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Thema: Quadrocopter unkontrollierter Looping

  1. #1
    Erfahrener Benutzer Roboter Genie
    Registriert seit
    08.09.2007
    Ort
    Berlin
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    Quadrocopter unkontrollierter Looping

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    Praxistest und DIY Projekte
    Hallo,

    mein Quadrocopter, ausgestattet mit einem XMega32A4 und MPU6000, 4x Roxxy BL2827-34 Motoren und 18A Graupner BL-Control fliegt mittlerweile schon sehr gut. Leider passiert sporadisch immer mal wieder ein Fehler bei Roll-Loops. Wenn ich um die Roll-Achse drehen möchte (360°) passiert es manchmal, dass eine Achse komplett zu spinnen beginnt. Das Ergebnis, der Quadro fällt ca. 20m taumelnd vom Himmel und ist teilweise geschrottet. Loopings um die Nick-Achse sind dagegen überhaupt kein Problem! Auch im normalen Flug passiert so etwas nicht, wirklich nur manchmal bei Roll-Loopings. Allerdings kann ich mir dieses Verhalten nicht erklären. Es scheint, als ob der rechte vordere und der linke hintere Motor (oder vorne links und hinten rechts) nicht mehr richtig reagieren. Dieses Verhalten zeigt sich sowohl mit der Shrediquette-Software von Willa als auch mit meiner eigenen abgespeckten Software.
    Ich hatte schon überlegt, ob es an den Reglern liegt, aber das wiederspricht sich dadurch, dass ich Nick-Flips problemlos machen kann. Vielleicht schaut jemand mal vorsichtshalber über meinen Code!? Oder fällt euch sonst was ein?
    Code:
    $regfile = "xm32a4def.dat"
    $framesize = 100
    $swstack = 100
    $hwstack = 100
    $crystal = 32000000
    
    
    $lib "xmega.lib"
    $external _xmegafix_clear
    $external _xmegafix_rol_r1014
    
    
    Config Osc = Disabled , 32mhzosc = Enabled
    Config Sysclock = 32mhz , Prescalea = 1 , Prescalebc = 1_1
    
    
    
    Declare Sub Rcsignal()
    Declare Sub Pidregulator()
    Declare Sub Drivemotors()
    Declare Sub Init_mpu()
    Declare Sub Read_gyro()
    Declare Sub Read_acc()
    
    
    
    
    '--RC Settings--
    Config Pinc.2 = Input
    
    On Portc_int0 Getreceiver
    Enable Portc_int0 , Lo
    
    Portc_pin2ctrl = &B00_011_001
    Portc_int0mask = &B0000_0100
    Portc_intctrl = &B0000_00_01
    
    
    Config Tcc0 = Normal , Prescale = 256 , Resolution = 16
    On Tcc0_ovf Detectrxpause
    Enable Tcc0_ovf , Lo
    
    
    '--UART Settings--
    Config Com2 = 38400 , Mode = Asynchroneous , Parity = None , Stopbits = 1 , Databits = 8
    Config Serialin1 = Buffered , Size = 254
    Config Serialout1 = Buffered , Size = 254
    Open "COM2:" For Binary As #1
    
    
    '--TWI Settings--
    Dim Twi_start As Byte
    Open "twie" For Binary As #2
    Config Twie = 400000
    I2cinit #2
    
    
    
    '--Motor Constants--
    Const Pwm_mot_off = 20000
    Const Pwm_mot_max = 60000
    
    
    '--PWM Settings--
    Config Tcd0 = Pwm , Prescale = 1 , Comparea = Enabled , Compareb = Enabled , Comparec = Enabled , Compared = Enabled , Event_source = Off , Event_action = Off , Event_delay = Disabled , Resolution = 16
    
    Tcd0_cca = Pwm_mot_off
    Tcd0_ccb = Pwm_mot_off
    Tcd0_ccc = Pwm_mot_off
    Tcd0_ccd = Pwm_mot_off
    
