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// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
// + Copyright (c) Holger Buss, Ingo Busker
// + Nur für den privaten Gebrauch
// + porting the sources to other systems or using the software on other systems (except hardware from www.mikrokopter.de) is not allowed
// + www.MikroKopter.com
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
// + Es gilt für das gesamte Projekt (Hardware, Software, Binärfiles, Sourcecode und Dokumentation),
// + dass eine Nutzung (auch auszugsweise) nur für den privaten (nicht-kommerziellen) Gebrauch zulässig ist.
// + Sollten direkte oder indirekte kommerzielle Absichten verfolgt werden, ist mit uns (info@mikrokopter.de) Kontakt
// + bzgl. der Nutzungsbedingungen aufzunehmen.
// + Eine kommerzielle Nutzung ist z.B.Verkauf von MikroKoptern, Bestückung und Verkauf von Platinen oder Bausätzen,
// + Verkauf von Luftbildaufnahmen, usw.
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
// + Werden Teile des Quellcodes (mit oder ohne Modifikation) weiterverwendet oder veröffentlicht,
// + unterliegen sie auch diesen Nutzungsbedingungen und diese Nutzungsbedingungen incl. Copyright müssen dann beiliegen
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
// + Sollte die Software (auch auszugesweise) oder sonstige Informationen des MikroKopter-Projekts
// + auf anderen Webseiten oder sonstigen Medien veröffentlicht werden, muss unsere Webseite "http://www.mikrokopter.de"
// + eindeutig als Ursprung verlinkt werden
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
// + Keine Gewähr auf Fehlerfreiheit, Vollständigkeit oder Funktion
// + Benutzung auf eigene Gefahr
// + Wir übernehmen keinerlei Haftung für direkte oder indirekte Personen- oder Sachschäden
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
// + Die Portierung der Software (oder Teile davon) auf andere Systeme (ausser der Hardware von www.mikrokopter.de) ist nur
// + mit unserer Zustimmung zulässig
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
// + Die Funktion printf_P() unterliegt ihrer eigenen Lizenz und ist hiervon nicht betroffen
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
// + Redistributions of source code (with or without modifications) must retain the above copyright notice,
// + this list of conditions and the following disclaimer.
// + * Neither the name of the copyright holders nor the names of contributors may be used to endorse or promote products derived
// + from this software without specific prior written permission.
// + * The use of this project (hardware, software, binary files, sources and documentation) is only permittet
// + for non-commercial use (directly or indirectly)
// + Commercial use (for excample: selling of MikroKopters, selling of PCBs, assembly, ...) is only permitted
// + with our written permission
// + * If sources or documentations are redistributet on other webpages, out webpage (http://www.MikroKopter.de) must be
// + clearly linked as origin
// + * porting to systems other than hardware from www.mikrokopter.de is not allowed
// + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
// + AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// + IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
// + ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
// + LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
// + CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
// + SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
// + INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN// + CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
// + ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
// + POSSIBILITY OF SUCH DAMAGE.
// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
#ifndef EEMEM
#define EEMEM __attribute__ ((section (".eeprom")))
#endif
#include <avr/eeprom.h>
#include <string.h>
#include "eeprom.h"
#include "uart.h"
#include "led.h"
#include "main.h"
#include "fc.h"
#include "twimaster.h"
paramset_t EE_Parameter
;
MixerTable_t Mixer
;
uint8_t RequiredMotors
;
uint8_t RAM_Checksum
(uint8_t* pBuffer
, uint16_t len
)
{
uint8_t crc
= 0xAA;
uint16_t i
;
for(i
=0; i
<len
; i
++)
{
crc
+= pBuffer
[i
];
}
return crc
;
}
uint8_t EEProm_Checksum
(uint16_t EEAddr
, uint16_t len
)
{
uint8_t crc
= 0xAA;
uint16_t off
;
for(off
=0; off
<len
; off
++)
{
crc
+= eeprom_read_byte
((uint8_t*)(EEAddr
+ off
));;
}
return crc
;
}
void ParamSet_DefaultStickMapping
(void)
{
EE_Parameter.
