WebSVN - FlightCtrl - Blame - Rev 2437 - /branches/V2.08a_Rens

Rev	Author	Line No.	Line
1	ingob	1	/*#######################################################################################
		2	Flight Control
		3	#######################################################################################*/
		4	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		5	// + www.MikroKopter.com
		6	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
2050	holgerb	7	// + Software Nutzungsbedingungen (english version: see below)
		8	// + der Fa. HiSystems GmbH, Flachsmeerstrasse 2, 26802 Moormerland - nachfolgend Lizenzgeber genannt -
		9	// + Der Lizenzgeber r�umt dem Kunden ein nicht-ausschlie�liches, zeitlich und r�umlich* unbeschr�nktes Recht ein, die im den
		10	// + Mikrocontroller verwendete Firmware f�r die Hardware Flight-Ctrl, Navi-Ctrl, BL-Ctrl, MK3Mag & PC-Programm MikroKopter-Tool
		11	// + - nachfolgend Software genannt - nur f�r private Zwecke zu nutzen.
		12	// + Der Einsatz dieser Software ist nur auf oder mit Produkten des Lizenzgebers zul�ssig.
1	ingob	13	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
2050	holgerb	14	// + Die vom Lizenzgeber gelieferte Software ist urheberrechtlich gesch�tzt. Alle Rechte an der Software sowie an sonstigen im
		15	// + Rahmen der Vertragsanbahnung und Vertragsdurchf�hrung �berlassenen Unterlagen stehen im Verh�ltnis der Vertragspartner ausschlie�lich dem Lizenzgeber zu.
		16	// + Die in der Software enthaltenen Copyright-Vermerke, Markenzeichen, andere Rechtsvorbehalte, Seriennummern sowie
		17	// + sonstige der Programmidentifikation dienenden Merkmale d�rfen vom Kunden nicht ver�ndert oder unkenntlich gemacht werden.
		18	// + Der Kunde trifft angemessene Vorkehrungen f�r den sicheren Einsatz der Software. Er wird die Software gr�ndlich auf deren
		19	// + Verwendbarkeit zu dem von ihm beabsichtigten Zweck testen, bevor er diese operativ einsetzt.
		20	// + Die Haftung des Lizenzgebers wird - soweit gesetzlich zul�ssig - begrenzt in H�he des typischen und vorhersehbaren
		21	// + Schadens. Die gesetzliche Haftung bei Personensch�den und nach dem Produkthaftungsgesetz bleibt unber�hrt. Dem Lizenzgeber steht jedoch der Einwand
		22	// + des Mitverschuldens offen.
		23	// + Der Kunde trifft angemessene Vorkehrungen f�r den Fall, dass die Software ganz oder teilweise nicht ordnungsgem�� arbeitet.
		24	// + Er wird die Software gr�ndlich auf deren Verwendbarkeit zu dem von ihm beabsichtigten Zweck testen, bevor er diese operativ einsetzt.
		25	// + Der Kunde wird er seine Daten vor Einsatz der Software nach dem Stand der Technik sichern.
		26	// + Der Kunde ist dar�ber unterrichtet, dass der Lizenzgeber seine Daten im zur Vertragsdurchf�hrung erforderlichen Umfang
		27	// + und auf Grundlage der Datenschutzvorschriften erhebt, speichert, verarbeitet und, sofern notwendig, an Dritte �bermittelt.
		28	// + *) Die r�umliche Nutzung bezieht sich nur auf den Einsatzort, nicht auf die Reichweite der programmierten Software.
		29	// + #### ENDE DER NUTZUNGSBEDINGUNGEN ####'
		30	// + Hinweis: Informationen �ber erweiterte Nutzungsrechte (wie z.B. Nutzung f�r nicht-private Zwecke) sind auf Anfrage per Email an info(@)hisystems.de verf�gbar.
1	ingob	31	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
2050	holgerb	32	// + Software LICENSING TERMS
1	ingob	33	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
2050	holgerb	34	// + of HiSystems GmbH, Flachsmeerstrasse 2, 26802 Moormerland, Germany - the Licensor -
		35	// + The Licensor grants the customer a non-exclusive license to use the microcontroller firmware of the Flight-Ctrl, Navi-Ctrl, BL-Ctrl, and MK3Mag hardware
		36	// + (the Software) exclusively for private purposes. The License is unrestricted with respect to time and territory*.
		37	// + The Software may only be used with the Licensor's products.
		38	// + The Software provided by the Licensor is protected by copyright. With respect to the relationship between the parties to this
		39	// + agreement, all rights pertaining to the Software and other documents provided during the preparation and execution of this
		40	// + agreement shall be the property of the Licensor.
		41	// + The information contained in the Software copyright notices, trademarks, other legal reservations, serial numbers and other
		42	// + features that can be used to identify the program may not be altered or defaced by the customer.
		43	// + The customer shall be responsible for taking reasonable precautions
		44	// + for the safe use of the Software. The customer shall test the Software thoroughly regarding its suitability for the
		45	// + intended purpose before implementing it for actual operation. The Licensor's liability shall be limited to the extent of typical and
		46	// + foreseeable damage to the extent permitted by law, notwithstanding statutory liability for bodily injury and product
		47	// + liability. However, the Licensor shall be entitled to the defense of contributory negligence.
		48	// + The customer will take adequate precautions in the case, that the software is not working properly. The customer will test
		49	// + the software for his purpose before any operational usage. The customer will backup his data before using the software.
		50	// + The customer understands that the Licensor collects, stores and processes, and, where required, forwards, customer data
		51	// + to third parties to the extent necessary for executing the agreement, subject to applicable data protection and privacy regulations.
		52	// + *) The territory aspect only refers to the place where the Software is used, not its programmed range.
		53	// + #### END OF LICENSING TERMS ####
		54	// + Note: For information on license extensions (e.g. commercial use), please contact us at info(@)hisystems.de.
1	ingob	55	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		56
		57	#include "main.h"
1320	hbuss	58	#include "mymath.h"
1330	killagreg	59	#include "isqrt.h"
1	ingob	60
1352	hbuss	61	unsigned char h,m,s;
		62	unsigned int BaroExpandActive = 0;
1153	hbuss	63	int MesswertNick,MesswertRoll,MesswertGier,MesswertGierBias, RohMesswertNick,RohMesswertRoll;
1166	hbuss	64	int TrimNick, TrimRoll;
927	hbuss	65	int AdNeutralNick = 0,AdNeutralRoll = 0,AdNeutralGier = 0,StartNeutralRoll = 0,StartNeutralNick = 0;
1703	holgerb	66	int Mittelwert_AccNick, Mittelwert_AccRoll;
1643	holgerb	67	unsigned int NeutralAccX=0, NeutralAccY=0;
805	hbuss	68	int NaviAccNick, NaviAccRoll,NaviCntAcc = 0;
1639	holgerb	69	int NeutralAccZ = 0;
2316	holgerb	70	signed char NeutralAccZfine = 0;
1683	killagreg	71	unsigned char ControlHeading = 0;// in 2�
693	hbuss	72	long IntegralNick = 0,IntegralNick2 = 0;
		73	long IntegralRoll = 0,IntegralRoll2 = 0;
		74	long IntegralAccNick = 0,IntegralAccRoll = 0,IntegralAccZ = 0;
		75	long Integral_Gier = 0;
		76	long Mess_IntegralNick = 0,Mess_IntegralNick2 = 0;
		77	long Mess_IntegralRoll = 0,Mess_IntegralRoll2 = 0;
		78	long Mess_Integral_Gier = 0,Mess_Integral_Gier2 = 0;
		79	long MittelIntegralNick,MittelIntegralRoll,MittelIntegralNick2,MittelIntegralRoll2;
1685	holgerb	80	long SummeNick=0,SummeRoll=0;
1	ingob	81	volatile long Mess_Integral_Hoch = 0;
1840	holgerb	82	int KompassValue = -1;
1837	holgerb	83	int KompassSollWert = 0;
1941	holgerb	84	//int KompassRichtung = 0;
1839	holgerb	85	char CalculateCompassTimer = 100;
		86	unsigned char KompassFusion = 32;
		87	unsigned int KompassSignalSchlecht = 50;
855	hbuss	88	unsigned char MAX_GAS,MIN_GAS;
1	ingob	89	unsigned char HoehenReglerAktiv = 0;
880	hbuss	90	unsigned char TrichterFlug = 0;
395	hbuss	91	long Umschlag180Nick = 250000L, Umschlag180Roll = 250000L;
693	hbuss	92	long ErsatzKompass;
2437	holgerb	93	int ErsatzKompassInGrad, CompassCorrected; // Kompasswert in Grad
693	hbuss	94	int GierGyroFehler = 0;
1211	hbuss	95	char GyroFaktor,GyroFaktorGier;
		96	char IntegralFaktor,IntegralFaktorGier;
1153	hbuss	97	int DiffNick,DiffRoll;
2427	holgerb	98	unsigned int StickGasHover = 127;
		99	int HoverGasMin = 0, HoverGasMax = 1023;
1943	holgerb	100	int StickNick = 0,StickRoll = 0,StickGier = 0,StickGas = 0;
1377	hbuss	101	//int Poti1 = 0, Poti2 = 0, Poti3 = 0, Poti4 = 0, Poti5 = 0, Poti6 = 0, Poti7 = 0, Poti8 = 0;
1391	killagreg	102	unsigned char Poti[9] = {0,0,0,0,0,0,0,0};
1	ingob	103	volatile unsigned char SenderOkay = 0;
1698	holgerb	104	char MotorenEin = 0,StartTrigger = 0;
1246	killagreg	105	long HoehenWert = 0;
		106	long SollHoehe = 0;
1942	holgerb	107	signed int AltitudeSetpointTrimming = 0;
1855	holgerb	108	long FromNC_AltitudeSetpoint = 0;
		109	unsigned char FromNC_AltitudeSpeed = 0;
1862	holgerb	110	unsigned char carefree_old = 50; // to make the Beep when switching
1942	holgerb	111	signed char WaypointTrimming = 0;
1840	holgerb	112	int CompassGierSetpoint = 0;
2009	holgerb	113	unsigned char CalibrationDone = 0;
2061	holgerb	114	char NeueKompassRichtungMerken = 0;
1692	holgerb	115	int LageKorrekturRoll = 0,LageKorrekturNick = 0, HoverGas = 0;
1153	hbuss	116	//float Ki = FAKTOR_I;
1676	holgerb	117	int Ki = 10300 / 33;
395	hbuss	118	unsigned char Looping_Nick = 0,Looping_Roll = 0;
		119	unsigned char Looping_Links = 0, Looping_Rechts = 0, Looping_Unten = 0, Looping_Oben = 0;
1	ingob	120
		121	unsigned char Parameter_Luftdruck_D = 48; // Wert : 0-250
2342	holgerb	122	unsigned char Parameter_HoehenSchalter = 0; // Wert : 0-250
1	ingob	123	unsigned char Parameter_Hoehe_P = 16; // Wert : 0-32
		124	unsigned char Parameter_Hoehe_ACC_Wirkung = 58; // Wert : 0-250
		125	unsigned char Parameter_KompassWirkung = 64; // Wert : 0-250
1283	hbuss	126	unsigned char Parameter_Hoehe_GPS_Z = 64; // Wert : 0-250
1111	hbuss	127	unsigned char Parameter_Gyro_D = 8; // Wert : 0-250
173	holgerb	128	unsigned char Parameter_Gyro_P = 150; // Wert : 10-250
1	ingob	129	unsigned char Parameter_Gyro_I = 150; // Wert : 0-250
1322	hbuss	130	unsigned char Parameter_Gyro_Gier_P = 150; // Wert : 10-250
		131	unsigned char Parameter_Gyro_Gier_I = 150; // Wert : 10-250
1	ingob	132	unsigned char Parameter_Gier_P = 2; // Wert : 1-20
		133	unsigned char Parameter_I_Faktor = 10; // Wert : 1-20
		134	unsigned char Parameter_UserParam1 = 0;
		135	unsigned char Parameter_UserParam2 = 0;
		136	unsigned char Parameter_UserParam3 = 0;
		137	unsigned char Parameter_UserParam4 = 0;
499	hbuss	138	unsigned char Parameter_UserParam5 = 0;
		139	unsigned char Parameter_UserParam6 = 0;
		140	unsigned char Parameter_UserParam7 = 0;
		141	unsigned char Parameter_UserParam8 = 0;
2349	holgerb	142	unsigned char Parameter_NickControl = 100;
1	ingob	143	unsigned char Parameter_ServoNickControl = 100;
1232	hbuss	144	unsigned char Parameter_ServoRollControl = 100;
2296	holgerb	145	unsigned char Parameter_ServoNickComp = 50;
		146	unsigned char Parameter_ServoRollComp = 85;
173	holgerb	147	unsigned char Parameter_LoopGasLimit = 70;
1120	hbuss	148	unsigned char Parameter_AchsKopplung1 = 90;
		149	unsigned char Parameter_AchsKopplung2 = 65;
		150	unsigned char Parameter_CouplingYawCorrection = 64;
		151	//unsigned char Parameter_AchsGegenKopplung1 = 0;
499	hbuss	152	unsigned char Parameter_DynamicStability = 100;
921	hbuss	153	unsigned char Parameter_J16Bitmask; // for the J16 Output
		154	unsigned char Parameter_J16Timing; // for the J16 Output
		155	unsigned char Parameter_J17Bitmask; // for the J17 Output
		156	unsigned char Parameter_J17Timing; // for the J17 Output
1051	killagreg	157	unsigned char Parameter_NaviGpsGain;
		158	unsigned char Parameter_NaviGpsP;
		159	unsigned char Parameter_NaviGpsI;
		160	unsigned char Parameter_NaviGpsD;
2344	holgerb	161	unsigned char Parameter_NaviGpsA;
993	hbuss	162	unsigned char Parameter_NaviOperatingRadius;
		163	unsigned char Parameter_NaviWindCorrection;
		164	unsigned char Parameter_NaviSpeedCompensation;
921	hbuss	165	unsigned char Parameter_ExternalControl;
1916	holgerb	166	unsigned char Parameter_GlobalConfig;
		167	unsigned char Parameter_ExtraConfig;
1966	holgerb	168	unsigned char Parameter_MaximumAltitude;
1403	hbuss	169	unsigned char Parameter_Servo3,Parameter_Servo4,Parameter_Servo5;
1668	holgerb	170	unsigned char CareFree = 0;
1876	holgerb	171	const signed char sintab[31] = { 0, 2, 4, 6, 7, 8, 8, 8, 7, 6, 4, 2, 0, -2, -4, -6, -7, -8, -8, -8, -7, -6, -4, -2, 0, 2, 4, 6, 7, 8, 8}; // 15� steps
1622	killagreg	172
492	hbuss	173	signed int ExternStickNick = 0,ExternStickRoll = 0,ExternStickGier = 0, ExternHoehenValue = -20;
614	hbuss	174	int MaxStickNick = 0,MaxStickRoll = 0;
871	hbuss	175	unsigned int modell_fliegt = 0;
1861	holgerb	176	volatile unsigned char FC_StatusFlags = 0, FC_StatusFlags2 = 0;
1121	hbuss	177	long GIER_GRAD_FAKTOR = 1291;
1153	hbuss	178	signed int KopplungsteilNickRoll,KopplungsteilRollNick;
1209	hbuss	179	signed int tmp_motorwert[MAX_MOTORS];
1591	holgerb	180	char VarioCharacter = ' ';
2028	holgerb	181	unsigned int HooverGasEmergencyPercent = 0; // The gas value for Emergency landing
2230	holgerb	182	unsigned int GasIsZeroCnt = 0; // to detect that the gas-stick is down for a while
2309	holgerb	183	signed int Variance = 0;
		184	signed int CosAttitude; // for projection of hoover gas
		185	unsigned char ACC_AltitudeControl = 0;
2390	holgerb	186	unsigned char LowVoltageLandingActive = 0;
2408	holgerb	187	unsigned char LowVoltageHomeActive = 0;
1591	holgerb	188
2367	holgerb	189	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
		190	#define OPA_OFFSET_STEP 5
		191	#else
		192	#define OPA_OFFSET_STEP 10
		193	#endif
		194
1639	holgerb	195	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		196	// Debugwerte zuordnen
		197	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		198	void CopyDebugValues(void)
		199	{
2373	holgerb	200	DebugOut.Analog[0] = ToNaviCtrl.IntegralNick;//IntegralNick / (EE_Parameter.GyroAccFaktor * 4);
		201	DebugOut.Analog[1] = ToNaviCtrl.IntegralRoll;//IntegralRoll / (EE_Parameter.GyroAccFaktor * 4);
1639	holgerb	202	DebugOut.Analog[2] = Mittelwert_AccNick / 4;
		203	DebugOut.Analog[3] = Mittelwert_AccRoll / 4;
1660	holgerb	204	DebugOut.Analog[4] = (signed int) AdNeutralGier - AdWertGier;
2367	holgerb	205	DebugOut.Analog[5] = HoehenWert/10;
2309	holgerb	206	DebugOut.Analog[6] = Aktuell_az;//AdWertAccHoch;//(Mess_Integral_Hoch / 512);
1639	holgerb	207	DebugOut.Analog[8] = KompassValue;
		208	DebugOut.Analog[9] = UBat;
		209	DebugOut.Analog[10] = SenderOkay;
1941	holgerb	210	DebugOut.Analog[11] = ErsatzKompassInGrad;
1702	holgerb	211	DebugOut.Analog[12] = Motor[0].SetPoint;
		212	DebugOut.Analog[13] = Motor[1].SetPoint;
		213	DebugOut.Analog[14] = Motor[2].SetPoint;
		214	DebugOut.Analog[15] = Motor[3].SetPoint;
1639	holgerb	215	DebugOut.Analog[20] = ServoNickValue;
2322	holgerb	216	DebugOut.Analog[21] = HoverGas;
1639	holgerb	217	DebugOut.Analog[22] = Capacity.ActualCurrent;
		218	DebugOut.Analog[23] = Capacity.UsedCapacity;
2309	holgerb	219	DebugOut.Analog[24] = SollHoehe/10;
2437	holgerb	220	// DebugOut.Analog[27] = KompassSollWert;
1682	holgerb	221	DebugOut.Analog[29] = Capacity.MinOfMaxPWM;
1639	holgerb	222	DebugOut.Analog[30] = GPS_Nick;
		223	DebugOut.Analog[31] = GPS_Roll;
1702	holgerb	224	if(VersionInfo.HardwareError[0] \|\| VersionInfo.HardwareError[1]) DebugOut.Status[1] \|= 1; else DebugOut.Status[1] &= 0xfe;
2373	holgerb	225	//DebugOut.Analog[16] = MinBlTemperture;
		226	//DebugOut.Analog[17] = MaxBlTemperture;
2316	holgerb	227	//DebugOut.Analog[16] = Variance;
		228	//DebugOut.Analog[17] = VarioMeter;
2369	holgerb	229	//DebugOut.Analog[16] = GasIsZeroCnt;
2316	holgerb	230	//DebugOut.Analog[18] = HoehenWertF;
		231	//DebugOut.Analog[25] = Parameter_Hoehe_P;
		232	//DebugOut.Analog[26] = Parameter_Luftdruck_D;
1639	holgerb	233	}
		234
1760	holgerb	235
1232	hbuss	236	void Piep(unsigned char Anzahl, unsigned int dauer)
1	ingob	237	{
2263	holgerb	238	unsigned int wait = 0;
1232	hbuss	239	if(MotorenEin) return; //auf keinen Fall im Flug!
