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Rev	Author	Line No.	Line
1	ingob	1	/*#######################################################################################
685	killagreg	2	Decodieren eines RC Summen Signals
1	ingob	3	#######################################################################################*/
		4	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		5	// + Copyright (c) 04.2007 Holger Buss
		6	// + only for non-profit use
		7	// + www.MikroKopter.com
		8	// + see the File "License.txt" for further Informations
		9	// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
		10
687	killagreg	11	#include <stdlib.h>
685	killagreg	12	#include <avr/io.h>
		13	#include <avr/interrupt.h>
		14
1	ingob	15	#include "rc.h"
732	killagreg	16	#include "main.h"
1	ingob	17
761	killagreg	18	volatile int16_t PPM_in[15]; //PPM24 supports 12 channels per frame
		19	volatile int16_t PPM_diff[15];
687	killagreg	20	volatile uint8_t NewPpmData = 1;
801	killagreg	21	volatile int16_t RC_Quality = 0;
1	ingob	22
800	killagreg	23
687	killagreg	24	/***************************************************************/
688	killagreg	25	/* 16bit timer 1 is used to decode the PPM-Signal */
687	killagreg	26	/***************************************************************/
712	killagreg	27	void RC_Init (void)
1	ingob	28	{
688	killagreg	29	uint8_t sreg = SREG;
1	ingob	30
688	killagreg	31	// disable all interrupts before reconfiguration
		32	cli();
685	killagreg	33
688	killagreg	34	// PPM-signal is connected to the Input Capture Pin (PD6) of timer 1
		35	DDRD &= ~(1<<DDD6);
		36	PORTD \|= (1<<PORTD6);
		37
689	killagreg	38	// Channel 5,6,7 is decoded to servo signals at pin PD5 (J3), PD4(J4), PD3(J5)
		39	// set as output
756	killagreg	40	DDRD \|= (1<<DDD5)\|(1<<DDD4);
689	killagreg	41	// low level
756	killagreg	42	PORTD &= ~((1<<PORTD5)\|(1<<PORTD4));
689	killagreg	43
732	killagreg	44	// PD3 can't be used in FC 1.1 if 2nd UART is activated
766	killagreg	45	// because TXD1 is at that port
732	killagreg	46	if(BoardRelease == 10)
		47	{
		48	DDRD \|= (1<<PORTD3);
		49	PORTD &= ~(1<<PORTD3);
		50	}
		51
688	killagreg	52	// Timer/Counter1 Control Register A, B, C
		53
		54	// Normal Mode (bits: WGM13=0, WGM12=0, WGM11=0, WGM10=0)
		55	// Compare output pin A & B is disabled (bits: COM1A1=0, COM1A0=0, COM1B1=0, COM1B0=0)
		56	// Set clock source to SYSCLK/64 (bit: CS12=0, CS11=1, CS10=1)
		57	// Enable input capture noise cancler (bit: ICNC1=1)
		58	// Trigger on positive edge of the input capture pin (bit: ICES1=1),
		59	// Therefore the counter incremets at a clock of 20 MHz/64 = 312.5 kHz or 3.2�s
		60	// The longest period is 0xFFFF / 312.5 kHz = 0.209712 s.
		61	TCCR1A &= ~((1<<COM1A1)\|(1<<COM1A0)\|(1<<COM1B1)\|(1<<COM1B0)\|(1<<WGM11)\|(1<<WGM10));
		62	TCCR1B &= ~((1<<WGM13)\|(1<<WGM12)\|(1<<CS12));
		63	TCCR1B \|= (1<<CS11)\|(1<<CS10)\|(1<<ICES1)\|(1<<ICNC1);
		64	TCCR1C &= ~((1<<FOC1A)\|(1<<FOC1B));
		65
		66	// Timer/Counter1 Interrupt Mask Register
		67
		68	// Enable Input Capture Interrupt (bit: ICIE1=1)
		69	// Disable Output Compare A & B Match Interrupts (bit: OCIE1B=0, OICIE1A=0)
802	killagreg	70	// Enable Overflow Interrupt (bit: TOIE1=0)
		71	TIMSK1 &= ~((1<<OCIE1B)\|(1<<OCIE1A));
		72	TIMSK1 \|= (1<<ICIE1)\|(1<<TOIE1);
688	killagreg	73
800	killagreg	74	RC_Quality = 0;
		75
688	killagreg	76	SREG = sreg;
1	ingob	77	}
		78
		79
802	killagreg	80	// happens every 0.209712 s.