    
    '--LED--
    Config Portb.0 = Output
    Config Portb.1 = Output
    Config Portb.2 = Output
    Led1 Alias Portb.0
    Led2 Alias Portb.1
    Led3 Alias Portb.2
    Led1 = 0
    Led2 = 0
    Led3 = 0
    
    
    '--MPU 60X0--
    Const Mpuaddw = &B11010000
    Const Mpuaddr = &B11010001
    
    Dim Gyrox As Integer
    Dim Gyroy As Integer
    Dim Gyroz As Integer
    Dim Tmp_gyrox(2) As Byte At Gyrox Overlay
    Dim Tmp_gyroy(2) As Byte At Gyroy Overlay
    Dim Tmp_gyroz(2) As Byte At Gyroz Overlay
    Dim Accx As Integer
    Dim Accy As Integer
    Dim Tmp_accx(2) As Byte At Accx Overlay
    Dim Tmp_accy(2) As Byte At Accy Overlay
    Dim Gyrox_offset As Integer
    Dim Gyroy_offset As Integer
    Dim Gyroz_offset As Integer
    Dim Accx_offset As Integer
    Dim Accy_offset As Integer
    Dim Roll_check(50) As Integer
    Dim Nick_check(50) As Integer
    Dim Yaw_check(50) As Integer
    Dim Check_tmp As Integer
    Dim Offset_tmp As Long
    Dim Movement As Byte
    Dim Compare_tmp As Integer
    
    
    '--RC Channel--
    Const Throttlechannel = 1
    Const Nickchannel = 3
    Const Rollchannel = 2
    Const Yawchannel = 4
    Const Statechannel = 5
    
    
    '--Read Receiver (Rx)--
    Const Maxrcchannel = 8
    Dim Empftmp(maxrcchannel) As Word
    Dim Empf(maxrcchannel) As Word
    Dim Channel As Byte
    Dim Lpempf(maxrcchannel) As Word
    Dim Intempf(maxrcchannel) As Integer
    Dim Receiver_check As Byte
    Dim Rc_set_throttle As Long
    Dim Rc_set_roll As Long
    Dim Rc_set_nick As Long
    Dim Rc_set_yaw As Long
    Dim Acro_sensitivy As Word
    Dim Hover_sensitivy As Word
    Dim Yaw_sensitivy As Word
    
    
    '--Motors--
    Dim Vorwahl_pwm As Word
    Dim Vorwahl As Word
    Dim Motor_rear_left As Long
    Dim Motor_rear_right As Long
    Dim Motor_front_right As Long
    Dim Motor_front_left As Long
    
    
    '--Control Loop (PID)--
    Dim Acro_p As Word
    Dim Acro_i As Word
    Dim Acro_d As Word
    
    Dim Hover_p As Word
    Dim Hover_i As Word
    Dim Hover_d As Word
    
    Dim Yaw_p As Word
    Dim Yaw_i As Word
    
    Dim Xangle As Single
    Dim Yangle As Single
    
    Dim Gyro_yangle As Single
    Dim Gyro_xangle As Single
    
    Dim Gyro_influence As Single
    Dim Acc_influence As Single
    
    Dim Roll_error As Long
    Dim Nick_error As Long
    Dim Yaw_error As Long
    
    Dim Roll_error_integral As Long
    Dim Nick_error_integral As Long
    Dim Yaw_error_integral As Long
    
    Dim Roll_error_differential As Long
    Dim Nick_error_differential As Long
    
    Dim Roll_error_old As Long
    Dim Nick_error_old As Long
    
    Dim P_set_roll As Long
    Dim I_set_roll As Long
    Dim D_set_roll As Long
    
    Dim P_set_nick As Long
    Dim I_set_nick As Long
    Dim D_set_nick As Long
    
    Dim P_set_yaw As Long
    Dim I_set_yaw As Long
    
    
    '-- Internal Variables --
    Dim Failsave As Byte
    Dim State As Byte
    Dim I As Byte
    
