WebSVN - MK3Mag - Blame - Rev 62 - /tags/V0.21b/main.c

Rev	Author	Line No.	Line
5	hbuss	1	/*#######################################################################################
7	hbuss	2	MK3Mag 3D-Magnet sensor
32	holgerb	3	!!! THIS IS NOT FREE SOFTWARE !!!
5	hbuss	4	#######################################################################################*/
		5	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
7	hbuss	6	// + Copyright (c) 05.2008 Holger Buss
8	hbuss	7	// + Thanks to Ilja F�hnrich (P_Latzhalter)
62	ingob	8	// + Nur f�r den privaten Gebrauch / NON-COMMERCIAL USE ONLY
5	hbuss	9	// + www.MikroKopter.com
		10	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
62	ingob	11	// + Die Portierung oder Nutzung der Software (oder Teile davon) auf andere Systeme (ausser der Hardware von www.mikrokopter.de) ist nur
12	hbuss	12	// + mit unserer Zustimmung zul�ssig
		13	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
32	holgerb	14	// + Es gilt f�r das gesamte Projekt (Hardware, Software, Bin�rfiles, Sourcecode und Dokumentation),
		15	// + dass eine Nutzung (auch auszugsweise) nur f�r den privaten (nicht-kommerziellen) Gebrauch zul�ssig ist.
12	hbuss	16	// + AUSNAHME: Ein bei www.mikrokopter.de erworbener vorbest�ckter MK3Mag darf als Baugruppe auch in kommerziellen Systemen verbaut werden
		17	// + Im Zweifelsfall bitte anfragen bei: info@mikrokopter.de
5	hbuss	18	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
32	holgerb	19	// + Werden Teile des Quellcodes (mit oder ohne Modifikation) weiterverwendet oder ver�ffentlicht,
5	hbuss	20	// + unterliegen sie auch diesen Nutzungsbedingungen und diese Nutzungsbedingungen incl. Copyright m�ssen dann beiliegen
		21	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		22	// + Sollte die Software (auch auszugesweise) oder sonstige Informationen des MikroKopter-Projekts
		23	// + auf anderen Webseiten oder sonstigen Medien ver�ffentlicht werden, muss unsere Webseite "http://www.mikrokopter.de"
		24	// + eindeutig als Ursprung verlinkt werden
		25	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		26	// + Keine Gew�hr auf Fehlerfreiheit, Vollst�ndigkeit oder Funktion
		27	// + Benutzung auf eigene Gefahr
		28	// + Wir �bernehmen keinerlei Haftung f�r direkte oder indirekte Personen- oder Sachsch�den
		29	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
62	ingob	30	// + Die Portierung oder Nutzung der Software (oder Teile davon) auf andere Systeme (ausser der Hardware von www.mikrokopter.de) ist nur
		31	// + mit unserer Zustimmung zul�ssig
		32	/// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
5	hbuss	33	// + Die Funktion printf_P() unterliegt ihrer eigenen Lizenz und ist hiervon nicht betroffen
		34	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
32	holgerb	35	// + Redistributions of source code (with or without modifications) must retain the above copyright notice,
5	hbuss	36	// + this list of conditions and the following disclaimer.
62	ingob	37	// + * porting the sources to other systems or using the software on other systems (except hardware from www.mikrokopter.de) is not allowed
5	hbuss	38	// + * Neither the name of the copyright holders nor the names of contributors may be used to endorse or promote products derived
		39	// + from this software without specific prior written permission.
32	holgerb	40	// + * The use of this project (hardware, software, binary files, sources and documentation) is only permittet
5	hbuss	41	// + for non-commercial use (directly or indirectly)
32	holgerb	42	// + Commercial use (for excample: selling of MikroKopters, selling of PCBs, assembly, ...) is only permitted
5	hbuss	43	// + with our written permission
12	hbuss	44	// + Exception: A preassembled MK3Mag, purchased from www.mikrokopter.de may be used as a part of commercial systems
		45	// + In case of doubt please contact: info@MikroKopter.de
32	holgerb	46	// + * If sources or documentations are redistributet on other webpages, our webpage (http://www.MikroKopter.de) must be
		47	// + clearly linked as origin
5	hbuss	48	// + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
		49	// + AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
		50	// + IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
		51	// + ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
		52	// + LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
		53	// + CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
		54	// + SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
12	hbuss	55	// + INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
		56	// + CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
5	hbuss	57	// + ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
32	holgerb	58	// + POSSIBILITY OF SUCH DAMAGE.
