diff --git a/Multiprotocol/Multiprotocol.ino b/Multiprotocol/Multiprotocol.ino
deleted file mode 100644
index a1b3f3c..0000000
--- a/Multiprotocol/Multiprotocol.ino
+++ /dev/null
@@ -1,950 +0,0 @@
-/*********************************************************
-					Multiprotocol Tx code
-               by Midelic and Pascal Langer(hpnuts)
-	http://www.rcgroups.com/forums/showthread.php?t=2165676
-    https://github.com/pascallanger/DIY-Multiprotocol-TX-Module/edit/master/README.md
-
-	Thanks to PhracturedBlue, Hexfet, Goebish, Victzh and all protocol developers
-				Ported  from deviation firmware 
-
- This project is free software: you can redistribute it and/or modify
- it under the terms of the GNU General Public License as published by
- the Free Software Foundation, either version 3 of the License, or
- (at your option) any later version.
-
- Multiprotocol is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- GNU General Public License for more details.
-
- You should have received a copy of the GNU General Public License
- along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
-*/
-#include <avr/eeprom.h>
-#include <avr/pgmspace.h>
-#include <util/delay.h>
-#include "Multiprotocol.h"
-
-//#define DEBUG_TX
-
-//Multiprotocol module configuration file
-#include "_Config.h"
-
-//Global constants/variables
-uint32_t MProtocol_id;//tx id,
-uint32_t MProtocol_id_master;
-uint32_t Model_fixed_id=0;
-uint32_t fixed_id;
-uint8_t  cyrfmfg_id[6];//for dsm2 and devo
-uint32_t blink=0;
-//
-uint16_t counter;
-uint8_t  channel;
-uint8_t  packet[40];
-
-#define NUM_CHN 16
-// Servo data
-uint16_t Servo_data[NUM_CHN];
-uint8_t  Servo_AUX;
-
-// Protocol variables
-uint8_t  rx_tx_addr[5];
-uint8_t  phase;
-uint16_t bind_counter;
-uint8_t  bind_phase;
-uint8_t  binding_idx;
-uint32_t packet_counter;
-uint16_t packet_period;
-uint8_t  packet_count;
-uint8_t  packet_sent;
-uint8_t  packet_length;
-uint8_t  hopping_frequency[23];
-uint8_t  *hopping_frequency_ptr;
-uint8_t  hopping_frequency_no=0;
-uint8_t  rf_ch_num;
-uint8_t  throttle, rudder, elevator, aileron;
-uint8_t  flags;
-uint16_t crc;
-//
-uint32_t state;
-uint8_t  len;
-uint8_t  RX_num;
-
-#if defined(FRSKYX_CC2500_INO) || defined(SFHSS_CC2500_INO)
-uint8_t calData[48][3];
-#endif
-
-// Mode_select variables
-uint8_t mode_select;
-uint8_t protocol_flags=0,protocol_flags2=0;
-
-// PPM variable
-volatile uint16_t PPM_data[NUM_CHN];
-
-// Serial variables
-#define RXBUFFER_SIZE 25
-#define TXBUFFER_SIZE 20
-volatile uint8_t rx_buff[RXBUFFER_SIZE];
-volatile uint8_t rx_ok_buff[RXBUFFER_SIZE];
-volatile uint8_t tx_buff[TXBUFFER_SIZE];
-volatile uint8_t idx = 0;
-
-//Serial protocol
-uint8_t sub_protocol;
-uint8_t option;
-uint8_t cur_protocol[2];
-uint8_t prev_protocol=0;
-
-// Telemetry
-#define MAX_PKT 27
-uint8_t pkt[MAX_PKT];//telemetry receiving packets
-#if defined(TELEMETRY)
-	#if defined DSM2_CYRF6936_INO
-		#define DSM_TELEMETRY	
-	#endif
-	#if defined FRSKYX_CC2500_INO
-		#define SPORT_TELEMETRY	
-	#endif
-	#if defined FRSKY_CC2500_INO
-		#define HUB_TELEMETRY
-	#endif
-	uint8_t pktt[MAX_PKT];//telemetry receiving packets
-	volatile uint8_t tx_head=0;
-	volatile uint8_t tx_tail=0;
-	uint8_t v_lipo;
-	int16_t RSSI_dBm;
-	//const uint8_t RSSI_offset=72;//69 71.72 values db
