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Thema: Bascom 1.11.7.4 und Bascom 1.11.8.3

  1. #1
    Erfahrener Benutzer Fleißiges Mitglied
    Registriert seit
    22.12.2006
    Beiträge
    109

    Bascom 1.11.7.4 und Bascom 1.11.8.3

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    Praxistest und DIY Projekte
    Einen schönen guten Morgen.

    Kann mir jemand bitte helfen warum folgender Code mit der Bascom Demo 1.11.8.3 ohne Fehler compiliert wird und bei der Version 1.11.7.4 Demo folgender Fehler beim compilieren auftritt.

    Hier der Code. Der größte Teil des Codes habe ich hier im Forum gefunden und dann zusammengesetzt mit ein paar kleinen Anpassungen.

    Als Fehler wird angezeigt:
    Zeile 65 Cant find HW-register DDR0
    Zeile 66 Cant find HW-register DDR1
    Zeile 67 Cant find HW-register DDR2
    Zeile 68 Cant find HW-register DDR3
    [code]
    $regfile = "m8def.dat"
    $crystal = 3686400
    $baud = 115200
    '************************************************* ******************************
    'Portb.0 Brenner Ein/Aus
    'Portb.1 Pumpe Ein/Aus
    'Portb.2 Pumpe Ein/Aus
    'Portb.3 Pumpe Ein/Aus
    'Portb.4 Pumpe Ein/Aus
    'Portb.5 Pumpe Ein/Aus
    '***************************Definition allgemeiner Variabeln********************
    Dim J As Byte
    Dim Relais( As Byte
    Dim Tagnacht As Bit
    Dim Zeitinmin As Integer
    'Dim Testzeit As Integer
    'Testzeit = 21
    '***************************Config LCD-Display**********************************
    Config Lcd = 16 * 2
    Config Lcdpin = Pin , Rs = Portd.2 , E = Portd.3 , Db4 = Portd.4 , Db5 = Portd.5 , Db6 = Portd.6 , Db7 = Portd.7
    Config Lcdbus = 4
    Config Lcdmode = Port
    '***************************Config Schaltausgänge*******************************
    Config Portb = Output
    'Config Portb.0 = Output
    'Config Portb.1 = Output
    'Config Portb.2 = Output
    '*************************Config Timer1*****************************************
    Config Timer1 = Timer , Prescale = 64 '256 'Konfiguriere Timer1
    Enable Timer1 'schalte den Timer1 ein
    On Timer1 Isr_von_timer1 'verzweige bei Timer1 überlauf zu Isr_von_Timer1
    Enable Interrupts
    Timer1 = 51135 'Timer1 soll schon von 34285 wegzählen
    '***************************Config RTC******************************************
    Config Sda = Portc.4
    Config Scl = Portc.5

    Const Ds1307w = &HD0 ' Addresses of Ds1307 clock
    Const Ds1307r = &HD1

    Config Clock = User ' this will dim the bytes automatic
    Dim Weekday As Byte

    'Time$ = "19:07:00" ' to watch the day changing value
    'Date$ = "13.10.07" ' erstmaliges stellen der Uhr
    '***************************Config 1Wire****************************************
    Config 1wire = Portb.3 ' DS1820 on pin 12 (pull up)

    Declare Sub Read1820
    Declare Sub Crcit
    Declare Sub Temperature

    Dim Bd(9) As Byte
    Dim I As Byte , Tmp As Byte
    Dim Crc As Byte
    Dim T As Integer , Temp As Single
    Dim V As Byte