5	hbuss	59	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
32	holgerb	60	#include <avr/interrupt.h>
		61	#include <math.h>
		62	#include <stdlib.h>
		63	#include <stdio.h>
17	holgerb	64
1	ingob	65	#include "main.h"
32	holgerb	66	#include "timer0.h"
		67	#include "twislave.h"
		68	#include "led.h"
		69	#include "analog.h"
		70	#include "uart.h"
1	ingob	71
36	hbuss	72	#define CALIBRATION_VERSION 1
32	holgerb	73
		74	AttitudeSource_t AttitudeSource = ATTITUDE_SOURCE_ACC;
		75	Orientation_t Orientation = ORIENTATION_FC;
		76
		77	uint16_t Led_Timer = 0;
		78
		79	typedef struct
1	ingob	80	{
32	holgerb	81	int16_t Range;
		82	int16_t Offset;
		83	} Scaling_t;
1	ingob	84
32	holgerb	85	typedef struct
		86	{
		87	Scaling_t MagX;
		88	Scaling_t MagY;
		89	Scaling_t MagZ;
		90	Scaling_t AccX;
		91	Scaling_t AccY;
		92	Scaling_t AccZ;
36	hbuss	93	unsigned char Version;
32	holgerb	94	} Calibration_t;
		95
		96	Calibration_t eeCalibration EEMEM; // calibration data in EEProm
		97	Calibration_t Calibration; // calibration data in RAM
		98
		99	// magnet sensor variable
37	killagreg	100	int16_t RawMagnet1a, RawMagnet1b; // raw magnet sensor data
32	holgerb	101	int16_t RawMagnet2a, RawMagnet2b;
		102	int16_t RawMagnet3a, RawMagnet3b;
37	killagreg	103	int16_t UncalMagX, UncalMagY, UncalMagZ; // sensor signal difference without Scaling
32	holgerb	104	int16_t MagX = 0, MagY = 0, MagZ = 0; // rescaled magnetic field readings
		105
		106	// acceleration sensor variables
		107	int16_t RawAccX = 0, RawAccY = 0, RawAccZ = 0; // raw acceleration readings
		108	int16_t AccX = 0, AccY = 0, AccZ = 0; // rescaled acceleration readings
		109	int16_t AccAttitudeNick = 0, AccAttitudeRoll = 0; // nick and roll angle from acc
		110
		111	int16_t Heading = -1; // the current compass heading in deg
		112
		113
1	ingob	114	void CalcFields(void)
7	hbuss	115	{
32	holgerb	116	UncalMagX = (RawMagnet1a - RawMagnet1b);
		117	UncalMagY = (RawMagnet3a - RawMagnet3b);
		118	UncalMagZ = (RawMagnet2a - RawMagnet2b);
7	hbuss	119
32	holgerb	120	if(Calibration.MagX.Range != 0) MagX = (1024L * (int32_t)(UncalMagX - Calibration.MagX.Offset)) / (Calibration.MagX.Range);
		121	else MagX = 0;
		122	if(Calibration.MagY.Range != 0) MagY = (1024L * (int32_t)(UncalMagY - Calibration.MagY.Offset)) / (Calibration.MagY.Range);
		123	else MagY = 0;
		124	if(Calibration.MagY.Range != 0) MagZ = (1024L * (int32_t)(UncalMagZ - Calibration.MagZ.Offset)) / (Calibration.MagZ.Range);
		125	else MagZ = 0;
7	hbuss	126
32	holgerb	127	if(AccPresent)
		128	{
		129	AccX = (RawAccX - Calibration.AccX.Offset);
		130	AccY = (RawAccY - Calibration.AccY.Offset);
		131	AccZ = (Calibration.AccZ.Offset - RawAccZ);
		132	#if (BOARD == 10) // the hardware 1.0 has the LIS3L02AL
		133	// acc mode assumes orientation like FC
		134	if(AccX > 136) AccAttitudeNick = -800;
		135	else
		136	if(AccX < -136) AccAttitudeNick = 800;
		137	else AccAttitudeNick = (int16_t)(-1800.0 * asin((double) AccX / 138.0) / M_PI);