-	uint8_t telemetry_link=0; 
-	uint8_t telemetry_counter=0;
-#endif 
-
-// Callback
-typedef uint16_t (*void_function_t) (void);//pointer to a function with no parameters which return an uint16_t integer
-void_function_t remote_callback = 0;
-static void CheckTimer(uint16_t (*cb)(void));
-
-// Init
-void setup()
-{
-#ifdef XMEGA
-	PORTD.OUTSET = 0x17 ;
-	PORTD.DIRSET = 0xB2 ;
-	PORTD.DIRCLR = 0x4D ;
-	PORTD.PIN0CTRL = 0x18 ;
-	PORTD.PIN2CTRL = 0x18 ;
-	PORTE.DIRSET = 0x01 ;
-	PORTE.DIRCLR = 0x02 ;
-	PORTE.OUTSET = 0x01 ;
-
-	for ( uint8_t count = 0 ; count < 20 ; count += 1 )
-		asm("nop") ;
-	PORTE.OUTCLR = 0x01 ;
-#else	
-	// General pinout
-	DDRD = (1<<CS_pin)|(1<<SDI_pin)|(1<<SCLK_pin)|(1<<CS_pin)|(1<< CC25_CSN_pin);
-	DDRC = (1<<CTRL1)|(1<<CTRL2); //output
-	//DDRC |= (1<<5);//RST pin A5(C5) CYRF output
-	DDRB  = _BV(0)|_BV(1);
-	PORTB = _BV(2)|_BV(3)|_BV(4)|_BV(5);//pullup 10,11,12 and bind button
-	PORTC = _BV(0);//A0 high pullup
-#endif
-
-	// Set Chip selects
-	CS_on;
-	CC25_CSN_on;
-	NRF_CSN_on;
-	CYRF_CSN_on;
-	//	Set SPI lines
-	SDI_on;
-	SCK_off;
-
-//#ifdef XMEGA
-//	// SPI enable, master, prescale of 16
-//	SPID.CTRL = SPI_ENABLE_bm | SPI_MASTER_bm | SPI_PRESCALER0_bm ;
-//#endif
-
-	// Timer1 config
-#ifdef XMEGA
-// TCC1 16-bit timer, clocked at 0.5uS
-	EVSYS.CH3MUX = 0x80 + 0x04 ;	// Prescaler of 16
-	TCC1.CTRLB = 0; TCC1.CTRLC = 0; TCC1.CTRLD = 0; TCC1.CTRLE = 0;
-	TCC1.INTCTRLA = 0; TCC1.INTCTRLB = 0;
-	TCC1.PER = 0xFFFF ;
-	TCC1.CNT = 0 ;
-	TCC1.CTRLA = 0x0B ;	// Event3 (prescale of 16)
-#else	
-	TCCR1A = 0;
-	TCCR1B = (1 << CS11);	//prescaler8, set timer1 to increment every 0.5us(16Mhz) and start timer
-#endif
-
-	// Set servos positions
-	for(uint8_t i=0;i<NUM_CHN;i++)
-		Servo_data[i]=1500;
-	Servo_data[THROTTLE]=PPM_MIN_100;
-	memcpy((void *)PPM_data,Servo_data, sizeof(Servo_data));
-	
-	//Wait for every component to start
-	delay(100);
-	
-	// Read status of bind button
-#ifdef XMEGA
-	if( (PORTD.IN & _BV(2)) == 0x00 )
-#else
-	if( (PINB & _BV(5)) == 0x00 )
-#endif
-		BIND_BUTTON_FLAG_on;	// If bind button pressed save the status for protocol id reset under hubsan
-
-	// Read status of mode select binary switch
-	// after this mode_select will be one of {0000, 0001, ..., 1111}
-#ifdef XMEGA
-	mode_select=0x0F - ( PORTA.IN & 0x0F ) ; //encoder dip switches 1,2,4,8=>B2,B3,B4,C0
-	mode_select = MODE_SERIAL ;
-#else
-	mode_select=0x0F - ( ( (PINB>>2)&0x07 ) | ( (PINC<<3)&0x08) );//encoder dip switches 1,2,4,8=>B2,B3,B4,C0
-#endif
-//**********************************
-//mode_select=1;	// here to test PPM
-//**********************************
-
-	// Update LED
-	LED_OFF;
-	LED_SET_OUTPUT; 
-
-	// Read or create protocol id
-	MProtocol_id_master=random_id(10,false);
-
-	//Init RF modules
-	#ifdef	CC2500_INSTALLED
-		CC2500_Reset();
-	#endif
-	#ifdef	A7105_INSTALLED
-		A7105_Reset();
-	#endif
-	#ifdef	CYRF6936_INSTALLED
-		CYRF_Reset();
-	#endif
-	#ifdef	NFR24L01_INSTALLED
-		NRF24L01_Reset();
-	#endif
-
-	//Protocol and interrupts initialization
-	if(mode_select != MODE_SERIAL)
-	{ // PPM
-		mode_select--;
-		cur_protocol[0]	=	PPM_prot[mode_select].protocol;
-		sub_protocol   	=	PPM_prot[mode_select].sub_proto;
-		RX_num			=	PPM_prot[mode_select].rx_num;
-		MProtocol_id	=	RX_num + MProtocol_id_master;