    
    '--Startup--
    Vorwahl = 5000
    
    Failsave = 0
    
    
    '8 Zoll Props:
    Acro_p = 270                                                'Acro_p = 270 / 300
    Acro_i = 62                                                 'Acro_i = 62  / 70
    Acro_d = 20                                                 'Acro_d = 20  / 25
    Acro_sensitivy = 320
    Yaw_p = 120                                                 '160
    Yaw_i = 29                                                  '40
    
    
    
    Hover_p = 40
    Hover_i = 25
    Hover_d = 140
    
    
    
    State = 0
    
    
    Hover_sensitivy = 100
    Yaw_sensitivy = 400
    
    Gyro_influence = 0.99
    Acc_influence = 1 - Gyro_influence
    
    
    Lpempf(1) = 24
    Lpempf(2) = 100
    Lpempf(3) = 100
    Lpempf(4) = 100
    Lpempf(5) = 24
    Lpempf(6) = 24
    Lpempf(7) = 24
    Lpempf(8) = 24
    
    
    Waitms 250
    Call Init_mpu()
    Waitms 250
    
    Clear Serialin1
    Clear Serialout1
    
    
    '--Get Offset--
    For I = 1 To 10
       Toggle Led1
       Waitms 100
    Next I
    Led1 = 0
    
    Gyrox_offset = 0
    Gyroy_offset = 0
    Gyroz_offset = 0
    
    Movement = 1
    
    While Movement = 1
    
       Movement = 0
    
       For I = 1 To 50
          Call Read_gyro()
          Roll_check(i) = Gyrox
          Nick_check(i) = Gyroy
          Yaw_check(i) = Gyroz
          Waitms 10
       Next I
    
    
       Offset_tmp = 0
       For I = 1 To 50
          Offset_tmp = Offset_tmp + Roll_check(i)
       Next I
       Offset_tmp = Offset_tmp / 50
    
       For I = 1 To 50
          Compare_tmp = Offset_tmp - Roll_check(i)
          Compare_tmp = Abs(compare_tmp)
          If Compare_tmp >= 64 Then Movement = 1
       Next I
    
    
       Offset_tmp = 0
       For I = 1 To 50
          Offset_tmp = Offset_tmp + Nick_check(i)
       Next I
       Offset_tmp = Offset_tmp / 50
    
       For I = 1 To 50
          Compare_tmp = Offset_tmp - Nick_check(i)
          Compare_tmp = Abs(compare_tmp)
          If Compare_tmp >= 64 Then Movement = 1
       Next I
    
    
       Offset_tmp = 0
       For I = 1 To 50
          Offset_tmp = Offset_tmp + Yaw_check(i)
       Next I
       Offset_tmp = Offset_tmp / 50
    
       For I = 1 To 50
          Compare_tmp = Offset_tmp - Yaw_check(i)
          Compare_tmp = Abs(compare_tmp)
          If Compare_tmp >= 64 Then Movement = 1
       Next I
    
       Toggle Led1
    
    Wend
    
    
    Led1 = 0
    For I = 1 To 10
       Toggle Led2
       Waitms 100
    Next I
    Led2 = 0
    
    
    Offset_tmp = 0
    For I = 1 To 50
       Offset_tmp = Offset_tmp + Roll_check(i)
    Next I
    Offset_tmp = Offset_tmp / 50
    Gyrox_offset = Offset_tmp
    
    Offset_tmp = 0
    For I = 1 To 50
       Offset_tmp = Offset_tmp + Nick_check(i)
    Next I
    Offset_tmp = Offset_tmp / 50
    Gyroy_offset = Offset_tmp
    
    Offset_tmp = 0
    For I = 1 To 50
       Offset_tmp = Offset_tmp + Yaw_check(i)
    Next I
    Offset_tmp = Offset_tmp / 50
    Gyroz_offset = Offset_tmp
    