		138
		139
		140	if(AccY > 136) AccAttitudeRoll = 800;
		141	else
		142	if(AccY < -136) AccAttitudeRoll = -800;
		143	else AccAttitudeRoll = (int16_t)( 1800.0 * asin((double) AccY / 138.0) / M_PI);
		144
		145	#else // the hardware 1.1 has the LIS344ALH with a different axis definition (X -> -Y, Y -> X, Z -> Z)
		146	// acc mode assumes orientation like FC
		147	if(AccY > 136) AccAttitudeNick = 800;
		148	else
		149	if(AccY < -136) AccAttitudeNick = -800;
		150	else AccAttitudeNick = (int16_t)( 1800.0 * asin((double) AccY / 138.0) / M_PI);
		151
		152
		153	if(AccX > 136) AccAttitudeRoll = 800;
		154	else
		155	if(AccX < -136) AccAttitudeRoll = -800;
		156	else AccAttitudeRoll = (int16_t)( 1800.0 * asin((double) AccX / 138.0) / M_PI);
		157	#endif
		158	}
1	ingob	159	}
		160
32	holgerb	161
1	ingob	162	void CalcHeading(void)
		163	{
32	holgerb	164	double nick_rad, roll_rad, Hx, Hy, Cx = 0.0, Cy = 0.0, Cz = 0.0;
33	killagreg	165	int16_t nick, roll;
32	holgerb	166	int16_t heading = -1;
1	ingob	167
32	holgerb	168	// blink code for normal operation
		169	if(CheckDelay(Led_Timer))
		170	{
37	killagreg	171	if(Calibration.Version != CALIBRATION_VERSION) LED_GRN_TOGGLE;
36	hbuss	172	else LED_GRN_ON;
		173	Led_Timer = SetDelay(150);
32	holgerb	174	}
		175	switch(Orientation)
		176	{
		177	case ORIENTATION_NC:
		178	Cx = MagX;
		179	Cy = MagY;
		180	Cz = MagZ;
		181	break;
7	hbuss	182
32	holgerb	183	case ORIENTATION_FC:
		184	// rotation of 90 deg compared to NC setup
		185	Cx = MagY;
		186	Cy = -MagX;
		187	Cz = MagZ;
		188	break;
		189	}
		190
		191	// calculate nick and roll angle in rad
		192	switch(AttitudeSource)
		193	{
		194	case ATTITUDE_SOURCE_I2C:
37	killagreg	195	cli(); // stop interrupts
		196	nick = I2C_WriteAttitude.Nick;
32	holgerb	197	roll = I2C_WriteAttitude.Roll;
37	killagreg	198	sei(); // start interrupts
32	holgerb	199	break;
		200	case ATTITUDE_SOURCE_UART:
37	killagreg	201	cli(); // stop interrupts
		202	nick = ExternData.Attitude[NICK];
		203	roll = ExternData.Attitude[ROLL];
		204	sei(); // start interrupts
32	holgerb	205	break;
		206	case ATTITUDE_SOURCE_ACC:
37	killagreg	207	nick = AccAttitudeNick;
		208	roll = AccAttitudeRoll;
32	holgerb	209	break;
		210	default:
35	killagreg	211	nick = 0;
		212	roll = 0;
32	holgerb	213	break;
		214	}
		215
37	killagreg	216	nick_rad = ((double)nick) * M_PI / (double)(1800.0);
		217	roll_rad = ((double)roll) * M_PI / (double)(1800.0);
32	holgerb	218
		219	// calculate attitude correction
		220	Hx = Cx * cos(nick_rad) - Cz * sin(nick_rad);
		221	Hy = Cy * cos(roll_rad) + Cz * sin(roll_rad);
		222
		223	DebugOut.Analog[27] = (int16_t)Hx;
		224	DebugOut.Analog[28] = (int16_t)Hy;
		225
		226	// calculate Heading
		227	heading = (int16_t)((180.0 * atan2(Hy, Hx)) / M_PI);
		228	// atan2 returns angular range from -180 deg to 180 deg in counter clockwise notation
		229	// but the compass course is defined in a range from 0 deg to 360 deg clockwise notation.