-		option			=	PPM_prot[mode_select].option;
-		if(PPM_prot[mode_select].power)		POWER_FLAG_on;
-		if(PPM_prot[mode_select].autobind)	AUTOBIND_FLAG_on;
-		mode_select++;
-
-		protocol_init();
-
-#ifndef XMEGA
-		//Configure PPM interrupt
-		EICRA |=(1<<ISC11);		// The rising edge of INT1 pin D3 generates an interrupt request
-		EIMSK |= (1<<INT1);		// INT1 interrupt enable
-#endif
-
-#if defined(TELEMETRY)
-		PPM_Telemetry_serial_init();		// Configure serial for telemetry
-#endif
-	}
-	else
-	{ // Serial
-		cur_protocol[0]=0;
-		cur_protocol[1]=0;
-		prev_protocol=0;
-		Mprotocol_serial_init(); // Configure serial and enable RX interrupt
-	}
-}
-
-// Main
-void loop()
-{
-	if(mode_select==MODE_SERIAL && IS_RX_FLAG_on)	// Serial mode and something has been received
-	{
-		update_serial_data();	// Update protocol and data
-		update_aux_flags();
-		if(IS_CHANGE_PROTOCOL_FLAG_on)
-		{ // Protocol needs to be changed
-			LED_OFF;									//led off during protocol init
-			module_reset();								//reset previous module
-			protocol_init();							//init new protocol
-			CHANGE_PROTOCOL_FLAG_off;					//done
-		}
-	}
-	if(mode_select!=MODE_SERIAL && IS_PPM_FLAG_on)	// PPM mode and a full frame has been received
-	{
-		for(uint8_t i=0;i<NUM_CHN;i++)
-		{ // update servo data without interrupts to prevent bad read in protocols
-			cli();	// disable global int
-			Servo_data[i]=PPM_data[i];
-			sei();	// enable global int
-		}
-		update_aux_flags();
-		PPM_FLAG_off;	// wait for next frame before update
-	}
-	update_led_status();
-	#if defined(TELEMETRY)
-	if( ((cur_protocol[0]&0x1F)==MODE_FRSKY) || ((cur_protocol[0]&0x1F)==MODE_HUBSAN) || ((cur_protocol[0]&0x1F)==MODE_FRSKYX) || ((cur_protocol[0]&0x1F)==MODE_DSM2) )
-		frskyUpdate();
-	#endif 
-	if (remote_callback != 0)
-		CheckTimer(remote_callback); 
-}
-
-// Update Servo_AUX flags based on servo AUX positions
-static void update_aux_flags(void)
-{
-	Servo_AUX=0;
-	for(uint8_t i=0;i<8;i++)
-		if(Servo_data[AUX1+i]>PPM_SWITCH)
-			Servo_AUX|=1<<i;
-}
-
-// Update led status based on binding and serial
-static void update_led_status(void)
-{
-	if(blink<millis())
-	{
-		if(cur_protocol[0]==0)	// No valid serial received at least once
-			blink+=BLINK_SERIAL_TIME;					//blink slowly while waiting a valid serial input
-		else
-			if(remote_callback == 0)
-			{ // Invalid protocol
-				if(IS_LED_on)							//flash to indicate invalid protocol
-					blink+=BLINK_BAD_PROTO_TIME_LOW;
-				else
-					blink+=BLINK_BAD_PROTO_TIME_HIGH;
-			}
-			else
-				if(IS_BIND_DONE_on)
-					LED_OFF;									//bind completed -> led on
-				else
-					blink+=BLINK_BIND_TIME;				//blink fastly during binding
-		LED_TOGGLE;
-	}
-}
-
-// Protocol scheduler
-static void CheckTimer(uint16_t (*cb)(void))
-{ 
-	uint16_t next_callback,diff;
-#ifdef XMEGA		
-	if( (TCC1.INTFLAGS & TC1_CCAIF_bm) != 0)
-	{
-		cli();					// disable global int
-		TCC1.CCA = TCC1.CNT ;	// Callback should already have been called... Use "now" as new sync point.
-		sei();					// enable global int
-	}
-	else
-		while((TCC1.INTFLAGS & TC1_CCAIF_bm) == 0); // wait before callback
-#else
-	if( (TIFR1 & (1<<OCF1A)) != 0)
-	{
-		cli();			// disable global int
-		OCR1A=TCNT1;	// Callback should already have been called... Use "now" as new sync point.