1966	holgerb	240	GRN_OFF;
1	ingob	241	while(Anzahl--)
		242	{
1232	hbuss	243	beeptime = dauer;
2263	holgerb	244	wait = dauer;
		245	while(beeptime \|\| wait)
		246	{
		247	if(UpdateMotor)
		248	{
		249	UpdateMotor = 0;
		250	if(!beeptime) wait--;
		251	LIBFC_Polling();
		252	};
		253	}
1	ingob	254	}
1966	holgerb	255	GRN_ON;
1	ingob	256	}
		257
		258	//############################################################################
1622	killagreg	259	// Messwerte beim Ermitteln der Nullage
		260	void CalibrierMittelwert(void)
		261	//############################################################################
		262	{
2426	holgerb	263	// if(PlatinenVersion == 13) SucheGyroOffset();
1622	killagreg	264	// ADC auschalten, damit die Werte sich nicht w�hrend der Berechnung �ndern
		265	ANALOG_OFF;
		266	MesswertNick = AdWertNick;
		267	MesswertRoll = AdWertRoll;
		268	MesswertGier = AdWertGier;
1703	holgerb	269	Mittelwert_AccNick = ACC_AMPLIFY * AdWertAccNick;
		270	Mittelwert_AccRoll = ACC_AMPLIFY * AdWertAccRoll;
1622	killagreg	271	// ADC einschalten
		272	ANALOG_ON;
		273	Umschlag180Nick = (long) EE_Parameter.WinkelUmschlagNick * 2500L;
		274	Umschlag180Roll = (long) EE_Parameter.WinkelUmschlagRoll * 2500L;
		275	}
		276
		277	//############################################################################
1	ingob	278	// Nullwerte ermitteln
2319	holgerb	279	// Parameter: 0 -> after switch on (ignore ACC-Z fault)
		280	// Parameter: 1 -> before Start
		281	// Parameter: 2 -> calibrate and store ACC
		282	unsigned char SetNeutral(unsigned char AdjustmentMode) // retuns: "sucess"
1	ingob	283	//############################################################################
		284	{
2316	holgerb	285	unsigned char i, sucess = 1;
2367	holgerb	286	unsigned int gier_neutral = 0, nick_neutral = 0, roll_neutral = 0, acc_z_neutral = 0, barotest;
1702	holgerb	287	VersionInfo.HardwareError[0] = 0;
2146	holgerb	288	// HEF4017Reset_ON;
1051	killagreg	289	NeutralAccX = 0;
1	ingob	290	NeutralAccY = 0;
		291	NeutralAccZ = 0;
2316	holgerb	292	NeutralAccZfine = 0;
1622	killagreg	293
1051	killagreg	294	AdNeutralNick = 0;
		295	AdNeutralRoll = 0;
1	ingob	296	AdNeutralGier = 0;
1622	killagreg	297
395	hbuss	298	Parameter_AchsKopplung1 = 0;
1120	hbuss	299	Parameter_AchsKopplung2 = 0;
1622	killagreg	300
1036	hbuss	301	ExpandBaro = 0;
1622	killagreg	302
1051	killagreg	303	CalibrierMittelwert();
395	hbuss	304	Delay_ms_Mess(100);
1	ingob	305	CalibrierMittelwert();
1622	killagreg	306
2437	holgerb	307	DebugOut.Analog[16] = 0;
		308	DebugOut.Analog[17] = 0;
		309
		310
1	ingob	311	if((EE_Parameter.GlobalConfig & CFG_HOEHENREGELUNG)) // H�henregelung aktiviert?
1051	killagreg	312	{
2367	holgerb	313	if((MessLuftdruck > 950) \|\| (MessLuftdruck < 750) \|\| ExpandBaro) SucheLuftruckOffset();
1	ingob	314	}
2367	holgerb	315
		316	barotest = MessLuftdruck;
1166	hbuss	317	#define NEUTRAL_FILTER 32
2367	holgerb	318	OCR0A += OPA_OFFSET_STEP;
		319	OCR0B = 255 - OCR0A;
1166	hbuss	320	for(i=0; i<NEUTRAL_FILTER; i++)
1111	hbuss	321	{
		322	Delay_ms_Mess(10);
1216	killagreg	323	gier_neutral += AdWertGier;
1166	hbuss	324	nick_neutral += AdWertNick;
		325	roll_neutral += AdWertRoll;
2316	holgerb	326	acc_z_neutral += Aktuell_az;
1111	hbuss	327	}
2367	holgerb	328	if(MessLuftdruck < 1010 && MessLuftdruck > 20) BaroStep = barotest - MessLuftdruck;
		329	OCR0A -= OPA_OFFSET_STEP;
		330	OCR0B = 255 - OCR0A;
2316	holgerb	331	AdNeutralNick = (nick_neutral+NEUTRAL_FILTER/2) / (NEUTRAL_FILTER / 8);
		332	AdNeutralRoll = (roll_neutral+NEUTRAL_FILTER/2) / (NEUTRAL_FILTER / 8);
		333	AdNeutralGier = (gier_neutral+NEUTRAL_FILTER/2) / (NEUTRAL_FILTER);
		334	NeutralAccZ = (acc_z_neutral+NEUTRAL_FILTER/2) / (NEUTRAL_FILTER);
1622	killagreg	335
401	hbuss	336	StartNeutralRoll = AdNeutralRoll;
		337	StartNeutralNick = AdNeutralNick;
1622	killagreg	338
2319	holgerb	339	if(AdjustmentMode == 2)
1622	killagreg	340	{
		341	NeutralAccX = abs(Mittelwert_AccNick) / (2*ACC_AMPLIFY);
		342	NeutralAccY = abs(Mittelwert_AccRoll) / (2*ACC_AMPLIFY);
		343	// Save ACC neutral settings to eeprom
1639	holgerb	344	SetParamWord(PID_ACC_NICK, (uint16_t)NeutralAccX);
		345	SetParamWord(PID_ACC_ROLL, (uint16_t)NeutralAccY);
1622	killagreg	346	SetParamWord(PID_ACC_TOP, (uint16_t)NeutralAccZ);
513	hbuss	347	}
1051	killagreg	348	else
513	hbuss	349	{
1622	killagreg	350	// restore from eeprom
		351	NeutralAccX = (int16_t)GetParamWord(PID_ACC_NICK);
		352	NeutralAccY = (int16_t)GetParamWord(PID_ACC_ROLL);
		353	// strange settings?
2316	holgerb	354	if(((unsigned int) NeutralAccX > 2048) \|\| ((unsigned int) NeutralAccY > 2048)/* \|\| ((unsigned int) NeutralAccZ > 1024)*/)
1622	killagreg	355	{
		356	printf("\n\rACC not calibrated!\r\n");
		357	NeutralAccX = abs(Mittelwert_AccNick) / (2*ACC_AMPLIFY);
		358	NeutralAccY = abs(Mittelwert_AccRoll) / (2*ACC_AMPLIFY);
2316	holgerb	359	sucess = 0;
1622	killagreg	360	}
513	hbuss	361	}
2330	holgerb	362	EEAR = EE_DUMMY; // Set the EEPROM Address pointer to an unused space
		363	MesswertNick = 0;
1	ingob	364	MesswertRoll = 0;
		365	MesswertGier = 0;
2367	holgerb	366	Delay_ms_Mess(200);
1703	holgerb	367	Mittelwert_AccNick = ACC_AMPLIFY * AdWertAccNick;
		368	Mittelwert_AccRoll = ACC_AMPLIFY * AdWertAccRoll;
1173	hbuss	369	IntegralNick = EE_Parameter.GyroAccFaktor * (long)Mittelwert_AccNick;
		370	IntegralRoll = EE_Parameter.GyroAccFaktor * (long)Mittelwert_AccRoll;
2072	holgerb	371	Mess_IntegralNick = IntegralNick;
		372	Mess_IntegralRoll = IntegralRoll;
1173	hbuss	373	Mess_Integral_Gier = 0;
1837	holgerb	374	KompassSollWert = KompassValue;
1839	holgerb	375	KompassSignalSchlecht = 100;
1051	killagreg	376	beeptime = 50;
882	hbuss	377	Umschlag180Nick = ((long) EE_Parameter.WinkelUmschlagNick * 2500L) + 15000L;
		378	Umschlag180Roll = ((long) EE_Parameter.WinkelUmschlagRoll * 2500L) + 15000L;
492	hbuss	379	ExternHoehenValue = 0;
693	hbuss	380	ErsatzKompass = KompassValue * GIER_GRAD_FAKTOR;
		381	GierGyroFehler = 0;
921	hbuss	382	LED_Init();
2389	holgerb	383	if(AdjustmentMode != 0) FC_StatusFlags \|= FC_STATUS_CALIBRATE;
992	hbuss	384	FromNaviCtrl_Value.Kalman_K = -1;
1173	hbuss	385	FromNaviCtrl_Value.Kalman_MaxDrift = 0;
992	hbuss	386	FromNaviCtrl_Value.Kalman_MaxFusion = 32;
1171	hbuss	387	SenderOkay = 100;
2349	holgerb	388
		389	if(ServoActive) DDRD \|=0x80; // enable J7 -> Servo signal
		390	else
1320	hbuss	391	{
2366	holgerb	392	if((EE_Parameter.ServoCompInvert & SERVO_NICK_INV) && (EE_Parameter.ServoCompInvert & SERVO_RELATIVE)) NickServoValue = 12000;//((128 + 60) * 4 * 16); // neutral position = upper 1/4// else
		393	else NickServoValue = ((128 - 60) * 4 * 16); // neutral position = lower 1/4
2349	holgerb	394	CalculateServoSignals = 1;
		395	CalculateServo(); // nick
		396	CalculateServo(); // roll
2240	holgerb	397	}
1702	holgerb	398
2316	holgerb	399	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
		400	signed int tilt1, tilt2;
		401	tilt1 = (int)(IntegralNick/GIER_GRAD_FAKTOR); // nick angle in deg
		402	tilt2 = (int)(IntegralRoll/GIER_GRAD_FAKTOR); // roll angle in deg
		403	tilt1 = (int16_t)ihypot(tilt1,tilt2); // tilt angle over all
		404	CosAttitude = c_cos_8192(tilt1);
		405	NeutralAccZ = (long)((long) (NeutralAccZ - 512) * 8192 + 4096) / CosAttitude + 512;
		406	if(tilt1 > 20) sucess = 0; // calibration must be within 20� Tilt angle
2427	holgerb	407	if(AdjustmentMode != 0 && ACC_AltitudeControl) if((NeutralAccZ < 682 - 30) \|\| (NeutralAccZ > 682 + 35)) { VersionInfo.HardwareError[0] \|= FC_ERROR0_ACC_TOP; sucess = 0;};
2316	holgerb	408	#else
		409	NeutralAccZ = (int16_t)GetParamWord(PID_ACC_TOP);
2330	holgerb	410	EEAR = EE_DUMMY; // Set the EEPROM Address pointer to an unused space
2316	holgerb	411	#endif
1765	killagreg	412	if((AdNeutralNick < 150 * 16) \|\| (AdNeutralNick > 850 * 16)) { VersionInfo.HardwareError[0] \|= FC_ERROR0_GYRO_NICK; };
		413	if((AdNeutralRoll < 150 * 16) \|\| (AdNeutralRoll > 850 * 16)) { VersionInfo.HardwareError[0] \|= FC_ERROR0_GYRO_ROLL; };
		414	if((AdNeutralGier < 150 * 2) \|\| (AdNeutralGier > 850 * 2)) { VersionInfo.HardwareError[0] \|= FC_ERROR0_GYRO_YAW; };
		415	if((NeutralAccX < 300) \|\| (NeutralAccX > 750)) { VersionInfo.HardwareError[0] \|= FC_ERROR0_ACC_NICK; };
		416	if((NeutralAccY < 300) \|\| (NeutralAccY > 750)) { VersionInfo.HardwareError[0] \|= FC_ERROR0_ACC_ROLL; };
		417	if((NeutralAccZ < 512) \|\| (NeutralAccZ > 850)) { VersionInfo.HardwareError[0] \|= FC_ERROR0_ACC_TOP; };
2316	holgerb	418	if(VersionInfo.HardwareError[0]) sucess = 0;
1862	holgerb	419	carefree_old = 70;
1925	holgerb	420	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
1921	holgerb	421	LIBFC_HoTT_Clear();
2316	holgerb	422	ACC_AltitudeFusion(2); // initalisation
1925	holgerb	423	#endif
2367	holgerb	424	StartLuftdruck = Luftdruck;
		425	VarioMeter = 0;
		426	SummenHoehe = 0; Mess_Integral_Hoch = 0;
2373	holgerb	427	DebugOut.Analog[28] = 0; // I2C-Counter
2367	holgerb	428	CalcExpandBaroStep();
2316	holgerb	429	return(sucess);
1	ingob	430	}
		431
1702	holgerb	432
1	ingob	433	//############################################################################
395	hbuss	434	// Bearbeitet die Messwerte
1	ingob	435	void Mittelwert(void)
		436	//############################################################################
1051	killagreg	437	{
1111	hbuss	438	static signed long tmpl,tmpl2,tmpl3,tmpl4;
		439	static signed int oldNick, oldRoll, d2Roll, d2Nick;
1153	hbuss	440	signed long winkel_nick, winkel_roll;
1111	hbuss	441	MesswertGier = (signed int) AdNeutralGier - AdWertGier;
1171	hbuss	442	MesswertNick = (signed int) AdWertNickFilter / 8;
		443	MesswertRoll = (signed int) AdWertRollFilter / 8;
1153	hbuss	444	RohMesswertNick = MesswertNick;
		445	RohMesswertRoll = MesswertRoll;
1166	hbuss	446
395	hbuss	447	// Beschleunigungssensor ++++++++++++++++++++++++++++++++++++++++++++++++
1703	holgerb	448	Mittelwert_AccNick = (Mittelwert_AccNick * 3 + ((ACC_AMPLIFY * AdWertAccNick))) / 4L;
		449	Mittelwert_AccRoll = (Mittelwert_AccRoll * 3 + ((ACC_AMPLIFY * AdWertAccRoll))) / 4L;
395	hbuss	450	IntegralAccNick += ACC_AMPLIFY * AdWertAccNick;
		451	IntegralAccRoll += ACC_AMPLIFY * AdWertAccRoll;
805	hbuss	452	NaviAccNick += AdWertAccNick;
		453	NaviAccRoll += AdWertAccRoll;
		454	NaviCntAcc++;
1153	hbuss	455	IntegralAccZ += Aktuell_az - NeutralAccZ;
		456
1155	hbuss	457	//++++++++++++++++++++++++++++++++++++++++++++++++
		458	// ADC einschalten
1171	hbuss	459	ANALOG_ON;
1155	hbuss	460	AdReady = 0;
		461	//++++++++++++++++++++++++++++++++++++++++++++++++
		462
1216	killagreg	463	if(Mess_IntegralRoll > 93000L) winkel_roll = 93000L;
		464	else if(Mess_IntegralRoll <-93000L) winkel_roll = -93000L;
1153	hbuss	465	else winkel_roll = Mess_IntegralRoll;
		466
1216	killagreg	467	if(Mess_IntegralNick > 93000L) winkel_nick = 93000L;
		468	else if(Mess_IntegralNick <-93000L) winkel_nick = -93000L;
1153	hbuss	469	else winkel_nick = Mess_IntegralNick;
		470
1120	hbuss	471	// Gier ++++++++++++++++++++++++++++++++++++++++++++++++
1153	hbuss	472	Mess_Integral_Gier += MesswertGier;
		473	ErsatzKompass += MesswertGier;
395	hbuss	474	// Kopplungsanteil +++++++++++++++++++++++++++++++++++++
1916	holgerb	475	if(!Looping_Nick && !Looping_Roll && (Parameter_GlobalConfig & CFG_ACHSENKOPPLUNG_AKTIV))
395	hbuss	476	{
1153	hbuss	477	tmpl3 = (MesswertRoll * winkel_nick) / 2048L;
1120	hbuss	478	tmpl3 *= Parameter_AchsKopplung2; //65
1111	hbuss	479	tmpl3 /= 4096L;
1153	hbuss	480	tmpl4 = (MesswertNick * winkel_roll) / 2048L;
1216	killagreg	481	tmpl4 *= Parameter_AchsKopplung2; //65
1111	hbuss	482	tmpl4 /= 4096L;
1153	hbuss	483	KopplungsteilNickRoll = tmpl3;
		484	KopplungsteilRollNick = tmpl4;
1111	hbuss	485	tmpl4 -= tmpl3;
		486	ErsatzKompass += tmpl4;
1166	hbuss	487	if(!Parameter_CouplingYawCorrection) Mess_Integral_Gier -= tmpl4/2; // Gier nachhelfen
1111	hbuss	488
1153	hbuss	489	tmpl = ((MesswertGier + tmpl4) * winkel_nick) / 2048L;
1111	hbuss	490	tmpl *= Parameter_AchsKopplung1; // 90
880	hbuss	491	tmpl /= 4096L;
1153	hbuss	492	tmpl2 = ((MesswertGier + tmpl4) * winkel_roll) / 2048L;
395	hbuss	493	tmpl2 *= Parameter_AchsKopplung1;
1662	killagreg	494	tmpl2 /= 4096L;
1225	hbuss	495	if(abs(MesswertGier) > 64) if(labs(tmpl) > 128 \|\| labs(tmpl2) > 128) TrichterFlug = 1;
1153	hbuss	496	//MesswertGier += (Parameter_CouplingYawCorrection * tmpl4) / 256;
395	hbuss	497	}
1166	hbuss	498	else tmpl = tmpl2 = KopplungsteilNickRoll = KopplungsteilRollNick = 0;
1658	holgerb	499	TrimRoll = tmpl - tmpl2 / 100L;
		500	TrimNick = -tmpl2 + tmpl / 100L;
1111	hbuss	501	// Kompasswert begrenzen ++++++++++++++++++++++++++++++++++++++++++++++++
		502	if(ErsatzKompass >= (360L * GIER_GRAD_FAKTOR)) ErsatzKompass -= 360L * GIER_GRAD_FAKTOR; // 360� Umschlag
		503	if(ErsatzKompass < 0) ErsatzKompass += 360L * GIER_GRAD_FAKTOR;
395	hbuss	504	// Roll ++++++++++++++++++++++++++++++++++++++++++++++++
1166	hbuss	505	Mess_IntegralRoll2 += MesswertRoll + TrimRoll;
		506	Mess_IntegralRoll += MesswertRoll + TrimRoll - LageKorrekturRoll;
1051	killagreg	507	if(Mess_IntegralRoll > Umschlag180Roll)
395	hbuss	508	{
882	hbuss	509	Mess_IntegralRoll = -(Umschlag180Roll - 25000L);
395	hbuss	510	Mess_IntegralRoll2 = Mess_IntegralRoll;
1051	killagreg	511	}
395	hbuss	512	if(Mess_IntegralRoll <-Umschlag180Roll)
		513	{
882	hbuss	514	Mess_IntegralRoll = (Umschlag180Roll - 25000L);
395	hbuss	515	Mess_IntegralRoll2 = Mess_IntegralRoll;
1051	killagreg	516	}
395	hbuss	517	// Nick ++++++++++++++++++++++++++++++++++++++++++++++++
1166	hbuss	518	Mess_IntegralNick2 += MesswertNick + TrimNick;
		519	Mess_IntegralNick += MesswertNick + TrimNick - LageKorrekturNick;
1051	killagreg	520	if(Mess_IntegralNick > Umschlag180Nick)
882	hbuss	521	{
		522	Mess_IntegralNick = -(Umschlag180Nick - 25000L);
		523	Mess_IntegralNick2 = Mess_IntegralNick;
1051	killagreg	524	}
		525	if(Mess_IntegralNick <-Umschlag180Nick)
395	hbuss	526	{
882	hbuss	527	Mess_IntegralNick = (Umschlag180Nick - 25000L);
395	hbuss	528	Mess_IntegralNick2 = Mess_IntegralNick;
1051	killagreg	529	}
1111	hbuss	530
1	ingob	531	Integral_Gier = Mess_Integral_Gier;
