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- /*
- * Frsky RX 2-way
- * By Midelic
- * on RCGroups
- * an adaptation from Kyrre Aalerud(Kreature)
- * 2012 Frsky rx demo code
- * http://www.rcgroups.com/forums/showthread.php?t=1667453
- * Thanks also to Phracturedblue and his deviation firmware
- **********************************
- */
-
- #include <avr/interrupt.h>
- #include <EEPROM.h>
- #include "iface_cc2500.h"
- //#define DEBUG
- //#define DEBUG_RSSI
- //#define DEBUG0
- //#define DEBUG1
- //#define DEBUG2
- //#define DEBUG3
- //#define DEBUG4
- //#define DEBUG5
- //#define RSSI_OVER_PPM 7
-
- #define FAILSAFE
- #define SPIBB
- //#define SPIHW
- #if defined SPIHW
- #include <SPI.h>
- #endif
-
- // Used for RSSI_OVER_PPM
- int rssi;
- const int rssi_offset = 71;
- const int rssi_min = -103;
- const int rssi_max = -96;
-
- #define chanel_number 8 //set the number of chanels
- #define SEEK_CHANSKIP 13
- #define MAX_MISSING_PKT 20
- #define FAILSAFE_MISSING_PKT 170
- #define PPM_FrLen 22500
- #define PPM_PulseLen 300
- #define default_servo_value 1500
- #define onState 0 //set polarity of the pulses: 1 is positive, 0 is negative
- #define sigPin 10
-
- #if defined(SPIBB)
- #define MO_pin 5 //D5
- #define MI_pin 6 //D6
- #define SCLK_pin 4 //D4
- #define CS 2 //D2
- #define GDO_pin 3 //D3 GDO0 pin
- #define SCK_on PORTD |= 0x10 //D4
- #define SCK_off PORTD &= 0xEF //D4
- #define MO_on PORTD |= 0x20 //D5
- #define MO_off PORTD &= 0xDF //D5
- #define MI_1 (PIND & 0x40) == 0x40 //D6 input
- #define MI_0 (PIND & 0x40) == 0x00 //D6
- #define CS_on PORTD |= 0x04 //D2
- #define CS_off PORTD &= 0xFB //D2
- #define GDO_1 (PIND & 0x08) == 0x08 //D3 input
- #define GDO_0 (PIND & 0x08) == 0x00 //D3
- #endif
-
- #define bind_pin A0 //C0 bind plug also servo8
-
- #define Servo1_OUT 7 //Servo1(D7)
- #define Servo2_OUT 8 //Servo2(B0)
- #define Servo3_OUT 9 //Servo3(B1)
- #define Servo4_OUT 10 //Servo4(B2)//PPM pin
- #define Servo5_OUT 11 //Servo5(B3)
- #define Servo6_OUT 12 //Servo6(B4)
- #define Servo7_OUT 13 //Servo7(B5)
- #define Servo8_OUT A0 //Servo8(C0)
-
- #define Servo1_OUT_HIGH PORTD |= _BV(7) //Servo1(D7)
- #define Servo2_OUT_HIGH PORTB |= _BV(0) //Servo2(B0)
- #define Servo3_OUT_HIGH PORTB |= _BV(1) //Servo3(B1)
- #define Servo4_OUT_HIGH PORTB |= _BV(2) //Servo4(B2)
- #define Servo5_OUT_HIGH PORTB |= _BV(3) //Servo5(B3)
- #define Servo6_OUT_HIGH PORTB |= _BV(4) //Servo6(B4)
- #define Servo7_OUT_HIGH PORTB |= _BV(5) //Servo7(B5)
- #define Servo8_OUT_HIGH PORTC |= _BV(0) //Servo8(C0)
- #define Servo_Ports_LOW PORTD &= 0x7F ; PORTB &= 0xc0; PORTC &=0xFE //all servos low
-
- #define LED_pin A3
- #define LED_ON PORTC |= _BV(3)
- #define LED_OFF PORTC &= ~_BV(3)
- #define NOP() __asm__ __volatile__("nop")
-
-
- // Globals:
- static uint8_t ccData[27];
- static uint8_t ccLen;
- static boolean packet = false;
- //static uint16_t time;