    Deflcdchar 0 , 6 , 9 , 9 , 6 , 32 , 32 , 32 , 32 ' replace ? with number (0-7)
    Cursor Off Noblink
    Cls
    '***************************Config AD-Wandler***********************************
    Config Adc = Single , Prescaler = Auto
    Start Adc
    Config Portc.0 = Input
    Config Portc.1 = Input
    Config Portc.2 = Input
    Config Portc.3 = Input
    Dim Ad As Integer
    Dim Sp As Single
    Dim Temp_ad( As Single
    '***************************Hauptprogramm********* ******************************
    Do
    Temperature
    Waitms 250
    Gosub Anzeigetime
    Gosub Ad_wandler
    Gosub Anzeigeadwandler
    Gosub Schalterelais
    Waitms 1000
    Loop
    End
    '*************************Anzeige AD_Wandler************************************
    Anzeigeadwandler:
    Locate 2 , 1
    Lcd "Tk ="
    For J = 1 To 4
    Locate 2 , 3
    Lcd J
    Locate 2 , 7
    Lcd Fusing(temp_ad(j) , "##.##")
    Waitms 1500
    Next J
    Return
    '*************************Sub AnzeigeTime***************************************
    Anzeigetime:
    Locate 1 , 1
    Lcd Time$
    'Locate 1 , 1
    'Lcd Date$ ;
    'Waitms 1000
    Return
    '**************************Sub AD_Wanlder***************************************
    Ad_wandler:
    For J = 1 To 4
    Ad = J - 1
    Ad = Getadc(ad)
    Sp = Ad * 0.51
    If Temp_ad(j) > 100 Then
    Temp_ad(j) = 999.99
    Else
    Temp_ad(j) = Sp - 272
    End If
    Waitms 10
    Next I
    Ad = Getadc(4)
    Temp_ad(3) = Temp_ad(3) - 3.5
    Return

    '**************************Subroutine für Timer1********************************
    Isr_von_timer1: 'ISR von Timer1
    Timer1 = 51135
    If _hour >= 20 Then 'Sp > 2 Then 'Timer1 soll wieder von 34285 wegzählen
    Tagnacht = 0
    End If
    If _hour >= 2 And _hour < 20 Then
    Tagnacht = 1
    End If
    Zeitinmin = _hour * 60
    Zeitinmin = Zeitinmin + _min
    Return
    '*************************Sub Relais schalten***********************************
    Schalterelais:
    Select Case Tagnacht
    Case 1
    Gosub Tagbetrieb
    Case 0
    Gosub Nachtbetrieb
    End Select
    Return
    '**************************Sub für Tagbetrieb***********************************
    Tagbetrieb:
    Portb.0 = 1 'Brenner
    Portb.1 = 1 'Pumpe
    Return
    '**************************Sub für Nachtbetrieb*********************************
    Nachtbetrieb:
    Portb.0 = 0
    If Zeitinmin > 1200 And Zeitinmin < 1245 Then
    Portb.1 = 1
    Else
    Portb.1 = 0
    End If
    If Temp_ad(3) > 21.1 Then
    Portb.0 = 0
    Portb.1 = 0
    Else
    Portb.0 = 1
    Portb.1 = 1
    End If
    Return
    '***************************Subs für RTC****************************************
    Getdatetime:
    I2cstart ' Generate start code
    I2cwbyte Ds1307w ' send address
    I2cwbyte 0 ' start address in 1307

    I2cstart ' Generate start code
    I2cwbyte Ds1307r ' send address
    I2crbyte _sec , Ack
    I2crbyte _min , Ack ' MINUTES
    I2crbyte _hour , Ack ' Hours
    I2crbyte Weekday , Ack ' Day of Week
    I2crbyte _day , Ack ' Day of Month
    I2crbyte _month , Ack ' Month of Year
    I2crbyte _year , Nack ' Year
    I2cstop
    _sec = Makedec(_sec) : _min = Makedec(_min) : _hour = Makedec(_hour)
    _day = Makedec(_day) : _month = Makedec(_month) : _year = Makedec(_year)
    Return

    Setdate:
    _day = Makebcd(_day) : _month = Makebcd(_month) : _year = Makebcd(_year)
    I2cstart ' Generate start code
    I2cwbyte Ds1307w ' send address
    I2cwbyte 4 ' starting address in 1307
    I2cwbyte _day ' Send Data to SECONDS
    I2cwbyte _month ' MINUTES
    I2cwbyte _year ' Hours
    I2cstop
    Return