		532	IntegralNick = Mess_IntegralNick;
		533	IntegralRoll = Mess_IntegralRoll;
1051	killagreg	534	IntegralNick2 = Mess_IntegralNick2;
1	ingob	535	IntegralRoll2 = Mess_IntegralRoll2;
		536
1166	hbuss	537	#define D_LIMIT 128
		538
1171	hbuss	539	MesswertNick = HiResNick / 8;
		540	MesswertRoll = HiResRoll / 8;
1166	hbuss	541
1167	hbuss	542	if(AdWertNick < 15) MesswertNick = -1000; if(AdWertNick < 7) MesswertNick = -2000;
2426	holgerb	543	// if(PlatinenVersion == 10) { if(AdWertNick > 1010) MesswertNick = +1000; if(AdWertNick > 1017) MesswertNick = +2000; }
		544	// else
		545	{ if(AdWertNick > 2000) MesswertNick = +1000; if(AdWertNick > 2015) MesswertNick = +2000; }
1167	hbuss	546	if(AdWertRoll < 15) MesswertRoll = -1000; if(AdWertRoll < 7) MesswertRoll = -2000;
2426	holgerb	547	// if(PlatinenVersion == 10) { if(AdWertRoll > 1010) MesswertRoll = +1000; if(AdWertRoll > 1017) MesswertRoll = +2000; }
		548	// else
		549	{ if(AdWertRoll > 2000) MesswertRoll = +1000; if(AdWertRoll > 2015) MesswertRoll = +2000; }
1167	hbuss	550
1216	killagreg	551	if(Parameter_Gyro_D)
1111	hbuss	552	{
1166	hbuss	553	d2Nick = HiResNick - oldNick;
		554	oldNick = (oldNick + HiResNick)/2;
1111	hbuss	555	if(d2Nick > D_LIMIT) d2Nick = D_LIMIT;
		556	else if(d2Nick < -D_LIMIT) d2Nick = -D_LIMIT;
1791	holgerb	557
1166	hbuss	558	d2Roll = HiResRoll - oldRoll;
		559	oldRoll = (oldRoll + HiResRoll)/2;
1111	hbuss	560	if(d2Roll > D_LIMIT) d2Roll = D_LIMIT;
		561	else if(d2Roll < -D_LIMIT) d2Roll = -D_LIMIT;
1791	holgerb	562
		563	MesswertNick += (d2Nick * (signed int) Parameter_Gyro_D) / 16;
1166	hbuss	564	MesswertRoll += (d2Roll * (signed int) Parameter_Gyro_D) / 16;
		565	HiResNick += (d2Nick * (signed int) Parameter_Gyro_D);
		566	HiResRoll += (d2Roll * (signed int) Parameter_Gyro_D);
1216	killagreg	567	}
1111	hbuss	568
1166	hbuss	569	if(RohMesswertRoll > 0) TrimRoll += ((long) abs(KopplungsteilNickRoll) * Parameter_CouplingYawCorrection) / 64L;
		570	else TrimRoll -= ((long) abs(KopplungsteilNickRoll) * Parameter_CouplingYawCorrection) / 64L;
		571	if(RohMesswertNick > 0) TrimNick += ((long) abs(KopplungsteilRollNick) * Parameter_CouplingYawCorrection) / 64L;
		572	else TrimNick -= ((long) abs(KopplungsteilRollNick) * Parameter_CouplingYawCorrection) / 64L;
1153	hbuss	573
1916	holgerb	574	if(Parameter_GlobalConfig & CFG_DREHRATEN_BEGRENZER && !Looping_Nick && !Looping_Roll)
1153	hbuss	575	{
		576	if(RohMesswertNick > 256) MesswertNick += 1 * (RohMesswertNick - 256);
		577	else if(RohMesswertNick < -256) MesswertNick += 1 * (RohMesswertNick + 256);
		578	if(RohMesswertRoll > 256) MesswertRoll += 1 * (RohMesswertRoll - 256);
		579	else if(RohMesswertRoll < -256) MesswertRoll += 1 * (RohMesswertRoll + 256);
		580	}
1	ingob	581	}
		582
		583	//############################################################################
		584	// Senden der Motorwerte per I2C-Bus
		585	void SendMotorData(void)
		586	//############################################################################
1051	killagreg	587	{
1209	hbuss	588	unsigned char i;
921	hbuss	589	if(!MotorenEin)
1	ingob	590	{
1765	killagreg	591	FC_StatusFlags &= ~(FC_STATUS_MOTOR_RUN \| FC_STATUS_FLY);
2309	holgerb	592	FC_StatusFlags2 &= ~FC_STATUS2_WAIT_FOR_TAKEOFF;
1216	killagreg	593	for(i=0;i<MAX_MOTORS;i++)
		594	{
		595	if(!PC_MotortestActive) MotorTest[i] = 0;
1638	holgerb	596	Motor[i].SetPoint = MotorTest[i];
		597	Motor[i].SetPointLowerBits = 0;
		598	/*
1760	holgerb	599	Motor[i].SetPoint = MotorTest[i] / 4; // testing the high resolution
		600	Motor[i].SetPointLowerBits = MotorTest[i] % 4;
1638	holgerb	601	*/
1216	killagreg	602	}
1212	hbuss	603	if(PC_MotortestActive) PC_MotortestActive--;
1216	killagreg	604	}
1765	killagreg	605	else FC_StatusFlags \|= FC_STATUS_MOTOR_RUN;
1744	holgerb	606
2418	holgerb	607	// ++++++++++++++++++++++++++++++++++++++++++
		608
		609	// ++++++++++++++++++++++++++++++++++++++++++
2427	holgerb	610	#ifdef REDUNDANT_FC_SLAVE
2418	holgerb	611	I2CTimeout = 100;
		612	return;
2427	holgerb	613	#endif
		614
		615	#ifdef REDUNDANT_FC_MASTER
		616	if(Parameter_UserParam7 > 150)
2418	holgerb	617	{
2427	holgerb	618	// Make noise
		619	if((BeepMuster == 0xffff)) { beeptime = 25000; BeepMuster = 0x0080; }
		620	// Do not send I2C-Data
		621	if(RedundanceBlOperation)
		622	{
		623	I2CTimeout = 100;
		624	return;
		625	}
2418	holgerb	626	}
		627	#endif
		628
1765	killagreg	629	if(I2C_TransferActive)
1744	holgerb	630	{
1760	holgerb	631	I2C_TransferActive = 0; // enable for the next time
1765	killagreg	632	}
		633	else
1744	holgerb	634	{
2407	holgerb	635	// motor_write = 0;
1760	holgerb	636	I2C_Start(TWI_STATE_MOTOR_TX); //Start I2C Interrupt Mode
1765	killagreg	637	}
1	ingob	638	}
		639
2342	holgerb	640	unsigned char GetChannelValue(unsigned char ch) // gives the unsigned value of the channel
		641	{
		642	int tmp2;
		643	if(ch == 0) return(0);
		644	tmp2 = PPM_in[ch] + 127;
		645	if(tmp2 > 255) tmp2 = 255; else if(tmp2 < 0) tmp2 = 0;
		646	return(tmp2);
		647	}
1	ingob	648
		649	//############################################################################
		650	// Tr�gt ggf. das Poti als Parameter ein
1051	killagreg	651	void ParameterZuordnung(void)
1	ingob	652	//############################################################################
		653	{
1787	holgerb	654	unsigned char tmp,i;
		655	for(i=0;i<8;i++)
		656	{
		657	int tmp2;
1933	holgerb	658	tmp = EE_Parameter.Kanalbelegung[K_POTI1 + i];
		659	tmp2 = PPM_in[tmp] + 127;
1787	holgerb	660	if(tmp2 > 255) tmp2 = 255; else if(tmp2 < 0) tmp2 = 0;
1933	holgerb	661
		662	if(tmp == 25) Poti[i] = tmp2; // 25 = WaypointEvent channel -> no filter
		663	else
1787	holgerb	664	if(tmp2 != Poti[i])
		665	{
		666	Poti[i] += (tmp2 - Poti[i]) / 4;
		667	if(Poti[i] > tmp2) Poti[i]--;
		668	else Poti[i]++;
		669	}
		670	}
921	hbuss	671	CHK_POTI_MM(Parameter_Luftdruck_D,EE_Parameter.Luftdruck_D,0,100);
		672	CHK_POTI_MM(Parameter_Hoehe_P,EE_Parameter.Hoehe_P,0,100);
		673	CHK_POTI_MM(Parameter_Gyro_P,EE_Parameter.Gyro_P,10,255);
1933	holgerb	674	CHK_POTI_MM(Parameter_J16Timing,EE_Parameter.J16Timing,5,255);
		675	CHK_POTI_MM(Parameter_J17Timing,EE_Parameter.J17Timing,5,255);
2012	holgerb	676
2040	holgerb	677	if(EE_Parameter.Servo3 == 247) { if(PORTC & (1<<PORTC2)) Parameter_Servo3 = 140; else Parameter_Servo3 = 70;} // Out1 (J16)
		678	else if(EE_Parameter.Servo3 == 246) { if(PORTC & (1<<PORTC3)) Parameter_Servo3 = 140; else Parameter_Servo3 = 70;}
2349	holgerb	679	else CHK_POTI_MM(Parameter_Servo3,EE_Parameter.Servo3, 24, 255);
2012	holgerb	680
2040	holgerb	681	if(EE_Parameter.Servo4 == 247) { if(PORTC & (1<<PORTC2)) Parameter_Servo4 = 140; else Parameter_Servo4 = 70;}
		682	else if(EE_Parameter.Servo4 == 246) { if(PORTC & (1<<PORTC3)) Parameter_Servo4 = 140; else Parameter_Servo4 = 70;} // Out2 (J17)
2349	holgerb	683	else CHK_POTI_MM(Parameter_Servo4,EE_Parameter.Servo4, 24, 255);
		684
		685	CHK_POTI_MM(Parameter_Servo5,EE_Parameter.Servo5, 24, 255);
2342	holgerb	686	Parameter_HoehenSchalter = GetChannelValue(EE_Parameter.HoeheChannel);
1377	hbuss	687	CHK_POTI(Parameter_Hoehe_ACC_Wirkung,EE_Parameter.Hoehe_ACC_Wirkung);
		688	CHK_POTI(Parameter_Hoehe_GPS_Z,EE_Parameter.Hoehe_GPS_Z);
		689	CHK_POTI(Parameter_KompassWirkung,EE_Parameter.KompassWirkung);
		690	CHK_POTI(Parameter_Gyro_I,EE_Parameter.Gyro_I);
		691	CHK_POTI(Parameter_Gyro_D,EE_Parameter.Gyro_D);
		692	CHK_POTI(Parameter_Gyro_Gier_P,EE_Parameter.Gyro_Gier_P);
		693	CHK_POTI(Parameter_Gyro_Gier_I,EE_Parameter.Gyro_Gier_I);
		694	CHK_POTI(Parameter_I_Faktor,EE_Parameter.I_Faktor);
		695	CHK_POTI(Parameter_UserParam1,EE_Parameter.UserParam1);
		696	CHK_POTI(Parameter_UserParam2,EE_Parameter.UserParam2);
		697	CHK_POTI(Parameter_UserParam3,EE_Parameter.UserParam3);
		698	CHK_POTI(Parameter_UserParam4,EE_Parameter.UserParam4);
		699	CHK_POTI(Parameter_UserParam5,EE_Parameter.UserParam5);
		700	CHK_POTI(Parameter_UserParam6,EE_Parameter.UserParam6);
		701	CHK_POTI(Parameter_UserParam7,EE_Parameter.UserParam7);
		702	CHK_POTI(Parameter_UserParam8,EE_Parameter.UserParam8);
		703	CHK_POTI(Parameter_ServoNickControl,EE_Parameter.ServoNickControl);
		704	CHK_POTI(Parameter_ServoRollControl,EE_Parameter.ServoRollControl);
2296	holgerb	705	CHK_POTI(Parameter_ServoNickComp,EE_Parameter.ServoNickComp);
		706	CHK_POTI(Parameter_ServoRollComp,EE_Parameter.ServoRollComp);
1377	hbuss	707	CHK_POTI(Parameter_LoopGasLimit,EE_Parameter.LoopGasLimit);
1668	holgerb	708	CHK_POTI(Parameter_AchsKopplung1,EE_Parameter.AchsKopplung1);
		709	CHK_POTI(Parameter_AchsKopplung2,EE_Parameter.AchsKopplung2);
1377	hbuss	710	CHK_POTI(Parameter_CouplingYawCorrection,EE_Parameter.CouplingYawCorrection);
1936	holgerb	711	CHK_POTI(Parameter_MaximumAltitude,EE_Parameter.MaxAltitude);
2034	holgerb	712	if((NC_To_FC_MaxAltitude && NC_To_FC_MaxAltitude < Parameter_MaximumAltitude) \|\| Parameter_MaximumAltitude == 0) Parameter_MaximumAltitude = NC_To_FC_MaxAltitude;
1916	holgerb	713	Parameter_GlobalConfig = EE_Parameter.GlobalConfig;
		714	Parameter_ExtraConfig = EE_Parameter.ExtraConfig;
1377	hbuss	715	// CHK_POTI(Parameter_AchsGegenKopplung1,EE_Parameter.AchsGegenKopplung1,0,255);
		716	CHK_POTI(Parameter_DynamicStability,EE_Parameter.DynamicStability);
		717	CHK_POTI(Parameter_ExternalControl,EE_Parameter.ExternalControl);
1676	holgerb	718	Ki = 10300 / (Parameter_I_Faktor + 1);
1	ingob	719	MAX_GAS = EE_Parameter.Gas_Max;
1662	killagreg	720	MIN_GAS = EE_Parameter.Gas_Min;
1668	holgerb	721
2342	holgerb	722	if(EE_Parameter.CareFreeChannel)
1668	holgerb	723	{
1682	holgerb	724	CareFree = 1;
2342	holgerb	725	if(PPM_in[EE_Parameter.CareFreeChannel] < -64) CareFree = 0;
		726	// if(tmp >= 248 && Poti[255 - tmp] < 50) CareFree = 0;
1862	holgerb	727	if(carefree_old != CareFree)
		728	{
		729	if(carefree_old < 3)
		730	{
2090	holgerb	731	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
		732	if(CareFree) { beeptime = 1500; if(!SpeakHoTT) SpeakHoTT = SPEAK_CF_ON; }
		733	else { beeptime = 200; if(!SpeakHoTT) SpeakHoTT = SPEAK_CF_OFF; }
		734	#else
2063	holgerb	735	if(CareFree) beeptime = 1500;
1862	holgerb	736	else beeptime = 200;
2090	holgerb	737	#endif
2063	holgerb	738	NeueKompassRichtungMerken = 5;
1862	holgerb	739	carefree_old = CareFree;
		740	} else carefree_old--;
		741	}
1937	holgerb	742	if(FromNaviCtrl.CompassValue < 0 && CareFree) VersionInfo.HardwareError[0] \|= FC_ERROR0_CAREFREE; //else VersionInfo.HardwareError[0] &= ~FC_ERROR0_CAREFREE;
1669	killagreg	743	}
1839	holgerb	744	else
		745	{
		746	CareFree = 0;
1862	holgerb	747	carefree_old = 10;
1839	holgerb	748	}
1668	holgerb	749
1691	holgerb	750	if(FromNaviCtrl.CompassValue < 0 && MotorenEin && CareFree && BeepMuster == 0xffff) // ung�ltiger Kompasswert
1690	holgerb	751	{
		752	beeptime = 15000;
		753	BeepMuster = 0xA400;
		754	CareFree = 0;
1765	killagreg	755	}
2341	holgerb	756	if(CareFree) { FC_StatusFlags2 \|= FC_STATUS2_CAREFREE; /if(Parameter_AchsKopplung1 < 210) Parameter_AchsKopplung1 += 30;/} else FC_StatusFlags2 &= ~FC_STATUS2_CAREFREE;
1	ingob	757	}
		758
2427	holgerb	759	void CalcStickGasHover(void)
		760	{
		761	if(!EE_Parameter.Hoehe_StickNeutralPoint)
		762	{
		763	StickGasHover = HoverGas/STICK_GAIN; // rescale back to stick value
		764	StickGasHover = (unsigned int)((unsigned int) StickGasHover * UBat) / BattLowVoltageWarning;
		765	}
		766	else StickGasHover = EE_Parameter.Hoehe_StickNeutralPoint;
		767	LIMIT_MIN_MAX(StickGasHover, 70, 175); // reserve some range for trim up and down
		768	}
		769
		770
1	ingob	771	//############################################################################
		772	//
		773	void MotorRegler(void)
		774	//############################################################################
		775	{
1330	killagreg	776	int pd_ergebnis_nick,pd_ergebnis_roll,tmp_int, tmp_int2;
1	ingob	777	int GierMischanteil,GasMischanteil;
		778	static long sollGier = 0,tmp_long,tmp_long2;
395	hbuss	779	static long IntegralFehlerNick = 0;
		780	static long IntegralFehlerRoll = 0;
1	ingob	781	static unsigned int RcLostTimer;
		782	static unsigned char delay_neutral = 0;
		783	static unsigned char delay_einschalten = 0,delay_ausschalten = 0;
2146	holgerb	784	static signed char move_safety_switch = 0;
395	hbuss	785	static long ausgleichNick, ausgleichRoll;
1153	hbuss	786	int IntegralNickMalFaktor,IntegralRollMalFaktor;
1209	hbuss	787	unsigned char i;
1051	killagreg	788	Mittelwert();
		789	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	790	// Gaswert ermitteln
1051	killagreg	791	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
2230	holgerb	792	if(!(FC_StatusFlags & (FC_STATUS_EMERGENCY_LANDING \| FC_STATUS2_RC_FAILSAVE_ACTIVE)))
		793	{
		794	if(EE_Parameter.GlobalConfig3 & CFG3_VARIO_FAILSAFE)
2028	holgerb	795	{
		796	if(HoverGas && HoverGas < 150 * STICK_GAIN)
		797	{
		798	HooverGasEmergencyPercent = (HoverGas/(STICK_GAIN) * EE_Parameter.NotGas) / 100; // i.e. 80% of Hovergas
		799	}
		800	else HooverGasEmergencyPercent = 45; // default if the Hoovergas was could not calculated yet
		801	} else HooverGasEmergencyPercent = EE_Parameter.NotGas;
2230	holgerb	802	}
		803	if(GasIsZeroCnt == 30000) // in that case we have RC-Lost, but the MK is probably landed
		804	{
		805	StickGas = 0; // Hold Gas down in that case
		806	HooverGasEmergencyPercent = MIN_GAS;
		807	}
1051	killagreg	808	GasMischanteil = StickGas;
831	hbuss	809	if(GasMischanteil < MIN_GAS + 10) GasMischanteil = MIN_GAS + 10;
1051	killagreg	810	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
693	hbuss	811	// Empfang schlecht
1051	killagreg	812	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1916	holgerb	813	if(SenderOkay < 100 && !(FC_StatusFlags2 & FC_STATUS2_RC_FAILSAVE_ACTIVE))
1	ingob	814	{
1051	killagreg	815	if(RcLostTimer) RcLostTimer--;
		816	else
1	ingob	817	{
		818	MotorenEin = 0;
1954	holgerb	819	modell_fliegt = 0;
		820	FC_StatusFlags &= ~(FC_STATUS_EMERGENCY_LANDING \| FC_STATUS_FLY);
1051	killagreg	821	}
1	ingob	822	ROT_ON;
2008	holgerb	823	if(modell_fliegt > 1000 && Capacity.MinOfMaxPWM > 100) // wahrscheinlich in der Luft --> langsam absenken
