- 12V Akku mit 280 Ah bauen         
Seite 1 von 3 123 LetzteLetzte
Ergebnis 1 bis 10 von 22

Thema: Sonnenbahnberechnung mit BASCOM

  1. #1
    Erfahrener Benutzer Robotik Einstein Avatar von Dirk
    Registriert seit
    30.04.2004
    Ort
    NRW
    Beiträge
    3.803

    Sonnenbahnberechnung mit BASCOM

    Anzeige

    Powerstation Test
    Hallo Leute,

    hat schon jemand von euch die Berechnung der Sonnenposition (Eingabe: aktueller Standort und Uhrzeit, Ausgabe: Position) in Bascom (oder in einem anderen BASIC-Dialekt) umgesetzt?

    Wer kann mir da helfen?

    Gruß Dirk

  2. #2
    Super-Moderator Lebende Robotik Legende Avatar von Manf
    Registriert seit
    30.01.2004
    Ort
    München
    Alter
    71
    Beiträge
    13.075
    Die Berechnung des Sonnenstands ist auch hier beschrieben, noch ohne BASCOM.
    http://de.wikipedia.org/wiki/Sonnenstand

  3. #3
    Hallo Dirk,
    ich bin auch an der Umsetzung interessiert hauptsächlich Sonnenauf und -untergang. hab schon mal das gefunden...

