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1 ; OSTC - diving computer code
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2 ; Copyright (C) 2008 HeinrichsWeikamp GbR
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3
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4 ; This program is free software: you can redistribute it and/or modify
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5 ; it under the terms of the GNU General Public License as published by
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6 ; the Free Software Foundation, either version 3 of the License, or
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7 ; (at your option) any later version.
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8
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9 ; This program is distributed in the hope that it will be useful,
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10 ; but WITHOUT ANY WARRANTY; without even the implied warranty of
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11 ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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12 ; GNU General Public License for more details.
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13
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14 ; You should have received a copy of the GNU General Public License
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15 ; along with this program. If not, see <http://www.gnu.org/licenses/>.
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16
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17
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18 ; routines for Intersema MS5535A, MS5541B and MS5541C
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19 ; written by: Matthias Heinrichs, info@heinrichsweikamp.com
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20 ; written: 9/26/05
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21 ; last updated: 08/08/31
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22 ; known bugs:
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23 ; ToDo:
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24
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25 ; with second order temperature compensation
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26
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27 calculate_compensation:
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28 ; calculate xdT
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29 clrf isr_xA+1
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30 movlw d'8'
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31 movwf isr_xA+0
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32 movff C5+0,isr_xB+0
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33 movff C5+1,isr_xB+1
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34 call isr_mult16x16 ;isr_xA*isr_xB=isr_xC
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35 movlw LOW d'10000'
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36 addwf isr_xC+0, f
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37 movlw HIGH d'10000'
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38 addwfc isr_xC+1, f ;isr_xC= 8*C5 + 10000
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39 movff D2+0,isr_sub_a+0
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40 movff D2+1,isr_sub_a+1
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41 movff isr_xC+0,isr_sub_b+0
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42 movff isr_xC+1,isr_sub_b+1
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43 call isr_sub16 ; isr_sub_c = isr_sub_a - isr_sub_b
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44 movff isr_sub_c+0,xdT+0
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45 movff isr_sub_c+1,xdT+1
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46
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47 ; Second order temperature calculation
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48 btfsc neg_flag_isr
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49 bra dTzero_yes
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50 ; dT>0
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51 bcf neg_flag_xdT
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52 movff xdT+0,isr_xA+0
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53 movff xdT+1,isr_xA+1
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54 movff xdT+0,isr_xB+0
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55 movff xdT+1,isr_xB+1
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56 call isr_mult16x16 ;isr_xA*isr_xB=isr_xC
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57 movlw d'17' ; 2^17=(128*128)*8
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58 movwf isr_divB
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59 call isr_div32 ; isr_xC=isr_xC(32Bit)/2^isr_divB (isr_divB: 8Bit only!)
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60 movff xdT+0,isr_sub_a+0
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61 movff xdT+1,isr_sub_a+1
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62 movff isr_xC+0,isr_sub_b+0
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63 movff isr_xC+1,isr_sub_b+1
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64 call isr_sub16 ; isr_sub_c = isr_sub_a - isr_sub_b
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65 movff isr_sub_c+0,xdT2+0
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66 movff isr_sub_c+1,xdT2+1
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67 bra OFF_calc ; Done
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68
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69 dTzero_yes:
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70 ; dT<0
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71 bsf neg_flag_xdT
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72 movff xdT+0,isr_xA+0
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73 movff xdT+1,isr_xA+1
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74 movff xdT+0,isr_xB+0
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75 movff xdT+1,isr_xB+1
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76 call isr_mult16x16 ;isr_xA*isr_xB=isr_xC
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77 movlw d'15' ; 2^15=(128*128)*2
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78 movwf isr_divB
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79 call isr_div32 ; isr_xC=isr_xC(32Bit)/2^isr_divB (isr_divB: 8Bit only!)
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80
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81 movf xdT+0,W
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82 addwf isr_xC+0,F
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83 movf xdT+1,W
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84 addwfc isr_xC+1,F
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85 movff isr_xC+0,xdT2+0
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86 movff isr_xC+1,xdT2+1
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87
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88 OFF_calc:
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89 ; calculate OFF
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90 movff C4+0,isr_sub_a
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91 movff C4+1,isr_sub_a+1
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92 movlw d'250'
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93 movwf isr_sub_b
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94 clrf isr_sub_b+1
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95 call isr_sub16 ; (C4-250) - Sets neg_flag_isr!