    
    '--Enable Interrupts--
    Config Priority = Static , Vector = Application , Lo = Enabled , Med = Enabled , Hi = Enabled
    Enable Interrupts
    
    Waitms 100
    
    'check for receiver
    Receiver_check = 0
    While Receiver_check < 200
       If Empf(statechannel) > 50 Or Empf(statechannel) < 20 Or Empf(throttlechannel) > 50 Or Empf(throttlechannel) < 20 Then
          If Receiver_check > 0 Then Decr Receiver_check
       Else
          If Receiver_check < 250 Then Incr Receiver_check
       End If
    Wend
    
    
    
    
    Do
    
    
       Call Rcsignal()
       Call Pidregulator()
       Call Drivemotors()
    
    
    Loop
    
    End
    
    
    
    Sub Rcsignal()
    
       For I = 1 To 4
          Lpempf(i) = Lpempf(i) * 3
          Lpempf(i) = Lpempf(i) + Empf(i)
          Shift Lpempf(i) , Right , 2 , Signed
          If Lpempf(i) < 22 Then Lpempf(i) = 22
          If Lpempf(i) >= 179 Then Lpempf(i) = 178
       Next I
    
       For I = 5 To Maxrcchannel
          Lpempf(i) = Lpempf(i) * 7
          Lpempf(i) = Lpempf(i) + Empf(i)
          Shift Lpempf(i) , Right , 3 , Signed
          If Lpempf(i) < 22 Then Lpempf(i) = 22
          If Lpempf(i) >= 179 Then Lpempf(i) = 178
       Next I
    
    
       Intempf(1) = Lpempf(throttlechannel) - 22
       For I = 2 To Maxrcchannel
          Intempf(i) = Lpempf(i) - 100
       Next I
    
       If Channel >= 12 Then
          If Failsave < 250 Then Incr Failsave
       Else
          If Failsave >= 1 Then Decr Failsave
       End If
    
    
       If State = 0 Then
          If Intempf(throttlechannel) < 20 Then
             If Intempf(statechannel) >= -30 And Intempf(statechannel) < 30 Then
                State = 1
             End If
          End If
       Else
          If Intempf(statechannel) < -30 Then
             If Intempf(throttlechannel) < 20 Then
                State = 0
             End If
          Elseif Intempf(statechannel) >= -30 And Intempf(statechannel) < 30 Then
             State = 1
          Elseif Intempf(statechannel) >= 30 Then
             State = 2
          End If
       End If
    
    
       Led1 = 0
       Led2 = 0
       Led3 = 0
       If State = 0 Then Led1 = 1
       If State = 1 Then Led2 = 1
       If State = 2 Then Led3 = 1
    
       Rc_set_throttle = Intempf(throttlechannel) * 250
       Rc_set_yaw = Intempf(yawchannel) * Yaw_sensitivy
    
    End Sub
    
    
    Sub Pidregulator()
    
       Call Read_gyro()
    
       If State = 1 Then
    
          Rc_set_roll = Intempf(rollchannel) * Acro_sensitivy
          Rc_set_nick = Intempf(nickchannel) * Acro_sensitivy
    
          Roll_error = Gyrox
          Roll_error = Roll_error - Rc_set_roll
    
          Roll_error_integral = Roll_error_integral + Roll_error
          If Roll_error_integral >= 320000 Then Roll_error_integral = 320000
          If Roll_error_integral < -320000 Then Roll_error_integral = -320000
    
          Roll_error_differential = Roll_error - Roll_error_old
          Roll_error_old = Roll_error
    
    
    
