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view code_part1/OSTC_code_asm_part1/ms5535.asm @ 154:a52ba692ad7f
charger test
author | heinrichsweikamp |
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date | Fri, 14 Jan 2011 17:54:41 +0100 |
parents | 3e351e25f5d1 |
children | 8d6aca08f66b |
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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 Intersema MS5535A, MS5541B and MS5541C ; written by: Matthias Heinrichs, info@heinrichsweikamp.com ; written: 9/26/05 ; last updated: 08/08/31 ; known bugs: ; ToDo: ; with second order temperature compensation calculate_compensation: ; calculate xdT clrf isr_xA+1 movlw d'8' movwf isr_xA+0 movff C5+0,isr_xB+0 movff C5+1,isr_xB+1 call isr_mult16x16 ;isr_xA*isr_xB=isr_xC movlw LOW d'10000' addwf isr_xC+0, f movlw HIGH d'10000' addwfc isr_xC+1, f ;isr_xC= 8*C5 + 10000 movff D2+0,isr_sub_a+0 movff D2+1,isr_sub_a+1 movff isr_xC+0,isr_sub_b+0 movff isr_xC+1,isr_sub_b+1 call isr_sub16 ; isr_sub_c = isr_sub_a - isr_sub_b movff isr_sub_c+0,xdT+0 movff isr_sub_c+1,xdT+1 ; Second order temperature calculation btfsc neg_flag_isr bra dTzero_yes ; dT>0 bcf neg_flag_xdT movff xdT+0,isr_xA+0 movff xdT+1,isr_xA+1 movff xdT+0,isr_xB+0 movff xdT+1,isr_xB+1 call isr_mult16x16 ;isr_xA*isr_xB=isr_xC movlw d'17' ; 2^17=(128*128)*8 movwf isr_divB call isr_div32 ; isr_xC=isr_xC(32Bit)/2^isr_divB (isr_divB: 8Bit only!) movff xdT+0,isr_sub_a+0 movff xdT+1,isr_sub_a+1 movff isr_xC+0,isr_sub_b+0 movff isr_xC+1,isr_sub_b+1 call isr_sub16 ; isr_sub_c = isr_sub_a - isr_sub_b movff isr_sub_c+0,xdT2+0 movff isr_sub_c+1,xdT2+1 bra OFF_calc ; Done dTzero_yes: ; dT<0 bsf neg_flag_xdT movff xdT+0,isr_xA+0 movff xdT+1,isr_xA+1 movff xdT+0,isr_xB+0 movff xdT+1,isr_xB+1 call isr_mult16x16 ;isr_xA*isr_xB=isr_xC movlw d'15' ; 2^15=(128*128)*2 movwf isr_divB call isr_div32 ; isr_xC=isr_xC(32Bit)/2^isr_divB (isr_divB: 8Bit only!) movf xdT+0,W addwf isr_xC+0,F movf xdT+1,W addwfc isr_xC+1,F movff isr_xC+0,xdT2+0 movff isr_xC+1,xdT2+1 OFF_calc: ; calculate OFF movff C4+0,isr_sub_a movff C4+1,isr_sub_a+1 movlw d'250' movwf isr_sub_b clrf isr_sub_b+1 call isr_sub16 ; (C4-250) - Sets neg_flag_isr! movff isr_sub_c,isr_xA movff isr_sub_c+1,isr_xA+1 movff xdT+0,isr_xB movff xdT+0+1,isr_xB+1 call isr_mult16x16 ; (C4-250)*dT movff isr_xC+0,isr_divA movff isr_xC+1,isr_divA+1 movlw d'12' movwf isr_divB call isr_div16 ; [(C4-250)*dT]/2^12 movff isr_divA+0,isr_xC+0 movff isr_divA+1,isr_xC+1 ; isr_xC= {[(C4-250)*dT]/2^12} btfss neg_flag_isr ; neg_flag_isr=1? bra OFF_calc2 ; Yes, do C2 - isr_xC ; no, so do C2 + isr_xC movf C2+0,W addwf isr_xC+0, f movf C2+1,W addwfc isr_xC+1, f ; isr_xC= C2 + {[(C4-250)*dT/2^12]} OFF_calc3: movlw LOW d'10000' addwf isr_xC+0, f movlw HIGH d'10000' addwfc isr_xC+1, f ; isr_xC=[(C4-250)*dT/2^12] + 10000 movff isr_xC+0,OFF+0 movff isr_xC+1,OFF+1 bra calculate_SENS ; Done with OFF OFF_calc2: movff C2+0,isr_sub_a+0 movff C2+1,isr_sub_a+1 movff isr_xC+0,isr_sub_b+0 movff isr_xC+1,isr_sub_b+1 call isr_sub16 ; isr_sub_c = isr_sub_a - isr_sub_b ; isr_xC= C2 - {[(C4-250)*dT/2^12]} movff isr_sub_c+0,isr_xC+0 movff isr_sub_c+1,isr_xC+1 ; Done with OFF bra OFF_calc3 calculate_SENS: movff C3+0, C3_temp+0 movff C3+1, C3_temp+1 movlw d'200' addwf C3_temp+0, f movlw d'0' addwfc C3_temp+1, f ; C3 no longer valid! movff C3_temp+0, isr_xA movff C3_temp+1, isr_xA+1 movff xdT+0, isr_xB movff xdT+1, isr_xB+1 call isr_mult16x16 movff isr_xC+0,isr_divA movff isr_xC+1,isr_divA+1 movlw d'13' movwf isr_divB call isr_div16 movff isr_divA,SENS+0 movff isr_divA+1,SENS+1 movff C1+0,isr_divA movff C1+1,isr_divA+1 movlw d'1' movwf isr_divB call isr_div16 movf isr_divA,W addwf SENS+0, f movf isr_divA+1,W addwfc SENS+1, f movlw d'184' addwf SENS+0, f movlw d'11' addwfc SENS+1, f ; calculate amb_pressure movff D1+0,isr_sub_a movff D1+1,isr_sub_a+1 movff OFF+0,isr_sub_b movff OFF+1,isr_sub_b+1 call isr_sub16 movff isr_sub_c,isr_xA movff isr_sub_c+1,isr_xA+1 movff SENS+0,isr_xB movff SENS+1,isr_xB+1 call isr_mult16x16 movlw d'12' movwf isr_divB call isr_div32 btfsc neg_flag_isr ; invert isr_xC+0 and isr_xC+1 call isr_invert_xC movlw LOW d'1000' addwf isr_xC+0, f movlw HIGH d'1000' addwfc isr_xC+1, f movff isr_xC+0,amb_pressure+0 movff isr_xC+1,amb_pressure+1 btfss simulatormode_active ; are we in simulator mode? bra calc_pressure_done ; no movff sim_pressure+0,amb_pressure+0 ; override readings with simulator values movff sim_pressure+1,amb_pressure+1 calc_pressure_done: ; calculate temp movff C6+0, C3_temp+0 movff C6+1, C3_temp+1 movlw d'100' addwf C3_temp+0, f movlw d'0' addwfc C3_temp+1, f movff C3_temp+0,isr_xA+0 movff C3_temp+1,isr_xA+1 movff xdT2+0,isr_xB+0 movff xdT2+1,isr_xB+1 call isr_mult16x16 movlw d'11' movwf isr_divB call isr_div32 bcf neg_temp ; Temperatur positive btfsc neg_flag_xdT ; was xdT negative? bra neg_sub_temp ; yes, 200 - dT*(.... ; No, 200 + dT*(.... ; movf temperature_correction,W ; addlw d'200' ; btfsc STATUS,C ; incf isr_xC+1,F movlw d'200' addwf isr_xC+0, f movlw d'0' addwfc isr_xC+1, f movff isr_xC+0,temperature+0 movff isr_xC+1,temperature+1 return ; done neg_sub_temp: ; 200 - dT*(.... ; movf temperature_correction,W ; addlw d'200' ; btfsc STATUS,C ; decf isr_xC+1,F movlw d'200' neg_sub_temp3: movwf isr_sub_a+0 clrf isr_sub_a+1 movff isr_xC+0, isr_sub_b+0 movff isr_xC+1, isr_sub_b+1 call