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96 movff isr_sub_c,isr_xA
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97 movff isr_sub_c+1,isr_xA+1
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98 movff xdT+0,isr_xB
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99 movff xdT+0+1,isr_xB+1
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100 call isr_mult16x16 ; (C4-250)*dT
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101 movff isr_xC+0,isr_divA
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102 movff isr_xC+1,isr_divA+1
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103 movlw d'12'
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104 movwf isr_divB
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105 call isr_div16 ; [(C4-250)*dT]/2^12
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106 movff isr_divA+0,isr_xC+0
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107 movff isr_divA+1,isr_xC+1 ; isr_xC= {[(C4-250)*dT]/2^12}
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108 btfss neg_flag_isr ; neg_flag_isr=1?
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109 bra OFF_calc2 ; Yes, do C2 - isr_xC
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110 ; no, so do C2 + isr_xC
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111 movf C2+0,W
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112 addwf isr_xC+0, f
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113 movf C2+1,W
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114 addwfc isr_xC+1, f ; isr_xC= C2 + {[(C4-250)*dT/2^12]}
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115 OFF_calc3:
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116 movlw LOW d'10000'
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117 addwf isr_xC+0, f
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118 movlw HIGH d'10000'
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119 addwfc isr_xC+1, f ; isr_xC=[(C4-250)*dT/2^12] + 10000
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120 movff isr_xC+0,OFF+0
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121 movff isr_xC+1,OFF+1
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122 bra calculate_SENS ; Done with OFF
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123
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124 OFF_calc2:
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125 movff C2+0,isr_sub_a+0
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126 movff C2+1,isr_sub_a+1
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127 movff isr_xC+0,isr_sub_b+0
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128 movff isr_xC+1,isr_sub_b+1
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129 call isr_sub16 ; isr_sub_c = isr_sub_a - isr_sub_b
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130 ; isr_xC= C2 - {[(C4-250)*dT/2^12]}
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131 movff isr_sub_c+0,isr_xC+0
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132 movff isr_sub_c+1,isr_xC+1 ; Done with OFF
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133 bra OFF_calc3
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134
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135 calculate_SENS:
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136 movff C3+0, C3_temp+0
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137 movff C3+1, C3_temp+1
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138 movlw d'200'
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139 addwf C3_temp+0, f
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140 movlw d'0'
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141 addwfc C3_temp+1, f ; C3 no longer valid!
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142 movff C3_temp+0, isr_xA
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143 movff C3_temp+1, isr_xA+1
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144 movff xdT+0, isr_xB
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145 movff xdT+1, isr_xB+1
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146 call isr_mult16x16
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147 movff isr_xC+0,isr_divA
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148 movff isr_xC+1,isr_divA+1
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149 movlw d'13'
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150 movwf isr_divB
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151 call isr_div16
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152 movff isr_divA,SENS+0
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153 movff isr_divA+1,SENS+1
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154 movff C1+0,isr_divA
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155 movff C1+1,isr_divA+1
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156 movlw d'1'
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157 movwf isr_divB
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158 call isr_div16
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159 movf isr_divA,W
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160 addwf SENS+0, f
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161 movf isr_divA+1,W
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162 addwfc SENS+1, f
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163 movlw d'184'
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164 addwf SENS+0, f
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165 movlw d'11'
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166 addwfc SENS+1, f
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167
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168 ; calculate amb_pressure
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169 movff D1+0,isr_sub_a
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170 movff D1+1,isr_sub_a+1
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171 movff OFF+0,isr_sub_b
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172 movff OFF+1,isr_sub_b+1
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173 call isr_sub16
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174 movff isr_sub_c,isr_xA
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175 movff isr_sub_c+1,isr_xA+1
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176 movff SENS+0,isr_xB
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177 movff SENS+1,isr_xB+1
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178 call isr_mult16x16
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179 movlw d'12'
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180 movwf isr_divB
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181 call isr_div32
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182 btfsc neg_flag_isr ; invert isr_xC+0 and isr_xC+1
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183 call isr_invert_xC
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184 movlw LOW d'1000'
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185 addwf isr_xC+0, f
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186 movlw HIGH d'1000'
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187 addwfc isr_xC+1, f
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188 movff isr_xC+0,amb_pressure+0
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189 movff isr_xC+1,amb_pressure+1
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190
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191 btfss simulatormode_active ; are we in simulator mode?
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192 bra calc_pressure_done ; no
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193
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194 movff sim_pressure+0,amb_pressure+0 ; override readings with simulator values
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195 movff sim_pressure+1,amb_pressure+1
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196
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197 calc_pressure_done:
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198
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199 ; calculate temp
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200 movff C6+0, C3_temp+0
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201 movff C6+1, C3_temp+1
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202 movlw d'100'
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203 addwf C3_temp+0, f
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204 movlw d'0'
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205 addwfc C3_temp+1, f
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206 movff C3_temp+0,isr_xA+0
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207 movff C3_temp+1,isr_xA+1
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208 movff xdT2+0,isr_xB+0
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209 movff xdT2+1,isr_xB+1
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210 call isr_mult16x16
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211 movlw d'11'
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212 movwf isr_divB
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213 call isr_div32
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214 bcf neg_temp ; Temperatur positive
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215
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216 btfsc neg_flag_xdT ; was xdT negative?