Kanalbelegung[K_GAS
] = 1;
EE_Parameter.
Kanalbelegung[K_ROLL
] = 2;
EE_Parameter.
Kanalbelegung[K_NICK
] = 3;
EE_Parameter.
Kanalbelegung[K_GIER
] = 4;
EE_Parameter.
Kanalbelegung[K_POTI1
] = 5;
EE_Parameter.
Kanalbelegung[K_POTI2
] = 6;
EE_Parameter.
Kanalbelegung[K_POTI3
] = 7;
EE_Parameter.
Kanalbelegung[K_POTI4
] = 8;
EE_Parameter.
Kanalbelegung[K_POTI5
] = 9;
EE_Parameter.
Kanalbelegung[K_POTI6
] = 10;
EE_Parameter.
Kanalbelegung[K_POTI7
] = 11;
EE_Parameter.
Kanalbelegung[K_POTI8
] = 12;
}
/***************************************************/
/* Default Values for parameter set 1 */
/***************************************************/
void CommonDefaults
(void)
{
EE_Parameter.
Revision = EEPARAM_REVISION
;
if(PlatinenVersion
>= 20)
{
EE_Parameter.
Gyro_D = 10;
EE_Parameter.
Driftkomp = 0;
EE_Parameter.
GyroAccFaktor = 27;
EE_Parameter.
WinkelUmschlagNick = 78;
EE_Parameter.
WinkelUmschlagRoll = 78;
}
else
{
EE_Parameter.
Gyro_D = 3;
EE_Parameter.
Driftkomp = 32;
EE_Parameter.
GyroAccFaktor = 30;
EE_Parameter.
WinkelUmschlagNick = 85;
EE_Parameter.
WinkelUmschlagRoll = 85;
}
EE_Parameter.
GlobalConfig = CFG_ACHSENKOPPLUNG_AKTIV
| CFG_KOMPASS_AKTIV
| CFG_GPS_AKTIV
| CFG_HOEHEN_SCHALTER
;
EE_Parameter.
ExtraConfig = CFG_GPS_AID
| CFG2_VARIO_BEEP
;
EE_Parameter.
Receiver = RECEIVER_JETI
;
EE_Parameter.
MotorSafetySwitch = 0;
EE_Parameter.
ExternalControl = 0;
EE_Parameter.
Gas_Min = 8; // Wert : 0-32
EE_Parameter.
Gas_Max = 230; // Wert : 33-247
EE_Parameter.
KompassWirkung = 64; // Wert : 0-247
EE_Parameter.
Hoehe_MinGas = 30;
EE_Parameter.
MaxHoehe = 255; // Wert : 0-247 255 -> Poti1
EE_Parameter.
Hoehe_P = 15; // Wert : 0-32
EE_Parameter.
Luftdruck_D = 30; // Wert : 0-247
EE_Parameter.
Hoehe_ACC_Wirkung = 0; // Wert : 0-247
EE_Parameter.
Hoehe_HoverBand = 8; // Wert : 0-247
EE_Parameter.
Hoehe_GPS_Z = 64; // Wert : 0-247
EE_Parameter.
Hoehe_StickNeutralPoint = 0;// Wert : 0-247 (0 = Hover-Estimation)
EE_Parameter.
Hoehe_Verstaerkung = 15; // Wert : 0-50
EE_Parameter.
UserParam1 = 0; // zur freien Verwendung
EE_Parameter.
UserParam2 = 0; // zur freien Verwendung
EE_Parameter.
UserParam3 = 0; // zur freien Verwendung
EE_Parameter.
UserParam4 = 0; // zur freien Verwendung
EE_Parameter.
UserParam5 = 0; // zur freien Verwendung
EE_Parameter.
UserParam6 = 0; // zur freien Verwendung
EE_Parameter.
UserParam7 = 0; // zur freien Verwendung
EE_Parameter.
UserParam8 = 0; // zur freien Verwendung
EE_Parameter.
ServoNickControl = 128; // Wert : 0-247 // Stellung des Servos
EE_Parameter.
ServoNickComp = 50; // Wert : 0-247 // Einfluss Gyro/Servo
EE_Parameter.