    Settime:
    _sec = Makebcd(_sec) : _min = Makebcd(_min) : _hour = Makebcd(_hour)
    I2cstart ' Generate start code
    I2cwbyte Ds1307w ' send address
    I2cwbyte 0 ' starting address in 1307
    I2cwbyte _sec ' Send Data to SECONDS
    I2cwbyte _min ' MINUTES
    I2cwbyte _hour ' Hours
    I2cstop
    Return
    '************************************************* ******************************
    Sub Temperature ' actual measuring
    '
    ' 1wwrite &HCC : 1wwrite &H44 ' start measure
    ' Waitms 300 ' wait for end of conversion
    ' Read1820 ' read 9 bytes
    '
    ' If Err = 1 Then ' if there is no sensor
    ' Locate 2 , 8 : Lcd " -- " ' we put "-- " on LCD
    ' Else
    ' If Crc = 0 Then ' sensor present, check CRC
    ' Locate 2 , 8 : Lcd Fusing(temp , "#.##") ; Chr(0) ; "C" ' CRC OK, print T*10 on LCD
    ' Else
    ' Locate 2 , 8 : Lcd " ** " ' CRC NOT OK, "** " on LCD
    ' End If
    ' End If
    End Sub
    '************************************************* ******************************
    'Sub Read1820 ' reads sensor ans calculate
    ' ' T for 0.1 C
    ' 1wreset ' reset the bus
    ' 1wwrite &HCC ' read internal RAM
    ' 1wwrite &HBE ' read 9 data bytest
    ' Bd(1) = 1wread(9) ' read bytes in array
    ' 1wreset ' reset the bus
    '
    ' Crcit ' ckeck CRC
    '' If Crc = 0 Then ' if is OK, calculate for
    ' Tmp = Bd(1) And 1 ' 0.1C precision
    ' If Tmp = 1 Then Decr Bd(1)
    ' T = Makeint(bd(1) , Bd(2))
    ' T = T / 2
    ' Temp = Bd( - Bd(7)
    ' Temp = Temp / Bd(
    ' Temp = T + Temp
    ' Temp = Temp - 0.25
    ' End If
    'End Sub
    '************************************************* ******************************
    Sub Crcit ' calculate 8 bit CRC
    ' bigger but faster
    Crc = 0 ' needs a 256 elements table
    For I = 1 To 9
    Tmp = Crc Xor Bd(i)
    Crc = Lookup(tmp , Crc
    Next
    End Sub
    '************************************************* ******************************
    Crc8:
    Data 0 , 94 , 188 , 226 , 97 , 63 , 221 , 131 , 194 , 156
    Data 126 , 32 , 163 , 253 , 31 , 65 , 157 , 195 , 33 , 127
    Data 252 , 162 , 64 , 30 , 95 , 1 , 227 , 189 , 62 , 96
    Data 130 , 220 , 35 , 125 , 159 , 193 , 66 , 28 , 254 , 160
    Data 225 , 191 , 93 , 3 , 128 , 222 , 60 , 98 , 190 , 224
    Data 2 , 92 , 223 , 129 , 99 , 61 , 124 , 34 , 192 , 158
    Data 29 , 67 , 161 , 255 , 70 , 24 , 250 , 164 , 39 , 121
    Data 155 , 197 , 132 , 218 , 56 , 102 , 229 , 187 , 89 , 7
    Data 219 , 133 , 103 , 57 , 186 , 228 , 6 , 88 , 25 , 71
    Data 165 , 251 , 120 , 38 , 196 , 154 , 101 , 59 , 217 , 135
    Data 4 , 90 , 184 , 230 , 167 , 249 , 27 , 69 , 198 , 152
    Data 122 , 36 , 248 , 166 , 68 , 26 , 153 , 199 , 37 , 123
    Data 58 , 100 , 134 , 216 , 91 , 5 , 231 , 185 , 140 , 210
    Data 48 , 110 , 237 , 179 , 81 , 15 , 78 , 16 , 242 , 172
    Data 47 , 113 , 147 , 205 , 17 , 79 , 173 , 243 , 112 , 46
    Data 204 , 146 , 211 , 141 , 111 , 49 , 178 , 236 , 14 , 80
    Data 175 , 241 , 19 , 77 , 206 , 144 , 114 , 44 , 109 , 51
    Data 209 , 143 , 12 , 82 , 176 , 238 , 50 , 108 , 142 , 208
    Data 83 , 13 , 239 , 177 , 240 , 174 , 76 , 18 , 145 , 207
    Data 45 , 115 , 202 , 148 , 118 , 40 , 171 , 245 , 23 , 73
    Data 8 , 86 , 180 , 234 , 105 , 55 , 213 , 139 , 87 , 9
    Data 235 , 181 , 54 , 104 , 138 , 212 , 149 , 203 , 41 , 119
    Data 244 , 170 , 72 , 22 , 233 , 183 , 85 , 11 , 136 , 214
    Data 52 , 106 , 43 , 117 , 151 , 201 , 74 , 20 , 246 , 168
    Data 116 , 42 , 200 , 150 , 21 , 75 , 169 , 247 , 182 , 232
    Data 10 , 84 , 215 , 137 , 107 , 53
    Code:
    
    An dieser Stelle noch eine Frage hinterher.
    