1	ingob	824	{
2028	holgerb	825	GasMischanteil = HooverGasEmergencyPercent;
1765	killagreg	826	FC_StatusFlags \|= FC_STATUS_EMERGENCY_LANDING;
744	hbuss	827	PPM_diff[EE_Parameter.Kanalbelegung[K_NICK]] = 0;
1051	killagreg	828	PPM_diff[EE_Parameter.Kanalbelegung[K_ROLL]] = 0;
1	ingob	829	PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] = 0;
		830	PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]] = 0;
		831	PPM_in[EE_Parameter.Kanalbelegung[K_GIER]] = 0;
173	holgerb	832	}
1954	holgerb	833	else
		834	{
		835	MotorenEin = 0;
		836	}
1	ingob	837	}
1051	killagreg	838	else
		839	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	840	// Emfang gut
1051	killagreg	841	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	842	if(SenderOkay > 140)
		843	{
2340	holgerb	844	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
2345	holgerb	845	static unsigned int trigger = 1000;
2340	holgerb	846	static unsigned char old_switch = 100;
		847	if(EE_Parameter.StartLandChannel && EE_Parameter.LandingSpeed)
		848	{
		849	if(PPM_in[EE_Parameter.StartLandChannel] > 50)
		850	{
		851	if(old_switch == 50) if(FC_StatusFlags2 & FC_STATUS2_WAIT_FOR_TAKEOFF) { FC_StatusFlags2 \|= FC_STATUS2_AUTO_STARTING; SpeakHoTT = SPEAK_RISING;}
2342	holgerb	852	FC_StatusFlags2 &= ~FC_STATUS2_AUTO_LANDING;
2340	holgerb	853	old_switch = 150;
		854	}
		855	else
		856	if(PPM_in[EE_Parameter.StartLandChannel] < -50)
		857	{
		858	if(old_switch == 150) { FC_StatusFlags2 \|= FC_STATUS2_AUTO_LANDING; SpeakHoTT = SPEAK_SINKING;}
2342	holgerb	859	FC_StatusFlags2 &= ~FC_STATUS2_AUTO_STARTING;
2340	holgerb	860	old_switch = 50;
		861	}
		862	else
		863	{
		864	FC_StatusFlags2 &= ~(FC_STATUS2_AUTO_STARTING \| FC_STATUS2_AUTO_LANDING);
		865	}
		866	}
		867	#endif
1765	killagreg	868	FC_StatusFlags &= ~FC_STATUS_EMERGENCY_LANDING;
1	ingob	869	RcLostTimer = EE_Parameter.NotGasZeit * 50;
921	hbuss	870	if(GasMischanteil > 40 && MotorenEin)
1	ingob	871	{
		872	if(modell_fliegt < 0xffff) modell_fliegt++;
		873	}
871	hbuss	874	if((modell_fliegt < 256))
2309	holgerb	875	{
1	ingob	876	SummeNick = 0;
		877	SummeRoll = 0;
1682	holgerb	878	sollGier = 0;
		879	Mess_Integral_Gier = 0;
2309	holgerb	880	FC_StatusFlags2 \|= FC_STATUS2_WAIT_FOR_TAKEOFF;
2340	holgerb	881	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
		882	old_switch = 100;
		883	#endif
2309	holgerb	884	}
		885	else
		886	{
		887	FC_StatusFlags \|= FC_STATUS_FLY;
		888	if(FC_StatusFlags2 & FC_STATUS2_WAIT_FOR_TAKEOFF)
		889	{
2322	holgerb	890	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
2340	holgerb	891	if((NC_To_FC_Flags & NC_TO_FC_AUTOSTART \|\| FC_StatusFlags2 & FC_STATUS2_AUTO_STARTING) && (VarioCharacter == '=') && ACC_AltitudeControl)
2322	holgerb	892	{
2340	holgerb	893	FromNC_AltitudeSpeed = 80;
		894	FromNC_AltitudeSetpoint = 500;
		895	SollHoehe = 500;
2322	holgerb	896	trigger = 1000;
2340	holgerb	897	if(NC_To_FC_Flags & NC_TO_FC_AUTOSTART) SpeakHoTT = SPEAK_NEXT_WP;
2322	holgerb	898	/* if(StartTrigger != 2)
		899	{
		900	StartTrigger = 1;
		901	if(HoverGas < STICK_GAIN * 35) HoverGas = STICK_GAIN * 35;
		902	}
		903	*/
		904	}
2340	holgerb	905	// else FC_StatusFlags2 &= ~(FC_STATUS2_AUTO_STARTING);
2322	holgerb	906	#endif
2340	holgerb	907	if(HoehenWertF > 150 \|\| HoehenWert < -350 \|\| !(Parameter_GlobalConfig & CFG_HOEHENREGELUNG))
2309	holgerb	908	{
		909	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
2322	holgerb	910	trigger = 1000;
2369	holgerb	911	if(FC_StatusFlags2 & FC_STATUS2_AUTO_STARTING) { FromNC_AltitudeSpeed = 0; SollHoehe = 300;/HoehenWertF + 100;/}
		912	else SpeakHoTT = SPEAK_RISING;
2309	holgerb	913	#endif
2340	holgerb	914	FC_StatusFlags2 &= ~(FC_STATUS2_WAIT_FOR_TAKEOFF \| FC_STATUS2_AUTO_STARTING \| FC_STATUS2_AUTO_LANDING);
2309	holgerb	915	}
		916	SummeNick = 0;
		917	SummeRoll = 0;
		918	Mess_Integral_Gier = 0;
		919	// sollGier = 0;
		920	if(modell_fliegt > 1000) modell_fliegt = 1000; // for the Hooverpoint-Estimation
		921	}
2322	holgerb	922	else // Flying mode
		923	{
		924	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
2340	holgerb	925	if((FC_StatusFlags2 & FC_STATUS2_AUTO_LANDING) && (VarioCharacter == 'v' \|\| VarioCharacter == '=') && ACC_AltitudeControl)
		926	{
		927	FromNC_AltitudeSpeed = EE_Parameter.LandingSpeed;
		928	FromNC_AltitudeSetpoint = -20000;
		929	}
2322	holgerb	930	if(trigger < 1000)
		931	{
		932	trigger++;
		933	SummeNick = 0;
		934	SummeRoll = 0;
		935	Mess_Integral_Gier = 0;
		936	SollHoehe = HoehenWertF - 300;
2345	holgerb	937	if(trigger == 1000 && FC_StatusFlags2 & FC_STATUS2_AUTO_LANDING && VarioCharacter != '+')
		938	{
		939	FC_StatusFlags2 &= ~FC_STATUS2_AUTO_LANDING;
		940	FC_StatusFlags2 \|= FC_STATUS2_WAIT_FOR_TAKEOFF; // go back into starting state
		941	}
2322	holgerb	942	}
		943	else
		944	if(ACC_AltitudeControl && (VarioCharacter == 'v' \|\| VarioCharacter == '-') && HoehenWert < 1000 /&& FromNC_AltitudeSetpoint < 0/)
		945	{
2345	holgerb	946	if(Aktuell_az > 940)
		947	{
		948	trigger = 0;
		949	SpeakHoTT = SPEAK_LANDING;
		950	};
2322	holgerb	951	}
		952	#endif
		953	}
		954	} // end of: modell_fliegt > 256
595	hbuss	955	if((PPM_in[EE_Parameter.Kanalbelegung[K_GAS]] > 80) && MotorenEin == 0)
1	ingob	956	{
1051	killagreg	957	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	958	// auf Nullwerte kalibrieren
1051	killagreg	959	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	960	if(PPM_in[EE_Parameter.Kanalbelegung[K_GIER]] > 75) // Neutralwerte
		961	{
		962	if(++delay_neutral > 200) // nicht sofort
		963	{
		964	delay_neutral = 0;
		965	modell_fliegt = 0;
		966	if(PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] > 70 \|\| abs(PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]]) > 70)
		967	{
304	ingob	968	unsigned char setting=1;
1	ingob	969	if(PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]] > 70 && PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] < 70) setting = 1;
		970	if(PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]] > 70 && PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] > 70) setting = 2;
		971	if(PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]] < 70 && PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] > 70) setting = 3;
		972	if(PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]] <-70 && PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] > 70) setting = 4;
		973	if(PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]] <-70 && PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] < 70) setting = 5;
1622	killagreg	974	SetActiveParamSet(setting); // aktiven Datensatz merken
1	ingob	975	}
1051	killagreg	976	if(abs(PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]]) < 30 && PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] < -70)
		977	{
819	hbuss	978	WinkelOut.CalcState = 1;
2009	holgerb	979	CalibrationDone = 0;
819	hbuss	980	beeptime = 1000;
		981	}
		982	else
1	ingob	983	{
2340	holgerb	984	ParamSet_ReadFromEEProm(ActiveParamSet);
1413	killagreg	985	LipoDetection(0);
1626	killagreg	986	LIBFC_ReceiverInit(EE_Parameter.Receiver);
1916	holgerb	987	if((Parameter_GlobalConfig & CFG_HOEHENREGELUNG)) // H�henregelung aktiviert?
819	hbuss	988	{
1	ingob	989	if((MessLuftdruck > 950) \|\| (MessLuftdruck < 750)) SucheLuftruckOffset();
1051	killagreg	990	}
2319	holgerb	991	CalibrationDone = SetNeutral(1);
1232	hbuss	992	ServoActive = 1;
		993	DDRD \|=0x80; // enable J7 -> Servo signal
2263	holgerb	994	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
2309	holgerb	995	if(VersionInfo.HardwareError[0]) SpeakHoTT = SPEAK_ERR_SENSOR;
2316	holgerb	996	else
		997	if(!CalibrationDone) SpeakHoTT = SPEAK_ERR_CALIBARTION;
2309	holgerb	998	else SpeakHoTT = SPEAK_CALIBRATE;
2345	holgerb	999	ShowSettingNameTime = 5; // for HoTT & Jeti
2263	holgerb	1000	#endif
2332	holgerb	1001	Piep(ActiveParamSet,120);
819	hbuss	1002	}
1051	killagreg	1003	}
1	ingob	1004	}
1051	killagreg	1005	else
513	hbuss	1006	if(PPM_in[EE_Parameter.Kanalbelegung[K_GIER]] < -75) // ACC Neutralwerte speichern
		1007	{
		1008	if(++delay_neutral > 200) // nicht sofort
		1009	{
		1010	MotorenEin = 0;
		1011	delay_neutral = 0;
		1012	modell_fliegt = 0;
2319	holgerb	1013	CalibrationDone = SetNeutral(2); // store ACC values into EEPROM
2263	holgerb	1014	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
2316	holgerb	1015	if(VersionInfo.HardwareError[0]) SpeakHoTT = SPEAK_ERR_SENSOR;
		1016	else
		1017	if(!CalibrationDone) SpeakHoTT = SPEAK_ERR_CALIBARTION;
		1018	else SpeakHoTT = SPEAK_CALIBRATE;
2263	holgerb	1019	#endif
2332	holgerb	1020	Piep(ActiveParamSet,120);
1051	killagreg	1021	}
513	hbuss	1022	}
1	ingob	1023	else delay_neutral = 0;
		1024	}
1051	killagreg	1025	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	1026	// Gas ist unten
1051	killagreg	1027	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
2342	holgerb	1028	if(PPM_in[EE_Parameter.Kanalbelegung[K_GAS]] < -100)
1	ingob	1029	{
2146	holgerb	1030	if(PPM_diff[EE_Parameter.MotorSafetySwitch & 127] > 5) move_safety_switch = 100;
		1031	else
		1032	if(PPM_diff[EE_Parameter.MotorSafetySwitch & 127] < -5) move_safety_switch = -100;
1521	killagreg	1033	// Motoren Starten
		1034	if(!MotorenEin)
		1035	{
2342	holgerb	1036	if((((PPM_in[EE_Parameter.Kanalbelegung[K_GIER]] < -100) && ((!(EE_Parameter.GlobalConfig3 & CFG3_MOTOR_SWITCH_MODE) && PPM_in[EE_Parameter.MotorSafetySwitch] < -75) \|\| EE_Parameter.MotorSafetySwitch == 0)))
2146	holgerb	1037	\|\| (((EE_Parameter.GlobalConfig3 & CFG3_MOTOR_SWITCH_MODE) && PPM_in[EE_Parameter.MotorSafetySwitch] > -10 && move_safety_switch == 100)))
1521	killagreg	1038	{
1051	killagreg	1039	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	1040	// Einschalten
1051	killagreg	1041	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
2146	holgerb	1042	if(CalibrationDone) FC_StatusFlags \|= FC_STATUS_START;
2367	holgerb	1043
2309	holgerb	1044	StartLuftdruck = Luftdruck;
		1045	HoehenWertF = 0;
		1046	HoehenWert = 0;
		1047	SummenHoehe = 0;
2367	holgerb	1048	if((PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] > -100 \|\| abs(PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]]) < 100) && EE_Parameter.MotorSafetySwitch == 0) delay_einschalten = 0;
2146	holgerb	1049	if(++delay_einschalten > 253)
1521	killagreg	1050	{
2407	holgerb	1051	if((abs(MesswertGier) > 32 \|\| abs(MesswertNick) > 20) \|\| abs(MesswertRoll) > 20) CalibrationDone = 0; // dann ist der Gyro defekt, schlecht kalibriert oder der MK dreht sich
1521	killagreg	1052	delay_einschalten = 0;
2009	holgerb	1053	if(!VersionInfo.HardwareError[0] && CalibrationDone && !NC_ErrorCode)
1622	killagreg	1054	{
		1055	modell_fliegt = 1;
		1056	MotorenEin = 1;
		1057	sollGier = 0;
		1058	Mess_Integral_Gier = 0;
		1059	Mess_Integral_Gier2 = 0;
		1060	Mess_IntegralNick = EE_Parameter.GyroAccFaktor * (long)Mittelwert_AccNick;
		1061	Mess_IntegralRoll = EE_Parameter.GyroAccFaktor * (long)Mittelwert_AccRoll;
		1062	Mess_IntegralNick2 = IntegralNick;
		1063	Mess_IntegralRoll2 = IntegralRoll;
		1064	SummeNick = 0;
		1065	SummeRoll = 0;
1913	holgerb	1066	// ControlHeading = (((int) EE_Parameter.OrientationAngle * 15 + KompassValue) % 360) / 2;
1840	holgerb	1067	NeueKompassRichtungMerken = 100; // 2 sekunden
2090	holgerb	1068	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
		1069	SpeakHoTT = SPEAK_STARTING;
		1070	#endif
1622	killagreg	1071	}
		1072	else
		1073	{
		1074	beeptime = 1500; // indicate missing calibration
2090	holgerb	1075	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
2146	holgerb	1076	if(!CalibrationDone) SpeakHoTT = SPEAK_ERR_CALIBARTION;
2090	holgerb	1077	#endif
1622	killagreg	1078	}
1521	killagreg	1079	}
		1080	}
		1081	else delay_einschalten = 0;
		1082	}
1051	killagreg	1083	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	1084	// Auschalten
1051	killagreg	1085	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1521	killagreg	1086	else // only if motors are running
		1087	{
2146	holgerb	1088	// if((PPM_in[EE_Parameter.Kanalbelegung[K_GIER]] > 75) && (PPM_in[EE_Parameter.MotorSafetySwitch] < -75 \|\| EE_Parameter.MotorSafetySwitch == 0))
2342	holgerb	1089	if((((PPM_in[EE_Parameter.Kanalbelegung[K_GIER]] > 100) && ((!(EE_Parameter.GlobalConfig3 & CFG3_MOTOR_SWITCH_MODE) && PPM_in[EE_Parameter.MotorSafetySwitch] < -75) \|\| EE_Parameter.MotorSafetySwitch == 0)))
2146	holgerb	1090	\|\| (((EE_Parameter.GlobalConfig3 & CFG3_MOTOR_SWITCH_MODE) && PPM_in[EE_Parameter.MotorSafetySwitch] < -50 && move_safety_switch == -100)))
1521	killagreg	1091	{
2349	holgerb	1092	if((PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] > -100 \|\| abs(PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]]) < 100) && EE_Parameter.MotorSafetySwitch == 0)
		1093	{
		1094	delay_ausschalten = 0;
		1095	}
		1096	else
		1097	{
		1098	SummeNick = 0;
		1099	SummeRoll = 0;
		1100	StickNick = 0;
		1101	StickRoll = 0;
		1102	}
2146	holgerb	1103	if(++delay_ausschalten > 250) // nicht sofort
1521	killagreg	1104	{
		1105	MotorenEin = 0;
		1106	delay_ausschalten = 0;
		1107	modell_fliegt = 0;
2349	holgerb	1108	FC_StatusFlags2 &= ~(FC_STATUS2_WAIT_FOR_TAKEOFF \| FC_STATUS2_AUTO_STARTING \| FC_STATUS2_AUTO_LANDING);
		1109	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
		1110	SpeakHoTT = SPEAK_MK_OFF;
		1111	#endif
1521	killagreg	1112	}
2366	holgerb	1113	else
		1114	if(delay_ausschalten == 100) beeptime = 3500;
1521	killagreg	1115	}
		1116	else delay_ausschalten = 0;
		1117	}
2369	holgerb	1118	if(GasIsZeroCnt < 1000)
		1119	{
		1120	if(VarioMeter > -150) GasIsZeroCnt++;
		1121	else if(GasIsZeroCnt) GasIsZeroCnt--;
		1122	}
2230	holgerb	1123	}
2146	holgerb	1124	else // gas not at minimum
2230	holgerb	1125	{
		1126	move_safety_switch = 0;
		1127	GasIsZeroCnt = 0;
		1128	}
1	ingob	1129	}
2230	holgerb	1130	else // Empfang zwischen 100 und 140 -> schlecht
		1131	{
		1132	if(GasIsZeroCnt >= 750) // gas-stick was down for 1.5 seconds before RC-Lost
		1133	{
		1134	if((GPSInfo.HomeDistance < 40 * 10) && (HoehenWert < 15 * 100)) // and we are at the starting point -> maybe landed?