- static uint8_t channr;
- static uint8_t missingPackets = 0;
- uint8_t calData[60];
- uint8_t hopData[60];
- uint8_t listLength;
- uint8_t txid[2];
- static uint8_t counter = 0;
- volatile uint16_t Servo_data[10] = {1500, 1500, 1500, 1500, 1500, 1500, 1500, 1500};
- volatile byte scale;
- static byte jumper1 = 0;
- static byte jumper2 = 0;
- volatile int ppm[chanel_number];
- volatile bool failed = false;
- static uint16_t total_servo_time = 0;
- static byte cur_chan_numb = 0;
- boolean debug = false;
- int count = 0;
- uint16_t c[8];
- boolean debug2 = true;
- boolean debug3 = false;
-
- void setup()
- {
-
- #if defined(SPIBB)
- pinMode(MO_pin, OUTPUT); //SI
- pinMode(MI_pin, INPUT); //SO
- pinMode(SCLK_pin, OUTPUT); //SCLK
- pinMode(CS, OUTPUT); //CS output
- pinMode(GDO_pin, INPUT); //GDO0 pin
- SCK_off; //start sck low
- MO_off; //low
- #endif
-
- pinMode(LED_pin, OUTPUT);
- CS_on;
-
- #if defined(SPIHW)
- pinMode(CS, OUTPUT);
- pinMode(GDO_pin, INPUT);
- SPI.setClockDivider(SPI_CLOCK_DIV2);
- SPI.setBitOrder( MSBFIRST);
- SPI.begin();
- #endif
-
- pinMode(Servo1_OUT, OUTPUT); //Servo1
- pinMode(Servo2_OUT, OUTPUT); //Servo2
- pinMode(Servo3_OUT, OUTPUT); //Servo3
- pinMode(Servo4_OUT, OUTPUT); //Servo4
- //
- pinMode(Servo6_OUT, OUTPUT); //Servo6
- pinMode(Servo7_OUT, OUTPUT); //Servo7
- pinMode(Servo8_OUT, OUTPUT); //Servo8
- //Servo8_OUT_HIGH;//bindpin pullup
-
- #if defined DEBUG
- Serial.begin(115200);
- int8_t i;
- Serial.print("PartNum ");
- i = cc2500_readReg(CC2500_30_PARTNUM + CC2500_READ_BURST);
- Serial.println(i);
- delay(10);
- Serial.print("Version ");
- i = cc2500_readReg(CC2500_31_VERSION + CC2500_READ_BURST);
- Serial.println(i);
- #endif
-
- #if F_CPU == 16000000
- scale = 2;
- #elif F_CPU == 8000000
- scale = 1;
- #else
- #error // 8 or 16MHz only !
- #endif
-
-
-
- initialize(1); //binding
- binding();
- pinMode(Servo8_OUT, OUTPUT); //Servo8.bind pin is set to output again.
- initialize(0); //data
-
- jumper1 = PPM_jumper(); // Check the possible jumper positions for changing the receiver mode.
-
- if (jumper1 == 1) {
- //initiallize default ppm values
- for (int i = 0; i < chanel_number; i++) {
- ppm[i] = default_servo_value;
- }
- pinMode(sigPin, OUTPUT);
- digitalWrite(sigPin, !onState); //set the PPM signal pin to the default state (off)
- }
- config_timer();
- channr = 0;
- cc2500_writeReg(CC2500_0A_CHANNR, hopData[channr]);//0A-hop
- cc2500_writeReg(CC2500_23_FSCAL3, 0x89); //23-89
- cc2500_strobe(CC2500_SRX);
- }
-
- void updateRSSI() {
- #if defined(RSSI_OVER_PPM)
- int rssi_dec = cc2500_readReg(CC2500_34_RSSI | CC2500_READ_BURST);
- if (rssi_dec < 128) {
- rssi = ((rssi_dec / 2) - rssi_offset) & 0x7f;
- } else {
- rssi = (((rssi_dec - 256) / 2)) - rssi_offset;
- }
-
- #if defined(DEBUG_RSSI2)
- Serial.print(millis());
- Serial.print("\t");
- Serial.println(rssi);
- #endif
-
- rssi = constrain(rssi, rssi_min, rssi_max);