    Wann muss der "Stack" konfiguriert werden?
    
    Grüße 
    Martin

  2. #2
    Erfahrener Benutzer Fleißiges Mitglied
    Registriert seit
    19.08.2004
    Beiträge
    197
    Habe mal die Klammern weggenommen und die Variablen dimensioniert.
    Code nicht getestet, aber er wird übersetzt. Was macht er?
    Code:
    $regfile = "m8def.dat"
    $crystal = 3686400
    $baud = 115200
    '*******************************************************************************
    'Portb.0 Brenner Ein/Aus
    'Portb.1 Pumpe Ein/Aus
    'Portb.2 Pumpe Ein/Aus
    'Portb.3 Pumpe Ein/Aus
    'Portb.4 Pumpe Ein/Aus
    'Portb.5 Pumpe Ein/Aus
    '***************************Definition allgemeiner Variabeln********************
    Dim J As Byte
    Dim Relais As Byte
    Dim Tagnacht As Bit
    Dim Zeitinmin As Integer
    'Dim Testzeit As Integer
    'Testzeit = 21
    '***************************Config LCD-Display**********************************
    Config Lcd = 16 * 2
    Config Lcdpin = Pin , Rs = Portd.2 , E = Portd.3 , Db4 = Portd.4 , Db5 = Portd.5 , Db6 = Portd.6 , Db7 = Portd.7
    Config Lcdbus = 4
    Config Lcdmode = Port
    '***************************Config Schaltausgänge*******************************
    Config Portb = Output
    'Config Portb.0 = Output
    'Config Portb.1 = Output
    'Config Portb.2 = Output
    '*************************Config Timer1*****************************************
    Config Timer1 = Timer , Prescale = 64 '256 'Konfiguriere Timer1
    Enable Timer1 'schalte den Timer1 ein
    On Timer1 Isr_von_timer1 'verzweige bei Timer1 überlauf zu Isr_von_Timer1
    Enable Interrupts
    Timer1 = 51135 'Timer1 soll schon von 34285 wegzählen
    '***************************Config RTC******************************************
    Config Sda = Portc.4
    Config Scl = Portc.5
    
    Const Ds1307w = &HD0 ' Addresses of Ds1307 clock
    Const Ds1307r = &HD1
    
    Config Clock = User ' this will dim the bytes automatic
    Dim Weekday As Byte
    
    'Time$ = "19:07:00" ' to watch the day changing value
    'Date$ = "13.10.07" ' erstmaliges stellen der Uhr
    '***************************Config 1Wire****************************************
    Config 1wire = Portb.3 ' DS1820 on pin 12 (pull up)
    
    Declare Sub Read1820
    Declare Sub Crcit
    Declare Sub Temperature
    
    Dim Bd(9) As Byte
    Dim I As Byte , Tmp As Byte
    Dim Crc As Byte
    Dim T As Integer , Temp As Single
    Dim V As Byte
    'Dim Temp_ad(j) As Byte
    
    
    Deflcdchar 0 , 6 , 9 , 9 , 6 , 32 , 32 , 32 , 32 ' replace ? with number (0-7)
    Cursor Off Noblink
    Cls
    '***************************Config AD-Wandler***********************************
    Config Adc = Single , Prescaler = Auto
    Start Adc
    Config Portc.0 = Input
    Config Portc.1 = Input
    Config Portc.2 = Input
    Config Portc.3 = Input
    Dim Ad As Integer
    Dim Sp As Single
    Dim Temp_ad(9) As Single
    '***************************Hauptprogramm***************************************
    Do
    Temperature
    Waitms 250
    Gosub Anzeigetime
    Gosub Ad_wandler
    Gosub Anzeigeadwandler
    Gosub Schalterelais
    Waitms 1000
    Loop
    End
    '*************************Anzeige AD_Wandler************************************
    Anzeigeadwandler:
    Locate 2 , 1
    Lcd "Tk ="
    For J = 1 To 4
    Locate 2 , 3
    Lcd J
    Locate 2 , 7
    Lcd Fusing(temp_ad(j) , "##.##")
    Waitms 1500
    Next J
    Return
    '*************************Sub AnzeigeTime***************************************
    Anzeigetime:
    Locate 1 , 1
    Lcd Time$
    'Locate 1 , 1
    'Lcd Date$ ;
    'Waitms 1000
    Return
    '**************************Sub AD_Wanlder***************************************
    Ad_wandler:
    For J = 1 To 4
    Ad = J - 1
    Ad = Getadc(ad)
    Sp = Ad * 0.51
    If Temp_ad(j) > 100 Then
    Temp_ad(j) = 999.99
    Else
    Temp_ad(j) = Sp - 272
    End If
    Waitms 10
    Next I
    Ad = Getadc(4)
    Temp_ad(3) = Temp_ad(3) - 3.5
    Return
    