		1135	{
		1136	GasIsZeroCnt = 30000;
		1137	if(modell_fliegt > 1001) modell_fliegt = 1001;
		1138	}
		1139	}
		1140	}
1051	killagreg	1141	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	1142	// neue Werte von der Funke
1051	killagreg	1143	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1216	killagreg	1144
1765	killagreg	1145	if(!NewPpmData-- \|\| (FC_StatusFlags & FC_STATUS_EMERGENCY_LANDING))
1	ingob	1146	{
604	hbuss	1147	static int stick_nick,stick_roll;
1912	holgerb	1148	unsigned char stick_p;
1	ingob	1149	ParameterZuordnung();
1912	holgerb	1150	stick_p = EE_Parameter.Stick_P;
		1151	stick_nick = (stick_nick * 3 + PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] * stick_p) / 4;
723	hbuss	1152	stick_nick += PPM_diff[EE_Parameter.Kanalbelegung[K_NICK]] * EE_Parameter.Stick_D;
1912	holgerb	1153	stick_roll = (stick_roll * 3 + PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]] * stick_p) / 4;
723	hbuss	1154	stick_roll += PPM_diff[EE_Parameter.Kanalbelegung[K_ROLL]] * EE_Parameter.Stick_D;
		1155
1707	holgerb	1156	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		1157	// CareFree und freie Wahl der vorderen Richtung
		1158	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1865	holgerb	1159	if(CareFree)
		1160	{
		1161	signed int nick, roll;
		1162	nick = stick_nick / 4;
		1163	roll = stick_roll / 4;
		1164	StickNick = ((FromNC_Rotate_C * nick) + (FromNC_Rotate_S * roll)) / (32 / 4);
		1165	StickRoll = ((FromNC_Rotate_C * roll) - (FromNC_Rotate_S * nick)) / (32 / 4);
		1166	}
		1167	else
		1168	{
		1169	FromNC_Rotate_C = sintab[EE_Parameter.OrientationAngle + 6];
		1170	FromNC_Rotate_S = sintab[EE_Parameter.OrientationAngle];
		1171	StickNick = ((FromNC_Rotate_C * stick_nick) + (FromNC_Rotate_S * stick_roll)) / 8;
		1172	StickRoll = ((FromNC_Rotate_C * stick_roll) - (FromNC_Rotate_S * stick_nick)) / 8;
		1173	}
1662	killagreg	1174
1	ingob	1175	StickGier = -PPM_in[EE_Parameter.Kanalbelegung[K_GIER]];
1840	holgerb	1176	if(StickGier > 4) StickGier -= 4; else
		1177	if(StickGier < -4) StickGier += 4; else StickGier = 0;
1120	hbuss	1178
2369	holgerb	1179	if(GasIsZeroCnt > 512) // About to switch - off
		1180	{
		1181	StickNick = StickNick/8;
		1182	StickRoll = StickRoll/8;
		1183	SummeNick = 0;
		1184	SummeRoll = 0;
		1185	}
		1186	else
1945	holgerb	1187	if(GPS_Aid_StickMultiplikator) // in that case the GPS controls stronger
		1188	{
		1189	StickNick = (GPS_Aid_StickMultiplikator * (StickNick / 8)) / 16;
		1190	StickRoll = (GPS_Aid_StickMultiplikator * (StickRoll / 8)) / 16;
		1191	}
1912	holgerb	1192	StickNick -= GPS_Nick;
		1193	StickRoll -= GPS_Roll;
1933	holgerb	1194	StickGas = PPM_in[EE_Parameter.Kanalbelegung[K_GAS]] + 127;
1330	killagreg	1195
1153	hbuss	1196	GyroFaktor = (Parameter_Gyro_P + 10.0);
		1197	IntegralFaktor = Parameter_Gyro_I;
1322	hbuss	1198	GyroFaktorGier = (Parameter_Gyro_Gier_P + 10.0);
		1199	IntegralFaktorGier = Parameter_Gyro_Gier_I;
1	ingob	1200
595	hbuss	1201	//+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		1202	//+ Analoge Steuerung per Seriell
		1203	//+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
921	hbuss	1204	if(ExternControl.Config & 0x01 && Parameter_ExternalControl > 128)
595	hbuss	1205	{
		1206	StickNick += (int) ExternControl.Nick * (int) EE_Parameter.Stick_P;
		1207	StickRoll += (int) ExternControl.Roll * (int) EE_Parameter.Stick_P;
		1208	StickGier += ExternControl.Gier;
		1209	ExternHoehenValue = (int) ExternControl.Hight * (int)EE_Parameter.Hoehe_Verstaerkung;
		1210	if(ExternControl.Gas < StickGas) StickGas = ExternControl.Gas;
		1211	}
855	hbuss	1212	if(StickGas < 0) StickGas = 0;
1330	killagreg	1213
1916	holgerb	1214	if(Parameter_GlobalConfig & CFG_HEADING_HOLD) IntegralFaktor = 0;
723	hbuss	1215
1051	killagreg	1216	if(abs(StickNick/STICK_GAIN) > MaxStickNick)
928	hbuss	1217	{
1051	killagreg	1218	MaxStickNick = abs(StickNick)/STICK_GAIN;
928	hbuss	1219	if(MaxStickNick > 100) MaxStickNick = 100;
1051	killagreg	1220	}
928	hbuss	1221	else MaxStickNick--;
1051	killagreg	1222	if(abs(StickRoll/STICK_GAIN) > MaxStickRoll)
928	hbuss	1223	{
1051	killagreg	1224	MaxStickRoll = abs(StickRoll)/STICK_GAIN;
928	hbuss	1225	if(MaxStickRoll > 100) MaxStickRoll = 100;
1051	killagreg	1226	}
928	hbuss	1227	else MaxStickRoll--;
1765	killagreg	1228	if(FC_StatusFlags & FC_STATUS_EMERGENCY_LANDING) {MaxStickNick = 0; MaxStickRoll = 0;}
723	hbuss	1229
1051	killagreg	1230	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
173	holgerb	1231	// Looping?
1051	killagreg	1232	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
993	hbuss	1233	if((PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]] > EE_Parameter.LoopThreshold) && EE_Parameter.BitConfig & CFG_LOOP_LINKS) Looping_Links = 1;
1051	killagreg	1234	else
		1235	{
395	hbuss	1236	{
1051	killagreg	1237	if((PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]] < (EE_Parameter.LoopThreshold - EE_Parameter.LoopHysterese))) Looping_Links = 0;
		1238	}
		1239	}
993	hbuss	1240	if((PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]] < -EE_Parameter.LoopThreshold) && EE_Parameter.BitConfig & CFG_LOOP_RECHTS) Looping_Rechts = 1;
1051	killagreg	1241	else
395	hbuss	1242	{
		1243	if(Looping_Rechts) // Hysterese
		1244	{
		1245	if(PPM_in[EE_Parameter.Kanalbelegung[K_ROLL]] > -(EE_Parameter.LoopThreshold - EE_Parameter.LoopHysterese)) Looping_Rechts = 0;
		1246	}
1051	killagreg	1247	}
173	holgerb	1248
993	hbuss	1249	if((PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] > EE_Parameter.LoopThreshold) && EE_Parameter.BitConfig & CFG_LOOP_OBEN) Looping_Oben = 1;
1051	killagreg	1250	else
		1251	{
395	hbuss	1252	if(Looping_Oben) // Hysterese
		1253	{
1051	killagreg	1254	if((PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] < (EE_Parameter.LoopThreshold - EE_Parameter.LoopHysterese))) Looping_Oben = 0;
		1255	}
		1256	}
993	hbuss	1257	if((PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] < -EE_Parameter.LoopThreshold) && EE_Parameter.BitConfig & CFG_LOOP_UNTEN) Looping_Unten = 1;
1051	killagreg	1258	else
395	hbuss	1259	{
		1260	if(Looping_Unten) // Hysterese
		1261	{
		1262	if(PPM_in[EE_Parameter.Kanalbelegung[K_NICK]] > -(EE_Parameter.LoopThreshold - EE_Parameter.LoopHysterese)) Looping_Unten = 0;
		1263	}
1051	killagreg	1264	}
395	hbuss	1265
		1266	if(Looping_Links \|\| Looping_Rechts) Looping_Roll = 1; else Looping_Roll = 0;
1153	hbuss	1267	if(Looping_Oben \|\| Looping_Unten) { Looping_Nick = 1; Looping_Roll = 0; Looping_Links = 0; Looping_Rechts = 0;} else Looping_Nick = 0;
395	hbuss	1268	} // Ende neue Funken-Werte
		1269
		1270	if(Looping_Roll \|\| Looping_Nick)
		1271	{
173	holgerb	1272	if(GasMischanteil > EE_Parameter.LoopGasLimit) GasMischanteil = EE_Parameter.LoopGasLimit;
1153	hbuss	1273	TrichterFlug = 1;
173	holgerb	1274	}
		1275
1051	killagreg	1276
		1277	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		1278	// Bei Empfangsausfall im Flug
		1279	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1916	holgerb	1280	if(FC_StatusFlags2 & FC_STATUS2_RC_FAILSAVE_ACTIVE)
		1281	{
		1282	StickNick = -GPS_Nick;
		1283	StickRoll = -GPS_Roll;
2230	holgerb	1284	StickGas = StickGasHover;
2407	holgerb	1285	StickGier = 0;
1916	holgerb	1286	Parameter_GlobalConfig &= ~(CFG_HEADING_HOLD \| CFG_DREHRATEN_BEGRENZER);
		1287	Parameter_GlobalConfig \|= CFG_HOEHENREGELUNG \| CFG_ACHSENKOPPLUNG_AKTIV \| CFG_KOMPASS_AKTIV \| CFG_GPS_AKTIV \| CFG_HOEHEN_SCHALTER \| CFG_GPS_AKTIV;
		1288	Parameter_ExtraConfig &= ~(CFG2_HEIGHT_LIMIT \| CFG_LEARNABLE_CAREFREE \| CFG2_VARIO_BEEP);
		1289	Parameter_HoehenSchalter = 200; // switch on
		1290	}
		1291	else
1765	killagreg	1292	if(FC_StatusFlags & FC_STATUS_EMERGENCY_LANDING)
1	ingob	1293	{
		1294	StickGier = 0;
		1295	StickNick = 0;
		1296	StickRoll = 0;
1211	hbuss	1297	GyroFaktor = 90;
		1298	IntegralFaktor = 120;
		1299	GyroFaktorGier = 90;
		1300	IntegralFaktorGier = 120;
173	holgerb	1301	Looping_Roll = 0;
		1302	Looping_Nick = 0;
1051	killagreg	1303	}
395	hbuss	1304
1051	killagreg	1305	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	1306	// Integrale auf ACC-Signal abgleichen
1051	killagreg	1307	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
395	hbuss	1308	#define ABGLEICH_ANZAHL 256L
		1309
		1310	MittelIntegralNick += IntegralNick; // F�r die Mittelwertbildung aufsummieren
		1311	MittelIntegralRoll += IntegralRoll;
		1312	MittelIntegralNick2 += IntegralNick2;
		1313	MittelIntegralRoll2 += IntegralRoll2;
		1314
		1315	if(Looping_Nick \|\| Looping_Roll)
		1316	{
		1317	IntegralAccNick = 0;
		1318	IntegralAccRoll = 0;
		1319	MittelIntegralNick = 0;
		1320	MittelIntegralRoll = 0;
		1321	MittelIntegralNick2 = 0;
		1322	MittelIntegralRoll2 = 0;
		1323	Mess_IntegralNick2 = Mess_IntegralNick;
		1324	Mess_IntegralRoll2 = Mess_IntegralRoll;
		1325	ZaehlMessungen = 0;
498	hbuss	1326	LageKorrekturNick = 0;
		1327	LageKorrekturRoll = 0;
395	hbuss	1328	}
		1329
1051	killagreg	1330	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1224	hbuss	1331	if(!Looping_Nick && !Looping_Roll && (Aktuell_az > 512 \|\| MotorenEin))
469	hbuss	1332	{
		1333	long tmp_long, tmp_long2;
1839	holgerb	1334	if(FromNaviCtrl_Value.Kalman_K > 0 /&& !TrichterFlug/)
992	hbuss	1335	{
1944	holgerb	1336	tmp_long = (long)(IntegralNick / EE_Parameter.GyroAccFaktor - (long)(Mittelwert_AccNick - FromNaviCtrl.AccErrorN));
		1337	tmp_long2 = (long)(IntegralRoll / EE_Parameter.GyroAccFaktor - (long)(Mittelwert_AccRoll - FromNaviCtrl.AccErrorR));
		1338	tmp_long = (tmp_long * FromNaviCtrl_Value.Kalman_K) / (32 * 16);
		1339	tmp_long2 = (tmp_long2 * FromNaviCtrl_Value.Kalman_K) / (32 * 16);
		1340	if((MaxStickNick > 64) \|\| (MaxStickRoll > 64))
		1341	{
		1342	tmp_long /= 2;
		1343	tmp_long2 /= 2;
		1344	}
2309	holgerb	1345	if(tmp_long > (long) FromNaviCtrl_Value.Kalman_MaxFusion) tmp_long = (long) FromNaviCtrl_Value.Kalman_MaxFusion;
1944	holgerb	1346	if(tmp_long < (long)-FromNaviCtrl_Value.Kalman_MaxFusion) tmp_long = (long)-FromNaviCtrl_Value.Kalman_MaxFusion;
		1347	if(tmp_long2 > (long) FromNaviCtrl_Value.Kalman_MaxFusion) tmp_long2 = (long) FromNaviCtrl_Value.Kalman_MaxFusion;
		1348	if(tmp_long2 < (long)-FromNaviCtrl_Value.Kalman_MaxFusion) tmp_long2 = (long)-FromNaviCtrl_Value.Kalman_MaxFusion;
992	hbuss	1349	}
1051	killagreg	1350	else
992	hbuss	1351	{
1944	holgerb	1352	tmp_long = (long)(IntegralNick / EE_Parameter.GyroAccFaktor - (long)Mittelwert_AccNick);
		1353	tmp_long2 = (long)(IntegralRoll / EE_Parameter.GyroAccFaktor - (long)Mittelwert_AccRoll);
		1354	tmp_long /= 16;
		1355	tmp_long2 /= 16;
		1356	if((MaxStickNick > 64) \|\| (MaxStickRoll > 64))
		1357	{
		1358	tmp_long /= 3;
		1359	tmp_long2 /= 3;
		1360	}
		1361	if(abs(PPM_in[EE_Parameter.Kanalbelegung[K_GIER]]) > 25)
		1362	{
		1363	tmp_long /= 3;
		1364	tmp_long2 /= 3;
		1365	}
		1366	KompassFusion = 25;
1155	hbuss	1367	#define AUSGLEICH 32
1944	holgerb	1368	if(tmp_long > AUSGLEICH) tmp_long = AUSGLEICH;
		1369	if(tmp_long < -AUSGLEICH) tmp_long =-AUSGLEICH;
		1370	if(tmp_long2 > AUSGLEICH) tmp_long2 = AUSGLEICH;
		1371	if(tmp_long2 <-AUSGLEICH) tmp_long2 =-AUSGLEICH;
992	hbuss	1372	}
1166	hbuss	1373
1111	hbuss	1374	Mess_IntegralNick -= tmp_long;
		1375	Mess_IntegralRoll -= tmp_long2;
2437	holgerb	1376
		1377	DebugOut.Analog[16] += tmp_long;
		1378	DebugOut.Analog[17] += tmp_long2;
		1379
469	hbuss	1380	}
1051	killagreg	1381	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
395	hbuss	1382	if(ZaehlMessungen >= ABGLEICH_ANZAHL)
		1383	{
		1384	static int cnt = 0;
		1385	static char last_n_p,last_n_n,last_r_p,last_r_n;
		1386	static long MittelIntegralNick_Alt,MittelIntegralRoll_Alt;
1173	hbuss	1387	if(!Looping_Nick && !Looping_Roll && !TrichterFlug && EE_Parameter.Driftkomp)
173	holgerb	1388	{
395	hbuss	1389	MittelIntegralNick /= ABGLEICH_ANZAHL;
		1390	MittelIntegralRoll /= ABGLEICH_ANZAHL;
		1391	IntegralAccNick = (EE_Parameter.GyroAccFaktor * IntegralAccNick) / ABGLEICH_ANZAHL;
		1392	IntegralAccRoll = (EE_Parameter.GyroAccFaktor * IntegralAccRoll) / ABGLEICH_ANZAHL;
		1393	IntegralAccZ = IntegralAccZ / ABGLEICH_ANZAHL;
1707	holgerb	1394	#define MAX_I 0
395	hbuss	1395	// Nick ++++++++++++++++++++++++++++++++++++++++++++++++
		1396	IntegralFehlerNick = (long)(MittelIntegralNick - (long)IntegralAccNick);
		1397	ausgleichNick = IntegralFehlerNick / EE_Parameter.GyroAccAbgleich;
1051	killagreg	1398	// Roll ++++++++++++++++++++++++++++++++++++++++++++++++
		1399	IntegralFehlerRoll = (long)(MittelIntegralRoll - (long)IntegralAccRoll);
395	hbuss	1400	ausgleichRoll = IntegralFehlerRoll / EE_Parameter.GyroAccAbgleich;
614	hbuss	1401
		1402	LageKorrekturNick = ausgleichNick / ABGLEICH_ANZAHL;
498	hbuss	1403	LageKorrekturRoll = ausgleichRoll / ABGLEICH_ANZAHL;
395	hbuss	1404
992	hbuss	1405	if(((MaxStickNick > 64) \|\| (MaxStickRoll > 64) \|\| (abs(PPM_in[EE_Parameter.Kanalbelegung[K_GIER]]) > 25)) && (FromNaviCtrl_Value.Kalman_K == -1))
614	hbuss	1406	{
		1407	LageKorrekturNick /= 2;
720	ingob	1408	LageKorrekturRoll /= 2;
614	hbuss	1409	}
498	hbuss	1410
1051	killagreg	1411	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
395	hbuss	1412	// Gyro-Drift ermitteln
1051	killagreg	1413	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
395	hbuss	1414	MittelIntegralNick2 /= ABGLEICH_ANZAHL;
		1415	MittelIntegralRoll2 /= ABGLEICH_ANZAHL;
1051	killagreg	1416	tmp_long = IntegralNick2 - IntegralNick;
		1417	tmp_long2 = IntegralRoll2 - IntegralRoll;
395	hbuss	1418
		1419	IntegralFehlerNick = tmp_long;
		1420	IntegralFehlerRoll = tmp_long2;
		1421	Mess_IntegralNick2 -= IntegralFehlerNick;
		1422	Mess_IntegralRoll2 -= IntegralFehlerRoll;
		1423
1111	hbuss	1424	if(EE_Parameter.Driftkomp)
		1425	{
1622	killagreg	1426	if(GierGyroFehler > ABGLEICH_ANZAHL/2) { AdNeutralGier++; }
		1427	if(GierGyroFehler <-ABGLEICH_ANZAHL/2) { AdNeutralGier--; }
1111	hbuss	1428	}
693	hbuss	1429	GierGyroFehler = 0;
720	ingob	1430
1243	killagreg	1431	#define FEHLER_LIMIT (ABGLEICH_ANZAHL / 2)
		1432	#define FEHLER_LIMIT1 (ABGLEICH_ANZAHL * 2) //4
1225	hbuss	1433	#define FEHLER_LIMIT2 (ABGLEICH_ANZAHL * 16) //16
492	hbuss	1434	#define BEWEGUNGS_LIMIT 20000
395	hbuss	1435	// Nick +++++++++++++++++++++++++++++++++++++++++++++++++
		1436	cnt = 1;// + labs(IntegralFehlerNick) / 4096;
1225	hbuss	1437	if(labs(IntegralFehlerNick) > FEHLER_LIMIT1) cnt = 4;
1173	hbuss	1438	if(labs(MittelIntegralNick_Alt - MittelIntegralNick) < BEWEGUNGS_LIMIT \|\| (FromNaviCtrl_Value.Kalman_MaxDrift > 3*8))
492	hbuss	1439	{
1051	killagreg	1440	if(IntegralFehlerNick > FEHLER_LIMIT2)
395	hbuss	1441	{
1051	killagreg	1442	if(last_n_p)
395	hbuss	1443	{
1173	hbuss	1444	cnt += labs(IntegralFehlerNick) / (FEHLER_LIMIT2 / 8);
492	hbuss	1445	ausgleichNick = IntegralFehlerNick / 8;
401	hbuss	1446	if(ausgleichNick > 5000) ausgleichNick = 5000;
498	hbuss	1447	LageKorrekturNick += ausgleichNick / ABGLEICH_ANZAHL;
1051	killagreg	1448	}
395	hbuss	1449	else last_n_p = 1;
		1450	} else last_n_p = 0;
1051	killagreg	1451	if(IntegralFehlerNick < -FEHLER_LIMIT2)
395	hbuss	1452	{
		1453	if(last_n_n)
1051	killagreg	1454	{
1173	hbuss	1455	cnt += labs(IntegralFehlerNick) / (FEHLER_LIMIT2 / 8);
492	hbuss	1456	ausgleichNick = IntegralFehlerNick / 8;
401	hbuss	1457	if(ausgleichNick < -5000) ausgleichNick = -5000;