isr_sub16 ; isr_sub_c = isr_sub_a - isr_sub_b btfsc neg_flag_isr ; below zero? bsf neg_temp ; temperature negative! movff isr_sub_c+0,temperature+0 movff isr_sub_c+1,temperature+1 return ; Fertig mit allem get_pressure_start: rcall reset_MS5535A movlw b'10100000' ;+3*high as start and 1+low as stop! get_pressure_start2: movwf isr1_temp movlw d'12' movwf clock_count rcall send_data_MS55535A return get_pressure_value: #ifndef TESTING ; Use register injection instead when in MPLab Sim emulation... rcall get_2bytes_MS5535A movff dMSB,D1+1 movff dLSB,D1+0 #endif return get_temperature_start: rcall reset_MS5535A movlw b'10010000' ;+3*high as start and 1+low as stop! bra get_pressure_start2 ; continue in "get_pressure" get_temperature_value: #ifndef TESTING ; Use register injection instead... rcall get_2bytes_MS5535A movff dMSB,D2+1 movff dLSB,D2+0 #endif return get_calibration_data: ; ; read addional temperature correction from internal EEPROM 0x100 ; bsf no_sensor_int ; No sensor interupt! ; clrf temperature_correction ; clear compensation value ; movlw LOW 0x100 ; movwf EEADR ; movlw HIGH 0x100 ; movwf EEADRH ; call read_eeprom ; clrf EEADRH ; Only 256Bytes used in normal program ; movlw d'200' ; limit value ; cpfsgt EEDATA ; EEDATA>200? ; movff EEDATA, temperature_correction ; No, Store for compensation ; rcall reset_MS5535A movlw d'13' movwf clock_count movlw b'01010100' ;+3*high as start and 1+low as stop! movwf isr1_temp rcall send_data_MS55535A rcall get_2bytes_MS5535A movff dMSB,W1+1 movff dLSB,W1+0 movlw d'13' movwf clock_count movlw b'01011000' ;+3*high as start and 1+low as stop! movwf isr1_temp rcall send_data_MS55535A rcall get_2bytes_MS5535A movff dMSB,W2+1 movff dLSB,W2+0 movlw d'13' movwf clock_count movlw b'01100100' ;+3*high as start and 1+low as stop! movwf isr1_temp rcall send_data_MS55535A rcall get_2bytes_MS5535A movff dMSB,W3+1 movff dLSB,W3+0 movlw d'13' movwf clock_count movlw b'01101000' ;+3*high as start and 1+low as stop! movwf isr1_temp rcall send_data_MS55535A rcall get_2bytes_MS5535A movff dMSB,W4+1 movff dLSB,W4+0 ; calculate C1 (16Bit) movff W1+1, C1+1 bcf STATUS,C rrcf C1+1 bcf STATUS,C rrcf C1+1 bcf STATUS,C rrcf C1+1 movff W1+0, C1+0 bsf STATUS,C btfss W1+1,0 bcf STATUS,C rrcf C1+0 bsf STATUS,C btfss W1+1,1 bcf STATUS,C rrcf C1+0 bsf STATUS,C btfss W1+1,2 bcf STATUS,C rrcf C1+0 ; calculate C2 (16Bit) movff W2+0, C2+0 bsf STATUS,C btfss W2+1,0 bcf STATUS,C rrcf C2+0 bsf STATUS,C btfss W2+1,1 bcf STATUS,C rrcf C2+0 bsf STATUS,C btfss W2+1,2 bcf STATUS,C rrcf C2+0 bsf STATUS,C btfss W2+1,3 bcf STATUS,C rrcf C2+0 bsf STATUS,C btfss W2+1,4 bcf STATUS,C rrcf C2+0 bsf STATUS,C btfss W2+1,5 bcf STATUS,C rrcf