    '**************************Subroutine für Timer1********************************
    Isr_von_timer1: 'ISR von Timer1
    Timer1 = 51135
    If _hour >= 20 Then 'Sp > 2 Then 'Timer1 soll wieder von 34285 wegzählen
    Tagnacht = 0
    End If
    If _hour >= 2 And _hour < 20 Then
    Tagnacht = 1
    End If
    Zeitinmin = _hour * 60
    Zeitinmin = Zeitinmin + _min
    Return
    '*************************Sub Relais schalten***********************************
    Schalterelais:
    Select Case Tagnacht
    Case 1
    Gosub Tagbetrieb
    Case 0
    Gosub Nachtbetrieb
    End Select
    Return
    '**************************Sub für Tagbetrieb***********************************
    Tagbetrieb:
    Portb.0 = 1 'Brenner
    Portb.1 = 1 'Pumpe
    Return
    '**************************Sub für Nachtbetrieb*********************************
    Nachtbetrieb:
    Portb.0 = 0
    If Zeitinmin > 1200 And Zeitinmin < 1245 Then
    Portb.1 = 1
    Else
    Portb.1 = 0
    End If
    If Temp_ad(3) > 21.1 Then
    Portb.0 = 0
    Portb.1 = 0
    Else
    Portb.0 = 1
    Portb.1 = 1
    End If
    Return
    '***************************Subs für RTC****************************************
    Getdatetime:
    I2cstart ' Generate start code
    I2cwbyte Ds1307w ' send address
    I2cwbyte 0 ' start address in 1307
    
    I2cstart ' Generate start code
    I2cwbyte Ds1307r ' send address
    I2crbyte _sec , Ack
    I2crbyte _min , Ack ' MINUTES
    I2crbyte _hour , Ack ' Hours
    I2crbyte Weekday , Ack ' Day of Week
    I2crbyte _day , Ack ' Day of Month
    I2crbyte _month , Ack ' Month of Year
    I2crbyte _year , Nack ' Year
    I2cstop
    _sec = Makedec(_sec) : _min = Makedec(_min) : _hour = Makedec(_hour)
    _day = Makedec(_day) : _month = Makedec(_month) : _year = Makedec(_year)
    Return
    
    Setdate:
    _day = Makebcd(_day) : _month = Makebcd(_month) : _year = Makebcd(_year)
    I2cstart ' Generate start code
    I2cwbyte Ds1307w ' send address
    I2cwbyte 4 ' starting address in 1307
    I2cwbyte _day ' Send Data to SECONDS
    I2cwbyte _month ' MINUTES
    I2cwbyte _year ' Hours
    I2cstop
    Return
    