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217 bra neg_sub_temp ; yes, 200 - dT*(....
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218 ; No, 200 + dT*(....
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219 ; movf temperature_correction,W
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220 ; addlw d'200'
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221 ; btfsc STATUS,C
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222 ; incf isr_xC+1,F
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223
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224 movlw d'200'
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225 addwf isr_xC+0, f
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226 movlw d'0'
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227 addwfc isr_xC+1, f
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228 movff isr_xC+0,temperature+0
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229 movff isr_xC+1,temperature+1
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230 return ; done
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231
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232 neg_sub_temp: ; 200 - dT*(....
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233 ; movf temperature_correction,W
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234 ; addlw d'200'
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235 ; btfsc STATUS,C
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236 ; decf isr_xC+1,F
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237
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238 movlw d'200'
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239 neg_sub_temp3:
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240 movwf isr_sub_a+0
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241 clrf isr_sub_a+1
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242 movff isr_xC+0, isr_sub_b+0
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243 movff isr_xC+1, isr_sub_b+1
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244 call isr_sub16 ; isr_sub_c = isr_sub_a - isr_sub_b
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245 btfsc neg_flag_isr ; below zero?
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246 bsf neg_temp ; temperature negative!
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247
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248 movff isr_sub_c+0,temperature+0
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249 movff isr_sub_c+1,temperature+1
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250 return ; Fertig mit allem
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251
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252
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253 get_pressure_start:
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254 rcall reset_MS5535A
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255 movlw b'10100000' ;+3*high as start and 1+low as stop!
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256 get_pressure_start2:
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257 movwf isr1_temp
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258 movlw d'12'
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259 movwf clock_count
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260 rcall send_data_MS55535A
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261 return
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262
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263 get_pressure_value:
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264 rcall get_2bytes_MS5535A
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265 movff dMSB,D1+1
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266 movff dLSB,D1+0
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267 return
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268
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269 get_temperature_start:
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270 rcall reset_MS5535A
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271 movlw b'10010000' ;+3*high as start and 1+low as stop!
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272 bra get_pressure_start2 ; continue in "get_pressure"
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273
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274 get_temperature_value:
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275 rcall get_2bytes_MS5535A
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276 movff dMSB,D2+1
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277 movff dLSB,D2+0
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278 return
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279
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280 get_calibration_data:
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281 ; ; read addional temperature correction from internal EEPROM 0x100
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282 ; bsf no_sensor_int ; No sensor interupt!
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283 ; clrf temperature_correction ; clear compensation value
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284 ; movlw LOW 0x100
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285 ; movwf EEADR
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286 ; movlw HIGH 0x100
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287 ; movwf EEADRH
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288 ; call read_eeprom
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289 ; clrf EEADRH ; Only 256Bytes used in normal program
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290 ; movlw d'200' ; limit value
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291 ; cpfsgt EEDATA ; EEDATA>200?
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292 ; movff EEDATA, temperature_correction ; No, Store for compensation
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293 ;
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294 rcall reset_MS5535A
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295 movlw d'13'
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296 movwf clock_count
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297 movlw b'01010100' ;+3*high as start and 1+low as stop!
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298 movwf isr1_temp
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299 rcall send_data_MS55535A
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300 rcall get_2bytes_MS5535A
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301 movff dMSB,W1+1
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302 movff dLSB,W1+0
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303
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304 movlw d'13'
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305 movwf clock_count
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306 movlw b'01011000' ;+3*high as start and 1+low as stop!
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307 movwf isr1_temp
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308 rcall send_data_MS55535A
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309 rcall get_2bytes_MS5535A
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310 movff dMSB,W2+1
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311 movff dLSB,W2+0
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312
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313 movlw d'13'
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314 movwf clock_count
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315 movlw b'01100100' ;+3*high as start and 1+low as stop!
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316 movwf isr1_temp
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317 rcall send_data_MS55535A
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318 rcall get_2bytes_MS5535A
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319 movff dMSB,W3+1
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320 movff dLSB,W3+0
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321
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322 movlw d'13'
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323 movwf clock_count
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324 movlw b'01101000' ;+3*high as start and 1+low as stop!