-		sei();			// enable global int
-	}
-	else
-		while((TIFR1 & (1<<OCF1A)) == 0); // wait before callback
-#endif
-	do
-	{
-		next_callback=cb();
-		while(next_callback>4000)
-		{ 										// start to wait here as much as we can...
-			next_callback=next_callback-2000;
-			cli();								// disable global int
-#ifdef XMEGA		
-			TCC1.CCA +=2000*2;					// set compare A for callback
-			TCC1.INTFLAGS = TC1_CCAIF_bm ;		// clear compare A=callback flag
-			sei();								// enable global int
-			while((TCC1.INTFLAGS & TC1_CCAIF_bm) == 0); // wait 2ms...
-#else
-			OCR1A+=2000*2;						// set compare A for callback
-			TIFR1=(1<<OCF1A);					// clear compare A=callback flag
-			sei();								// enable global int
-			while((TIFR1 & (1<<OCF1A)) == 0);	// wait 2ms...
-#endif
-		}
-		// at this point we have between 2ms and 4ms in next_callback
-		cli();									// disable global int
-#ifdef XMEGA		
-		TCC1.CCA +=next_callback*2;				// set compare A for callback
-		TCC1.INTFLAGS = TC1_CCAIF_bm ;			// clear compare A=callback flag
-		diff=TCC1.CCA-TCC1.CNT;					// compare timer and comparator
-		sei();									// enable global int
-#else
-		OCR1A+=next_callback*2;					// set compare A for callback
-		TIFR1=(1<<OCF1A);						// clear compare A=callback flag
-		diff=OCR1A-TCNT1;						// compare timer and comparator
-		sei();									// enable global int
-#endif
-	}
-	while(diff&0x8000);	 						// Callback did not took more than requested time for next callback
-												// so we can let main do its stuff before next callback
-}
-
-// Protocol start
-static void protocol_init()
-{
-	uint16_t next_callback=0;		// Default is immediate call back
-	remote_callback = 0;
-
-	set_rx_tx_addr(MProtocol_id);
-	blink=millis();
-	if(IS_BIND_BUTTON_FLAG_on)
-		AUTOBIND_FLAG_on;
-	if(IS_AUTOBIND_FLAG_on)
-		BIND_IN_PROGRESS;			// Indicates bind in progress for blinking bind led
-	else
-		BIND_DONE;
-
-	CTRL1_on;	//NRF24L01 antenna RF3 by default
-	CTRL2_off;	//NRF24L01 antenna RF3 by default
-	
-	switch(cur_protocol[0]&0x1F)	// Init the requested protocol
-	{
-#if defined(FLYSKY_A7105_INO)
-		case MODE_FLYSKY:
-			CTRL1_off;	//antenna RF1
-			next_callback = initFlySky();
-			remote_callback = ReadFlySky;
-			break;
-#endif
-#if defined(HUBSAN_A7105_INO)
-		case MODE_HUBSAN:
-			CTRL1_off;	//antenna RF1
-			if(IS_BIND_BUTTON_FLAG_on) random_id(10,true); // Generate new ID if bind button is pressed.
-			next_callback = initHubsan();
-			remote_callback = ReadHubsan;
-			break;
-#endif
-#if defined(FRSKY_CC2500_INO)
-		case MODE_FRSKY:
-			CTRL1_off;	//antenna RF2
-			CTRL2_on;
-			next_callback = initFrSky_2way();
-			remote_callback = ReadFrSky_2way;
-			break;
-#endif
-#if defined(FRSKYX_CC2500_INO)
-		case MODE_FRSKYX:
-			CTRL1_off;	//antenna RF2
-			CTRL2_on;
-			next_callback = initFrSkyX();
-			remote_callback = ReadFrSkyX;
-			break;
-#endif
-#if defined(SFHSS_CC2500_INO)
-		case MODE_SFHSS:
-			CTRL1_off;	//antenna RF2
-			CTRL2_on;
-			next_callback = initSFHSS();
-			remote_callback = ReadSFHSS;
-			break;
-#endif
-#if defined(DSM2_CYRF6936_INO)