		81	// check for at least one input capture event per timer overflow (timeout)
		82	ISR(TIMER1_OVF_vect)
		83	{
		84	static uint16_t lastICR1 = 0;
		85	// if ICR1 has not changed
		86	// then no new input capture event has occured since last timer overflow
821	killagreg	87	if (lastICR1 == ICR1) RC_Quality /= 2;
802	killagreg	88	lastICR1 = ICR1; // store last ICR1
		89	}
		90
		91
688	killagreg	92	/********************************************************************/
		93	/* Every time a positive edge is detected at PD6 */
		94	/********************************************************************/
761	killagreg	95	/* t-Frame
		96	<----------------------------------------------------------------------->
		97	____ ______ _____ ________ ______ sync gap ____
		98	\| \| \| \| \| \| \| \| \| \| \|
		99	\| \| \| \| \| \| \| \| \| \| \|
		100	___\| \|_\| \|_\| \|_\| \|_.............\| \|________________\|
		101	<-----><-------><------><--------> <------> <---
		102	t0 t1 t2 t4 tn t0
		103
688	killagreg	104	The PPM-Frame length is 22.5 ms.
		105	Channel high pulse width range is 0.7 ms to 1.7 ms completed by an 0.3 ms low pulse.
		106	The mininimum time delay of two events coding a channel is ( 0.7 + 0.3) ms = 1 ms.
		107	The maximum time delay of two events coding a chanel is ( 1.7 + 0.3) ms = 2 ms.
		108	The minimum duration of all channels at minimum value is 8 * 1 ms = 8 ms.
		109	The maximum duration of all channels at maximum value is 8 * 2 ms = 16 ms.
		110	The remaining time of (22.5 - 8 ms) ms = 14.5 ms to (22.5 - 16 ms) ms = 6.5 ms is
		111	the syncronization gap.
		112	*/
		113	ISR(TIMER1_CAPT_vect) // typical rate of 1 ms to 2 ms
1	ingob	114	{
688	killagreg	115	int16_t signal = 0, tmp;
		116	static int16_t index;
802	killagreg	117	static uint16_t oldICR1 = 0;
685	killagreg	118
688	killagreg	119	// 16bit Input Capture Register ICR1 contains the timer value TCNT1
		120	// at the time the edge was detected
685	killagreg	121
688	killagreg	122	// calculate the time delay to the previous event time which is stored in oldICR1
800	killagreg	123	// calculatiing the difference of the two uint16_t and converting the result to an int16_t
		124	// implicit handles a timer overflow 65535 -> 0 the right way.
688	killagreg	125	signal = (uint16_t) ICR1 - oldICR1;
		126	oldICR1 = ICR1;
		127
		128	//sync gap? (3.52 ms < signal < 25.6 ms)
685	killagreg	129	if((signal > 1100) && (signal < 8000))
688	killagreg	130	{
		131	// if a sync gap happens and there where at least 4 channels decoded before
		132	// then the NewPpmData flag is reset indicating valid data in the PPM_in[] array.
762	killagreg	133	if(index >= 4) NewPpmData = 0; // Null means NewData for the first 4 channels
688	killagreg	134	// synchronize channel index
		135	index = 1;
		136	}
		137	else // within the PPM frame
802	killagreg	138	{
761	killagreg	139	if(index < 14) // PPM24 supports 12 channels
1	ingob	140	{
688	killagreg	141	// check for valid signal length (0.8 ms < signal < 2.1984 ms)
711	killagreg	142	// signal range is from 1.0ms/3.2us = 312 to 2.0ms/3.2us = 625
688	killagreg	143	if((signal > 250) && (signal < 687))
1	ingob	144	{
711	killagreg	145	// shift signal to zero symmetric range -154 to 159
688	killagreg	146	signal -= 466; // offset of 1.4912 ms ??? (469 * 3.2�s = 1.5008 ms)
		147	// check for stable signal
806	killagreg	148	if(abs(signal-PPM_in[index]) < 6)
		149	{
		150	if(RC_Quality < 200) RC_Quality +=10;
801	killagreg	151	}
688	killagreg	152	// calculate exponential history for signal
685	killagreg	153	tmp = (3 * (PPM_in[index]) + signal) / 4;
604	hbuss	154	if(tmp > signal+1) tmp--; else
685	killagreg	155	if(tmp < signal-1) tmp++;
688	killagreg	156	// calculate signal difference on good signal level
806	killagreg	157	if(RC_Quality >= 195) PPM_diff[index] = ((tmp - PPM_in[index]) / 3) * 3; // cut off lower 3 bit for nois reduction
604	hbuss	158	else PPM_diff[index] = 0;
688	killagreg	159	PPM_in[index] = tmp; // update channel value
		160	}
		161	index++; // next channel
689	killagreg	162	// demux sum signal for channels 5 to 7 to J3, J4, J5
		163	if(index == 5) PORTD \|= (1<<PORTD5); else PORTD &= ~(1<<PORTD5);
757	killagreg	164	if(index == 6) PORTD \|= (1<<PORTD4); else PORTD &= ~(1<<PORTD4);
732	killagreg	165	if(BoardRelease == 10)
		166	{
		167	if(index == 7) PORTD \|= (1<<PORTD3); else PORTD &= ~(1<<PORTD3);
		168	}
1	ingob	169	}
		170	}
806	killagreg	171	if(RC_Quality) RC_Quality--;
1	ingob	172	}
		173
		174
		175
		176
		177

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