		230	if (heading < 0) heading = -heading;
		231	else heading = 360 - heading;
33	killagreg	232
32	holgerb	233	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
36	hbuss	234	if(Calibration.Version != CALIBRATION_VERSION) heading = -1; // Version of the calibration Data does not match
32	holgerb	235	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
33	killagreg	236	cli(); // stop interrupts
32	holgerb	237	if(abs(heading) < 361) Heading = heading;
		238	else (Heading = -1);
33	killagreg	239	sei(); // start interrupts
		240
1	ingob	241	}
		242
7	hbuss	243	void Calibrate(void)
		244	{
32	holgerb	245	uint8_t cal;
		246	static uint8_t calold = 0;
		247	static int16_t Xmin = 0, Xmax = 0, Ymin = 0, Ymax = 0, Zmin = 0, Zmax = 0;
		248	static uint8_t blinkcount = 0;
		249	static uint8_t invert_blinking = 0;
33	killagreg	250
32	holgerb	251	// check both sources of communication for calibration request
37	killagreg	252	if(I2C_WriteCal.CalByte) cal = I2C_WriteCal.CalByte;
		253	else cal = ExternData.CalState;
16	holgerb	254
32	holgerb	255
		256	if(cal > 5) cal = 0;
		257	// blink code for current calibration state
		258	if(cal)
		259	{
		260	if(CheckDelay(Led_Timer) \|\| (cal != calold))
		261	{
		262	if(blinkcount & 0x01) if(invert_blinking) LED_GRN_ON; else LED_GRN_OFF;
		263	else if(invert_blinking) LED_GRN_OFF; else LED_GRN_ON;
		264
		265	// end of blinkcount sequence
		266	if((blinkcount + 1 ) >= (2 * cal))
		267	{
		268	blinkcount = 0;
35	killagreg	269	Led_Timer = SetDelay(1500);
32	holgerb	270	}
		271	else
		272	{
		273	blinkcount++;
35	killagreg	274	Led_Timer = SetDelay(100);
32	holgerb	275	}
		276	}
		277	}
		278	else
		279	{
		280	if(invert_blinking) LED_GRN_ON; else LED_GRN_OFF;
		281	}
		282	// calibration state machine
		283	switch(cal)
		284	{
		285	case 1: // 1st step of calibration
		286	// initialize ranges
		287	// used to change the orientation of the MK3MAG in the horizontal plane
		288	Xmin = 10000;
		289	Xmax = -10000;
		290	Ymin = 10000;
		291	Ymax = -10000;
		292	Zmin = 10000;
		293	Zmax = -10000;
		294	Calibration.AccX.Offset = RawAccX;
		295	Calibration.AccY.Offset = RawAccY;
37	killagreg	296	Calibration.AccZ.Offset = RawAccZ;
		297	invert_blinking = 0;
32	holgerb	298	break;
		299
		300	case 2: // 2nd step of calibration
		301	// find Min and Max of the X- and Y-Sensors during rotation in the horizontal plane
		302	if(UncalMagX < Xmin) Xmin = UncalMagX;
		303	if(UncalMagX > Xmax) Xmax = UncalMagX;
		304	if(UncalMagY < Ymin) Ymin = UncalMagY;
		305	if(UncalMagY > Ymax) Ymax = UncalMagY;
37	killagreg	306	invert_blinking = 1;
32	holgerb	307	break;
		308
		309	case 3: // 3rd step of calibration
		310	// used to change the orientation of the MK3MAG vertical to the horizontal plane
37	killagreg	311	invert_blinking = 0;
32	holgerb	312	break;
		313
		314	case 4:
		315	// find Min and Max of the Z-Sensor
		316	if(UncalMagZ < Zmin) Zmin = UncalMagZ;
		317	if(UncalMagZ > Zmax) Zmax = UncalMagZ;
37	killagreg	318	invert_blinking = 1;
32	holgerb	319	break;
		320
		321	case 5:
		322	// Save values
		323	if(cal != calold) // avoid continously writing of eeprom!