          P_set_roll = Roll_error * Acro_p
          Shift P_set_roll , Right , 9 , Signed                 'P_set_roll = P_set_roll / 512
          I_set_roll = Roll_error_integral * Acro_i
          Shift I_set_roll , Right , 14 , Signed                'I_set_roll = I_set_roll / 16384
          D_set_roll = Roll_error_differential * Acro_d
          Shift D_set_roll , Right , 9 , Signed                 'D_set_roll = D_set_roll / 512
    
    
    
          Nick_error = Gyroy
          Nick_error = Nick_error - Rc_set_nick
    
          Nick_error_integral = Nick_error_integral + Nick_error
          If Nick_error_integral >= 320000 Then Nick_error_integral = 320000
          If Nick_error_integral < -320000 Then Nick_error_integral = -320000
    
          Nick_error_differential = Nick_error - Nick_error_old
          Nick_error_old = Nick_error
    
    
          P_set_nick = Nick_error * Acro_p
          Shift P_set_nick , Right , 9 , Signed                 'P_set_nick = P_set_nick / 512
          I_set_nick = Nick_error_integral * Acro_i
          Shift I_set_nick , Right , 14 , Signed                'I_set_nick = I_set_Nick / 16384
          D_set_nick = Nick_error_differential * Acro_d
          Shift D_set_nick , Right , 9 , Signed                 'D_set_nick = D_set_nick / 512
    
    
       Elseif State = 2 Then
    
          Call Read_acc()
    
          Rc_set_roll = Intempf(rollchannel) * Hover_sensitivy
          Rc_set_nick = Intempf(nickchannel) * Hover_sensitivy
    
    
          Gyro_yangle = Gyro_yangle + Gyrox
    
          Gyro_yangle = Gyro_yangle * Gyro_influence
          Yangle = Accy * Acc_influence
          Gyro_yangle = Gyro_yangle + Yangle
    
          Roll_error = Gyro_yangle - Rc_set_roll
          Roll_error_integral = Roll_error_integral + Roll_error
          If Roll_error_integral >= 4000000 Then Roll_error_integral = 4000000
          If Roll_error_integral < -4000000 Then Roll_error_integral = -4000000
    
          P_set_roll = Roll_error * Hover_p
          Shift P_set_roll , Right , 8 , Signed                 'P_set_roll = P_set_roll / 256
          I_set_roll = Roll_error_integral * Hover_i
          Shift I_set_roll , Right , 10 , Signed                'I_set_roll = I_set_roll / 1024
          D_set_roll = Gyrox * Hover_d
          Shift D_set_roll , Right , 4 , Signed                 'D_set_roll = D_set_roll / 16
    
    
          Gyro_xangle = Gyro_xangle + Gyroy
    
          Gyro_xangle = Gyro_xangle * Gyro_influence
          Xangle = Accx * Acc_influence
          Gyro_xangle = Gyro_xangle + Xangle
    
          Nick_error = Gyro_xangle - Rc_set_nick
          Nick_error_integral = Nick_error_integral + Nick_error
          If Nick_error_integral >= 4000000 Then Nick_error_integral = 4000000
          If Nick_error_integral < -4000000 Then Nick_error_integral = -4000000
    
          P_set_nick = Nick_error * Hover_p
          Shift P_set_nick , Right , 8 , Signed                 'P_set_nick = P_set_nick / 256
          I_set_nick = Nick_error_integral * Hover_i
          Shift I_set_nick , Right , 10 , Signed                'I_set_nick = I_set_nick / 1024
          D_set_nick = Gyroy * Hover_d
          Shift D_set_nick , Right , 4 , Signed                 'D_Set_nick = D_set_nick / 16
    
    
       Elseif State = 0 Then
    
          Roll_error_integral = 0
          Nick_error_integral = 0
          Roll_error_old = 0
          Nick_error_old = 0
    
       End If
    
       If State >= 1 Then
    
          Yaw_error = Gyroz
          Yaw_error = Rc_set_yaw - Yaw_error
    
          Yaw_error_integral = Yaw_error_integral + Yaw_error
          If Yaw_error_integral >= 1024000 Then Yaw_error_integral = 1024000
          If Yaw_error_integral < -1024000 Then Yaw_error_integral = -1024000
    