- #endif
- }
-
- void loop()
- {
- unsigned long time = micros();
-
- #if defined(FAILSAFE)
- if (missingPackets > FAILSAFE_MISSING_PKT) {
- failed = true;
- missingPackets = 0;
- }
- #endif
-
- while (1) {
- if ((micros() - time) > 9000) {
- missingPackets++;
- cc2500_strobe(CC2500_SIDLE);
- if (missingPackets > MAX_MISSING_PKT) {
- nextChannel(SEEK_CHANSKIP);
- LED_OFF;
- counter++;
- if (counter > (MAX_MISSING_PKT << 1))
- LED_ON;
- if (counter == (MAX_MISSING_PKT << 2)) counter = 0;
- break;
- } else
- nextChannel(1);
- break;
- }
- if (GDO_1) {
- ccLen = cc2500_readReg(CC2500_3B_RXBYTES | CC2500_READ_BURST) & 0x7F;
- if (ccLen > 20)
- ccLen = 20;//
- if (ccLen) {
- cc2500_readFifo((uint8_t *)ccData, ccLen);
- if (ccData[ccLen - 1] & 0x80) { // Only if correct CRC
- missingPackets = 0;
- if (ccData[0] == 0x11) { // Correct length
- if ((ccData[1] == txid[0]) && (ccData[2] == txid[1])) { // Only if correct txid
- packet = true;
- //sei(); ///////////////////////////////////////////////////////////////////////////////////////
- updateRSSI();
- cc2500_strobe(CC2500_SIDLE);
- nextChannel(1);
- LED_ON;
- failed = false;
- break;
- }
- }
- }
-
- }
-
- }
- }
-
- if (packet == true) {
- packet = false;
- debug = true;
- //cli();
- c[0] = (uint16_t)(ccData[10] & 0x0F) << 8 | ccData[6];
- c[1] = (uint16_t)(ccData[10] & 0xF0) << 4 | ccData[7];
- c[2] = (uint16_t)(ccData[11] & 0x0F) << 8 | ccData[8];
- c[3] = (uint16_t)(ccData[11] & 0xF0) << 4 | ccData[9];
- c[4] = (uint16_t)(ccData[16] & 0x0F) << 8 | ccData[12];
- c[5] = (uint16_t)(ccData[16] & 0xF0) << 4 | ccData[13];
- c[6] = (uint16_t)(ccData[17] & 0x0F) << 8 | ccData[14];
- c[7] = (uint16_t)(ccData[17] & 0xF0) << 4 | ccData[15];
- //sei();
- for (int i = 0; i < 8; i++) {
- Servo_data[i] = 0.67 * c[i];
- if (Servo_data[i] < 900) { //added new
- Servo_data[i] = 1500; //added new
- Servo_data[2] = 1000;
- }
- ppm[i] = Servo_data[i];
- }
- #if defined(RSSI_OVER_PPM)
- ppm[RSSI_OVER_PPM] = map(rssi, rssi_min, rssi_max, 1000, 2000);
- #endif
- #if defined(DEBUG5)
- //Serial.println(rssi);
- #endif
- #if defined(DEBUG0)
- for (int i = 0; i < 8; i++) {
- Serial.print(" ");
- Serial.print(Servo_data[i]);
- Serial.print(" ");
- }
- Serial.println(" ");
- #endif
- }
-
- cc2500_strobe(CC2500_SRX);
- if (debug == true) {
- debug = false;
- #if defined(DEBUG2)
- Serial.println(ccData[3], HEX);
- #endif
- }
- }
-
- void initialize(int bind)
- {
- cc2500_resetChip();
- cc2500_writeReg(CC2500_02_IOCFG0, 0x01); // reg 0x02: RX complete interrupt(GDO0)
- cc2500_writeReg(CC2500_17_MCSM1, 0x0C); // reg 0x17:
- cc2500_writeReg(CC2500_18_MCSM0, 0x18); // reg 0x18:
- cc2500_writeReg(CC2500_06_PKTLEN, 0x19); // Leave room for appended status bytes
- cc2500_writeReg(CC2500_08_PKTCTRL0, 0x05); // reg 0x08:
- cc2500_writeReg(CC2500_3E_PATABLE, 0xFF); //
- cc2500_writeReg(CC2500_0B_FSCTRL1, 0x08); // reg 0x0B:
- cc2500_writeReg(CC2500_0C_FSCTRL0, 0x00); // reg 0x0C
- cc2500_writeReg(CC2500_0D_FREQ2, 0x5C); // reg 0x0D
- cc2500_writeReg(CC2500_0E_FREQ1, 0x76); // reg 0x0E
- cc2500_writeReg(CC2500_0F_FREQ0, 0x27); // reg 0x0F
- cc2500_writeReg(CC2500_10_MDMCFG4, 0xAA); // reg 0x10
- cc2500_writeReg(CC2500_11_MDMCFG3, 0x39); // reg 0x11
- cc2500_writeReg(CC2500_12_MDMCFG2, 0x11); // reg 0x12
- cc2500_writeReg(CC2500_13_MDMCFG1, 0x23); // reg 0x13
- cc2500_writeReg(CC2500_14_MDMCFG0, 0x7A); // reg 0x14
- cc2500_writeReg(CC2500_15_DEVIATN, 0x42); // reg 0x15
- cc2500_writeReg(CC2500_19_FOCCFG, 0x16); // reg 0x16
- cc2500_writeReg(CC2500_1A_BSCFG, 0x6C); // reg 0x1A
- cc2500_writeReg(CC2500_1B_AGCCTRL2, 0x03); // reg 0x1B
- cc2500_writeReg(CC2500_1C_AGCCTRL1, 0x40); // reg 0x1C
- cc2500_writeReg(CC2500_1D_AGCCTRL0, 0x91); // reg 0x1D
- cc2500_writeReg(CC2500_21_FREND1, 0x56); // reg 0x21:
- cc2500_writeReg(CC2500_22_FREND0, 0x10); // reg 0x22:
- cc2500_writeReg(CC2500_23_FSCAL3, 0xA9); // reg 0x23:
- cc2500_writeReg(CC2500_24_FSCAL2, 0x05); // reg 0x24:
- cc2500_writeReg(CC2500_25_FSCAL1, 0x00); // reg 0x25
- cc2500_writeReg(CC2500_26_FSCAL0, 0x11); // reg 0x26
- cc2500_writeReg(CC2500_29_FSTEST, 0x59); // reg 0x29
- cc2500_writeReg(CC2500_2C_TEST2, 0x88); // reg 0x2C
- cc2500_writeReg(CC2500_2D_TEST1, 0x31); // reg 0x2D
- cc2500_writeReg(CC2500_2E_TEST0, 0x0B); // reg 0x2E
- cc2500_writeReg(CC2500_03_FIFOTHR, 0x0F); // reg 0x03:
- cc2500_writeReg(CC2500_09_ADDR, bind ? 0x03 : txid[0]);
- cc2500_strobe(CC2500_SIDLE); // Go to idle...
- cc2500_writeReg(CC2500_07_PKTCTRL1, 0x0D); // reg 0x07 hack: Append status, filter by address, auto-flush on bad crc, PQT=0
- //cc2500_writeReg(CC2500_0C_FSCTRL0, 0); // Frequency offset...
- cc2500_writeReg(CC2500_0C_FSCTRL0, bind ? 0x00 : count); // Frequency offset hack
- cc2500_writeReg(CC2500_0A_CHANNR, 0x00);
- }
- // Receives complete bind setup
- void getBind(void)
- {
- cc2500_strobe(CC2500_SRX);//enter in rx mode
- listLength = 0;
- boolean eol = false;
- // len|bind |tx id|idx|h0|h1|h2|h3|h4|00|00|00|00|00|00|01
- // Start by getting bind packet 0 and the txid
- // 0 1 2 txid0(3) txid1()4 5 6 7 8 9 10 11 12 13 14 15 16 17
- //ccdata //11 03 01 d7 2d 00 00 1e 3c 5b 78 00 00 00 00 00 00 01
- //11 03 01 19 3e 00 02 8e 2f bb 5c 00 00 00 00 00 00 01
- while (1) {
- if (GDO_1) {
- ccLen = cc2500_readReg(CC2500_3B_RXBYTES | CC2500_READ_BURST) & 0x7F;
- if (ccLen) {
- cc2500_readFifo((uint8_t *)ccData, ccLen);
- if (ccData[ccLen - 1] & 0x80) {
- if (ccData[2] == 0x01) {
- if (ccData[5] == 0x00) {
- txid[0] = ccData[3];
- txid[1] = ccData[4];
- for (uint8_t n = 0; n < 5; n++) {
- hopData[ccData[5] + n] = ccData[6 + n];
- }
- break;
- }
- }
- }
- }
- }
- }
-
- #if defined(DEBUG)
- Serial.print(txid[0], HEX);
- Serial.println(txid[1], HEX);
- #endif
-
- for (uint8_t bindIdx = 0x05; bindIdx <= 120; bindIdx += 5) {
- while (1) {