-		case MODE_DSM2:
-			CTRL2_on;	//antenna RF4
-			next_callback = initDsm2();
-			//Servo_data[2]=1500;//before binding
-			remote_callback = ReadDsm2;
-			break;
-#endif
-#if defined(DEVO_CYRF6936_INO)
-		case MODE_DEVO:
-			CTRL2_on;	//antenna RF4
-			next_callback = DevoInit();
-			remote_callback = devo_callback;
-			break;
-#endif
-#if defined(HISKY_NRF24L01_INO)
-		case MODE_HISKY:
-			next_callback=initHiSky();
-			remote_callback = hisky_cb;
-			break;
-#endif
-#if defined(V2X2_NRF24L01_INO)
-		case MODE_V2X2:
-			next_callback = initV2x2();
-			remote_callback = ReadV2x2;
-			break;
-#endif
-#if defined(YD717_NRF24L01_INO)
-		case MODE_YD717:
-			next_callback=initYD717();
-			remote_callback = yd717_callback;
-			break;
-#endif
-#if defined(KN_NRF24L01_INO)
-		case MODE_KN:
-			next_callback = initKN();
-			remote_callback = kn_callback;
-			break;
-#endif
-#if defined(SYMAX_NRF24L01_INO)
-		case MODE_SYMAX:
-			next_callback = initSymax();
-			remote_callback = symax_callback;
-			break;
-#endif
-#if defined(SLT_NRF24L01_INO)
-		case MODE_SLT:
-			next_callback=initSLT();
-			remote_callback = SLT_callback;
-			break;
-#endif
-#if defined(CX10_NRF24L01_INO)
-		case MODE_CX10:
-			next_callback=initCX10();
-			remote_callback = CX10_callback;
-			break;
-#endif
-#if defined(CG023_NRF24L01_INO)
-		case MODE_CG023:
-			next_callback=initCG023();
-			remote_callback = CG023_callback;
-			break;
-#endif
-#if defined(BAYANG_NRF24L01_INO)
-		case MODE_BAYANG:
-			next_callback=initBAYANG();
-			remote_callback = BAYANG_callback;
-			break;
-#endif
-#if defined(ESKY_NRF24L01_INO)
-		case MODE_ESKY:
-			next_callback=initESKY();
-			remote_callback = ESKY_callback;
-			break;
-#endif
-#if defined(MT99XX_NRF24L01_INO)
-		case MODE_MT99XX:
-			next_callback=initMT99XX();
-			remote_callback = MT99XX_callback;
-			break;
-#endif
-#if defined(MJXQ_NRF24L01_INO)
-		case MODE_MJXQ:
-			next_callback=initMJXQ();
-			remote_callback = MJXQ_callback;
-			break;
-#endif
-#if defined(SHENQI_NRF24L01_INO)
-		case MODE_SHENQI:
-			next_callback=initSHENQI();
-			remote_callback = SHENQI_callback;
-			break;
-#endif
-#if defined(FY326_NRF24L01_INO)
-		case MODE_FY326:
-			next_callback=initFY326();
-			remote_callback = FY326_callback;
-			break;
-#endif
-	}
-
-	if(next_callback>32000)
-	{ // next_callback should not be more than 32767 so we will wait here...
-		delayMicroseconds(next_callback-2000);
-		next_callback=2000;
-	}
-	cli();							// disable global int
-#ifdef XMEGA
-	TCC1.CCA = TCC1.CNT + next_callback*2;	// set compare A for callback
-	sei();							// enable global int
-	TCC1.INTFLAGS = TC1_CCAIF_bm ;	// clear compare A flag
-#else	
-	OCR1A=TCNT1+next_callback*2;	// set compare A for callback
-	sei();							// enable global int
-	TIFR1=(1<<OCF1A);				// clear compare A flag
-#endif
-	BIND_BUTTON_FLAG_off;			// do not bind/reset id anymore even if protocol change
-}
-
-static void update_serial_data()
-{
-	if(rx_ok_buff[0]&0x20)						//check range
-		RANGE_FLAG_on;
-	else
-		RANGE_FLAG_off;		