          P_set_yaw = Yaw_error * Yaw_p
          Shift P_set_yaw , Right , 9 , Signed                  'P_set_yaw = P_set_yaw / 512
          I_set_yaw = Yaw_error_integral * Yaw_i
          Shift I_set_yaw , Right , 14 , Signed                 'I_set_yaw = I_set_yaw / 16384
    
       Elseif State = 0 Then
    
          Yaw_error_integral = 0
    
       End If
    
    End Sub
    
    
    Sub Drivemotors()
    
       Vorwahl_pwm = Vorwahl + Pwm_mot_off
    
       If State >= 1 Then
    
    
          '--- Motor Rear Left ---
          Motor_rear_left = Pwm_mot_off + Rc_set_throttle
          Motor_rear_left = Motor_rear_left + Vorwahl
          If Motor_rear_left > 55000 Then Motor_rear_left = 55000
    
          Motor_rear_left = Motor_rear_left + P_set_roll
          Motor_rear_left = Motor_rear_left + I_set_roll
          Motor_rear_left = Motor_rear_left + D_set_roll
    
          Motor_rear_left = Motor_rear_left - P_set_nick
          Motor_rear_left = Motor_rear_left - I_set_nick
          Motor_rear_left = Motor_rear_left - D_set_nick
    
          Motor_rear_left = Motor_rear_left - P_set_yaw
          Motor_rear_left = Motor_rear_left - I_set_yaw
    
          If Motor_rear_left >= Pwm_mot_max Then Motor_rear_left = Pwm_mot_max
          If Motor_rear_left < Vorwahl_pwm Then Motor_rear_left = Vorwahl_pwm
    
    
          '--- Motor Rear Right ---
          Motor_rear_right = Pwm_mot_off + Rc_set_throttle
          Motor_rear_right = Motor_rear_right + Vorwahl
          If Motor_rear_right >= 55000 Then Motor_rear_right = 55000
    
          Motor_rear_right = Motor_rear_right - P_set_roll
          Motor_rear_right = Motor_rear_right - I_set_roll
          Motor_rear_right = Motor_rear_right - D_set_roll
    
          Motor_rear_right = Motor_rear_right - P_set_nick
          Motor_rear_right = Motor_rear_right - I_set_nick
          Motor_rear_right = Motor_rear_right - D_set_nick
    
          Motor_rear_right = Motor_rear_right + P_set_yaw
          Motor_rear_right = Motor_rear_right + I_set_yaw
    
          If Motor_rear_right >= Pwm_mot_max Then Motor_rear_right = Pwm_mot_max
          If Motor_rear_right < Vorwahl_pwm Then Motor_rear_right = Vorwahl_pwm
    
    
          '--- Motor Front Right ---
          Motor_front_right = Pwm_mot_off + Rc_set_throttle
          Motor_front_right = Motor_front_right + Vorwahl
          If Motor_front_right >= 55000 Then Motor_front_right = 55000
    
          Motor_front_right = Motor_front_right - P_set_roll
          Motor_front_right = Motor_front_right - I_set_roll
          Motor_front_right = Motor_front_right - D_set_roll
    
          Motor_front_right = Motor_front_right + P_set_nick
          Motor_front_right = Motor_front_right + I_set_nick
          Motor_front_right = Motor_front_right + D_set_nick
    
          Motor_front_right = Motor_front_right - P_set_yaw
          Motor_front_right = Motor_front_right - I_set_yaw
    
          If Motor_front_right >= Pwm_mot_max Then Motor_front_right = Pwm_mot_max
          If Motor_front_right < Vorwahl_pwm Then Motor_front_right = Vorwahl_pwm
    