    http://lexikon.astronomie.info/zeitgleichung/

    gruss
    hifish

  4. #4
    Hallo an Alle
    Irgendwie geht da in Bascom keiner so richtig ran!
    Hab mal ne Excel berechnung in Bascom umgeschrieben und herrausgekommen ist das hier:
    Code:
    '++++++++ Sonnenstandberechnung 2012 ++++++++++
    'Vorlage: Excel-berechnung
    'nachvollziebar auf:  http://www.solartopo.com/sonnenumlaufbahn.htm zum überprüfen der zahlen
    '$sim
    $regfile = "m16def.dat"
    $crystal = 16000000
    $hwstack = 100
    $swstack = 100
    $framesize = 70
    '$prog &HFF , &HFF , &HD9 , &H00
    'Config Com1 = Dummy , Synchrone = 0 , Parity = None , Stopbits = 1 , Databits = 8 , Clockpol = 0
    ' Config Adc = Single , Prescaler = Auto , Reference = Avcc
    Ddra = &B11111111
    Ddrb = &B11111111
    Config Portc.1 = Output
    Config Portd.7 = Output
    Config Lcd = 16 * 4
    Config Lcdpin = Pin , Db4 = Portc.4 , Db5 = Portc.5 , Db6 = Portc.6 , Db7 = Portc.7 , E = Portc.3 , Rs = Portc.2
    Initlcd
    Cursor Off
    Config Dcf77 = Pind.6 , Inverted = 0 , Timer = 1 , Debug = 1 , , Check = 1 , Update = 0 , Gosub = Sectic
    Config Date = Dmy , Separator = .
    Enable Interrupts
    Signal_kontroll_led Alias Portc.1
    Dim Neue_sekunde As Bit
    Dim Synchron As Bit
    Dim Tag_im_jahr As Byte
    Dim Diff_zu_utc As Byte
    'Dim Pi As Single
    'Dim Pi2 As Single
    'Dim Pi3 As Single
    'Dim K_pi As Single
    Dim Tageszahl As Integer
    Dim Diff_utc As Single
    Dim Sekunde As Single
    Dim Minute As Single
    Dim Stunde As Single
    '---------------------------
    Dim S_0 As Single
    Dim S_1 As Single
    Dim S_2 As Single
    Dim S_3 As Single
    Dim S_4 As Single
    Dim S_5 As Single
    Dim S_6 As Single
    Dim S_7 As Single
    Dim S_8 As Single
    '---------------------------
    Dim D_0 As Single
    Dim D_1 As Single
    Dim D_2 As Single
    Dim D_3 As Single
    Dim D_4 As Single
    Dim D_5 As Single
    Dim D_6 As Single
    Dim D_7 As Single
    Dim D_8 As Single
    Dim D_9 As Single
    Dim D_10 As Single
    Dim D_11 As Single
    Dim D_12 As Single
    Dim D_13 As Single
    Dim D_14 As Single
    Dim D_15 As Single
    Dim D_16 As Single
    Dim D_17 As Single
    Dim D_18 As Single
    Dim D_19 As Single
    Dim D_20 As Single
    Dim D_21 As Single
    Dim D_22 As Single
    Dim D_23 As Single
    Dim D_24 As Single
    Dim D_25 As Single
    Dim D_26 As Single
    Dim D_27 As Single
    Dim D_28 As Single
    '--------------------------
    Dim Z_0 As Single
    Dim Z_1 As Single
    Dim Z_2 As Single
    Dim Z_3 As Single
    Dim Z_4 As Single
    Dim Z_5 As Single
    Dim Z_6 As Single
    Dim Z_7 As Single
    Dim Z_8 As Single
    Dim Z_9 As Single
    Dim Z_10 As Single
    Dim Z_11 As Single
    Dim Z_12 As Single
    Dim Z_13 As Single
    Dim Z_14 As Single
    Dim Z_15 As Single
    Dim Z_16 As Single
    '--------------------------
    Dim W_0 As Single
    Dim W_1 As Single
    Dim W_2 As Single
    Dim W_3 As Single
    Dim W_4 As Single
    Dim W_5 As Single
    Dim W_6 As Single
    Dim W_7 As Single
    '--------------------------
    Dim H_0 As Single
    Dim H_1 As Single
    Dim H_2 As Single
    Dim H_3 As Single
    Dim H_4 As Single
    Dim H_5 As Single
    Dim H_6 As Single
    Dim H_7 As Single
    Dim H_8 As Single
    Dim H_9 As Single
    Dim H_10 As Single
    Dim H_11 As Single
    Dim H_12 As Single
    Dim H_13 As Single
    Dim H_14 As Single
    '--------------------------
    Dim R_0 As Single
    Dim R_1 As Single
    Dim R_2 As Single
    Dim R_3 As Single
    Dim R_4 As Single
    '-------------------------
    Dim Ca_0 As Single
    Dim Ca_1 As Single
    Dim Ca_2 As Single
    Dim Ca_3 As Single
    Dim Ca_4 As Single
    Dim Ca_5 As Single
    Dim Ca_6 As Single
    Dim Ca_7 As Single
    Dim Ca_8 As Single
    Dim Ca_9 As Single
    Dim Ca_10 As Single
    Dim Ca_11 As Single
    Dim Ca_12 As Single
    Dim Ca_13 As Single
    Dim Ca_14 As Single
    '--------------------
    Dim Az_0 As Single
    Dim Az_1 As Single
    Dim Az_2 As Single
    Dim Az_3 As Single
    Dim Az_4 As Single
    Dim Az_5 As Single
    Dim Az_6 As Single
    Dim Az_7 As Single
    Dim Az_8 As Single
    Dim Az_9 As Single
    Dim Az_10 As Single
    Dim Az_11 As Single
    Dim Az_12 As Single
    Dim Az_13 As Single
    Dim Az_14 As Single
    Dim Az_15 As Single
    Dim Az_16 As Single