-	if(rx_ok_buff[0]&0xC0)						//check autobind(0x40) & bind(0x80) together
-		AUTOBIND_FLAG_on;
-	else
-		AUTOBIND_FLAG_off;
-	if(rx_ok_buff[1]&0x80)						//if rx_ok_buff[1] ==1,power is low ,0-power high
-		POWER_FLAG_off;	//power low
-	else
-		POWER_FLAG_on;	//power high
-				
-	option=rx_ok_buff[2];
-
-	if( ((rx_ok_buff[0]&0x5F) != (cur_protocol[0]&0x5F)) || ( (rx_ok_buff[1]&0x7F) != cur_protocol[1] ) )
-	{ // New model has been selected
-		prev_protocol=cur_protocol[0]&0x1F;		//store previous protocol so we can reset the module
-		cur_protocol[1] = rx_ok_buff[1]&0x7F;	//store current protocol
-		CHANGE_PROTOCOL_FLAG_on;				//change protocol
-		sub_protocol=(rx_ok_buff[1]>>4)& 0x07;					//subprotocol no (0-7) bits 4-6
-		RX_num=rx_ok_buff[1]& 0x0F;
-		MProtocol_id=MProtocol_id_master+RX_num;	//personalized RX bind + rx num // rx_num bits 0---3
-	}
-	else
-		if( ((rx_ok_buff[0]&0x80)!=0) && ((cur_protocol[0]&0x80)==0) )	// Bind flag has been set
-			CHANGE_PROTOCOL_FLAG_on;			//restart protocol with bind
-	cur_protocol[0] = rx_ok_buff[0];			//store current protocol
-
-	// decode channel values
-	volatile uint8_t *p=rx_ok_buff+2;
-	uint8_t dec=-3;
-	for(uint8_t i=0;i<NUM_CHN;i++)
-	{
-		dec+=3;
-		if(dec>=8)
-		{
-			dec-=8;
-			p++;
-		}
-		p++;
-		Servo_data[i]=((((*((uint32_t *)p))>>dec)&0x7FF)*5)/8+860;	//value range 860<->2140 -125%<->+125%
-	}
-	RX_FLAG_off;								//data has been processed
-}
-
-static void module_reset()
-{
-	if(remote_callback)
-	{		// previous protocol loaded
-		remote_callback = 0;
-		switch(prev_protocol)
-		{
-			case MODE_FLYSKY:
-			case MODE_HUBSAN:
-				A7105_Reset();
-				break;
-			case MODE_FRSKY:
-			case MODE_FRSKYX:
-			case MODE_SFHSS:
-				CC2500_Reset();
-				break;
-			case MODE_DSM2:
-			case MODE_DEVO:
-				CYRF_Reset();
-				break;
-			default:	// MODE_HISKY, MODE_V2X2, MODE_YD717, MODE_KN, MODE_SYMAX, MODE_SLT, MODE_CX10, MODE_CG023, MODE_BAYANG, MODE_ESKY, MODE_MT99XX, MODE_MJXQ, MODE_SHENQI, MODE_FY326
-				NRF24L01_Reset();
-				break;
-		}
-	}
-}
-
-// Channel value is converted to 8bit values full scale
-uint8_t convert_channel_8b(uint8_t num)
-{
-	return (uint8_t) (map(limit_channel_100(num),PPM_MIN_100,PPM_MAX_100,0,255));	
-}
-
-// Channel value is converted to 8bit values to provided values scale
-uint8_t convert_channel_8b_scale(uint8_t num,uint8_t min,uint8_t max)
-{
-	return (uint8_t) (map(limit_channel_100(num),PPM_MIN_100,PPM_MAX_100,min,max));	
-}
-
-// Channel value is converted sign + magnitude 8bit values
-uint8_t convert_channel_s8b(uint8_t num)
-{
-	uint8_t ch;
-	ch = convert_channel_8b(num);
-	return (ch < 128 ? 127-ch : ch);	
-}
-
-// Channel value is converted to 10bit values
-uint16_t convert_channel_10b(uint8_t num)
-{
-	return (uint16_t) (map(limit_channel_100(num),PPM_MIN_100,PPM_MAX_100,1,1023));
-}
-
-// Channel value is multiplied by 1.5
-uint16_t convert_channel_frsky(uint8_t num)
-{
-	return Servo_data[num] + Servo_data[num]/2;
-}
-
-// Channel value is converted for HK310
-void convert_channel_HK310(uint8_t num, uint8_t *low, uint8_t *high)