ServoCompInvert = 2; // Wert : 0-247 // Richtung Einfluss Gyro/Servo
EE_Parameter.
ServoNickMin = 15; // Wert : 0-247 // Anschlag
EE_Parameter.
ServoNickMax = 230; // Wert : 0-247 // Anschlag
EE_Parameter.
ServoNickRefresh = 4;
EE_Parameter.
Servo3 = 125;
EE_Parameter.
Servo4 = 125;
EE_Parameter.
Servo5 = 125;
EE_Parameter.
ServoRollControl = 128; // Wert : 0-247 // Stellung des Servos
EE_Parameter.
ServoRollComp = 85; // Wert : 0-247 // Einfluss Gyro/Servo
EE_Parameter.
ServoRollMin = 70; // Wert : 0-247 // Anschlag
EE_Parameter.
ServoRollMax = 220; // Wert : 0-247 // Anschlag
EE_Parameter.
ServoManualControlSpeed = 60;
EE_Parameter.
CamOrientation = 0; // Wert : 0-24 -> 0-360 -> 15° steps
EE_Parameter.
J16Bitmask = 95;
EE_Parameter.
J17Bitmask = 243;
EE_Parameter.
WARN_J16_Bitmask = 0xAA;
EE_Parameter.
WARN_J17_Bitmask = 0xAA;
EE_Parameter.
J16Timing = 20;
EE_Parameter.
J17Timing = 20;
EE_Parameter.
LoopGasLimit = 50;
EE_Parameter.
LoopThreshold = 90; // Wert: 0-247 Schwelle für Stickausschlag
EE_Parameter.
LoopHysterese = 50;
EE_Parameter.
BitConfig = 0; // Bitcodiert: 0x01=oben, 0x02=unten, 0x04=links, 0x08=rechts / wird getrennt behandelt
EE_Parameter.
NaviGpsModeControl = 254; // 254 -> Poti 2
EE_Parameter.
NaviGpsGain = 100;
EE_Parameter.
NaviGpsP = 90;
EE_Parameter.
NaviGpsI = 90;
EE_Parameter.
NaviGpsD = 90;
EE_Parameter.
NaviGpsPLimit = 75;
EE_Parameter.
NaviGpsILimit = 85;
EE_Parameter.
NaviGpsDLimit = 75;
EE_Parameter.
NaviGpsACC = 0;
EE_Parameter.
NaviGpsMinSat = 6;
EE_Parameter.
NaviStickThreshold = 8;
EE_Parameter.
NaviWindCorrection = 90;
EE_Parameter.
NaviAccCompensation = 42;
EE_Parameter.
NaviOperatingRadius = 245;
EE_Parameter.
NaviAngleLimitation = 140;
EE_Parameter.
NaviPH_LoginTime = 5;
EE_Parameter.
OrientationAngle = 0;
EE_Parameter.
CareFreeModeControl = 0;
EE_Parameter.
UnterspannungsWarnung = 33; // Wert : 0-247 ( Automatische Zellenerkennung bei < 50)
EE_Parameter.
NotGas = 45; // Wert : 0-247 // Gaswert bei Empangsverlust
EE_Parameter.
NotGasZeit = 90; // Wert : 0-247 // Zeit bis auf NotGas geschaltet wird, wg. Rx-Problemen
EE_Parameter.
MotorSmooth = 0;
EE_Parameter.
ComingHomeAltitude = 0; // 0 = don't change
EE_Parameter.
FailSafeTime = 0; // 0 = off
EE_Parameter.
MaxAltitude = 150; // 0 = off
}
void ParamSet_DefaultSet1
(void) // sport
{
CommonDefaults
();
EE_Parameter.
Stick_P = 14; // Wert : 1-20
EE_Parameter.
Stick_D = 16; // Wert : 0-20
EE_Parameter.
Gier_P = 12; // Wert : 1-20
EE_Parameter.
Gyro_P = 80; // Wert : 0-247
EE_Parameter.
Gyro_I = 150; // Wert : 0-247
EE_Parameter.