    Dim Az_17 As Single
    Dim Azimut As Single
    Dim A As Single
    Dim A1 As Single
    Dim C As Single
    Dim D As Single
    '--------------------
    '---------------------------Const Deklination---------------------------
    Const De_1 = 0.006918
    Const De_2 = 0.399912
    Const De_3 = 0.070257
    Const De_4 = 0.006758
    Const De_5 = 0.000907
    Const De_6 = 0.002697
    Const De_7 = 0.00148
    Const De_1_2 = -0.392994
    '----------------------------------
    '--------------------------Const Zeitgeichung-----------------
    Const Zg_1 = 229.18
    Const Zg_2 = 0.000075
    Const Zg_3 = 0.001868
    Const Zg_1_2 = 0.001943
    Const Zg_4 = 0.032077
    Const Zg_5 = 0.014615
    Const Zg_6 = 0.040849
    'Const Arcsin = 0.5333333333333333
    Const Pi = 3.14159265358
    Const Pi2 = 6.2831853071
    Const Pi3 = 12.5663706143
    Const K_pi = 0.0174532925
    '----------------------------------
    Const L = 48.11602                                          'München DC  Lat
    Const B = 11.57954                                          'google earth  Long
    '------------------------
    Time$ = "13:18:00"
    Date$ = "17.08.12"
    '--------------------------
    Declare Sub Sonnenaufgang
    Declare Sub Sonnenuntergang
    Declare Sub Anzeige
    '------------------------------------
    Deflcdchar 1 , 28 , 20 , 28 , 32 , 32 , 32 , 32 , 32        '  Grad
    Cls
    Do
    '
    Tageszahl = Dayofyear()
    'Goto Anzeige
    '------------------Jahresteil S-S_6---------------------------------
    '|                                                                 /|
    '|         =(Tageszahl-1+((Stunde+Minute/60)-12)/24)/365        \/  |
    '-------------------------------------------------------------------
    Minute = _min
    Stunde = _hour
    S_0 = Stunde
    Stunde = Stunde - 1
    S_1 = Minute
    S_2 = S_0 + S_1
    S_3 = S_2 / 60
    S_4 = Tageszahl + 1                                         '- 1
    S_5 = S_3 - 12
    S_6 = S_5 / 24
    S_7 = S_6 + S_4
    S_8 = S_7 / 365
    'Print S_0 ; "  " ; S_1 ; "  " ; S_2 ; "  " ; S_3 ; "    " ; S_4 ; "  " ; S_5 ; "  " ; S_6 ; "  " ; S_7 ; "   " ; S_8
    '** S_6 ** 0.092579897
    '--------------------Deklination D-D_28-------------------------------------------------
    '|                                                                                      |
    '| =(0,006918-0,399912*COS(Pi2()*S_6)+0,070257*SIN(2*PI()*S_6)-0,006758*COS(2*S_6*PI()) |
    '|                                                                                     /|
    '| +0,000907*SIN(2*S_6*PI())-0,002697*COS(3*S_6*PI())+0,00148*SIN(3*S_6*PI()))/K_pi \/  |
    '---------------------------------------------------------------------------------------
    D_0 = Pi2 * S_8
    D_1 = Cos(d_0)
    D_2 = De_2 * D_1
    D_3 = De_1 - D_2
    D_4 = Pi2 * S_8
    D_5 = Sin(d_4)
    D_6 = De_3 * D_5
    D_7 = D_3 + D_6
    D_8 = 2 * S_8
    D_9 = D_8 * Pi
    D_10 = Cos(d_9)
    D_11 = D_10 * De_4
    D_12 = D_7 - D_11
    D_13 = 2 * S_8
    D_14 = D_13 * Pi
    D_15 = Sin(d_14)
    D_16 = D_15 * De_5
    D_17 = D_16 + D_12
    D_18 = 3 * S_8
    D_19 = D_18 * Pi
    D_20 = Cos(d_19)
    D_21 = D_20 * De_6
    D_22 = D_17 - D_21
    D_23 = 3 * S_8
    D_24 = D_23 * Pi
    D_25 = Sin(d_24)
    D_26 = D_25 * De_7
    D_27 = D_26 + D_22
    D_28 = D_27 / K_pi
    '-------------------------------------------------------------------------------------------------
    '------------------Zeitgleichung Z-16----------------------------------------------------------
    '                                                                                                                              |
    '  =229,18*(0,000075+0,001868*COS(2*PI()*F26)-0,032077*SIN(2*PI()*F26) /  |
    '  -0,014615*COS(2*2*PI()*F26)-0,040849*SIN(2*2*PI()*F26))                           |
    'Zeitgleichung=-0,171*SIN(0,0337*A1+0,465)-0,1299*SIN(0,01787*A1-0,168)   |
    '-----------------------------------------------------------------------------------------------------
    Z_0 = Pi2 * S_8
    Z_1 = Cos(z_0)
    Z_2 = Z_1 * Zg_3
    Z_3 = Z_2 + Zg_2
    Z_4 = Pi2 * S_8
    Z_5 = Sin(z_4)
    Z_6 = Z_5 * Zg_4
    Z_7 = Z_3 - Z_6
    Z_8 = Pi3 * S_8
    Z_9 = Cos(z_8)
    Z_10 = Z_9 * Zg_5
    Z_11 = Z_7 - Z_10
    Z_12 = Pi3 * S_8
    Z_13 = Sin(z_12)
    Z_14 = Z_13 * Zg_6
    Z_15 = Z_11 - Z_14
    Z_16 = Zg_1 * Z_15
    