-{
-	uint16_t temp=0xFFFF-(4*Servo_data[num])/3;
-	*low=(uint8_t)(temp&0xFF);
-	*high=(uint8_t)(temp>>8);
-}
-
-// Channel value is limited to PPM_100
-uint16_t limit_channel_100(uint8_t ch)
-{
-	if(Servo_data[ch]>PPM_MAX_100)
-		return PPM_MAX_100;
-	else
-		if (Servo_data[ch]<PPM_MIN_100)
-			return PPM_MIN_100;
-	return Servo_data[ch];
-}
-
-#if defined(TELEMETRY)
-void Serial_write(uint8_t data)
-{
-	cli();	// disable global int
-	if(++tx_head>=TXBUFFER_SIZE)
-		tx_head=0;
-	tx_buff[tx_head]=data;
-#ifdef XMEGA
-	USARTC0.CTRLA = (USARTC0.CTRLA & 0xFC) | 0x01 ;
-#else	
-	UCSR0B |= (1<<UDRIE0);//enable UDRE interrupt
-#endif
-	sei();	// enable global int
-}
-#endif
-
-static void Mprotocol_serial_init()
-{
-#ifdef XMEGA
-	
-	PORTC.OUTSET = 0x08 ;
-	PORTC.DIRSET = 0x08 ;
-
-	USARTC0.BAUDCTRLA = 19 ;
-	USARTC0.BAUDCTRLB = 0 ;
-	
-	USARTC0.CTRLB = 0x18 ;
-	USARTC0.CTRLA = (USARTC0.CTRLA & 0xCF) | 0x10 ;
-	USARTC0.CTRLC = 0x2B ;
-	USARTC0.DATA ;
-#else
-	
-	#include <util/setbaud.h>	
-	UBRR0H = UBRRH_VALUE;
-	UBRR0L = UBRRL_VALUE;
-	UCSR0A = 0 ;	// Clear X2 bit
-	//Set frame format to 8 data bits, even parity, 2 stop bits
-	UCSR0C = (1<<UPM01)|(1<<USBS0)|(1<<UCSZ01)|(1<<UCSZ00);
-	while ( UCSR0A & (1 << RXC0) )//flush receive buffer
-		UDR0;
-	//enable reception and RC complete interrupt
-	UCSR0B = (1<<RXEN0)|(1<<RXCIE0);//rx enable and interrupt
-#ifdef DEBUG_TX
-	TX_SET_OUTPUT;
-#else
-	UCSR0B |= (1<<TXEN0);//tx enable
-#endif
-#endif
-}
-
-#if defined(TELEMETRY)
-static void PPM_Telemetry_serial_init()
-{
-#ifdef XMEGA
-	USARTC0.BAUDCTRLA = 207 ;
-	USARTC0.BAUDCTRLB = 0 ;
-	
-	USARTC0.CTRLB = 0x18 ;
-	USARTC0.CTRLA = (USARTC0.CTRLA & 0xCF) | 0x10 ;
-	USARTC0.CTRLC = 0x03 ;
-#else
-	//9600 bauds
-	UBRR0H = 0x00;
-	UBRR0L = 0x67;
-	UCSR0A = 0 ;	// Clear X2 bit
-	//Set frame format to 8 data bits, none, 1 stop bit
-	UCSR0C = (1<<UCSZ01)|(1<<UCSZ00);
-	UCSR0B = (1<<TXEN0);//tx enable
-#endif
-}
-#endif
-
-// Convert 32b id to rx_tx_addr
-static void set_rx_tx_addr(uint32_t id)
-{ // Used by almost all protocols
-	rx_tx_addr[0] = (id >> 24) & 0xFF;
-	rx_tx_addr[1] = (id >> 16) & 0xFF;
-	rx_tx_addr[2] = (id >>  8) & 0xFF;
-	rx_tx_addr[3] = (id >>  0) & 0xFF;
-	rx_tx_addr[4] = 0xC1;	// for YD717: always uses first data port
-}
-
-static uint32_t random_id(uint16_t adress, uint8_t create_new)
-{
-	uint32_t id;
-	uint8_t txid[4];
-
-	if (eeprom_read_byte((uint8_t*)(adress+10))==0xf0 && !create_new)
-	{  // TXID exists in EEPROM
-		eeprom_read_block((void*)txid,(const void*)adress,4);
-		id=(txid[0] | ((uint32_t)txid[1]<<8) | ((uint32_t)txid[2]<<16) | ((uint32_t)txid[3]<<24));
-	}
-	else
-	{ // if not generate a random ID
-		randomSeed((uint32_t)analogRead(A6)<<10|analogRead(A7));//seed
-		//
-		id = random(0xfefefefe) + ((uint32_t)random(0xfefefefe) << 16);
-		txid[0]=  (id &0xFF);
-		txid[1] = ((id >> 8) & 0xFF);
-		txid[2] = ((id >> 16) & 0xFF);
-		txid[3] = ((id >> 24) & 0xFF);
-		eeprom_write_block((const void*)txid,(void*)adress,4);
-		eeprom_write_byte((uint8_t*)(adress+10),0xf0);//write bind flag in eeprom.