498	hbuss	1458	LageKorrekturNick += ausgleichNick / ABGLEICH_ANZAHL;
1051	killagreg	1459	}
395	hbuss	1460	else last_n_n = 1;
		1461	} else last_n_n = 0;
1051	killagreg	1462	}
		1463	else
847	hbuss	1464	{
		1465	cnt = 0;
1839	holgerb	1466	KompassSignalSchlecht = 100;
1051	killagreg	1467	}
499	hbuss	1468	if(cnt > EE_Parameter.Driftkomp) cnt = EE_Parameter.Driftkomp;
1173	hbuss	1469	if(FromNaviCtrl_Value.Kalman_MaxDrift) if(cnt > FromNaviCtrl_Value.Kalman_MaxDrift) cnt = FromNaviCtrl_Value.Kalman_MaxDrift;
395	hbuss	1470	if(IntegralFehlerNick > FEHLER_LIMIT) AdNeutralNick += cnt;
		1471	if(IntegralFehlerNick < -FEHLER_LIMIT) AdNeutralNick -= cnt;
401	hbuss	1472
395	hbuss	1473	// Roll +++++++++++++++++++++++++++++++++++++++++++++++++
1695	holgerb	1474	cnt = 1;// + labs(IntegralFehlerRoll) / 4096;
1225	hbuss	1475	if(labs(IntegralFehlerRoll) > FEHLER_LIMIT1) cnt = 4;
1173	hbuss	1476	if(labs(MittelIntegralRoll_Alt - MittelIntegralRoll) < BEWEGUNGS_LIMIT \|\| (FromNaviCtrl_Value.Kalman_MaxDrift > 3*8))
492	hbuss	1477	{
1051	killagreg	1478	if(IntegralFehlerRoll > FEHLER_LIMIT2)
395	hbuss	1479	{
1051	killagreg	1480	if(last_r_p)
395	hbuss	1481	{
1173	hbuss	1482	cnt += labs(IntegralFehlerRoll) / (FEHLER_LIMIT2 / 8);
492	hbuss	1483	ausgleichRoll = IntegralFehlerRoll / 8;
401	hbuss	1484	if(ausgleichRoll > 5000) ausgleichRoll = 5000;
498	hbuss	1485	LageKorrekturRoll += ausgleichRoll / ABGLEICH_ANZAHL;
1051	killagreg	1486	}
395	hbuss	1487	else last_r_p = 1;
		1488	} else last_r_p = 0;
1051	killagreg	1489	if(IntegralFehlerRoll < -FEHLER_LIMIT2)
395	hbuss	1490	{
1051	killagreg	1491	if(last_r_n)
395	hbuss	1492	{
1173	hbuss	1493	cnt += labs(IntegralFehlerRoll) / (FEHLER_LIMIT2 / 8);
492	hbuss	1494	ausgleichRoll = IntegralFehlerRoll / 8;
401	hbuss	1495	if(ausgleichRoll < -5000) ausgleichRoll = -5000;
498	hbuss	1496	LageKorrekturRoll += ausgleichRoll / ABGLEICH_ANZAHL;
395	hbuss	1497	}
		1498	else last_r_n = 1;
		1499	} else last_r_n = 0;
1051	killagreg	1500	} else
492	hbuss	1501	{
		1502	cnt = 0;
1839	holgerb	1503	KompassSignalSchlecht = 100;
1051	killagreg	1504	}
499	hbuss	1505	if(cnt > EE_Parameter.Driftkomp) cnt = EE_Parameter.Driftkomp;
1173	hbuss	1506	if(FromNaviCtrl_Value.Kalman_MaxDrift) if(cnt > FromNaviCtrl_Value.Kalman_MaxDrift) cnt = FromNaviCtrl_Value.Kalman_MaxDrift;
395	hbuss	1507	if(IntegralFehlerRoll > FEHLER_LIMIT) AdNeutralRoll += cnt;
		1508	if(IntegralFehlerRoll < -FEHLER_LIMIT) AdNeutralRoll -= cnt;
173	holgerb	1509	}
1051	killagreg	1510	else
498	hbuss	1511	{
		1512	LageKorrekturRoll = 0;
		1513	LageKorrekturNick = 0;
880	hbuss	1514	TrichterFlug = 0;
498	hbuss	1515	}
1051	killagreg	1516
498	hbuss	1517	if(!IntegralFaktor) { LageKorrekturRoll = 0; LageKorrekturNick = 0;} // z.B. bei HH
1051	killagreg	1518	// +++++++++++++++++++++++++++++++++++++++++++++++++++++
		1519	MittelIntegralNick_Alt = MittelIntegralNick;
		1520	MittelIntegralRoll_Alt = MittelIntegralRoll;
		1521	// +++++++++++++++++++++++++++++++++++++++++++++++++++++
395	hbuss	1522	IntegralAccNick = 0;
		1523	IntegralAccRoll = 0;
		1524	IntegralAccZ = 0;
		1525	MittelIntegralNick = 0;
		1526	MittelIntegralRoll = 0;
		1527	MittelIntegralNick2 = 0;
		1528	MittelIntegralRoll2 = 0;
		1529	ZaehlMessungen = 0;
1173	hbuss	1530	} // ZaehlMessungen >= ABGLEICH_ANZAHL
395	hbuss	1531
1051	killagreg	1532	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	1533	// Gieren
1051	killagreg	1534	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1840	holgerb	1535	if(abs(StickGier) > 3) // war 15
1	ingob	1536	{
1839	holgerb	1537	// KompassSignalSchlecht = 1000;
1916	holgerb	1538	if(!(Parameter_GlobalConfig & CFG_KOMPASS_FIX))
1051	killagreg	1539	{
1840	holgerb	1540	NeueKompassRichtungMerken = 50; // eine Sekunde zum Einloggen
824	hbuss	1541	};
1	ingob	1542	}
1944	holgerb	1543	tmp_int = (long) EE_Parameter.StickGier_P * ((long)StickGier * abs(StickGier)) / 512L; // expo y = ax + bx�
		1544	tmp_int += (EE_Parameter.StickGier_P * StickGier) / 4;
2309	holgerb	1545	if(GasIsZeroCnt > 512) tmp_int = 0; // disable Yawing when Gas-Stick is to Zero
1840	holgerb	1546	tmp_int += CompassGierSetpoint;
173	holgerb	1547	sollGier = tmp_int;
1051	killagreg	1548	Mess_Integral_Gier -= tmp_int;
395	hbuss	1549	if(Mess_Integral_Gier > 50000) Mess_Integral_Gier = 50000; // begrenzen
		1550	if(Mess_Integral_Gier <-50000) Mess_Integral_Gier =-50000;
1051	killagreg	1551
		1552	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	1553	// Kompass
1051	killagreg	1554	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1916	holgerb	1555	if(KompassValue >= 0 && (Parameter_GlobalConfig & CFG_KOMPASS_AKTIV))
1	ingob	1556	{
1839	holgerb	1557	if(CalculateCompassTimer-- == 1)
		1558	{
		1559	int w,v,r,fehler,korrektur; // wird von der SPI-Routine auf 1 gesetzt
		1560	CalculateCompassTimer = 13; // falls keine Navi-Daten
1840	holgerb	1561	// max. Korrekturwert sch�tzen
1	ingob	1562	w = abs(IntegralNick /512); // mit zunehmender Neigung den Einfluss drosseln
		1563	v = abs(IntegralRoll /512);
		1564	if(v > w) w = v; // gr�sste Neigung ermitteln
1972	holgerb	1565	// korrektur = w / 4 + 1;
		1566	korrektur = w / 8 + 2;
1941	holgerb	1567	ErsatzKompassInGrad = ErsatzKompass/GIER_GRAD_FAKTOR;
1840	holgerb	1568	// Kompassfehlerwert bestimmen
1941	holgerb	1569	fehler = ((540 + KompassValue - ErsatzKompassInGrad) % 360) - 180;
1840	holgerb	1570	// GIER_GRAD_FAKTOR ist ca. 1200
		1571	// Kompasswert einloggen
		1572	if(KompassSignalSchlecht) KompassSignalSchlecht--;
		1573	else
		1574	if(w < 25)
921	hbuss	1575	{
		1576	GierGyroFehler += fehler;
1051	killagreg	1577	if(NeueKompassRichtungMerken)
		1578	{
1839	holgerb	1579	if(--NeueKompassRichtungMerken == 0)
		1580	{
1941	holgerb	1581	KompassSollWert = ErsatzKompassInGrad;
1839	holgerb	1582	}
921	hbuss	1583	}
1	ingob	1584	}
1840	holgerb	1585	// Kompass fusionieren
1839	holgerb	1586	if(!KompassSignalSchlecht) ErsatzKompass += (fehler * KompassFusion) / korrektur;
1941	holgerb	1587	// MK Gieren
		1588	if(!NeueKompassRichtungMerken)
1839	holgerb	1589	{
1941	holgerb	1590	r = ((540 + (KompassSollWert - ErsatzKompassInGrad)) % 360) - 180;
1839	holgerb	1591	v = r * (Parameter_KompassWirkung/2); // nach Kompass ausrichten
1840	holgerb	1592	CompassGierSetpoint = v / 16;
		1593	}
1865	holgerb	1594	else CompassGierSetpoint = 0;
1839	holgerb	1595	} // CalculateCompassTimer
1051	killagreg	1596	}
1840	holgerb	1597	else CompassGierSetpoint = 0;
1972	holgerb	1598
		1599	//DebugOut.Analog[16] = KompassFusion;
1051	killagreg	1600	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	1601	// Drehgeschwindigkeit und -winkel zu einem Istwert zusammenfassen
1051	killagreg	1602	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1216	killagreg	1603	if(TrichterFlug) { SummeRoll = 0; SummeNick = 0;};
604	hbuss	1604
1171	hbuss	1605	if(!Looping_Nick) IntegralNickMalFaktor = (IntegralNick * IntegralFaktor) / (44000 / STICK_GAIN); else IntegralNickMalFaktor = 0;
		1606	if(!Looping_Roll) IntegralRollMalFaktor = (IntegralRoll * IntegralFaktor) / (44000 / STICK_GAIN); else IntegralRollMalFaktor = 0;
1153	hbuss	1607
1167	hbuss	1608	#define TRIM_MAX 200
1166	hbuss	1609	if(TrimNick > TRIM_MAX) TrimNick = TRIM_MAX; else if(TrimNick <-TRIM_MAX) TrimNick =-TRIM_MAX;
		1610	if(TrimRoll > TRIM_MAX) TrimRoll = TRIM_MAX; else if(TrimRoll <-TRIM_MAX) TrimRoll =-TRIM_MAX;
1153	hbuss	1611
1166	hbuss	1612	MesswertNick = IntegralNickMalFaktor + (long)((long)MesswertNick * GyroFaktor + (long)TrimNick * 128L) / (256L / STICK_GAIN);
		1613	MesswertRoll = IntegralRollMalFaktor + (long)((long)MesswertRoll * GyroFaktor + (long)TrimRoll * 128L) / (256L / STICK_GAIN);
1211	hbuss	1614	MesswertGier = (long)(MesswertGier * 2 * (long)GyroFaktorGier) / (256L / STICK_GAIN) + (long)(Integral_Gier * IntegralFaktorGier) / (2 * (44000 / STICK_GAIN));
1166	hbuss	1615
1	ingob	1616	// Maximalwerte abfangen
1685	holgerb	1617	#define MAX_SENSOR (4096)
1216	killagreg	1618	if(MesswertNick > MAX_SENSOR) MesswertNick = MAX_SENSOR;
1	ingob	1619	if(MesswertNick < -MAX_SENSOR) MesswertNick = -MAX_SENSOR;
		1620	if(MesswertRoll > MAX_SENSOR) MesswertRoll = MAX_SENSOR;
		1621	if(MesswertRoll < -MAX_SENSOR) MesswertRoll = -MAX_SENSOR;
		1622	if(MesswertGier > MAX_SENSOR) MesswertGier = MAX_SENSOR;
		1623	if(MesswertGier < -MAX_SENSOR) MesswertGier = -MAX_SENSOR;
		1624
1051	killagreg	1625	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
2390	holgerb	1626	// Undervoltage
		1627	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		1628	if(!(FC_StatusFlags & FC_STATUS_LOWBAT))
		1629	{
		1630	GasMischanteil = ((unsigned int)GasMischanteil * BattLowVoltageWarning) / UBat; // Gas auf das aktuelle Spannungvieveau beziehen
		1631	}
		1632	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		1633	// Auto-Landing
		1634	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		1635	static unsigned char slower;
		1636	if(!slower--)
		1637	{
2402	holgerb	1638	static unsigned int u_filter = 0;
		1639	if(!u_filter) u_filter = UBat;
		1640	if(UBat > u_filter) u_filter++; else
		1641	if(UBat < u_filter) u_filter--;
		1642	slower = 100; // 5Hz
2416	holgerb	1643	if(u_filter < BattAutoLandingVoltage)
2390	holgerb	1644	{
2402	holgerb	1645	LowVoltageLandingActive = 10; // 2 sek
2390	holgerb	1646	}
2416	holgerb	1647	else if(u_filter > BattAutoLandingVoltage + LipoCells && LowVoltageLandingActive) LowVoltageLandingActive--;
2408	holgerb	1648
2416	holgerb	1649	if(u_filter < BattComingHomeVoltage)
2408	holgerb	1650	{
		1651	LowVoltageHomeActive = 25; // min. 5 sek
		1652	}
2416	holgerb	1653	else if(u_filter > BattComingHomeVoltage + LipoCells && LowVoltageHomeActive) LowVoltageHomeActive--;
2390	holgerb	1654	}
		1655	if(LowVoltageLandingActive && FromNC_AltitudeSetpoint >= 0)
		1656	{
		1657	FromNC_AltitudeSpeed = EE_Parameter.LandingSpeed;
		1658	FromNC_AltitudeSetpoint = -20000;
		1659	}
		1660	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
2427	holgerb	1661	// send SPI pending bytes
		1662	if(BytegapSPI == 0) SPI_TransmitByte();
		1663	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	1664	// H�henregelung
1051	killagreg	1665	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
855	hbuss	1666	GasMischanteil *= STICK_GAIN;
2427	holgerb	1667	// if height control is activated
2334	holgerb	1668	if((Parameter_GlobalConfig & CFG_HOEHENREGELUNG) && !(Looping_Roll \|\| Looping_Nick) && !(VersionInfo.HardwareError[0] & 0x7F)) // H�henregelung
1309	hbuss	1669	{
1698	holgerb	1670	#define HOVER_GAS_AVERAGE 16384L // 16384 * 2ms = 32s averaging
1332	hbuss	1671	#define HC_GAS_AVERAGE 4 // 4 * 2ms= 8ms averaging
1638	holgerb	1672
2309	holgerb	1673	int HCGas, GasReduction = 0;
1309	hbuss	1674	static int HeightTrimming = 0; // rate for change of height setpoint
2309	holgerb	1675	static int HeightDeviation = 0, FilterHCGas = 0;
1587	killagreg	1676	static unsigned long HoverGasFilter = 0;
1322	hbuss	1677	static unsigned char delay = 100, BaroAtUpperLimit = 0, BaroAtLowerLimit = 0;
		1678	// Expand the measurement
		1679	// measurement of air pressure close to upper limit and no overflow in correction of the new OCR0A value occurs
		1680	if(!BaroExpandActive)
		1681	{
		1682	if(MessLuftdruck > 920)
		1683	{ // increase offset
1330	killagreg	1684	if(OCR0A < (255 - OPA_OFFSET_STEP))
1322	hbuss	1685	{
		1686	ExpandBaro -= 1;
		1687	OCR0A = DruckOffsetSetting - OPA_OFFSET_STEP * ExpandBaro; // increase offset to shift ADC down
2367	holgerb	1688	OCR0B = 255 - OCR0A;
1322	hbuss	1689	beeptime = 300;
1352	hbuss	1690	BaroExpandActive = 350;
2367	holgerb	1691	CalcExpandBaroStep();
1330	killagreg	1692	}
		1693	else
1322	hbuss	1694	{
		1695	BaroAtLowerLimit = 1;
		1696	}
		1697	}
		1698	// measurement of air pressure close to lower limit and
1330	killagreg	1699	else
1322	hbuss	1700	if(MessLuftdruck < 100)
		1701	{ // decrease offset
1330	killagreg	1702	if(OCR0A > OPA_OFFSET_STEP)
1322	hbuss	1703	{
		1704	ExpandBaro += 1;
		1705	OCR0A = DruckOffsetSetting - OPA_OFFSET_STEP * ExpandBaro; // decrease offset to shift ADC up
2367	holgerb	1706	OCR0B = 255 - OCR0A;
1322	hbuss	1707	beeptime = 300;
1352	hbuss	1708	BaroExpandActive = 350;
2367	holgerb	1709	CalcExpandBaroStep();
1330	killagreg	1710	}
		1711	else
1322	hbuss	1712	{
		1713	BaroAtUpperLimit = 1;
		1714	}
		1715	}
1330	killagreg	1716	else
1322	hbuss	1717	{
		1718	BaroAtUpperLimit = 0;
		1719	BaroAtLowerLimit = 0;
		1720	}
		1721	}
		1722	else // delay, because of expanding the Baro-Range
		1723	{
		1724	// now clear the D-values
2316	holgerb	1725	VarioMeter = 0;
2309	holgerb	1726	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
2316	holgerb	1727	if(ACC_AltitudeControl) ACC_AltitudeFusion(1); // init
2309	holgerb	1728	else SummenHoehe = HoehenWert * SM_FILTER;
		1729	#else
		1730	SummenHoehe = HoehenWert * SM_FILTER;
		1731	#endif
1322	hbuss	1732	BaroExpandActive--;
		1733	}
1328	hbuss	1734	// if height control is activated by an rc channel
1916	holgerb	1735	if(Parameter_GlobalConfig & CFG_HOEHEN_SCHALTER) // Regler wird �ber Schalter gesteuert
1328	hbuss	1736	{ // check if parameter is less than activation threshold
1916	holgerb	1737	if(Parameter_HoehenSchalter < 50) // for 3 or 2-state switch height control is disabled in lowest position
1328	hbuss	1738	{ //height control not active
		1739	if(!delay--)
		1740	{
2090	holgerb	1741	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
2263	holgerb	1742	if(!SpeakHoTT && HoehenReglerAktiv) SpeakHoTT = SPEAK_ALTITUDE_OFF;
2090	holgerb	1743	#endif
1328	hbuss	1744	HoehenReglerAktiv = 0; // disable height control
		1745	SollHoehe = HoehenWert; // update SetPoint with current reading
		1746	delay = 1;
		1747	}
		1748	}
		1749	else
2090	holgerb	1750	if(Parameter_HoehenSchalter > 70)
1328	hbuss	1751	{ //height control is activated
2090	holgerb	1752	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
2263	holgerb	1753	if(!SpeakHoTT && !HoehenReglerAktiv) SpeakHoTT = SPEAK_ALTITUDE_ON;
2090	holgerb	1754	#endif
2263	holgerb	1755	delay = 200;
1328	hbuss	1756	HoehenReglerAktiv = 1; // enable height control
		1757	}
1051	killagreg	1758	}
1309	hbuss	1759	else // no switchable height control
		1760	{
1916	holgerb	1761	SollHoehe = ((int16_t) ExternHoehenValue + (int16_t) Parameter_HoehenSchalter) * (int)EE_Parameter.Hoehe_Verstaerkung;
1309	hbuss	1762	HoehenReglerAktiv = 1;
1051	killagreg	1763	}
1320	hbuss	1764	// calculate cos of nick and roll angle used for projection of the vertical hoover gas
1330	killagreg	1765	tmp_int = (int)(IntegralNick/GIER_GRAD_FAKTOR); // nick angle in deg
		1766	tmp_int2 = (int)(IntegralRoll/GIER_GRAD_FAKTOR); // roll angle in deg
		1767	CosAttitude = (int16_t)ihypot(tmp_int, tmp_int2); // phytagoras gives effective attitude angle in deg
1320	hbuss	1768	LIMIT_MAX(CosAttitude, 60); // limit effective attitude angle
		1769	CosAttitude = c_cos_8192(CosAttitude); // cos of actual attitude
1591	holgerb	1770	VarioCharacter = ' ';
1942	holgerb	1771	AltitudeSetpointTrimming = 0;
1765	killagreg	1772	if(HoehenReglerAktiv && !(FC_StatusFlags & FC_STATUS_EMERGENCY_LANDING))
1309	hbuss	1773	{
		1774	// Holger original version
		1775	// start of height control algorithm
		1776	// the height control is only an attenuation of the actual gas stick.