Gyro_Gier_P = 80; // Wert : 0-247
EE_Parameter.
Gyro_Gier_I = 150; // Wert : 0-247
EE_Parameter.
Gyro_Stability = 6; // Wert : 1-8
EE_Parameter.
I_Faktor = 32;
EE_Parameter.
AchsKopplung1 = 90;
EE_Parameter.
AchsKopplung2 = 80;
EE_Parameter.
CouplingYawCorrection = 1;
EE_Parameter.
GyroAccAbgleich = 16; // 1/k;
EE_Parameter.
DynamicStability = 100;
memcpy(EE_Parameter.
Name, "Sport\0", 12);
EE_Parameter.
crc = RAM_Checksum
((uint8_t*)(&EE_Parameter
), sizeof(EE_Parameter
)-1);
}
/***************************************************/
/* Default Values for parameter set 2 */
/***************************************************/
void ParamSet_DefaultSet2
(void) // normal
{
CommonDefaults
();
EE_Parameter.
Stick_P = 10; // Wert : 1-20
EE_Parameter.
Stick_D = 16; // Wert : 0-20
EE_Parameter.
Gier_P = 6; // Wert : 1-20
EE_Parameter.
Gyro_P = 90; // Wert : 0-247
EE_Parameter.
Gyro_I = 120; // Wert : 0-247
EE_Parameter.
Gyro_Gier_P = 90; // Wert : 0-247
EE_Parameter.
Gyro_Gier_I = 120; // Wert : 0-247
EE_Parameter.
Gyro_Stability = 6; // Wert : 1-8
EE_Parameter.
I_Faktor = 32;
EE_Parameter.
AchsKopplung1 = 90;
EE_Parameter.
AchsKopplung2 = 80;
EE_Parameter.
CouplingYawCorrection = 60;
EE_Parameter.
GyroAccAbgleich = 32; // 1/k
EE_Parameter.
DynamicStability = 75;
memcpy(EE_Parameter.
Name, "Normal\0", 12);
EE_Parameter.
crc = RAM_Checksum
((uint8_t*)(&EE_Parameter
), sizeof(EE_Parameter
)-1);
}
/***************************************************/
/* Default Values for parameter set 3 */
/***************************************************/
void ParamSet_DefaultSet3
(void) // beginner
{
CommonDefaults
();
EE_Parameter.
Stick_P = 8; // Wert : 1-20
EE_Parameter.
Stick_D = 16; // Wert : 0-20
EE_Parameter.
Gier_P = 6; // Wert : 1-20
EE_Parameter.
Gyro_P = 100; // Wert : 0-247
EE_Parameter.
Gyro_I = 120; // Wert : 0-247
EE_Parameter.
Gyro_Gier_P = 100; // Wert : 0-247
EE_Parameter.
Gyro_Gier_I = 120; // Wert : 0-247
EE_Parameter.
Gyro_Stability = 6; // Wert : 1-8
EE_Parameter.
I_Faktor = 16;
EE_Parameter.
AchsKopplung1 = 90;
EE_Parameter.
AchsKopplung2 = 80;
EE_Parameter.
CouplingYawCorrection = 70;
EE_Parameter.
GyroAccAbgleich = 32; // 1/k
EE_Parameter.
DynamicStability = 70;
memcpy(EE_Parameter.
Name, "Beginner\0", 12);
EE_Parameter.