- if (GDO_1) {
- ccLen = cc2500_readReg(CC2500_3B_RXBYTES | CC2500_READ_BURST) & 0x7F;
- if (ccLen) {
- cc2500_readFifo((uint8_t *)ccData, ccLen);
- if (ccData[ccLen - 1] & 0x80) {
- if (ccData[2] == 0x01) {
- if(debug3) {
- Serial.print("ccLen = ");
- Serial.println(ccLen);
- }
- if ((ccData[3] == txid[0]) && (ccData[4] == txid[1])) {
- if(debug3)
- {
- Serial.print("ccData[5] = ");
- Serial.println(ccData[5]);
- Serial.print("bindIdx = ");
- Serial.println(bindIdx);
- }
- if (ccData[5] == bindIdx) {
- for (uint8_t n = 0; n < 5; n++) {
- if(debug3)
- {
- Serial.print("ccData[6 + n] = ");
- Serial.println(ccData[6 + n]);
- Serial.print("ccData[ccLen - 3] = ");
- Serial.println(ccData[ccLen - 3]);
- }
- //if (ccData[6 + n] == ccData[ccLen - 3]) {
- if (ccData[6 + n] <= 3) {
- eol = true;
- #if defined(DEBUG)
- Serial.print("listLength: ");
- Serial.println(listLength);
- #endif
- listLength = ccData[5] + n;
- break;
- }
- hopData[ccData[5] + n] = ccData[6 + n];
- }
- break;
- }
- }
- }
- }
- }
- }
- }
- #if defined(DEBUG)
- Serial.println(bindIdx / 5);
- #endif
- if (eol) break; // End of list found, stop!
- }
-
- #if defined(DEBUG)
- listLength = 47;
- Serial.println("jumpIdx list: ");
- for (uint8_t jumpIdx = 0; jumpIdx < (listLength); jumpIdx++) {
- Serial.print(" ");
- Serial.print(hopData[jumpIdx], HEX);
- Serial.print(" ");
- }
- Serial.println(" ");
- #endif
-
- Store_bind();
- cc2500_strobe(CC2500_SIDLE); // Back to idle
- }
-
- ISR(TIMER1_COMPA_vect)
- {
- if (failed) {
- digitalWrite(sigPin, HIGH);
- return;
- }
-
- TCNT1 = 0;
- if (jumper1 == 0) {
- pinMode(Servo5_OUT, OUTPUT);
- Servo_Ports_LOW;
- //code for servo.
- cur_chan_numb++; //next servo
- if (cur_chan_numb < chanel_number) {
- total_servo_time += Servo_data[cur_chan_numb] * scale;
- OCR1A = Servo_data[cur_chan_numb] * scale;
- } else {
- OCR1A = PPM_FrLen * scale - total_servo_time;
- cur_chan_numb = 0xff;
- total_servo_time = 0;
- }
-
- switch (cur_chan_numb) {
- case 0:
- Servo1_OUT_HIGH;
- break;
- case 1:
- Servo2_OUT_HIGH;
- break;
- case 2:
- Servo3_OUT_HIGH;
- break;
- case 3:
- Servo4_OUT_HIGH;
- break;
- case 4:
- Servo5_OUT_HIGH;
- break;
- case 5:
- Servo6_OUT_HIGH;
- break;
- case 6:
- Servo7_OUT_HIGH;
- break;
- case 7:
- Servo8_OUT_HIGH;
- break;
- }
- } else {
- static boolean state = true;
- pinMode(sigPin, OUTPUT);
- digitalWrite(sigPin, !onState);
-
- if (state) {
- digitalWrite(sigPin, onState);
- OCR1A = PPM_PulseLen * scale;
- state = false;
- } else {
- static byte cur_chan_numb;
- static unsigned int calc_rest;
- // digitalWrite(sigPin, !onState);//PPM on servo4 pin10
- state = true;
-
- if (cur_chan_numb >= chanel_number) {
- cur_chan_numb = 0;
- calc_rest = calc_rest + PPM_PulseLen;//
- OCR1A = (PPM_FrLen - calc_rest) * scale;
- calc_rest = 0;
- } else {
- OCR1A = (ppm[cur_chan_numb] - PPM_PulseLen) * scale;
- calc_rest = calc_rest + ppm[cur_chan_numb];
