/* * Example of RC_Channel library. * Code by Jason Short. 2010 * DIYDrones.com * */ #include // ArduPilot Mega RC Library #include // ArduPilot Mega RC Library #define EE_RADIO_1 0x00 // all gains stored from here #define EE_RADIO_2 0x06 // all gains stored from here #define EE_RADIO_3 0x0C // all gains stored from here #define EE_RADIO_4 0x12 // all gains stored from here #define EE_RADIO_5 0x18 // all gains stored from here #define EE_RADIO_6 0x1E // all gains stored from here #define EE_RADIO_7 0x24 // all gains stored from here #define EE_RADIO_8 0x2A // all gains stored from here RC_Channel rc_1(EE_RADIO_1); RC_Channel rc_2(EE_RADIO_2); RC_Channel rc_3(EE_RADIO_3); RC_Channel rc_4(EE_RADIO_4); RC_Channel rc_5(EE_RADIO_5); RC_Channel rc_6(EE_RADIO_6); RC_Channel rc_7(EE_RADIO_7); RC_Channel rc_8(EE_RADIO_8); #define CH_1 0 #define CH_2 1 #define CH_3 2 #define CH_4 3 #define CH_5 4 #define CH_6 5 #define CH_7 6 #define CH_8 7 void setup() { Serial.begin(38400); Serial.println("ArduPilot RC Channel test"); APM_RC.Init(); // APM Radio initialization delay(500); // setup radio // read eepom or set manually /* * rc_1.radio_min = 1100; * rc_1.radio_max = 1900; * * rc_2.radio_min = 1100; * rc_2.radio_max = 1900; * * rc_3.radio_min = 1100; * rc_3.radio_max = 1900; * * rc_4.radio_min = 1100; * rc_4.radio_max = 1900; * * // or * * rc_1.load_eeprom(); * rc_2.load_eeprom(); * rc_3.load_eeprom(); * rc_4.load_eeprom(); * rc_5.load_eeprom(); * rc_6.load_eeprom(); * rc_7.load_eeprom(); * rc_8.load_eeprom(); * */ // interactive setup setup_radio(); print_radio_values(); // set type of output, symmetrical angles or a number range; rc_1.set_angle(4500); rc_1.dead_zone = 80; rc_2.set_angle(4500); rc_2.dead_zone = 80; rc_3.set_range(0,1000); rc_3.dead_zone = 20; rc_3.scale_output = .8; // gives more dynamic range to quads rc_4.set_angle(6000); rc_4.dead_zone = 500; rc_5.set_range(0,1000); rc_5.set_filter(false); rc_6.set_range(200,800); rc_7.set_range(0,1000); rc_8.set_range(0,1000); for (byte i = 0; i < 30; i++) { rc_1.set_pwm(APM_RC.InputCh(CH_1)); } rc_1.trim(); rc_2.trim(); rc_4.trim(); } void loop() { delay(20); read_radio(); rc_1.servo_out = rc_1.control_in; rc_1.calc_pwm(); print_pwm(); } void read_radio() { rc_1.set_pwm(APM_RC.InputCh(CH_1)); } void print_pwm() { Serial.print("ch1 - PWM in: "); Serial.print(rc_1.radio_in, DEC); Serial.print("\t control_in: "); Serial.print(rc_1.control_in, DEC); Serial.print("\t servo out: "); Serial.print(rc_1.servo_out, DEC); Serial.print("\t pwm out: "); Serial.print(rc_1.pwm_out, DEC); Serial.print("\t pwm to radio: "); Serial.println(rc_1.radio_out, DEC); } void print_radio_values() { Serial.print("CH1: "); Serial.print(rc_1.radio_min, DEC); Serial.print(" | "); Serial.println(rc_1.radio_max, DEC); } void setup_radio() { Serial.println("\n\nRadio Setup:"); uint8_t i; for(i = 0; i < 100; i++) { delay(20); read_radio(); } rc_1.radio_min = rc_1.radio_in; rc_2.radio_min = rc_2.radio_in; rc_3.radio_min = rc_3.radio_in; rc_4.radio_min = rc_4.radio_in; rc_5.radio_min = rc_5.radio_in; rc_6.radio_min = rc_6.radio_in; rc_7.radio_min = rc_7.radio_in; rc_8.radio_min = rc_8.radio_in; rc_1.radio_max = rc_1.radio_in; rc_2.radio_max = rc_2.radio_in; rc_3.radio_max = rc_3.radio_in; rc_4.radio_max = rc_4.radio_in; rc_5.radio_max = rc_5.radio_in; rc_6.radio_max = rc_6.radio_in; rc_7.radio_max = rc_7.radio_in; rc_8.radio_max = rc_8.radio_in; rc_1.radio_trim = rc_1.radio_in; rc_2.radio_trim = rc_2.radio_in; rc_4.radio_trim = rc_4.radio_in; // 3 is not trimed rc_5.radio_trim = 1500; rc_6.radio_trim = 1500; rc_7.radio_trim = 1500; rc_8.radio_trim = 1500; Serial.println("\nMove all controls to each extreme. Hit Enter to save:"); while(1) { delay(20); // Filters radio input - adjust filters in the radio.pde file // ---------------------------------------------------------- read_radio(); rc_1.update_min_max(); rc_2.update_min_max(); rc_3.update_min_max(); rc_4.update_min_max(); rc_5.update_min_max(); rc_6.update_min_max(); rc_7.update_min_max(); rc_8.update_min_max(); if(Serial.available() > 0) { //rc_3.radio_max += 250; Serial.flush(); Serial.println("Radio calibrated, Showing control values:"); break; } } return; }