crc = RAM_Checksum
((uint8_t*)(&EE_Parameter
), sizeof(EE_Parameter
)-1);
}
/***************************************************/
/* Read Parameter from EEPROM as byte */
/***************************************************/
uint8_t GetParamByte
(uint16_t param_id
)
{
return eeprom_read_byte
((uint8_t*)(EEPROM_ADR_PARAM_BEGIN
+ param_id
));
}
/***************************************************/
/* Write Parameter to EEPROM as byte */
/***************************************************/
void SetParamByte
(uint16_t param_id
, uint8_t value
)
{
eeprom_write_byte
((uint8_t*)(EEPROM_ADR_PARAM_BEGIN
+ param_id
), value
);
}
/***************************************************/
/* Read Parameter from EEPROM as word */
/***************************************************/
uint16_t GetParamWord
(uint16_t param_id
)
{
return eeprom_read_word
((uint16_t *)(EEPROM_ADR_PARAM_BEGIN
+ param_id
));
}
/***************************************************/
/* Write Parameter to EEPROM as word */
/***************************************************/
void SetParamWord
(uint16_t param_id
, uint16_t value
)
{
eeprom_write_word
((uint16_t*)(EEPROM_ADR_PARAM_BEGIN
+ param_id
), value
);
}
/***************************************************/
/* Read Parameter Set from EEPROM */
/***************************************************/
// number [1..5]
uint8_t ParamSet_ReadFromEEProm
(uint8_t setnumber
)
{
uint8_t crc
;
uint16_t eeaddr
;
// range the setnumber
if((1 > setnumber
) || (setnumber
> 5)) setnumber
= 3;
// calculate eeprom addr
eeaddr
= EEPROM_ADR_PARAMSET
+ PARAMSET_STRUCT_LEN
* (setnumber
- 1);
// calculate checksum from eeprom
crc
= EEProm_Checksum
(eeaddr
, PARAMSET_STRUCT_LEN
- 1);
// check crc
if(crc
!= eeprom_read_byte
((uint8_t*)(eeaddr
+ PARAMSET_STRUCT_LEN
- 1))) return 0;
// check revision
if(eeprom_read_byte
((uint8_t*)(eeaddr
)) != EEPARAM_REVISION
) return 0;
// read paramset from eeprom
eeprom_read_block
((void *) &EE_Parameter
, (void*)(EEPROM_ADR_PARAMSET
+ PARAMSET_STRUCT_LEN
* (setnumber
- 1)), PARAMSET_STRUCT_LEN
);
LED_Init
();
#if (defined(__AVR_ATmega1284__) || defined(__AVR_ATmega1284P__))
LIBFC_HoTT_Clear
();
#endif
return 1;
}
/***************************************************/
/* Write Parameter Set to EEPROM */
/***************************************************/
// number [1..5]
uint8_t ParamSet_WriteToEEProm
(uint8_t setnumber
)
{
uint8_t crc
;
if(EE_Parameter.
Revision == EEPARAM_REVISION
) // write only the right revision to eeprom
{
if(setnumber
> 5) setnumber
= 5;
if(setnumber
< 1) return 0;
LIBFC_CheckSettings
();
// update checksum
EE_Parameter.
crc = RAM_Checksum
((uint8_t*)(&EE_Parameter
), sizeof(EE_Parameter
)-1);
// write paramset to eeprom
eeprom_write_block
((void *) &EE_Parameter
, (void*)(EEPROM_ADR_PARAMSET
+ PARAMSET_STRUCT_LEN
* (setnumber
- 1)), PARAMSET_STRUCT_LEN
);
// backup channel settings to separate block in eeprom
eeprom_write_block
( (void*)(EE_Parameter.
Kanalbelegung), (void*)(EEPROM_ADR_CHANNELS
), sizeof(EE_Parameter.
Kanalbelegung));
// write crc of channel block to eeprom
crc
= RAM_Checksum
((uint8_t*)(EE_Parameter.
Kanalbelegung), sizeof(EE_Parameter.
Kanalbelegung));
eeprom_write_byte
((uint8_t*)(EEPROM_ADR_CHANNELS
+ sizeof(EE_Parameter.
Kanalbelegung)), crc
);
// update active settings number
SetActiveParamSet
(setnumber
);
LED_Init
();
#if (defined(__AVR_ATmega1284__) || defined(__AVR_ATmega1284P__))
LIBFC_HoTT_Clear
();
#endif
return 1;
}
// wrong revision
return 0;
}
/***************************************************/
/* Read MixerTable from EEPROM */
/***************************************************/
uint8_t MixerTable_ReadFromEEProm
(void)
{
uint8_t crc
;
// calculate checksum in eeprom
crc
= EEProm_Checksum
(EEPROM_ADR_MIXERTABLE
, sizeof(Mixer
) - 1);
// check crc
if( crc
!= eeprom_read_byte
((uint8_t*)(EEPROM_ADR_MIXERTABLE
+ sizeof(Mixer
) - 1)) ) return 0;
// check revision
if(eeprom_read_byte
((uint8_t*)(EEPROM_ADR_MIXERTABLE
)) != EEMIXER_REVISION
) return 0;
// read mixer table
eeprom_read_block
((void *) &Mixer
, (void*)(EEPROM_ADR_MIXERTABLE
), sizeof(Mixer
));
return 1;
}
/***************************************************/
/* Write Mixer Table to EEPROM */
/***************************************************/
uint8_t MixerTable_WriteToEEProm
(void)
{
if(Mixer.