- cur_chan_numb++;
- }
- }
- }
- }
-
- void config_timer()
- {
- OCR1A = 50 * scale;
- cli();
- TCCR1A = 0; //
- TCCR1B = 0;
- TCCR1B |= (1 << WGM12);
- TCCR1B |= (1 << CS11);
- TIMSK1 |= (1 << OCIE1A);
- sei();
- }
-
- void nextChannel(uint8_t skip)
- {
- channr += skip;//
- if (channr >= listLength) channr -= listLength;
- cc2500_writeReg(CC2500_0A_CHANNR, hopData[channr]);
- cc2500_writeReg(CC2500_23_FSCAL3, 0x89);
-
- }
-
- void binding()
- {
- jumper2 = bind_jumper();
- while (1) {
- if (jumper2 == 0) { //bind complete or no bind
- uint8_t i;
- uint8_t adr = 100;
- for (i = 0; i < 2; i++) {
- txid[i] = EEPROM.read(adr + i);
- }
- if (txid[0] == 0xff && txid[1] == 0xff) {
- // No valid txid, forcing bind
- jumper2 = 1;
- continue;
- }
- for (i = 0; i < sizeof(hopData); i++) {
- hopData[i] = EEPROM.read(adr + 10 + i);
- }
- listLength = EEPROM.read(adr + 100);
- count = EEPROM.read(adr + 101);
- break;
- } else {
- LED_ON;
- tunning();
- //count=0xC8;//for test
- cc2500_writeReg(CC2500_0C_FSCTRL0, count);
- int adr = 100;
- EEPROM.write(adr + 101, count);
- getBind();
- while (1) {
- LED_ON;
- delay(500);
- LED_OFF;
- delay(500);
- }
- }
- }
- }
-
-
- void tunning()
- {
- cc2500_strobe(CC2500_SRX);//enter in rx mode
- int count1 = 0;
- while (1) {
- count1++;
- if (count >= 250) {
- count = 0;
- }
- if (count1 > 3000) {
- count1 = 0;
- cc2500_writeReg(CC2500_0C_FSCTRL0, count); // Frequency offset hack
- count = count + 10;
- //cc2500_strobe(CC2500_SRX);//enter in rx mode
- }
- if (GDO_1) {
- ccLen = cc2500_readReg(CC2500_3B_RXBYTES | CC2500_READ_BURST) & 0x7F;
- if (ccLen) {
- cc2500_readFifo((uint8_t *)ccData, ccLen);
- if (ccData[ccLen - 1] & 0x80) {
- if (ccData[2] == 0x01) {
- if (ccData[5] == 0x00) {
- break;
- }
- }
- }
- }
- }
- }
- #if defined(DEBUG1)
- Serial.println(count, HEX);
- #endif
- }
-
-
-
- void Store_bind()
- {
- uint8_t i;
- int adr = 100;
- for (i = 0; i < 2; i++) {
- EEPROM.write(adr + i, txid[i]);
- }
- for (i = 0; i < sizeof(hopData); i++) {
- EEPROM.write(adr + 10 + i, hopData[i]);
- }
- EEPROM.write(adr + 100, listLength);
- }
-
- unsigned char PPM_jumper(void)
- {
- // PPM Selection (jumper between Ch1 and ch3)
- pinMode(Servo3_OUT, INPUT); //CH3 input
- digitalWrite(Servo3_OUT, HIGH); // pull up
- digitalWrite(Servo1_OUT, HIGH); // CH1 is HIGH
- delayMicroseconds(1);
- if ( digitalRead(Servo3_OUT) == HIGH) {
- digitalWrite(Servo1_OUT, LOW); // CH1 is LOW
- delayMicroseconds(1);
- if (digitalRead(Servo3_OUT) == LOW) { // OK jumper plugged
- pinMode(Servo3_OUT, OUTPUT);
- return 1;
- }
- }
- pinMode(Servo3_OUT, OUTPUT);
-
- return 0; // servo PWM by default
- }
-
- //bind jumper
- unsigned char bind_jumper(void)
- {
- pinMode(bind_pin, INPUT_PULLUP);//pull up
- if ( digitalRead(bind_pin) == LOW) {
- delayMicroseconds(1);
- return 1;
- }
- return 0;
- }
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