		324	{
		325	Calibration.MagX.Range = Xmax - Xmin;
		326	Calibration.MagX.Offset = (Xmin + Xmax) / 2;
		327	Calibration.MagY.Range = Ymax - Ymin;
		328	Calibration.MagY.Offset = (Ymin + Ymax) / 2;
		329	Calibration.MagZ.Range = Zmax - Zmin;
		330	Calibration.MagZ.Offset = (Zmin + Zmax) / 2;
		331	if((Calibration.MagX.Range > 150) && (Calibration.MagY.Range > 150) && (Calibration.MagZ.Range > 150))
		332	{
36	hbuss	333	Calibration.Version = CALIBRATION_VERSION;
34	killagreg	334	// indicate write process by setting the led off for 2 seconds
		335	LED_GRN_OFF;
32	holgerb	336	eeprom_write_block(&Calibration, &eeCalibration, sizeof(Calibration));
		337	Led_Timer = SetDelay(2000);
		338	// reset blinkcode
		339	blinkcount = 0;
		340	}
		341	}
37	killagreg	342	invert_blinking = 0;
32	holgerb	343	break;
		344
		345	default:
		346	break;
		347	}
		348	calold = cal;
7	hbuss	349	}
1	ingob	350
32	holgerb	351
7	hbuss	352	void SetDebugValues(void)
		353	{
32	holgerb	354	DebugOut.Analog[0] = MagX;
		355	DebugOut.Analog[1] = MagY;
		356	DebugOut.Analog[2] = MagZ;
		357	DebugOut.Analog[3] = UncalMagX;
		358	DebugOut.Analog[4] = UncalMagY;
		359	DebugOut.Analog[5] = UncalMagZ;
		360	switch(AttitudeSource)
		361	{
		362	case ATTITUDE_SOURCE_ACC:
		363	DebugOut.Analog[6] = AccAttitudeNick;
		364	DebugOut.Analog[7] = AccAttitudeRoll;
		365	break;
		366
		367	case ATTITUDE_SOURCE_UART:
		368	DebugOut.Analog[6] = ExternData.Attitude[NICK];
		369	DebugOut.Analog[7] = ExternData.Attitude[ROLL];
		370	break;
		371
		372
		373	case ATTITUDE_SOURCE_I2C:
		374	DebugOut.Analog[6] = I2C_WriteAttitude.Nick;
		375	DebugOut.Analog[7] = I2C_WriteAttitude.Roll;
		376	break;
		377	}
		378	DebugOut.Analog[8] = Calibration.MagX.Offset;
		379	DebugOut.Analog[9] = Calibration.MagX.Range;
		380	DebugOut.Analog[10] = Calibration.MagY.Offset;
		381	DebugOut.Analog[11] = Calibration.MagY.Range;
		382	DebugOut.Analog[12] = Calibration.MagZ.Offset;
		383	DebugOut.Analog[13] = Calibration.MagZ.Range;
35	killagreg	384	if(I2C_WriteCal.CalByte) DebugOut.Analog[14] = I2C_WriteCal.CalByte;
		385	else DebugOut.Analog[14] = ExternData.CalState;
32	holgerb	386	DebugOut.Analog[15] = Heading;
		387	DebugOut.Analog[16] = ExternData.UserParam[0];
		388	DebugOut.Analog[17] = ExternData.UserParam[1];
		389	DebugOut.Analog[18] = AccX;
		390	DebugOut.Analog[19] = AccY;
		391	DebugOut.Analog[20] = AccZ;
		392	DebugOut.Analog[21] = RawAccX;
		393	DebugOut.Analog[22] = RawAccY;
		394	DebugOut.Analog[23] = RawAccZ;
		395	DebugOut.Analog[24] = Calibration.AccX.Offset;
		396	DebugOut.Analog[25] = Calibration.AccY.Offset;