    '-------------------------------------------------------------
    '------------------Stundenwinkel W-7-----------------------------
    '                                                               /|
    '   =($B$6*60+$B$7+H25+4*$B$5-60)/4-180                      \/  |
    '----------------------------------------------------------------
    W_0 = Stunde * 60
    W_1 = W_0 + Minute
    W_2 = W_1 + Z_16
    W_3 = 4 * B
    W_4 = W_2 + W_3
    W_5 = W_4 - 60
    W_6 = W_5 / 4
    W_7 = W_6 - 180
    'Print W_0 ; "  " ; W_1 ; "  " ; W_2 ; "  " ; W_3 ; "  " ; W_4 ; "  " ; W_5 ; "  " ; W_6 ; "  " ; W_7
    '----------------------------------------------------------------------------
    '----------------sin(Sonnenhöhe)-----------------------------------------------
    '                                                                             /|
    ' =-(SIN($Q$16*$B$4)*J26-SIN($Q$16*G26))/(COS($Q$16*$B$4)*SIN(ARCCOS(J26)))
    '------------------------------------------------------------------------------
    H_0 = K_pi * L
    H_1 = Sin(h_0)
    H_2 = K_pi * D_28
    H_3 = Sin(h_2)
    H_4 = H_1 * H_2
    H_5 = K_pi * L
    H_6 = Cos(h_5)
    H_7 = K_pi * D_28
    H_8 = Cos(h_7)
    H_9 = K_pi * W_7
    H_10 = Cos(h_9)
    H_11 = H_1 * H_3
    H_12 = H_6 * H_8
    H_13 = H_12 * H_10
    H_14 = H_4 + H_13
    '--------------------------------------------------------------
    '-------------------(SONNENHÖHE)---------------------------------
    '                                                           -3,2                             |
    '     =ARCSIN(J25)/$B$9                               ??????             |
    '--------------------------------------------------------------------------
     R_0 = Asin(h_14)
     'R_1 =Acos (r_0)
     R_2 = R_0 / K_pi
     'R_2 = R_2 + 4.03
     R_4 = R_2
    '-------------------------------------------------------------------------
    '-------------------cos(Azimut)----------------------------------------------
    '                                                                            |
    '  =-(SIN($B$9*$B$4)*J25-SIN($B$9*G25))/(COS($B$9*$B$4)*SIN(ARCCOS(J25)))  ? |
    '                                                                            |
    '----------------------------------------------------------------------------
    Ca_0 = K_pi * L
    Ca_1 = Sin(ca_0)
    Ca_2 = Ca_1 * H_14                                          '***
    Ca_3 = K_pi * D_28
    Ca_4 = Sin(ca_3)
    Ca_5 = Ca_4 - Ca_2                                          '**********
    Ca_6 = Cos(ca_0)                                            '***
    Ca_7 = Acos(h_14)
    Ca_8 = Sin(ca_7)
    Ca_9 = Ca_8 * Ca_6
    Ca_10 = Ca_5 / Ca_9
    ' Print Ca_0 ; "   " ; Ca_1 ; "   " ; Ca_2 ; "   " ; Ca_3 ; "   " ; Ca_4 ; "   " ; Ca_5 ; "   " ; Ca_6 ; "   " ; Ca_7 ; "   " ; Ca_8 ; "   " ; Ca_9 ; "   " ; Ca_10
    '---------------------------------------------------------------------------------------
    '---------------------Azimut---------------------------------------------------------------
    '               Prüfung:                     |  Dann_Wert     |   Sonst_Wert         ????  |
    '  =WENN($B$6+$B$7/60<=12+(15-$B$5)/15-H25/60;ARCCOS(L25)/$B$9;360-ARCCOS(L25)/$B$9)       |
    '                                            |                |                            |
    '------------------------------------------------------------------------------------------
    Az_0 = Stunde
    Az_1 = Minute / 60
    Az_3 = Az_0 + Az_1