		1777	// I.e. it will work only if the gas stick is higher than the hover gas
		1778	// and the hover height will be allways larger than height setpoint.
1861	holgerb	1779	FC_StatusFlags2 \|= FC_STATUS2_ALTITUDE_CONTROL;
1916	holgerb	1780	if((Parameter_ExtraConfig & CFG2_HEIGHT_LIMIT) \|\| !(Parameter_GlobalConfig & CFG_HOEHEN_SCHALTER)) // Regler wird �ber Schalter gesteuert)
1314	killagreg	1781	{ // old version
1309	hbuss	1782	HCGas = GasMischanteil; // take current stick gas as neutral point for the height control
		1783	HeightTrimming = 0;
1942	holgerb	1784	AltitudeSetpointTrimming = 0;
1773	killagreg	1785	// set both flags to indicate no vario mode
		1786	FC_StatusFlags \|= (FC_STATUS_VARIO_TRIM_UP\|FC_STATUS_VARIO_TRIM_DOWN);
1309	hbuss	1787	}
1314	killagreg	1788	else
1309	hbuss	1789	{
		1790	// alternative height control
		1791	// PD-Control with respect to hoover point
		1792	// the thrust loss out of horizontal attitude is compensated
		1793	// the setpoint will be fine adjusted with the gas stick position
2390	holgerb	1794	if(/1 \|\| /FC_StatusFlags & FC_STATUS_FLY) // trim setpoint only when flying
1309	hbuss	1795	{ // gas stick is above hoover point
1587	killagreg	1796	if(StickGas > (StickGasHover + HEIGHT_CONTROL_STICKTHRESHOLD) && !BaroAtUpperLimit)
1309	hbuss	1797	{
1767	killagreg	1798	if(FC_StatusFlags & FC_STATUS_VARIO_TRIM_DOWN)
1309	hbuss	1799	{
1767	killagreg	1800	FC_StatusFlags &= ~FC_STATUS_VARIO_TRIM_DOWN;
2309	holgerb	1801	SollHoehe = HoehenWertF; // update setpoint to current heigth
1309	hbuss	1802	}
1966	holgerb	1803	// Limit the maximum Altitude
2381	holgerb	1804	if(Parameter_MaximumAltitude && (SollHoehe/100 > Parameter_MaximumAltitude))
		1805	{
		1806	AltitudeSetpointTrimming = 0;
		1807	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
		1808	if(!SpeakHoTT && HoehenWert/95 > Parameter_MaximumAltitude) SpeakHoTT = SPEAK_MAX_ALTITUD;
		1809	#endif
		1810	VarioCharacter = '=';
		1811	}
1966	holgerb	1812	else
		1813	{
2381	holgerb	1814	if(HeightDeviation > 20) SollHoehe = HoehenWertF; // update setpoint to current heigth
		1815	FC_StatusFlags \|= FC_STATUS_VARIO_TRIM_UP;
1942	holgerb	1816	AltitudeSetpointTrimming = abs(StickGas - (StickGasHover + HEIGHT_CONTROL_STICKTHRESHOLD));
2390	holgerb	1817	if(LowVoltageLandingActive) AltitudeSetpointTrimming /= 3; // only 33% rising
1591	holgerb	1818	VarioCharacter = '+';
1966	holgerb	1819	}
1865	holgerb	1820	WaypointTrimming = 0;
1309	hbuss	1821	} // gas stick is below hoover point
2390	holgerb	1822	else if(StickGas < (StickGasHover - HEIGHT_CONTROL_STICKTHRESHOLD) && !BaroAtLowerLimit ) // Minus
1309	hbuss	1823	{
1767	killagreg	1824	if(FC_StatusFlags & FC_STATUS_VARIO_TRIM_UP)
1309	hbuss	1825	{
1767	killagreg	1826	FC_StatusFlags &= ~FC_STATUS_VARIO_TRIM_UP;
2309	holgerb	1827	SollHoehe = HoehenWertF; // update setpoint to current heigth
1309	hbuss	1828	}
1767	killagreg	1829	FC_StatusFlags \|= FC_STATUS_VARIO_TRIM_DOWN;
1942	holgerb	1830	AltitudeSetpointTrimming = -abs(StickGas - (StickGasHover - HEIGHT_CONTROL_STICKTHRESHOLD));
1591	holgerb	1831	VarioCharacter = '-';
1865	holgerb	1832	WaypointTrimming = 0;
1309	hbuss	1833	}
1587	killagreg	1834	else // Gas Stick in Hover Range
1309	hbuss	1835	{
1855	holgerb	1836	VarioCharacter = '=';
1857	holgerb	1837	if(FromNC_AltitudeSpeed && FromNC_AltitudeSetpoint > SollHoehe) // von NC gesteuert -> Steigen
1855	holgerb	1838	{
		1839	FC_StatusFlags \|= FC_STATUS_VARIO_TRIM_UP;
1942	holgerb	1840	AltitudeSetpointTrimming = FromNC_AltitudeSpeed;
		1841	//HeightTrimming += FromNC_AltitudeSpeed;
1857	holgerb	1842	WaypointTrimming = 10;
		1843	VarioCharacter = '^';
1865	holgerb	1844	if(FC_StatusFlags & FC_STATUS_VARIO_TRIM_DOWN) // changed from sinking to rising
		1845	{
		1846	FC_StatusFlags &= ~FC_STATUS_VARIO_TRIM_DOWN;
2309	holgerb	1847	SollHoehe = HoehenWertF; // update setpoint to current heigth
1865	holgerb	1848	}
1855	holgerb	1849	}
		1850	else
1857	holgerb	1851	if(FromNC_AltitudeSpeed && FromNC_AltitudeSetpoint < SollHoehe) // von NC gesteuert -> sinken
1855	holgerb	1852	{
		1853	FC_StatusFlags \|= FC_STATUS_VARIO_TRIM_DOWN;
1942	holgerb	1854	AltitudeSetpointTrimming = -FromNC_AltitudeSpeed;
		1855	//HeightTrimming -= FromNC_AltitudeSpeed;
1857	holgerb	1856	WaypointTrimming = -10;
		1857	VarioCharacter = 'v';
1865	holgerb	1858	if(FC_StatusFlags & FC_STATUS_VARIO_TRIM_UP) // changed from rising to sinking
		1859	{
		1860	FC_StatusFlags &= ~FC_STATUS_VARIO_TRIM_UP;
2309	holgerb	1861	SollHoehe = HoehenWertF; // update setpoint to current heigth
1865	holgerb	1862	}
1855	holgerb	1863	}
		1864	else
1767	killagreg	1865	if(FC_StatusFlags & (FC_STATUS_VARIO_TRIM_UP\|FC_STATUS_VARIO_TRIM_DOWN))
1309	hbuss	1866	{
2309	holgerb	1867	if(!WaypointTrimming) LIMIT_MIN_MAX(SollHoehe, (HoehenWertF-200), (HoehenWertF+200)) // max. 2m Unterschied
1933	holgerb	1868	else WaypointTrimming = 0;
1767	killagreg	1869	FC_StatusFlags &= ~(FC_STATUS_VARIO_TRIM_UP\|FC_STATUS_VARIO_TRIM_DOWN);
1309	hbuss	1870	HeightTrimming = 0;
1916	holgerb	1871	if(Parameter_ExtraConfig & CFG2_VARIO_BEEP) beeptime = 500;
1698	holgerb	1872	if(!StartTrigger && HoehenWert > 50)
		1873	{
		1874	StartTrigger = 1;
1765	killagreg	1875	}
1309	hbuss	1876	}
		1877	}
		1878	// Trim height set point
1942	holgerb	1879	HeightTrimming += AltitudeSetpointTrimming;
		1880	if(abs(HeightTrimming) > 500) // bei Waypoint-Flug ist das ca. die 500Hz
1309	hbuss	1881	{
1857	holgerb	1882	if(WaypointTrimming)
		1883	{
		1884	if(abs(FromNC_AltitudeSetpoint - SollHoehe) < 10) SollHoehe = FromNC_AltitudeSetpoint;
		1885	else SollHoehe += WaypointTrimming;
		1886	}
		1887	else
1966	holgerb	1888	{
		1889	if(HeightTrimming > 0) SollHoehe += EE_Parameter.Hoehe_Verstaerkung / 3;
		1890	else SollHoehe -= EE_Parameter.Hoehe_Verstaerkung / 3;
		1891	}
1309	hbuss	1892	HeightTrimming = 0;
1932	holgerb	1893	LIMIT_MIN_MAX(SollHoehe, (HoehenWert-1024), (HoehenWert+1024)); // max. 10m Unterschied
1916	holgerb	1894	if(Parameter_ExtraConfig & CFG2_VARIO_BEEP) beeptime = 100;
1320	hbuss	1895	//update hoover gas stick value when setpoint is shifted
2427	holgerb	1896	if(FromNC_AltitudeSpeed == 0) CalcStickGasHover();
		1897	/*
1857	holgerb	1898	if(!EE_Parameter.Hoehe_StickNeutralPoint && FromNC_AltitudeSpeed == 0)
1332	hbuss	1899	{
1587	killagreg	1900	StickGasHover = HoverGas/STICK_GAIN; //rescale back to stick value
2427	holgerb	1901	StickGasHover = (unsigned int)((unsigned int) StickGasHover * UBat) / BattLowVoltageWarning;
1587	killagreg	1902	if(StickGasHover < 70) StickGasHover = 70;
2427	holgerb	1903	else if(StickGasHover > 175) StickGasHover = 175;
1332	hbuss	1904	}
2427	holgerb	1905	*/
1309	hbuss	1906	}
2309	holgerb	1907	if(BaroExpandActive) SollHoehe = HoehenWertF; // update setpoint to current altitude if Expanding is active
1420	killagreg	1908	} //if FCFlags & MKFCFLAG_FLY
1330	killagreg	1909	else
		1910	{
1322	hbuss	1911	SollHoehe = HoehenWert - 400;
1587	killagreg	1912	if(EE_Parameter.Hoehe_StickNeutralPoint) StickGasHover = EE_Parameter.Hoehe_StickNeutralPoint;
2427	holgerb	1913	else StickGasHover = 127;
1698	holgerb	1914	HoverGas = GasMischanteil;
1972	holgerb	1915	VarioCharacter = '.';
1320	hbuss	1916	}
1590	killagreg	1917	HCGas = HoverGas; // take hover gas (neutral point)
		1918	}
2309	holgerb	1919	if(HoehenWertF > SollHoehe \|\| !(Parameter_ExtraConfig & CFG2_HEIGHT_LIMIT))
1283	hbuss	1920	{
2316	holgerb	1921	if(!ACC_AltitudeControl)
		1922	{
1590	killagreg	1923	// from this point the Heigth Control Algorithm is identical for both versions
		1924	if(BaroExpandActive) // baro range expanding active
		1925	{
		1926	HCGas = HoverGas; // hover while expanding baro adc range
		1927	HeightDeviation = 0;
		1928	} // EOF // baro range expanding active
		1929	else // valid data from air pressure sensor
		1930	{
		1931	// ------------------------- P-Part ----------------------------
2309	holgerb	1932	tmp_long = (HoehenWertF - SollHoehe); // positive when too high
1590	killagreg	1933	LIMIT_MIN_MAX(tmp_long, -32767L, 32767L); // avoid overflov when casting to int16_t
		1934	HeightDeviation = (int)(tmp_long); // positive when too high
1695	holgerb	1935	tmp_long = (tmp_long * (long)Parameter_Hoehe_P) / 32L; // p-part
1698	holgerb	1936	LIMIT_MIN_MAX(tmp_long, -127 * STICK_GAIN, 256 * STICK_GAIN); // more than the full range makes no sense
		1937	GasReduction = tmp_long;
1590	killagreg	1938	// ------------------------- D-Part 1: Vario Meter ----------------------------
		1939	tmp_int = VarioMeter / 8;
1765	killagreg	1940	LIMIT_MIN_MAX(tmp_int, -127, 128);
1705	holgerb	1941	tmp_int = (tmp_int * (long)Parameter_Luftdruck_D) / 4L; // scale to d-gain parameter
		1942	LIMIT_MIN_MAX(tmp_int,-64 * STICK_GAIN, 64 * STICK_GAIN);
1767	killagreg	1943	if(FC_StatusFlags & (FC_STATUS_VARIO_TRIM_UP\|FC_STATUS_VARIO_TRIM_DOWN)) tmp_int /= 4; // reduce d-part while trimming setpoint
1765	killagreg	1944	else
1916	holgerb	1945	if(Parameter_ExtraConfig & CFG2_HEIGHT_LIMIT) tmp_int /= 8; // reduce d-part in "Deckel" mode
1698	holgerb	1946	GasReduction += tmp_int;
1590	killagreg	1947	} // EOF no baro range expanding
1309	hbuss	1948	// ------------------------ D-Part 2: ACC-Z Integral ------------------------
1698	holgerb	1949	if(Parameter_Hoehe_ACC_Wirkung)
		1950	{
		1951	tmp_long = ((Mess_Integral_Hoch / 128L) * (int32_t) Parameter_Hoehe_ACC_Wirkung) / (128L / STICK_GAIN);
		1952	LIMIT_MIN_MAX(tmp_long, -32 * STICK_GAIN, 64 * STICK_GAIN);
		1953	GasReduction += tmp_long;
1765	killagreg	1954	}
1587	killagreg	1955	// ------------------------ D-Part 3: GpsZ ----------------------------------
1588	killagreg	1956	tmp_int = (Parameter_Hoehe_GPS_Z * (int)FromNaviCtrl_Value.GpsZ)/128L;
		1957	LIMIT_MIN_MAX(tmp_int, -32 * STICK_GAIN, 64 * STICK_GAIN);
1698	holgerb	1958	GasReduction += tmp_int;
1701	holgerb	1959	GasReduction = (long)((long)GasReduction * HoverGas) / 512; // scale to the gas value
2309	holgerb	1960
1701	holgerb	1961	// ------------------------ ----------------------------------
		1962	HCGas -= GasReduction;
1309	hbuss	1963	// limit deviation from hoover point within the target region
1942	holgerb	1964	if(!AltitudeSetpointTrimming && HoverGas > 0) // height setpoint is not changed and hoover gas not zero
1309	hbuss	1965	{
1765	killagreg	1966	unsigned int tmp;
1705	holgerb	1967	tmp = abs(HeightDeviation);
		1968	if(tmp <= 60)
		1969	{
		1970	LIMIT_MIN_MAX(HCGas, HoverGasMin, HoverGasMax); // limit gas around the hoover point
		1971	}
		1972	else
1765	killagreg	1973	{
1705	holgerb	1974	tmp = (tmp - 60) / 32;
1692	holgerb	1975	if(tmp > 15) tmp = 15;
1705	holgerb	1976	if(HeightDeviation > 0)
1693	holgerb	1977	{
1705	holgerb	1978	tmp = (HoverGasMin * (16 - tmp)) / 16;
		1979	LIMIT_MIN_MAX(HCGas, tmp, HoverGasMax); // limit gas around the hoover point
1693	holgerb	1980	}
1705	holgerb	1981	else
		1982	{
		1983	tmp = (HoverGasMax * (tmp + 16)) / 16;
		1984	LIMIT_MIN_MAX(HCGas, HoverGasMin, tmp); // limit gas around the hoover point
		1985	}
		1986	}
1309	hbuss	1987	}
1322	hbuss	1988	// strech control output by inverse attitude projection 1/cos
		1989	// + 1/cos(angle) ++++++++++++++++++++++++++
1330	killagreg	1990	tmp_long2 = (int32_t)HCGas;
		1991	tmp_long2 *= 8192L;
		1992	tmp_long2 /= CosAttitude;
		1993	HCGas = (int16_t)tmp_long2;
1309	hbuss	1994	// update height control gas averaging
		1995	FilterHCGas = (FilterHCGas * (HC_GAS_AVERAGE - 1) + HCGas) / HC_GAS_AVERAGE;
		1996	// limit height control gas pd-control output
		1997	LIMIT_MIN_MAX(FilterHCGas, EE_Parameter.Hoehe_MinGas * STICK_GAIN, (MAX_GAS - 20) * STICK_GAIN);
		1998	// set GasMischanteil to HeightControlGasFilter
1916	holgerb	1999	if(Parameter_ExtraConfig & CFG2_HEIGHT_LIMIT)
1587	killagreg	2000	{ // old version
		2001	LIMIT_MAX(FilterHCGas, GasMischanteil); // nicht mehr als Gas
1719	holgerb	2002	GasMischanteil = FilterHCGas;
1765	killagreg	2003	}
1719	holgerb	2004	else GasMischanteil = FilterHCGas + (GasMischanteil - HoverGas) / 4; // only in Vario-Mode
2316	holgerb	2005	}
2320	holgerb	2006	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
2316	holgerb	2007	else // ACC-Altitude control
		2008	{
2309	holgerb	2009	// from this point the Heigth Control Algorithm is identical for both versions
		2010	if(BaroExpandActive) // baro range expanding active
		2011	{
		2012	HCGas = HoverGas; // hover while expanding baro adc range
		2013	HeightDeviation = 0;
		2014	} // EOF // baro range expanding active
		2015	else // valid data from air pressure sensor
		2016	{
		2017	// ------------------------- P-Part ----------------------------
		2018	tmp_long = (HoehenWertF - SollHoehe); // positive when too high
		2019	LIMIT_MIN_MAX(tmp_long, -32767L, 32767L); // avoid overflov when casting to int16_t
		2020	HeightDeviation = (int)(tmp_long); // positive when too high
		2021	tmp_long = (tmp_long * (long)Parameter_Hoehe_P) / 32L; // p-part
		2022	LIMIT_MIN_MAX(tmp_long, -511 * STICK_GAIN, 512 * STICK_GAIN); // more than full range makes sense
		2023	GasReduction = tmp_long;
		2024	// ------------------------ D-Part: ACC-Z Integral ------------------------
2316	holgerb	2025	tmp_long = VarioMeter + (AdWertAccHoch * Parameter_Hoehe_ACC_Wirkung)/256;
2309	holgerb	2026	// ------------------------- D-Part: Vario Meter ----------------------------
		2027	if(WaypointTrimming) {
		2028	Variance = AltitudeSetpointTrimming * 8;
