY amb_pressure, sub_b call subU16 ; Is (1160mbar - averaged(amb_pressure)) < 0 ? btfsc neg_flag ; Wake up from Sleep? bra onesec_sleep1a ; Yes, skip button checks, wake up! btfsc battery_gauge_available bra onesec_sleep1 ; No wake-up with cR hardware btfsc vusb_in ; USB plugged in? bra onesec_sleep1a ; Yes, skip button checks, wake up! onesec_sleep1: bcf onesecupdate ; all done. ; Check switches btfsc switch_left bra onesec_sleep1a btfsc switch_right bra onesec_sleep1a ; No button pressed ; bcf INTCON,INT0IF ; Clear flag ; bcf INTCON3,INT1IF ; Clear flag return onesec_sleep1a: ; At least one button pressed or amb_pressure > wake_up_from_sleep ; bcf INTCON,INT0IF ; Clear flag ; bcf INTCON3,INT1IF ; Clear flag bcf sleepmode ; wake up! SAFE_2BYTE_COPY last_surfpressure_30min, amb_pressure ; copy for compatibility movlw .0 movff WREG,sensor_state_counter ; Reset sensor state counter bcf no_sensor_int ; normal sensor interrupt mode return pressuretest_sleep_fast: ; Get pressure without averaging (Faster to save some power in sleep mode) banksel isr_backup ; Back to Bank0 ISR data clrf amb_pressure_avg+0 ; pressure average registers clrf amb_pressure_avg+1 clrf temperature_avg+0 clrf temperature_avg+1 call get_temperature_start ; and start temperature integration (73,5us) banksel common rcall sleepmode_sleep ; Wait at least 35ms (every 62,5ms Timer7 wakeup) rcall sleepmode_sleep ; Wait at least 35ms (every 62,5ms Timer7 wakeup) banksel isr_backup ; Back to Bank0 ISR data call get_temperature_value ; State 1: Get temperature call get_pressure_start ; Start pressure integration. banksel common rcall sleepmode_sleep ; Wait at least 35ms (every 62,5ms Timer7 wakeup) rcall sleepmode_sleep ; Wait at least 35ms (every 62,5ms Timer7 wakeup) banksel isr_backup ; Back to Bank0 ISR data call get_pressure_value ; State2: Get pressure (51us) call calculate_compensation ; calculate temperature compensated pressure (27us) banksel common SAFE_2BYTE_COPY amb_pressure_avg, amb_pressure ; copy for compatibility return sleepmode_sleep: banksel 0xF16 ; Addresses, F16h through F5Fh, are also used by SFRs, but are not part of the Access RAM. clrf T7GCON ; Reset Timer7 Gate Control register movlw b'10001101' ; 1:1 Prescaler -> 2seconds@32768Hz, not synced movwf T7CON sleep sleep clrf T7GCON ; Reset Timer7 Gate Control register movlw b'10001001' ; 1:1 Prescaler -> 2seconds@32768Hz, synced movwf T7CON banksel common ; Bank1 return END