    A = Az_3                                                    'prüfung a
    '
    Az_4 = 15 - B
    Az_5 = Az_4 / 15
    Az_6 = Az_5 + 12                                            '***
    Az_7 = Z_16 / 60
    Az_8 = Az_6 - Az_7                                          ' prüfung b
    A1 = Az_8
    '-----------------------------------------------------------------------------------------------
    Az_11 = Acos(ca_10)
    Az_12 = Az_11 / K_pi                                        'ergebnis wahr  (Dann_Wert)
     C = Az_12
     '---------------------------------------------------------------------------------------------
     Az_13 = Acos(ca_10)
     Az_14 = Az_13 / K_pi
     Az_15 = 360 - Az_14                                        'ergebnis falsch (Sonst_Wert)
     D = Az_15
    '---------------------------------------------------------------------------------
    If Neue_sekunde = 1 Then
    Neue_sekunde = 0
    Call Anzeige
    End If
    If A > A1 And Az_15 > 190.0 Then
    Call Sonnenuntergang
    End If
    If A < A1 Then
    Call Sonnenaufgang
    End If
    Signal_kontroll_led = Dcf_status.0
    If Dcf_status.2 = 1 Then
    Portd.6 = 1
    End If
     'Print S_4 ; "    " ; S_8 ; "    " ; D_28 ; "  " ; Z_16 ; "   " ; W_7 ; "     " ; H_14 ; "   " ; R_2 ; "   " ; Ca_10 ; "   " ; Az_12 ; "   " ; Az_15
    Print A ; "    " ; A1 ; "     " ; R_2
    Loop
    End
    Sectic:
    Neue_sekunde = 1
    If _sec = 59 Then Synchron = Dcf_status.2
    '
    If Synchron = 1 Then
    Portd.7 = 1
    Else
    Portd.7 = 0
    End If
    Return
    '
    Sub Anzeige
     Locate 1 , 1
    Lcd ; "48.11" ; Chr(1) ; "  " ; Time$
    Locate 2 , 1
    Lcd "Zenith :" ; Fusing(r_2 , "##.##") ; Chr(1) ; "    "
    Locate 3 , 1
    Lcd "11.57" ; Chr(1) ; "  " ; Date$
    If A < A1 Then
    Locate 4 , 1
    Lcd "Azimut :" ; Fusing(az_12 , "##.##" ) ; Chr(1) ; "    "
    Else
    Locate 4 , 1
    Lcd "Azimut :" ; Fusing(az_15 , "##.##" ) ; Chr(1) ; "    "
    End If
    End Sub
    '
    Sub Sonnenaufgang
    Select Case R_2
    Case -9.9 To -7.3:
    Porta = &B00000000
    Portb = &B00000000
    Case -7.0 To -6.5:
    Porta = &B00000001
    Case -6.4 To -6.0:
    Porta = &B00000011
    Case -5.9 To -5.5:
    Porta = &B00000111
    Case -5.4 To -5.0:
    Porta = &B00001111
    Case -4.9 To -4.3:
    Porta = &B00011111
    Case -4.2 To -3.2:
    Porta = &B00111111
    Case -3.1 To -2.1:
    Porta = &B01111111
    Case -2.0 To 1.5:
    Porta = &B11111111
    Case 1.6 To 2.0:
    Portb = &B00000001
    Case 2.1 To 3.0:
    Portb = &B00000011
    Case 3.1 To 10.0:                                           '1.7 max
    Porta = &B00000000
    Portb = &B00000000
    End Select
    End Sub
    '
    Sub Sonnenuntergang
    Select Case R_2
    Case 9.8 To 10.5:
    Porta = &B11111111
    Portb = &B00000011
    Case 6.5 To 9.4:
    Porta = &B11111111
    Portb = &B00000001
    Case 6.0 To 6.4:
    Porta = &B11111111
    Portb = &B00000000
    Case 5.3 To 5.9 :
    Porta = &B01111111
    Portb = &B00000000
    Case 4.9 To 5.2:
    Porta = &B00111111
    Portb = &B00000000
    Case 3.9 To 4.8:
    Porta = &B00011111
    Portb = &B00000000
    Case -0.8 To 3.8:
    Porta = &B00001111
    Portb = &B00000000
    Case -2.5 To -0.9:
    Porta = &B00000111
    Portb = &B00000000
    Case -5.0 To -2.6:
    Porta = &B00000011
    Portb = &B00000000
    Case -6.6 To -5.1 :
    Porta = &B00000001
    Portb = &B00000000
    Case -10.0 To -6.7:
    Porta = &B00000000
    Portb = &B00000000
    End Select
    End Sub
    Geändert von U-1110 (19.08.2012 um 09:47 Uhr)