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325 movwf isr1_temp
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326 rcall send_data_MS55535A
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327 rcall get_2bytes_MS5535A
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328 movff dMSB,W4+1
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329 movff dLSB,W4+0
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330
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331 ; calculate C1 (16Bit)
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332 movff W1+1, C1+1
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333 bcf STATUS,C
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334 rrcf C1+1
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335 bcf STATUS,C
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336 rrcf C1+1
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337 bcf STATUS,C
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338 rrcf C1+1
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339 movff W1+0, C1+0
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340 bsf STATUS,C
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341 btfss W1+1,0
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342 bcf STATUS,C
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343 rrcf C1+0
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344 bsf STATUS,C
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345 btfss W1+1,1
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346 bcf STATUS,C
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347 rrcf C1+0
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348 bsf STATUS,C
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349 btfss W1+1,2
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350 bcf STATUS,C
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351 rrcf C1+0
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352
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353 ; calculate C2 (16Bit)
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354 movff W2+0, C2+0
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355 bsf STATUS,C
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356 btfss W2+1,0
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357 bcf STATUS,C
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358 rrcf C2+0
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359 bsf STATUS,C
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360 btfss W2+1,1
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361 bcf STATUS,C
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362 rrcf C2+0
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363 bsf STATUS,C
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364 btfss W2+1,2
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365 bcf STATUS,C
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366 rrcf C2+0
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367 bsf STATUS,C
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368 btfss W2+1,3
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369 bcf STATUS,C
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370 rrcf C2+0
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371 bsf STATUS,C
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372 btfss W2+1,4
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373 bcf STATUS,C
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374 rrcf C2+0
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375 bsf STATUS,C
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376 btfss W2+1,5
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377 bcf STATUS,C
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378 rrcf C2+0
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379
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380 movff W2+1, C2+1
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381 bsf STATUS,C
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382 btfss W1+0,0
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383 bcf STATUS,C
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384 rrcf C2+1
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385 bsf STATUS,C
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386 btfss W1+0,1
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387 bcf STATUS,C
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388 rrcf C2+1
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389 bsf STATUS,C
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390 btfss W1+0,2
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391 bcf STATUS,C
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392 rrcf C2+1
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393 bcf STATUS,C
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394 rrcf C2+1
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395 bcf STATUS,C
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396 rrcf C2+1
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397 bcf STATUS,C
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398 rrcf C2+1
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399
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400 ; calculate C3 (16Bit)
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401 movff W3+1,C3+0
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402 bsf STATUS,C
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403 btfss W3+0,7
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404 bcf STATUS,C
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405 rlcf C3+0
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406 bsf STATUS,C
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407 btfss W3+0,6
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408 bcf STATUS,C