C2+0 movff W2+1, C2+1 bsf STATUS,C btfss W1+0,0 bcf STATUS,C rrcf C2+1 bsf STATUS,C btfss W1+0,1 bcf STATUS,C rrcf C2+1 bsf STATUS,C btfss W1+0,2 bcf STATUS,C rrcf C2+1 bcf STATUS,C rrcf C2+1 bcf STATUS,C rrcf C2+1 bcf STATUS,C rrcf C2+1 ; calculate C3 (16Bit) movff W3+1,C3+0 bsf STATUS,C btfss W3+0,7 bcf STATUS,C rlcf C3+0 bsf STATUS,C btfss W3+0,6 bcf STATUS,C rlcf C3+0 clrf C3+1 btfsc W3+1,7 bsf C3+1,1 btfsc W3+1,6 bsf C3+1,0 ; calculate C4 (16Bit) movff W4+1,C4+0 bsf STATUS,C btfss W4+0,7 bcf STATUS,C rlcf C4+0 clrf C4+1 btfsc W4+1,7 bsf C4+1,0 ; calculate C5 (16Bit) movff W3+0,C5+0 bcf C5+0,6 btfsc W2+0,0 bsf C5+0,6 bcf C5+0,7 btfsc W2+0,1 bsf C5+0,7 clrf C5+1 btfsc W2+0,2 bsf C5+1,0 btfsc W2+0,3 bsf C5+1,1 btfsc W2+0,4 bsf C5+1,2 btfsc W2+0,5 bsf C5+1,3 ; calculate C6 (16Bit) clrf C6+1 movff W4+0,C6+0 bcf C6+0,7 bcf no_sensor_int ; enable sensor interrupts return reset_MS5535A_one: bsf sensor_SDO nop bsf sensor_CLK nop nop nop nop nop nop bcf sensor_CLK return reset_MS5535A_zero: bcf sensor_SDO nop bsf sensor_CLK nop nop nop nop nop nop bcf sensor_CLK return reset_MS5535A: rcall reset_MS5535A_one ;0 rcall reset_MS5535A_zero rcall reset_MS5535A_one rcall reset_MS5535A_zero rcall reset_MS5535A_one rcall reset_MS5535A_zero rcall reset_MS5535A_one rcall reset_MS5535A_zero rcall reset_MS5535A_one rcall reset_MS5535A_zero rcall reset_MS5535A_one rcall reset_MS5535A_zero rcall reset_MS5535A_one rcall reset_MS5535A_zero rcall reset_MS5535A_one rcall reset_MS5535A_zero ;15 rcall reset_MS5535A_zero rcall reset_MS5535A_zero rcall reset_MS5535A_zero rcall reset_MS5535A_zero rcall reset_MS5535A_zero ;20 return get_2bytes_MS5535A: movlw d'8' movwf clock_count rcall recieve_loop movff isr1_temp,dMSB movlw d'8' movwf clock_count rcall recieve_loop movff isr1_temp,dLSB bsf sensor_CLK nop nop nop nop nop nop bcf sensor_CLK return recieve_loop: bsf sensor_CLK nop nop nop nop nop nop bcf sensor_CLK btfss sensor_SDI ;MSB first bcf STATUS,C btfsc sensor_SDI ;MSB first bsf STATUS,C rlcf isr1_temp,F decfsz clock_count,F bra recieve_loop return send_data_MS55535A: ; send three startbits first bcf sensor_CLK bsf sensor_SDO movlw d'3' subwf clock_count,F ; total bit counter bsf sensor_CLK nop nop nop nop nop nop bcf sensor_CLK nop nop nop nop nop nop bsf sensor_CLK nop nop nop nop nop nop bcf sensor_CLK nop nop nop nop nop nop bsf sensor_CLK nop nop nop nop nop nop bcf sensor_CLK ; now send 8 bytes from isr_temp1 and fill-up with zeros datenbits: btfss isr1_temp,7 ;MSB first bcf sensor_SDO btfsc isr1_temp,7 ;MSB first bsf sensor_SDO bcf STATUS,C rlcf isr1_temp bsf sensor_CLK nop nop nop nop nop nop bcf sensor_CLK decfsz clock_count,F bra datenbits return