    
          '--- Motor Front Left ---
          Motor_front_left = Pwm_mot_off + Rc_set_throttle
          Motor_front_left = Motor_front_left + Vorwahl
          If Motor_front_left >= 55000 Then Motor_front_left = 550000
    
          Motor_front_left = Motor_front_left + P_set_roll
          Motor_front_left = Motor_front_left + I_set_roll
          Motor_front_left = Motor_front_left + D_set_roll
    
          Motor_front_left = Motor_front_left + P_set_nick
          Motor_front_left = Motor_front_left + I_set_nick
          Motor_front_left = Motor_front_left + D_set_nick
    
          Motor_front_left = Motor_front_left + P_set_yaw
          Motor_front_left = Motor_front_left + I_set_yaw
    
          If Motor_front_left >= Pwm_mot_max Then Motor_front_left = Pwm_mot_max
          If Motor_front_left < Vorwahl_pwm Then Motor_front_left = Vorwahl_pwm
    
       Elseif State = 0 Then
    
          Motor_rear_left = Pwm_mot_off
          Motor_rear_right = Pwm_mot_off
          Motor_front_right = Pwm_mot_off
          Motor_front_left = Pwm_mot_off
    
       End If
    
       If Failsave < 15 Then
    
          Tcd0_cca = Motor_front_left
          Tcd0_ccb = Motor_front_right
          Tcd0_ccc = Motor_rear_right
          Tcd0_ccd = Motor_rear_left
    
       Else
    
          Tcd0_cca = Pwm_mot_off
          Tcd0_ccb = Pwm_mot_off
          Tcd0_ccc = Pwm_mot_off
          Tcd0_ccd = Pwm_mot_off
    
       End If
    
    
    End Sub
    
    
    Sub Init_mpu()
    
       I2cstart #2                                              'start condition
       I2cwbyte Mpuaddw , #2                                    'write adress of MPU-6050
       I2cwbyte 25 , #2                                         'Register 25 Sample Rate Divider (1..8 kHz)
       I2cwbyte &B00000000 , #2                                 'Divider set to 1   (soll)
       I2cstop #2                                               'stop condition
    
       I2cstart #2                                              'start condition
       I2cwbyte Mpuaddw , #2                                    'write adress of MPU-6050
       I2cwbyte 26 , #2                                         'Register 26 DLPF_CFG (digital lowpass filter) Configuration
       I2cwbyte &B00000000 , #2                                 'Bits 0..2 = 000 - ACC:260Hz, 0.0ms; Gyro:256Hz, 0.98ms   ( &B00000000 )
       I2cstop #2                                               'stop condition
    
       I2cstart #2                                              'start condition
       I2cwbyte Mpuaddw , #2                                    'write adress of MPU-6050
       I2cwbyte 27 , #2                                         'Register 27 Gyro Configuration
       I2cwbyte &B00001000 , #2                                 'Bits 3+4 = 00 - Full Scale Range: +/-250°/s
       I2cstop #2                                               'stop condition
    
       I2cstart #2                                              'start condition
       I2cwbyte Mpuaddw , #2                                    'write adress of MPU-6050
       I2cwbyte 28 , #2                                         'Register 28 ACC Configuration
       I2cwbyte &B00000000 , #2                                 'Bits 3+4 = 00 - Full Scale Range: +/-2g / No High Pass Filter
       I2cstop #2                                               'stop condition
    
       I2cstart #2                                              'start condition
       I2cwbyte Mpuaddw , #2                                    'write adress of MPU-6050
       I2cwbyte 107 , #2                                        'Register 107 Power Management 1
       I2cwbyte &B00001011 , #2                                 'No Reset / No Sleep / No Cycle / Temp_Sens: Dis / Clock Source: Z-Gyro
       I2cstop #2
    
    End Sub
    
    
    Sub Read_gyro()
    
       I2cstart #2
       I2cwbyte Mpuaddw , #2
       I2cwbyte 67 , #2
       I2crepstart #2
       I2cwbyte Mpuaddr , #2
    