-	}
-	return id;
-}
-
-/**************************/
-/**************************/
-/**  Interrupt routines  **/
-/**************************/
-/**************************/
-
-//PPM
-#ifdef XMEGA
-ISR(PORTD_INT0_vect)
-#else
-ISR(INT1_vect)
-#endif
-{	// Interrupt on PPM pin
-	static int8_t chan=-1;
-	static uint16_t Prev_TCNT1=0;
-	uint16_t Cur_TCNT1;
-
-#ifdef XMEGA
-	Cur_TCNT1 = TCC1.CNT - Prev_TCNT1 ; // Capture current Timer1 value
-#else
-	Cur_TCNT1=TCNT1-Prev_TCNT1; // Capture current Timer1 value
-#endif
-	if(Cur_TCNT1<1000)
-		chan=-1;				// bad frame
-	else
-		if(Cur_TCNT1>4840)
-		{
-			chan=0;				// start of frame
-			PPM_FLAG_on;		// full frame present (even at startup since PPM_data has been initialized)
-		}
-		else
-			if(chan!=-1)		// need to wait for start of frame
-			{  //servo values between 500us and 2420us will end up here
-				uint16_t a = Cur_TCNT1>>1;
-				if(a<PPM_MIN) a=PPM_MIN;
-				else if(a>PPM_MAX) a=PPM_MAX;
-				PPM_data[chan]=a;
-				if(chan++>=NUM_CHN)
-					chan=-1;	// don't accept any new channels
-			}
-	Prev_TCNT1+=Cur_TCNT1;
-}
-
-//Serial RX
-#ifdef XMEGA
-ISR(USARTC0_RXC_vect)
-#else
-ISR(USART_RX_vect)
-#endif
-{	// RX interrupt
-#ifdef XMEGA
-	if((USARTC0.STATUS & 0x1C)==0)			// Check frame error, data overrun and parity error
-#else
-	if((UCSR0A&0x1C)==0)			// Check frame error, data overrun and parity error
-#endif
-	{ // received byte is ok to process
-		if(idx==0)
-		{	// Let's try to sync at this point
-#ifdef XMEGA
-			if(USARTC0.DATA==0x55)			// If 1st byte is 0x55 it looks ok
-#else
-			if(UDR0==0x55)			// If 1st byte is 0x55 it looks ok
-#endif
-			{
-				idx++;
-#ifdef XMEGA
-				TCC1.CCB = TCC1.CNT+(6500L) ;		// Full message should be received within timer of 3250us
-				TCC1.INTFLAGS = TC1_CCBIF_bm ;		// clear OCR1B match flag
-				TCC1.INTCTRLB = (TCC1.INTCTRLB & 0xF3) | 0x04 ;	// enable interrupt on compare B match
-#else
-				OCR1B=TCNT1+6500L;		// Full message should be received within timer of 3250us
-				TIFR1=(1<<OCF1B);		// clear OCR1B match flag
-				TIMSK1 |=(1<<OCIE1B);	// enable interrupt on compare B match
-#endif
-			}
-		}
-		else
-		{
-#ifdef XMEGA
-			rx_buff[(idx++)-1]=USARTC0.DATA;	// Store received byte
-#else
-			rx_buff[(idx++)-1]=UDR0;			// Store received byte
-#endif
-			if(idx>RXBUFFER_SIZE)
-			{	// A full frame has been received
-#ifdef XMEGA
-				TCC1.INTCTRLB &=0xF3;			// disable interrupt on compare B match
-#else
-				TIMSK1 &=~(1<<OCIE1B);			// disable interrupt on compare B match
-#endif
-				if(!IS_RX_FLAG_on)
-				{ //Good frame received and main has finished with previous buffer
-					for(idx=0;idx<RXBUFFER_SIZE;idx++)
-						rx_ok_buff[idx]=rx_buff[idx];	// Duplicate the buffer
-					RX_FLAG_on;					// flag for main to process servo data
-				}
-				idx=0; 							// start again
-			}
-		}
-	}
-	else
-	{
-#ifdef XMEGA
-		idx = USARTC0.DATA ;	// Dummy read
-#else
-		idx=UDR0;	// Dummy read
-#endif
-		idx=0;		// Error encountered discard full frame...
-	}
-}
-
-//Serial timer
-#ifdef XMEGA
-ISR(TCC1_CCB_vect)
-#else
-ISR(TIMER1_COMPB_vect)
-#endif
-{	// Timer1 compare B interrupt
-	idx=0;
-}
-
-#if defined(TELEMETRY)
-//Serial TX
-
-#ifdef XMEGA
-ISR(USARTC0_DRE_vect)
-#else
-ISR(USART_UDRE_vect)
-#endif
-{	// Transmit interrupt
-	if(tx_head!=tx_tail)
-	{
-		if(++tx_tail>=TXBUFFER_SIZE)//head 
-			tx_tail=0;
-#ifdef XMEGA
-		USARTC0.DATA = tx_buff[tx_tail] ;
-#else
-		UDR0=tx_buff[tx_tail];
-#endif
-	}
-	if (tx_tail == tx_head)
-#ifdef XMEGA
-		USARTC0.CTRLA &= ~0x03 ;
-#else
-		UCSR0B &= ~(1<<UDRIE0); // Check if all data is transmitted . if yes disable transmitter UDRE interrupt
-#endif
-}
-#endif