37	killagreg	397	DebugOut.Analog[26] = Calibration.AccZ.Offset;
		398	DebugOut.Analog[29] = AttitudeSource;
7	hbuss	399	}
		400
16	holgerb	401	void AccMeasurement(void)
		402	{
32	holgerb	403	if(AccPresent)
		404	{
		405	RawAccX = (RawAccX + (int16_t)ADC_GetValue(ACC_X))/2;
		406	RawAccY = (RawAccY + (int16_t)ADC_GetValue(ACC_Y))/2;
		407	RawAccZ = (RawAccZ + (int16_t)ADC_GetValue(ACC_Z))/2;
		408	}
		409	else
		410	{
		411	RawAccX = 0;
		412	RawAccY = 0;
		413	RawAccZ = 0;
		414	}
16	holgerb	415	}
7	hbuss	416
1	ingob	417	int main (void)
		418	{
32	holgerb	419	// reset input pullup
		420	DDRC &=~((1<<DDC6));
		421	PORTC \|= (1<<PORTC6);
17	holgerb	422
37	killagreg	423	LED_Init();
		424	TIMER0_Init();
		425	USART0_Init();
		426	ADC_Init();
32	holgerb	427	I2C_Init();
17	holgerb	428
37	killagreg	429	sei(); // enable globale interrupts
32	holgerb	430
37	killagreg	431	if(AccPresent)
		432	{
32	holgerb	433	USART0_Print("ACC present\n");
		434	}
		435
37	killagreg	436	LED_GRN_ON;
32	holgerb	437
37	killagreg	438	Led_Timer = SetDelay(200);
32	holgerb	439
		440	// read calibration info from eeprom
		441	eeprom_read_block(&Calibration, &eeCalibration, sizeof(Calibration));
		442
37	killagreg	443	ExternData.CalState = 0;
		444	I2C_WriteCal.CalByte = 0;
32	holgerb	445
		446
		447	// main loop
37	killagreg	448	while (1)
		449	{
32	holgerb	450	FLIP_LOW;
		451	Delay_ms(2);
		452	RawMagnet1a = ADC_GetValue(MAG_X);
		453	RawMagnet2a = -ADC_GetValue(MAG_Y);
		454	RawMagnet3a = ADC_GetValue(MAG_Z);
		455	AccMeasurement();
		456	Delay_ms(1);
7	hbuss	457
32	holgerb	458	FLIP_HIGH;
		459	Delay_ms(2);
		460	RawMagnet1b = ADC_GetValue(MAG_X);
		461	RawMagnet2b = -ADC_GetValue(MAG_Y);
		462	RawMagnet3b = ADC_GetValue(MAG_Z);
		463	AccMeasurement();
		464	Delay_ms(1);
1	ingob	465
32	holgerb	466	CalcFields();
1	ingob	467
32	holgerb	468	if(ExternData.CalState \|\| I2C_WriteCal.CalByte) Calibrate();
		469	else CalcHeading();
16	holgerb	470
32	holgerb	471	// check data from USART
37	killagreg	472	USART0_ProcessRxData();
32	holgerb	473
		474	if(NC_Connected) NC_Connected--;
		475	if(FC_Connected) FC_Connected--;
		476	// fall back to attitude estimation from acc sensor if NC or FC does'nt send attittude data
		477	if(!FC_Connected && ! NC_Connected)
		478	{
		479	AttitudeSource = ATTITUDE_SOURCE_ACC;
		480	Orientation = ORIENTATION_FC;
		481	}
		482
37	killagreg	483	if(PC_Connected)
		484	{
		485	USART0_EnableTXD();
		486	USART0_TransmitTxData();
		487	PC_Connected--;
32	holgerb	488	}
		489	else
		490	{
		491	USART0_DisableTXD();
		492	}
		493	} // while(1)
1	ingob	494	}
		495

Subversion Repositories MK3Mag

(root)/tags/V0.21b/main.c - Rev 62