Revision == EEMIXER_REVISION
)
{
// update crc
Mixer.
crc = RAM_Checksum
((uint8_t*)(&Mixer
), sizeof(Mixer
) - 1);
// write to eeprom
eeprom_write_block
((void *) &Mixer
, (void*)(EEPROM_ADR_MIXERTABLE
), sizeof(Mixer
));
return 1;
}
else return 0;
}
/***************************************************/
/* Default Values for Mixer Table */
/***************************************************/
void MixerTable_Default
(void) // Quadro
{
uint8_t i
;
Mixer.
Revision = EEMIXER_REVISION
;
// clear mixer table
for(i
= 0; i
< 16; i
++)
{
Mixer.
Motor[i
][MIX_GAS
] = 0;
Mixer.
Motor[i
][MIX_NICK
] = 0;
Mixer.
Motor[i
][MIX_ROLL
] = 0;
Mixer.
Motor[i
][MIX_YAW
] = 0;
}
// default = Quadro
Mixer.
Motor[0][MIX_GAS
] = 64; Mixer.
Motor[0][MIX_NICK
] = +64; Mixer.
Motor[0][MIX_ROLL
] = 0; Mixer.
Motor[0][MIX_YAW
] = +64;
Mixer.
Motor[1][MIX_GAS
] = 64; Mixer.
Motor[1][MIX_NICK
] = -64; Mixer.
Motor[1][MIX_ROLL
] = 0; Mixer.
Motor[1][MIX_YAW
] = +64;
Mixer.
Motor[2][MIX_GAS
] = 64; Mixer.
Motor[2][MIX_NICK
] = 0; Mixer.
Motor[2][MIX_ROLL
] = -64; Mixer.
Motor[2][MIX_YAW
] = -64;
Mixer.
Motor[3][MIX_GAS
] = 64; Mixer.
Motor[3][MIX_NICK
] = 0; Mixer.
Motor[3][MIX_ROLL
] = +64; Mixer.
Motor[3][MIX_YAW
] = -64;
memcpy(Mixer.
Name, "Quadro\0", 7);
Mixer.
crc = Mixer.
crc = RAM_Checksum
((uint8_t*)(&Mixer
), sizeof(Mixer
) - 1);
}
/***************************************************/
/* Get active parameter set */
/***************************************************/
uint8_t GetActiveParamSet
(void)
{
uint8_t setnumber
;
setnumber
= eeprom_read_byte
((uint8_t*)(EEPROM_ADR_PARAM_BEGIN
+ PID_ACTIVE_SET
));
if(setnumber
> 5)
{
setnumber
= 3;
eeprom_write_byte
((void*)(EEPROM_ADR_PARAM_BEGIN
+PID_ACTIVE_SET
), setnumber
);
}
return(setnumber
);
}
/***************************************************/
/* Set active parameter set */
/***************************************************/
void SetActiveParamSet
(uint8_t setnumber
)
{
if(setnumber
> 5) setnumber
= 5;
if(setnumber
< 1) setnumber
= 1;
eeprom_write_byte
((uint8_t*)(EEPROM_ADR_PARAM_BEGIN
+ PID_ACTIVE_SET
), setnumber
);
}
/***************************************************/
/* Set default parameter set */
/***************************************************/
void SetDefaultParameter
(uint8_t set
, uint8_t restore_channels
)
{
if(set
> 5) set
= 5;
else if(set
< 1) set
= 1;
switch(set
)
{
case 1:
ParamSet_DefaultSet1
(); // Fill ParamSet Structure to default parameter set 1 (Sport)
break;
case 2:
ParamSet_DefaultSet2
(); // Kamera
break;
case 3:
ParamSet_DefaultSet3
(); // Beginner
break;
default:
ParamSet_DefaultSet3
(); // Beginner
break;
}
if(restore_channels
)
{
uint8_t crc
;
// 1st check for a valid channel backup in eeprom
crc
= EEProm_Checksum
(EEPROM_ADR_CHANNELS
, sizeof(EE_Parameter.