		2029	} else {
		2030	Variance = AltitudeSetpointTrimming * EE_Parameter.Hoehe_Verstaerkung*9/32;
		2031	}
		2032	tmp_long -= (long)Variance;
		2033	tmp_long = (tmp_long * (long)Parameter_Luftdruck_D) / 32; // scale to d-gain parameter
		2034	LIMIT_MIN_MAX(tmp_long,-511 * STICK_GAIN, 512 * STICK_GAIN);
		2035	GasReduction += tmp_long;
		2036	} // EOF no baro range expanding
		2037	HCGas -= GasReduction;
		2038	LIMIT_MIN_MAX(HCGas, HoverGasMin, HoverGasMax); // limits gas around hover point
		2039	// strech control output by inverse attitude projection 1/cos
		2040	// + 1/cos(angle) ++++++++++++++++++++++++++
		2041	tmp_long2 = (int32_t)HCGas;
		2042	tmp_long2 *= 8192L;
		2043	tmp_long2 /= CosAttitude;
		2044	HCGas = (int16_t)tmp_long2;
		2045	// update height control gas averaging
		2046	FilterHCGas = (FilterHCGas * (HC_GAS_AVERAGE - 1) + HCGas) / HC_GAS_AVERAGE;
		2047	// limit height control gas pd-control output
		2048	LIMIT_MIN_MAX(FilterHCGas, EE_Parameter.Hoehe_MinGas * STICK_GAIN, (MAX_GAS - 20) * STICK_GAIN);
		2049	// set GasMischanteil to HeightControlGasFilter
		2050	if(Parameter_ExtraConfig & CFG2_HEIGHT_LIMIT)
		2051	{ // old version
		2052	LIMIT_MAX(FilterHCGas, GasMischanteil); // nicht mehr als Gas
		2053	GasMischanteil = FilterHCGas;
		2054	}
2316	holgerb	2055	else GasMischanteil = FilterHCGas;
		2056	} // end of ACC-Altitude control
2320	holgerb	2057	#endif
1314	killagreg	2058	}
1309	hbuss	2059	}// EOF height control active
1320	hbuss	2060	else // HC not active
		2061	{
		2062	//update hoover gas stick value when HC is not active
2427	holgerb	2063	CalcStickGasHover();
		2064	/* if(!EE_Parameter.Hoehe_StickNeutralPoint)
1587	killagreg	2065	{
		2066	StickGasHover = HoverGas/STICK_GAIN; // rescale back to stick value
2427	holgerb	2067	StickGasHover = (unsigned int)((unsigned int) StickGasHover * UBat) / BattLowVoltageWarning;
1322	hbuss	2068	}
1587	killagreg	2069	else StickGasHover = EE_Parameter.Hoehe_StickNeutralPoint;
2427	holgerb	2070	LIMIT_MIN_MAX(StickGasHover, 70, 175); // reserve some range for trim up and down
		2071	*/
1328	hbuss	2072	FilterHCGas = GasMischanteil;
1773	killagreg	2073	// set both flags to indicate no vario mode
		2074	FC_StatusFlags \|= (FC_STATUS_VARIO_TRIM_UP\|FC_STATUS_VARIO_TRIM_DOWN);
1861	holgerb	2075	FC_StatusFlags2 &= ~FC_STATUS2_ALTITUDE_CONTROL;
1330	killagreg	2076	}
1587	killagreg	2077	// Hover gas estimation by averaging gas control output on small z-velocities
1309	hbuss	2078	// this is done only if height contol option is selected in global config and aircraft is flying
1765	killagreg	2079	if((FC_StatusFlags & FC_STATUS_FLY))// && !(FC_SatusFlags & FC_STATUS_EMERGENCY_LANDING))
1309	hbuss	2080	{
2316	holgerb	2081	//if(HoverGasFilter == 0 \|\| StartTrigger == 1) HoverGasFilter = HOVER_GAS_AVERAGE * (unsigned long)(GasMischanteil); // init estimation
2318	holgerb	2082	if(HoverGasFilter == 0 \|\| StartTrigger == 1) HoverGasFilter = HOVER_GAS_AVERAGE * (unsigned long)(HoverGas); // 0.90f: ge�ndert
1698	holgerb	2083	if(StartTrigger == 1) StartTrigger = 2;
1330	killagreg	2084	tmp_long2 = (int32_t)GasMischanteil; // take current thrust
		2085	tmp_long2 *= CosAttitude; // apply attitude projection
		2086	tmp_long2 /= 8192;
1309	hbuss	2087	// average vertical projected thrust
1698	holgerb	2088	if(modell_fliegt < 4000) // the first 8 seconds
		2089	{ // reduce the time constant of averaging by factor of 4 to get much faster a stable value
		2090	HoverGasFilter -= HoverGasFilter/(HOVER_GAS_AVERAGE/16L);
		2091	HoverGasFilter += 16L * tmp_long2;
1309	hbuss	2092	}
1698	holgerb	2093	if(modell_fliegt < 8000) // the first 16 seconds
		2094	{ // reduce the time constant of averaging by factor of 2 to get much faster a stable value
1590	killagreg	2095	HoverGasFilter -= HoverGasFilter/(HOVER_GAS_AVERAGE/4L);
1587	killagreg	2096	HoverGasFilter += 4L * tmp_long2;
1309	hbuss	2097	}
1698	holgerb	2098	else //later
2316	holgerb	2099	if(abs(VarioMeter) < 100 && abs(HoehenWertF - SollHoehe) < 256) // only on small vertical speed & difference is small (only descending)
1309	hbuss	2100	{
1590	killagreg	2101	HoverGasFilter -= HoverGasFilter/HOVER_GAS_AVERAGE;
1587	killagreg	2102	HoverGasFilter += tmp_long2;
1309	hbuss	2103	}
1590	killagreg	2104	HoverGas = (int16_t)(HoverGasFilter/HOVER_GAS_AVERAGE);
1309	hbuss	2105	if(EE_Parameter.Hoehe_HoverBand)
		2106	{
		2107	int16_t band;
1587	killagreg	2108	band = HoverGas / EE_Parameter.Hoehe_HoverBand; // the higher the parameter the smaller the range
		2109	HoverGasMin = HoverGas - band;
		2110	HoverGasMax = HoverGas + band;
1309	hbuss	2111	}
		2112	else
		2113	{ // no limit
1587	killagreg	2114	HoverGasMin = 0;
		2115	HoverGasMax = 1023;
1309	hbuss	2116	}
1765	killagreg	2117	}
		2118	else
1698	holgerb	2119	{
		2120	StartTrigger = 0;
		2121	HoverGasFilter = 0;
		2122	HoverGas = 0;
1765	killagreg	2123	}
1916	holgerb	2124	}// EOF Parameter_GlobalConfig & CFG_HEIGHT_CONTROL
1773	killagreg	2125	else
		2126	{
		2127	// set undefined state to indicate vario off
		2128	FC_StatusFlags \|= (FC_STATUS_VARIO_TRIM_UP\|FC_STATUS_VARIO_TRIM_DOWN);
		2129	} // EOF no height control
		2130
2309	holgerb	2131	// Limits the maximum gas in case of "Out of Range emergency landing"
2009	holgerb	2132	if(NC_To_FC_Flags & NC_TO_FC_EMERGENCY_LANDING)
		2133	{
2028	holgerb	2134	if(GasMischanteil/STICK_GAIN > HooverGasEmergencyPercent && HoverGas) GasMischanteil = HooverGasEmergencyPercent * STICK_GAIN;
2309	holgerb	2135	SollHoehe = HoehenWertF; // update setpoint to current heigth
2009	holgerb	2136	beeptime = 15000;
		2137	BeepMuster = 0x0E00;
		2138	}
2028	holgerb	2139	// limit gas to parameter setting
1320	hbuss	2140	LIMIT_MIN(GasMischanteil, (MIN_GAS + 10) * STICK_GAIN);
855	hbuss	2141	if(GasMischanteil > (MAX_GAS - 20) * STICK_GAIN) GasMischanteil = (MAX_GAS - 20) * STICK_GAIN;
1111	hbuss	2142
1051	killagreg	2143	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1320	hbuss	2144	// all BL-Ctrl connected?
		2145	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
2418	holgerb	2146	if(MissingMotor \|\| Capacity.MinOfMaxPWM < 254 \|\| NC_ErrorCode) // wait until all BL-Ctrls started and no Errors
1931	holgerb	2147	if(modell_fliegt > 1 && modell_fliegt < 50 && GasMischanteil > 0) // only during start-phase
1320	hbuss	2148	{
		2149	modell_fliegt = 1;
1675	holgerb	2150	GasMischanteil = (MIN_GAS + 10) * STICK_GAIN;
2382	holgerb	2151	#if (defined(__AVR_ATmega1284__) \|\| defined(__AVR_ATmega1284P__))
		2152	if(Capacity.MinOfMaxPWM < 40) SpeakHoTT = SPEAK_ERR_MOTOR;
		2153	#endif
1320	hbuss	2154	}
2407	holgerb	2155
2427	holgerb	2156	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		2157	// send SPI pending bytes
2407	holgerb	2158	if(BytegapSPI == 0) SPI_TransmitByte();
1320	hbuss	2159	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	2160	// + Mischer und PI-Regler
1051	killagreg	2161	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
173	holgerb	2162	DebugOut.Analog[7] = GasMischanteil;
1051	killagreg	2163	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	2164	// Gier-Anteil
1051	killagreg	2165	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
855	hbuss	2166	GierMischanteil = MesswertGier - sollGier * STICK_GAIN; // Regler f�r Gier
		2167	#define MIN_GIERGAS (40*STICK_GAIN) // unter diesem Gaswert trotzdem Gieren
693	hbuss	2168	if(GasMischanteil > MIN_GIERGAS)
		2169	{
1051	killagreg	2170	if(GierMischanteil > (GasMischanteil / 2)) GierMischanteil = GasMischanteil / 2;
		2171	if(GierMischanteil < -(GasMischanteil / 2)) GierMischanteil = -(GasMischanteil / 2);
693	hbuss	2172	}
1051	killagreg	2173	else
693	hbuss	2174	{
1051	killagreg	2175	if(GierMischanteil > (MIN_GIERGAS / 2)) GierMischanteil = MIN_GIERGAS / 2;
		2176	if(GierMischanteil < -(MIN_GIERGAS / 2)) GierMischanteil = -(MIN_GIERGAS / 2);
693	hbuss	2177	}
855	hbuss	2178	tmp_int = MAX_GAS*STICK_GAIN;
1051	killagreg	2179	if(GierMischanteil > ((tmp_int - GasMischanteil))) GierMischanteil = ((tmp_int - GasMischanteil));
855	hbuss	2180	if(GierMischanteil < -((tmp_int - GasMischanteil))) GierMischanteil = -((tmp_int - GasMischanteil));
513	hbuss	2181
1051	killagreg	2182	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1	ingob	2183	// Nick-Achse
1051	killagreg	2184	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
723	hbuss	2185	DiffNick = MesswertNick - StickNick; // Differenz bestimmen
1153	hbuss	2186	if(IntegralFaktor) SummeNick += IntegralNickMalFaktor - StickNick; // I-Anteil bei Winkelregelung
1051	killagreg	2187	else SummeNick += DiffNick; // I-Anteil bei HH
855	hbuss	2188	if(SummeNick > (STICK_GAIN * 16000L)) SummeNick = (STICK_GAIN * 16000L);
		2189	if(SummeNick < -(16000L * STICK_GAIN)) SummeNick = -(16000L * STICK_GAIN);
1791	holgerb	2190
		2191	if(EE_Parameter.Gyro_Stability <= 8) pd_ergebnis_nick = (EE_Parameter.Gyro_Stability * DiffNick) / 8; // PI-Regler f�r Nick
		2192	else pd_ergebnis_nick = ((EE_Parameter.Gyro_Stability / 2) * DiffNick) / 4; // �berlauf verhindern
		2193	pd_ergebnis_nick += SummeNick / Ki;
		2194
1676	holgerb	2195	tmp_int = (long)((long)Parameter_DynamicStability * (long)(GasMischanteil + abs(GierMischanteil)/2)) / 64;
1153	hbuss	2196	if(pd_ergebnis_nick > tmp_int) pd_ergebnis_nick = tmp_int;
		2197	if(pd_ergebnis_nick < -tmp_int) pd_ergebnis_nick = -tmp_int;
173	holgerb	2198
1153	hbuss	2199	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		2200	// Roll-Achse
		2201	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		2202	DiffRoll = MesswertRoll - StickRoll; // Differenz bestimmen
		2203	if(IntegralFaktor) SummeRoll += IntegralRollMalFaktor - StickRoll;// I-Anteil bei Winkelregelung
		2204	else SummeRoll += DiffRoll; // I-Anteil bei HH
		2205	if(SummeRoll > (STICK_GAIN * 16000L)) SummeRoll = (STICK_GAIN * 16000L);
		2206	if(SummeRoll < -(16000L * STICK_GAIN)) SummeRoll = -(16000L * STICK_GAIN);
1791	holgerb	2207
		2208	if(EE_Parameter.Gyro_Stability <= 8) pd_ergebnis_roll = (EE_Parameter.Gyro_Stability * DiffRoll) / 8; // PI-Regler f�r Roll
		2209	else pd_ergebnis_roll = ((EE_Parameter.Gyro_Stability / 2) * DiffRoll) / 4; // �berlauf verhindern
		2210	pd_ergebnis_roll += SummeRoll / Ki;
		2211
1676	holgerb	2212	tmp_int = (long)((long)Parameter_DynamicStability * (long)(GasMischanteil + abs(GierMischanteil)/2)) / 64;
1153	hbuss	2213	if(pd_ergebnis_roll > tmp_int) pd_ergebnis_roll = tmp_int;
		2214	if(pd_ergebnis_roll < -tmp_int) pd_ergebnis_roll = -tmp_int;
		2215
		2216	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
2427	holgerb	2217	// send SPI pending bytes
		2218	if(BytegapSPI == 0) SPI_TransmitByte();
		2219	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1209	hbuss	2220	// Universal Mixer
1155	hbuss	2221	// +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1642	killagreg	2222	for(i=0; i<MAX_MOTORS; i++)
		2223	{
		2224	signed int tmp_int;
		2225	if(Mixer.Motor[i][0] > 0)
		2226	{
1652	holgerb	2227	// Gas
1676	holgerb	2228	if(Mixer.Motor[i][0] == 64) tmp_int = GasMischanteil; else tmp_int = ((long)GasMischanteil * Mixer.Motor[i][0]) / 64L;
1652	holgerb	2229	// Nick
		2230	if(Mixer.Motor[i][1] == 64) tmp_int += pd_ergebnis_nick;
		2231	else if(Mixer.Motor[i][1] == -64) tmp_int -= pd_ergebnis_nick;
		2232	else tmp_int += ((long)pd_ergebnis_nick * Mixer.Motor[i][1]) / 64L;
		2233	// Roll
		2234	if(Mixer.Motor[i][2] == 64) tmp_int += pd_ergebnis_roll;
		2235	else if(Mixer.Motor[i][2] == -64) tmp_int -= pd_ergebnis_roll;
		2236	else tmp_int += ((long)pd_ergebnis_roll * Mixer.Motor[i][2]) / 64L;
		2237	// Gier
1676	holgerb	2238	if(Mixer.Motor[i][3] == 64) tmp_int += GierMischanteil;
		2239	else if(Mixer.Motor[i][3] == -64) tmp_int -= GierMischanteil;
		2240	else tmp_int += ((long)GierMischanteil * Mixer.Motor[i][3]) / 64L;
2427	holgerb	2241	#ifdef REDUNDANT_FC_SLAVE
2418	holgerb	2242	tmp_int = (tmp_motorwert[i] + tmp_int) / 2;
		2243	#else
2386	holgerb	2244	if(Motor[i].Version & MOTOR_STATE_FAST_MODE \|\| tmp_int > tmp_motorwert[i]) tmp_int = (tmp_motorwert[i] + tmp_int) / 2; // Beschleunigen
1913	holgerb	2245	else
2402	holgerb	2246	{ // BL-Ctrl 1.0 or 2.0
2386	holgerb	2247	if(EE_Parameter.MotorSmooth == 0)
1913	holgerb	2248	{
1931	holgerb	2249	tmp_int = 2 * tmp_int - tmp_motorwert[i]; // original MotorSmoothing
1913	holgerb	2250	}
		2251	else // 1 means tmp_int = tmp_int;
2386	holgerb	2252	if(EE_Parameter.MotorSmooth > 1)
1913	holgerb	2253	{
2386	holgerb	2254	// If >= 2 then allow >= 50% of the intended step down to rapidly reach the intended value.
		2255	tmp_int = tmp_int + ((tmp_motorwert[i] - tmp_int) / EE_Parameter.MotorSmooth);
1913	holgerb	2256	}
		2257	}
2418	holgerb	2258	#endif
1760	holgerb	2259	LIMIT_MIN_MAX(tmp_int,(int) MIN_GAS * 4,(int) MAX_GAS * 4);
1676	holgerb	2260	Motor[i].SetPoint = tmp_int / 4;
1677	killagreg	2261	Motor[i].SetPointLowerBits = (tmp_int % 4)<<1; // (3 bits total)
1652	holgerb	2262	tmp_motorwert[i] = tmp_int;
1642	killagreg	2263	}
		2264	else
		2265	{
		2266	Motor[i].SetPoint = 0;
		2267	Motor[i].SetPointLowerBits = 0;
		2268	}
		2269	}
2427	holgerb	2270	#ifdef REDUNDANT_FC_MASTER
2437	holgerb	2271	if(Parameter_UserParam6 > 230) Motor[0].SetPoint = 0;
2427	holgerb	2272	#endif
1111	hbuss	2273	}
2090	holgerb	2274	//DebugOut.Analog[16]

Subversion Repositories FlightCtrl

(root)/branches/V2.08a_Rens_Testversion/fc.c - Rev 2437