Bascom heizung vom sht11

[stevensen]

Hallo,
ist kein Roboter-thema aber vielleicht wollt ihr mir trotzdem helfen.
ich habe einen sht11 mit einem Mega8 laufen. Jetzt war es recht feucht die letzten Tage und da hat sich Kondensationswasser auf dem sht11 niedergeschlagen. Für solche Fälle gibt es eine Heizung auf dem Sht11. Ich benutze den Samplecode von Bascom und möchte gerne wissen wie ich die Heizung an- und ausschalten kann.
Die Variante funktioniert bei mir nicht.
Command = &B00000110
Call Getit
Command = &B00000100
Call Getit

Außerdem habe ich das Problem das der Sht11 nur sehr schlecht startet. Das Programm bleibt beim Ansprechen des Sht11 hängen. Nur mit Hilfe des Watchdogs läuft das Programm nach mehreren Minuten dann durch. Was kann ich da machen?

[Stromi]

Und welche Beispielvariante nimmst du, die aus Österreich?
Datenblatt hast du schon?

[stevensen]

Ich weiß nicht wieviele Varianten es gibt. Ich benutzte die man z.b. bei der Demo im Sample Verzeichnis findet. Wenn Du eine andere Variante hast, kannst Du die vielleicht hier reinstellen?

[Stromi]

Frohes neues Jahr für alle!
sht11.bas

Code:

'Routine to read the SHT11 Humidity sensor chip
'By Stuart Leslie
'Contact stu@4sightinc.com with any questions
'CRC includet by Helmut Hoerschgl
'Contact helmut.hoerschgl@gmx.at
'Uses BASCOM-AVR  'a .01 uf capacitor across VCC and Ground on the SHT11 really cleans up the data
'a pullup is required on "data" pin as shown in the data sheet
$regfile = "M16def.dat"

Dim Er As Long
Dim Crc_cor As Byte
Dim Cx As Byte
Dim Crc_sht As Byte
Dim A1 As Byte
Dim I1 As Byte , J As Byte
Dim Z1(3) As Byte
Dim X As Byte
Dim Idx As Byte
Dim Crc As Byte
Dim I As Byte
Dim Ctr As Byte
Dim Dataword As Word
Dim Command As Byte
Dim Dis As String * 20
Dim Calc As Single
Dim Calc2 As Single
Dim Rhlinear As Single
Dim Rhlintemp As Single
Dim Tempc As Single
Dim Tempf As Single

Const C1 = -4
Const C2 = 0.0405
Const C3 = -0.0000028
Const T1c = .01
Const T2 = .00008
Const T1f = .018

Config Lcdpin = Pin , Db4 = Porta.0 , Db5 = Porta.1 , Db6 = Porta.2 , Db7 = Porta.3 , E = Porta.5 , Rs = Porta.4
Config Lcd = 16 * 2

Sck Alias Portd.6
Dataout Alias Portd.7
Datain Alias Pind.7

Declare Sub Getit()
Declare Sub Calc_crc(byval X As Byte)

Ddrd = &B11111111                                           'all port bare output
Config Pind.6 = Output                                      'sck
Config Pind.7 = Output                                      'datain
'reset the serial communications first, it is easily confused!
Set Dataout
For Ctr = 1 To 12
 Set Sck
 Waitus 2
 Reset Sck
 Waitus 2
Next Ctr
Cls
Waitms 20
Cursor Off
Waitms 20

Do
'continually read the tempfature and humidity
 Command = &B00000011
 Z1(1) = 3
 Call Getit                                                 'Get the temperature, puts result in "dataword" for us
 '
 Tempf = T1f * Dataword
 Tempf = Tempf - 40
 Tempc = T1c * Dataword                                     'get celcius for later calculations and for "the rest of the world"
 Tempc = Tempc - 40
 Dis = Fusing(tempf , "###.##")
 Locate 1 , 14 : Lcd "CRC"
 Waitms 20
 Locate 1 , 1 : Lcd "Temp=" ; Dis ; "(F)"
 Wait 1
 Command = &B00000101
 Z1(1) = 5
 Call Getit                                                 'get the humidity
 Calc = C2 * Dataword
 Calc2 = Dataword * Dataword                                'that "2" in the datasheet sure looked like a footnote for a couple days, nope  it means "squared"!
 Calc2 = C3 * Calc2
 Calc = Calc + C1
 Rhlinear = Calc + Calc2
 'Dis = Fusing(rhlinear , "##.##")
 'Print "Humidity adjusted for linear = " ; Dis

 Calc = T2 * Dataword
 Calc = Calc + T1c
 Calc2 = Tempc - 25
 Calc = Calc2 * Calc
 Rhlintemp = Calc + Rhlinear
 Dis = Fusing(rhlintemp , "##.##")
 Locate 2 , 0 : Lcd "Hum=" ; Dis
 Wait 1
Loop

Sub Getit()
 Local Datavalue As Word
 Local Databyte As Byte
 'start with "transmission start"
 Set Sck
 Reset Dataout
 Reset Sck
 Set Sck
 Set Dataout
 Reset Sck