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409 rlcf C3+0
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410 clrf C3+1
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411 btfsc W3+1,7
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412 bsf C3+1,1
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413 btfsc W3+1,6
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414 bsf C3+1,0
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415
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416 ; calculate C4 (16Bit)
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417 movff W4+1,C4+0
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418 bsf STATUS,C
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419 btfss W4+0,7
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420 bcf STATUS,C
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421 rlcf C4+0
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422 clrf C4+1
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423 btfsc W4+1,7
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424 bsf C4+1,0
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425
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426 ; calculate C5 (16Bit)
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427 movff W3+0,C5+0
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428 bcf C5+0,6
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429 btfsc W2+0,0
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430 bsf C5+0,6
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431 bcf C5+0,7
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432 btfsc W2+0,1
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433 bsf C5+0,7
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434 clrf C5+1
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435 btfsc W2+0,2
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436 bsf C5+1,0
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437 btfsc W2+0,3
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438 bsf C5+1,1
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439 btfsc W2+0,4
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440 bsf C5+1,2
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441 btfsc W2+0,5
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442 bsf C5+1,3
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|
443
|
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444 ; calculate C6 (16Bit)
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445 clrf C6+1
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446 movff W4+0,C6+0
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447 bcf C6+0,7
|
|
448
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449 bcf no_sensor_int ; enable sensor interrupts
|
|
450 return
|
|
451
|
|
452 reset_MS5535A_one:
|
|
453 bsf sensor_SDO
|
|
454 nop
|
|
455 bsf sensor_CLK
|
|
456 nop
|
|
457 nop
|
|
458 nop
|
|
459 nop
|
|
460 nop
|
|
461 nop
|
|
462 bcf sensor_CLK
|
|
463 return
|
|
464
|
|
465 reset_MS5535A_zero:
|
|
466 bcf sensor_SDO
|
|
467 nop
|
|
468 bsf sensor_CLK
|
|
469 nop
|
|
470 nop
|
|
471 nop
|
|
472 nop
|
|
473 nop
|
|
474 nop
|
|
475 bcf sensor_CLK
|
|
476 return
|
|
477
|
|
478 reset_MS5535A:
|
|
479 rcall reset_MS5535A_one ;0
|
|
480 rcall reset_MS5535A_zero
|
|
481 rcall reset_MS5535A_one
|
|
482 rcall reset_MS5535A_zero
|
|
483 rcall reset_MS5535A_one
|
|
484 rcall reset_MS5535A_zero
|
|
485 rcall reset_MS5535A_one
|
|
486 rcall reset_MS5535A_zero
|
|
487 rcall reset_MS5535A_one
|
|
488 rcall reset_MS5535A_zero
|
|
489 rcall reset_MS5535A_one
|
|
490 rcall reset_MS5535A_zero
|
|
491 rcall reset_MS5535A_one
|
|
492 rcall reset_MS5535A_zero
|
|
493 rcall reset_MS5535A_one
|
|
494 rcall reset_MS5535A_zero ;15
|
|
495 rcall reset_MS5535A_zero
|
|
496 rcall reset_MS5535A_zero
|
|
497 rcall reset_MS5535A_zero
|
|
498 rcall reset_MS5535A_zero
|
|
499 rcall reset_MS5535A_zero ;20
|
|
500 return
|
|
501
|
|
502 get_2bytes_MS5535A:
|
|
503 movlw d'8'
|
|
504 movwf clock_count
|
|
505 rcall recieve_loop
|
|
506 movff isr1_temp,dMSB
|
|
507
|
|
508 movlw d'8'
|
|
509 movwf clock_count
|
|
510 rcall recieve_loop
|
|
511 movff isr1_temp,dLSB
|
|
512 bsf sensor_CLK
|
|
513 nop
|
|
514 nop
|
|
515 nop
|
|
516 nop
|
|
517 nop
|
|
518 nop
|
|
519 bcf sensor_CLK
|
|
520 return
|
|
521
|
|
522 recieve_loop:
|
|
523 bsf sensor_CLK
|
|
524 nop
|
|
525 nop
|
|
526 nop
|
|
527 nop
|
|
528 nop
|
|
529 nop
|
|
530 bcf sensor_CLK
|
|
531 btfss sensor_SDI ;MSB first
|
|
532 bcf STATUS,C
|
|
533 btfsc sensor_SDI ;MSB first
|
|
534 bsf STATUS,C
|
|
535 rlcf isr1_temp,F
|
|
536 decfsz clock_count,F
|
|
537 bra recieve_loop
|
|
538 return
|
|
539
|
|
540
|
|
541 send_data_MS55535A:
|
|
542 ; send three startbits first
|
|
543 bcf sensor_CLK
|
|
544 bsf sensor_SDO
|
|
545 movlw d'3'
|
|
546 subwf clock_count,F ; total bit counter
|
|
547 bsf sensor_CLK
|
|
548 nop
|
|
549 nop
|
|
550 nop
|
|
551 nop
|
|
552 nop
|
|
553 nop
|
|
554 bcf sensor_CLK
|
|
555 nop
|
|
556 nop
|
|
557 nop
|
|
558 nop
|
|
559 nop
|
|
560 nop
|
|
561 bsf sensor_CLK
|
|
562 nop
|
|
563 nop
|
|
564 nop
|
|
565 nop
|
|
566 nop
|
|
567 nop
|
|
568 bcf sensor_CLK
|
|
569 nop
|
|
570 nop
|
|
571 nop
|
|
572 nop
|
|
573 nop
|
|
574 nop
|
|
575 bsf sensor_CLK
|
|
576 nop
|
|
577 nop
|
|
578 nop
|
|
579 nop
|
|
580 nop
|
|
581 nop
|
|
582 bcf sensor_CLK
|
|
583 ; now send 8 bytes from isr_temp1 and fill-up with zeros
|
|
584 datenbits:
|
|
585 btfss isr1_temp,7 ;MSB first
|
|
586 bcf sensor_SDO
|
|
587 btfsc isr1_temp,7 ;MSB first
|
|
588 bsf sensor_SDO
|
|
589 bcf STATUS,C
|
|
590 rlcf isr1_temp
|
|
591
|
|
592 bsf sensor_CLK
|
|
593 nop
|
|
594 nop
|
|
595 nop
|
|
596 nop
|
|
597 nop
|
|
598 nop
|
|
599 bcf sensor_CLK
|
|
600
|
|
601 decfsz clock_count,F
|
|
602 bra datenbits
|
|
603 return
|