       I2crbyte Tmp_gyrox(2) , Ack , #2
       I2crbyte Tmp_gyrox(1) , Ack , #2
    
       I2crbyte Tmp_gyroy(2) , Ack , #2
       I2crbyte Tmp_gyroy(1) , Ack , #2
    
       I2crbyte Tmp_gyroz(2) , Ack , #2
       I2crbyte Tmp_gyroz(1) , Nack , #2
    
       I2cstop #2
    
       Gyrox = 0 - Gyrox
    
    '(
       Teile Gyro durch 32
       Shift Gyrox , Right , 5 , Signed
       Shift Gyroy , Right , 5 , Signed
       Shift Gyroz , Right , 5 , Signed
    ')
       Gyrox = Gyrox - Gyrox_offset
       Gyroy = Gyroy - Gyroy_offset
       Gyroz = Gyroz - Gyroz_offset
    
    End Sub
    
    
    Sub Read_acc()
    
       I2cstart #2
       I2cwbyte Mpuaddw , #2
       I2cwbyte 59 , #2
       I2crepstart #2
       I2cwbyte Mpuaddr , #2
    
       I2crbyte Tmp_accx(2) , Ack , #2
       I2crbyte Tmp_accx(1) , Ack , #2
    
       I2crbyte Tmp_accy(2) , Ack , #2
       I2crbyte Tmp_accy(1) , Nack , #2
    
       I2cstop #2
    
       Accx = -accx
       Accy = -accy
    
       Shift Accx , Left , 3 , Signed
       Shift Accy , Left , 3 , Signed
    
       Accx = Accx - Accx_offset
       Accy = Accy - Accy_offset
    
    End Sub
    
    
    Getreceiver:
       If Channel >= 1 And Channel <= Maxrcchannel Then
         Empftmp(channel) = Tcc0_cnt - 65092
         Empf(channel) = Empftmp(channel)
       End If
       Tcc0_cnt = 65000
       Incr Channel
    Return
    
    
    Detectrxpause:
       Channel = 0
    Return
    Wenn nötig, könnte ich das Verhalten mal filmen, dass ihr euch ein besseres Bild davon machen könntet.

    Gruß
    Chris

  2. #2
    Erfahrener Benutzer Roboter Genie
    Registriert seit
    08.09.2007
    Ort
    Berlin
    Alter
    31
    Beiträge
    1.578
    Hallo,

    heute ist mein Graupner GR-16 Hott Empfänger kaputt gegangen. Ich denke, es lag an der kurzzeitig vorhandenen Überspannung (11V), welche wohl auch meinen MPU6000 gegrillt hat. Daraufhin habe ich mir einen neuen Empfänger (Graupner GR-24 Hott) gekauft. Dieser wollte sich anfangs nicht binden lassen, bis mir auffiel, dass das Teil mit den 3V3 nicht richtig arbeitet und sehr oft die Connection verlor. Denkt ihr, das könnte was mit meinen ungewollten Abstürzen zu tun haben, weil der Empfänger kurzzeitig die Verbindung verliert und das Teil dann 0.25s lang (bis zum eingebauten Failsave) irgendwas macht? Das wäre für mich eine halbwegs gute Erklärung, jedoch erklärt dies nicht, wieso dann Vor- / Rückwärts Loops problemlos funktionieren.... Vielleicht kann sich ja da jemand von euch einen Reim draus machen?
    Außerdem wollte ich noch wissen, ob und wenn ja wie ich meinen kaputten Empfänger reparieren kann bzw. wie ich den Fehler finde? Das ist alles seeeeehr klein und ich vermute, es ist eine Multilayer Platine. Habe ich da überhaupt eine Chance? Das Teil kostet 75€ und ich möchte es ungerne wegwerfen, es sei denn, es gibt keine Chance auf Heilung.

    Gruß
    Chris

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