 'now send the command
 Shiftout Dataout , Sck , Command , 1
 Ddrd = &B11111101                                          'datain is now input
 Config Pind.7 = Input                                      'datain
 Set Sck                                                    'click one more off
 Reset Sck
 Waitus 10                                                  'no idea why, but it doesn't work without it!
 Bitwait Pind.7 , Reset                                     'wait for the chip to have data ready
 Shiftin Datain , Sck , Databyte , 1                        'get the MSB
 Datavalue = Databyte
 Z1(2) = Databyte
 Ddrd = &B11111111
 Config Pind.7 = Output
 Reset Dataout                                              'this is the tricky part- Lot's of hair pulling- have to tick the ack!
 Set Sck
 Reset Sck
 Ddrd = &B11111101                                          'datain is now input
 Config Pind.7 = Input
 Shiftin Datain , Sck , Databyte , 1                        'get the LSB
 Z1(3) = Databyte
 Shift Datavalue , Left , 8
 Datavalue = Datavalue Or Databyte                          'don't tick the clock or ack since we don't need the CRC value, leave it hanging!
 Dataword = Datavalue
 Ddrd = &B11111111
 Config Pind.7 = Output
 Reset Dataout
 Set Sck
 Reset Sck
 Ddrd = &B11111101                                          'datain is now input
 Config Pind.7 = Input
 Shiftin Datain , Sck , Databyte , 1
 Crc_sht = Databyte                                         'CRC von SHTXX übergeben
 Gosub Crc_ex
 Crc = 0
  For J = 1 To 3                                            'die 3 Bytes an Calc_crc(x) übergeben
      X = Z1(j)
      Call Calc_crc(x)
  Next
If Crc = Crc_cor Then
      Locate 2 , 15
      Waitms 20
      Lcd "OK"
      Waitms 20
  Else
      Locate 2 , 15
      Waitms 20
      Lcd "ER"
      Waitms 20
      Command = &B00011110
      Set Sck
      Reset Dataout
      Reset Sck
      Set Sck
      Set Dataout
      Reset Sck

      Shiftout Dataout , Sck , Command , 1                  'if CRC is wrong reset the SHTXX
      Waitms 20
 End If
 Ddrd = &B11111111
 Config Pind.7 = Output
 Set Dataout
 Set Sck
 Reset Sck
End Sub

End

Sub Calc_crc(byval X As Byte)                               'CRC Berechnung
  Restore Crc_table
  Idx = Crc Xor X
  If X = 0 Then Idx = 3
  For I = 0 To Idx
      Read Crc
  Next
End Sub

Crc_ex:                                                     'vom SHTXX empfangener CRC wird hier in die korrekte Form gebracht
Cx = 0
A1 = 7
Do
  Crc_cor.cx = Crc_sht.a1
  Incr Cx
  Decr A1
Loop Until Cx = 8
Return

Crc_table:
Data 0 , 49 , 98 , 83 , 196 , 245 , 166 , 151 , 185 , 136 , 219 , 234 , 125 , 76 , 31 , 46,
Data 67 , 114 , 33 , 16 , 135 , 182 , 229 , 212 , 250 , 203 , 152 , 169 , 62 , 15 , 92 , 109,
Data 134 , 183 , 228 , 213 , 66 , 115 , 32 , 17 , 63 , 14 , 93 , 108 , 251 , 202 , 153 , 168,
Data 197 , 244 , 167 , 150 , 1 , 48 , 99 , 82 , 124 , 77 , 30 , 47 , 184 , 137 , 218 , 235,
Data 61 , 12 , 95 , 110 , 249 , 200 , 155 , 170 , 132 , 181 , 230 , 215 , 64 , 113 , 34 , 19,
Data 126 , 79 , 28 , 45 , 186 , 139 , 216 , 233 , 199 , 246 , 165 , 148 , 3 , 50 , 97 , 80,
Data 187 , 138 , 217 , 232 , 127 , 78 , 29 , 44 , 2 , 51 , 96 , 81 , 198 , 247 , 164 , 149,
Data 248 , 201 , 154 , 171 , 60 , 13 , 94 , 111 , 65 , 112 , 35 , 18 , 133 , 180 , 231 , 214,
Data 122 , 75 , 24 , 41 , 190 , 143 , 220 , 237 , 195 , 242 , 161 , 144 , 7 , 54 , 101 , 84,
Data 57 , 8 , 91 , 106 , 253 , 204 , 159 , 174 , 128 , 177 , 226 , 211 , 68 , 117 , 38 , 23,
Data 252 , 205 , 158 , 175 , 56 , 9 , 90 , 107 , 69 , 116 , 39 , 22 , 129 , 176 , 227 , 210,
Data 191 , 142 , 221 , 236 , 123 , 74 , 25 , 40 , 6 , 55 , 100 , 85 , 194 , 243 , 160 , 145,
Data 71 , 118 , 37 , 20 , 131 , 178 , 225 , 208 , 254 , 207 , 156 , 173 , 58 , 11 , 88 , 105,
Data 4 , 53 , 102 , 87 , 192 , 241 , 162 , 147 , 189 , 140 , 223 , 238 , 121 , 72 , 27 , 42,
Data 193 , 240 , 163 , 146 , 5 , 52 , 103 , 86 , 120 , 73 , 26 , 43 , 188 , 141 , 222 , 239,
Data 130 , 179 , 224 , 209 , 70 , 119 , 36 , 21 , 59 , 10 , 89 , 104 , 255 , 206 , 157 , 172

shtbascom.bas

Code:

'Routine to read the  SHT11 Humidity sensor chip
'By Stuart Leslie
'Contact stu@4sightinc.com with any questions
'Uses BascomAVR
'a .01 uf capacitor across VCC and Ground on the SHT11 really cleans up the data
'a pullup is required on "data" pin as shown in the data sheet

$regfile = "m88def.dat"


Dim Ctr As Byte
Dim Dataword As Word
Dim Command As Byte
Dim Dis As String * 20

Dim Calc As Single
Dim Calc2 As Single
Dim Rhlinear As Single
Dim Rhlintemp As Single
Dim Tempc As Single
Dim Tempf As Single

Const C1 = -4
Const C2 = 0.0405
Const C3 = -0.0000028
Const T1c = .01
Const T2 = .00008
Const T1f = .018

Sck Alias Portb.0
Dataout Alias Portb.1
Datain Alias Pinb.1
Redled Alias Portb.2

Declare Sub Getit()

Ddrb = &B11111111                                           'all port b are output
Config Pinb.0 = Output                                      'sck
Config Pinb.1 = Output                                      'datain

'reset the serial communications first, it is easily confused!
Set Dataout
For Ctr = 1 To 12
   Set Sck
   Waitus 2
   Reset Sck
   Waitus 2
Next Ctr


Do                                                          'continually read the tempfature and humidity

   Command = &B00000011
   Call Getit                                               'Get the temperature, puts result in "dataword" for us
      '
   Tempf = T1f * Dataword
   Tempf = Tempf - 40

   Tempc = T1c * Dataword                                   'get celcius for later calculations and for "the rest of the world"
   Tempc = Tempc - 40

   Dis = Fusing(tempf , "###.##")
   Print "Temperature = " ; Dis ; " (F)"

   Command = &B00000101
   Call Getit                                               'get the humidity
   Calc = C2 * Dataword
   Calc2 = Dataword * Dataword                              'that "2" in the datasheet sure looked like a footnote for a couple days, nope it means "squared"!
   Calc2 = C3 * Calc2
   Calc = Calc + C1
   Rhlinear = Calc + Calc2

   'Dis = Fusing(rhlinear , "##.##")
   'Print "Humidity adjusted for linear = " ; Dis


   Calc = T2 * Dataword
   Calc = Calc + T1c
   Calc2 = Tempc - 25
   Calc = Calc2 * Calc
   Rhlintemp = Calc + Rhlinear

   Dis = Fusing(rhlintemp , "##.##")
   Print "Humidity adjusted for temperature  = " ; Dis
   Print

   Wait 1
Loop


Sub Getit()

   Local Datavalue As Word
   Local Databyte As Byte

   'start with "transmission start"
   Set Sck
   Reset Dataout
   Reset Sck
   Set Sck
   Set Dataout
   Reset Sck


   'now send the  command
   Shiftout Dataout , Sck , Command , 1

   Ddrb = &B11111101                                        'datain is now input
   Config Pinb.1 = Input                                    'datain
   Set Sck                                                  'click one more off
   Reset Sck
   Waitus 10                                                'no idea why, but it doesn't work without it!
   Bitwait Pinb.1 , Reset                                   'wait for the chip to have data ready

   Shiftin Datain , Sck , Databyte , 1                      'get the MSB
   Datavalue = Databyte

   Ddrb = &B11111111
   Config Pinb.1 = Output

   Reset Dataout                                            'this is the tricky part- Lot's of hair pulling- have to tick the ack!
   Set Sck
   Reset Sck

   Ddrb = &B11111101                                        'datain is now input
   Config Pinb.1 = Input

   Shiftin Datain , Sck , Databyte , 1                      'get the LSB
   Shift Datavalue , Left , 8
   Datavalue = Datavalue Or Databyte
   'don't tick the clock or ack since we don't need the CRC value, leave it hanging!
   Dataword = Datavalue

   Ddrb = &B11111111
   Config Pinb.1 = Output

   Reset Dataout
   Set Sck
   Reset Sck

   Ddrb = &B11111101                                        'datain is now input
   Config Pinb.1 = Input

   Shiftin Datain , Sck , Databyte , 1                      'not using the CRC value for now- can't figure it out! Anybody know how to impliment?
   'Print "CRC value was - " ; Databyte

   Ddrb = &B11111111
   Config Pinb.1 = Output

   Set Dataout
   Set Sck
   Reset Sck
End Sub

End