    Settime:
    _sec = Makebcd(_sec) : _min = Makebcd(_min) : _hour = Makebcd(_hour)
    I2cstart ' Generate start code
    I2cwbyte Ds1307w ' send address
    I2cwbyte 0 ' starting address in 1307
    I2cwbyte _sec ' Send Data to SECONDS
    I2cwbyte _min ' MINUTES
    I2cwbyte _hour ' Hours
    I2cstop
    Return
    '*******************************************************************************
    Sub Temperature ' actual measuring
    '
    ' 1wwrite &HCC : 1wwrite &H44 ' start measure
    ' Waitms 300 ' wait for end of conversion
    ' Read1820 ' read 9 bytes
    '
    ' If Err = 1 Then ' if there is no sensor
    ' Locate 2 , 8 : Lcd " -- " ' we put "-- " on LCD
    ' Else
    ' If Crc = 0 Then ' sensor present, check CRC
    ' Locate 2 , 8 : Lcd Fusing(temp , "#.##") ; Chr(0) ; "C" ' CRC OK, print T*10 on LCD
    ' Else
    ' Locate 2 , 8 : Lcd " ** " ' CRC NOT OK, "** " on LCD
    ' End If
    ' End If
    End Sub
    '*******************************************************************************
    'Sub Read1820 ' reads sensor ans calculate
    ' ' T for 0.1 C
    ' 1wreset ' reset the bus
    ' 1wwrite &HCC ' read internal RAM
    ' 1wwrite &HBE ' read 9 data bytest
    ' Bd(1) = 1wread(9) ' read bytes in array
    ' 1wreset ' reset the bus
    '
    ' Crcit ' ckeck CRC
    '' If Crc = 0 Then ' if is OK, calculate for
    ' Tmp = Bd(1) And 1 ' 0.1C precision
    ' If Tmp = 1 Then Decr Bd(1)
    ' T = Makeint(bd(1) , Bd(2))
    ' T = T / 2
    ' Temp = Bd( - Bd(7)
    ' Temp = Temp / Bd(
    ' Temp = T + Temp
    ' Temp = Temp - 0.25
    ' End If
    'End Sub
    '*******************************************************************************
    Sub Crcit ' calculate 8 bit CRC
    ' bigger but faster
    Crc = 0 ' needs a 256 elements table
    For I = 1 To 9
    Tmp = Crc Xor Bd(i)
    Crc = Lookup(tmp , Crc8)
    Next
    End Sub
    '*******************************************************************************
    Crc8:
    Data 0 , 94 , 188 , 226 , 97 , 63 , 221 , 131 , 194 , 156
    Data 126 , 32 , 163 , 253 , 31 , 65 , 157 , 195 , 33 , 127
    Data 252 , 162 , 64 , 30 , 95 , 1 , 227 , 189 , 62 , 96
    Data 130 , 220 , 35 , 125 , 159 , 193 , 66 , 28 , 254 , 160
    Data 225 , 191 , 93 , 3 , 128 , 222 , 60 , 98 , 190 , 224
    Data 2 , 92 , 223 , 129 , 99 , 61 , 124 , 34 , 192 , 158
    Data 29 , 67 , 161 , 255 , 70 , 24 , 250 , 164 , 39 , 121
    Data 155 , 197 , 132 , 218 , 56 , 102 , 229 , 187 , 89 , 7
    Data 219 , 133 , 103 , 57 , 186 , 228 , 6 , 88 , 25 , 71
    Data 165 , 251 , 120 , 38 , 196 , 154 , 101 , 59 , 217 , 135
    Data 4 , 90 , 184 , 230 , 167 , 249 , 27 , 69 , 198 , 152
    Data 122 , 36 , 248 , 166 , 68 , 26 , 153 , 199 , 37 , 123
    Data 58 , 100 , 134 , 216 , 91 , 5 , 231 , 185 , 140 , 210
    Data 48 , 110 , 237 , 179 , 81 , 15 , 78 , 16 , 242 , 172
    Data 47 , 113 , 147 , 205 , 17 , 79 , 173 , 243 , 112 , 46
    Data 204 , 146 , 211 , 141 , 111 , 49 , 178 , 236 , 14 , 80
    Data 175 , 241 , 19 , 77 , 206 , 144 , 114 , 44 , 109 , 51
    Data 209 , 143 , 12 , 82 , 176 , 238 , 50 , 108 , 142 , 208
    Data 83 , 13 , 239 , 177 , 240 , 174 , 76 , 18 , 145 , 207
    Data 45 , 115 , 202 , 148 , 118 , 40 , 171 , 245 , 23 , 73
    Data 8 , 86 , 180 , 234 , 105 , 55 , 213 , 139 , 87 , 9
    Data 235 , 181 , 54 , 104 , 138 , 212 , 149 , 203 , 41 , 119
    Data 244 , 170 , 72 , 22 , 233 , 183 , 85 , 11 , 136 , 214
    Data 52 , 106 , 43 , 117 , 151 , 201 , 74 , 20 , 246 , 168
    Data 116 , 42 , 200 , 150 , 21 , 75 , 169 , 247 , 182 , 232
    Data 10 , 84 , 215 , 137 , 107 , 53

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Solar Speicher und Akkus Tests