  5. #5
    Moderator Robotik Einstein Avatar von Kampi
    Registriert seit
    21.11.2009
    Ort
    Monheim, Nordrhein-Westfalen, Germany
    Alter
    34
    Beiträge
    3.501
    Blog-Einträge
    9
    Hi,

    setzt deinen Code mal bitte zwischen ["code] und ["/code] (die " aber weglassen).
    Sonst wird dein Post vieeeeeeeeeeeeeeeeeeeeel zu lang (wie du vielleicht selber siehst )
    Schaut ruhig mal auf meiner Homepage vorbei :
    http://kampis-elektroecke.de

    Oder folge mir auf Google+:
    Daniel Kampert

    Es gibt 10 Arten von Menschen. Die einen können Binär, die anderen nicht.

    Gruß
    Daniel

  6. #6
    Soooooooo zufrieden!!!!!!!!!!!!!!!!!

  7. #7
    Hallo,
    ich habe nach http://lexikon.astronomie.info/zeitgleichung/ ein BASCOM-Programm geschrieben, das allerdings noch nicht ausführlich getestet ist. Als Zeitgeber soll eine DCF-Uhr dienen.

    'Sonnentest 13.4.12
    'lexikon.astronomie.info/zeitgleichung/
    'für Radebeul: 13°37' Ost, 51°06' Nord

    Code:
    $crystal = 1000000
    $regfile = "m48def.dat"
    
    $hwstack = 32                 ' default use 32 for the hardware stack
    $swstack = 10                 ' default use 10 for the SW stack
    $framesize = 40
    
    Dim Woz_moz As Single , Term1 As Single , Term2 As Single , Term3 As Single
    Dim Deklination As Single , Zeitdiff As Single , Sa As Single , Su As Single
    Dim Samin As Single , Sumin As Single
    Dim Tag As Integer , Diff2 As Integer
    Dim Sahour As Byte , Samin1 As Byte , Suhour As Byte , Sumin1 As Byte
    Dim Sastrmin As String * 3 , Sustrmin As String * 3
    