Kanalbelegung));
if(crc
== eeprom_read_byte
((uint8_t*)(EEPROM_ADR_CHANNELS
+ sizeof(EE_Parameter.
Kanalbelegung))) )
{
eeprom_read_block
((void *)EE_Parameter.
Kanalbelegung, (void*)(EEPROM_ADR_CHANNELS
), sizeof(EE_Parameter.
Kanalbelegung));
}
else ParamSet_DefaultStickMapping
();
}
else ParamSet_DefaultStickMapping
();
ParamSet_WriteToEEProm
(set
);
}
/***************************************************/
/* Initialize EEPROM Parameter Sets */
/***************************************************/
void ParamSet_Init
(void)
{
uint8_t channel_backup
= 0, bad_params
= 0, ee_default
= 0,i
;
if(EEPARAM_REVISION
!= GetParamByte
(PID_EE_REVISION
) )
{
ee_default
= 1; // software update or forced by mktool
}
// 1st check for a valid channel backup in eeprom
i
= EEProm_Checksum
(EEPROM_ADR_CHANNELS
, sizeof(EE_Parameter.
Kanalbelegung));
if(i
== eeprom_read_byte
((uint8_t*)(EEPROM_ADR_CHANNELS
+ sizeof(EE_Parameter.
Kanalbelegung))) ) channel_backup
= 1;
// parameter check
// check all 5 parameter settings
for (i
= 1;i
< 6; i
++)
{
if(ee_default
|| !ParamSet_ReadFromEEProm
(i
)) // could not read paramset from eeprom
{
bad_params
= 1;
printf("\n\rGenerating default Parameter Set %d",i
);
switch(i
)
{
case 1:
ParamSet_DefaultSet1
(); // Fill ParamSet Structure to default parameter set 1 (Sport)
break;
case 2:
ParamSet_DefaultSet2
(); // Kamera
break;
case 3:
ParamSet_DefaultSet3
(); // Beginner
break;
default:
ParamSet_DefaultSet3
(); // Kamera
break;
}
if(channel_backup
) // if we have an channel mapping backup in eeprom
{ // restore it from eeprom
eeprom_read_block
((void *)EE_Parameter.
Kanalbelegung, (void*)(EEPROM_ADR_CHANNELS
), sizeof(EE_Parameter.
Kanalbelegung));
}
else
{ // use default mapping
ParamSet_DefaultStickMapping
();
}
ParamSet_WriteToEEProm
(i
);
}
}
if(bad_params
) // at least one of the parameter settings were invalid
{
// default-Setting is parameter set 3
SetActiveParamSet
(3);
}
// read active parameter set to ParamSet stucture
i
= GetActiveParamSet
();
ParamSet_ReadFromEEProm
(i
);
printf("\n\rUsing Parameter Set %d", i
);
// load mixer table
if(GetParamByte
(PID_EE_REVISION
) == 0xff || !MixerTable_ReadFromEEProm
() )
{
printf("\n\rGenerating default Mixer Table");
MixerTable_Default
(); // Quadro
MixerTable_WriteToEEProm
();
}
if(ee_default
) SetParamByte
(PID_EE_REVISION
, EEPARAM_REVISION
);
// determine motornumber
RequiredMotors
= 0;
for(i
= 0; i
< 16; i
++)
{
if(Mixer.
Motor[i
][MIX_GAS
] > 0) RequiredMotors
++;
}
printf("\n\rMixer-Config: '%s' (%u Motors)",Mixer.
Name, RequiredMotors
);
printf("\n\r==============================");
}