    Anfang:
     Input "Tagzahl " , Tag
    
     Term1 = 0.0337 * Tag         'Berechnung Differenz Wahre + Mittlere
     Term1 = Term1 + 0.465        'Ortszeit
     Term1 = Sin(term1)
     Term1 = -0.171 * Term1
    
     Term2 = 0.01787 * Tag
     Term2 = Term2 - 0.168
     Term2 = Sin(term2)
     Term2 = 0.1299 * Term2
    
     Woz_moz = Term1 - Term2      'Zeitgleichung /in Stunden
     Diff2 = Woz_moz * 60         'auf Minuten gerechnet
    
     Term1 = Tag - 80.086         'Berechnung Deklination
     Term1 = Term1 * 0.016906
     Term1 = Sin(term1)
     Deklination = Term1 * 0.4095
    
     Term1 = Sin(deklination)     'Berechnung Zeitdifferenz
     Term1 = 0.7771 * Term1       'B=0,89 für Radebeul
     Term1 = -0.0145 - Term1
     Term2 = Cos(deklination)
     Term2 = 0.6294 * Term2
     Zeitdiff = Term1 / Term2
     Zeitdiff = Acos(zeitdiff)
     Zeitdiff = 3.8197 * Zeitdiff
    
     Sa = 12 - Zeitdiff           'Sonnenaufgang
     Sa = Sa - Woz_moz
     Sa = Sa - 0.9067
     Sa = Sa + 1                  'MEZ, bei MESZ +2
     Samin = Frac(sa)
     Sahour = Sa - Samin
     Samin1 = Samin * 60
     Sastrmin = Str(samin1)
     Sastrmin = Format(sastrmin , "00")
    
     Su = 12 + Zeitdiff
     Su = Su - Woz_moz
     Su = Su - 0.9067
     Su = Su + 1
     Sumin = Frac(su)
     Suhour = Su - Sumin
     Sumin1 = Sumin * 60
     Sustrmin = Str(sumin1)
     Sustrmin = Format(sustrmin , "00")
    
    
     Print "WOZ-MOZ: " ; Woz_moz
     Print "min: " ; Diff2
     Print "Deklination: " ; Deklination
     Print "Zeitdifferenz: " ; Zeitdiff
     Print "Sonnenaufgang: " ; Sahour ; ":" ; Sastrmin
     Print "Sonnenuntergang: " ; Suhour ; ":" ; Sustrmin
     Print
     Goto Anfang
    
     End
    Geändert von radbruch (20.08.2012 um 16:54 Uhr) Grund: Code-Tag eingefügt

  8. #8
    Hi
    Schau mal hier :http://suncalc.net/#/51.1116,13.6494...12.08.20/16:42
    Da kannst du deine zahlen überprüfen
    achso eine Sache Term1 = Term1 - 1 dann ist es Perfekt
    Gruß
    Andreas
    Geändert von U-1110 (20.08.2012 um 17:03 Uhr)

  9. #9
    Hallo, da ich oft term1 nehme, finde ich nicht die Stelle, die Du meinst .
    Im Moment komme ich nicht zum Testen, ist aber vorgemerkt.
    Dolivo

  10. #10
    Hi dolivo
    Term1 = 0.0337 * Tag 'Berechnung Differenz Wahre + Mittlere
    Term1 = Term1 + 0.465 'Ortszeit
    Term1 = Sin(term1)
    Term1 = -0.171 * Term1
    Term1 = Term1 - 1 'dann stimmt die Uhrzeit(Sommerzeit)
    Habs grad mal laufen lassen ,um eine Minute daneben als im Internet
    Echt Super!!!!!

Seite 1 von 3 123 LetzteLetzte

Berechtigungen

  • Neue Themen erstellen: Nein
  • Themen beantworten: Nein
  • Anhänge hochladen: Nein
  • Beiträge bearbeiten: Nein
  •  

Solar Speicher und Akkus Tests