/* www.ArduCopter.com - www.DIYDrones.com Copyright (c) 2010. All rights reserved. An Open Source Arduino based multicopter. File : UserDefines.pde Version : v1.0, Aug 27, 2010 Author(s): ArduCopter Team Ted Carancho (aeroquad), Jose Julio, Jordi Muñoz, Jani Hirvinen, Ken McEwans, Roberto Navoni, Sandro Benigno, Chris Anderson This program 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. This program 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 this program. If not, see . * ************************************************************** * ChangeLog: * ************************************************************** * TODO: * ************************************************************** */ /*************************************************************/ // Safety & Security // Arm & Disarm delays #define ARM_DELAY 200 // milliseconds of how long you need to keep rudder to max right for arming motors #define DISARM_DELAY 100 // milliseconds of how long you need to keep rudder to max left for disarming motors /*************************************************************/ // AM Mode & Flight information /* AM PIN Definitions */ /* Will be moved in future to AN extension ports */ /* due need to have PWM pins free for sonars and servos */ #define FR_LED 3 // Mega PE4 pin, OUT7 #define RE_LED 2 // Mega PE5 pin, OUT6 #define RI_LED 7 // Mega PH4 pin, OUT5 #define LE_LED 8 // Mega PH5 pin, OUT4 /* AM PIN Definitions - END */ /*************************************************************/ // Radio related definitions // If you don't know these values, you can activate RADIO_TEST_MODE below // and check your mid values //#define RADIO_TEST_MODE #define ROLL_MID 1500 // Radio Roll channel mid value #define PITCH_MID 1500 // Radio Pitch channel mid value #define YAW_MID 1500 // Radio Yaw channel mid value #define THROTTLE_MID 1505 // Radio Throttle channel mid value #define AUX_MID 1500 #define CHANN_CENTER 1500 // Channel center, legacy #define MIN_THROTTLE 1040 // Throttle pulse width at minimun... // Following variables stored in EEPROM float KP_QUAD_ROLL; float KI_QUAD_ROLL; float KD_QUAD_ROLL; float KP_QUAD_PITCH; float KI_QUAD_PITCH; float KD_QUAD_PITCH; float KP_QUAD_YAW; float KI_QUAD_YAW; float KD_QUAD_YAW; float STABLE_MODE_KP_RATE; float KP_GPS_ROLL; float KI_GPS_ROLL; float KD_GPS_ROLL; float KP_GPS_PITCH; float KI_GPS_PITCH; float KD_GPS_PITCH; float GPS_MAX_ANGLE; float KP_ALTITUDE; float KI_ALTITUDE; float KD_ALTITUDE; int acc_offset_x; int acc_offset_y; int acc_offset_z; int gyro_offset_roll; int gyro_offset_pitch; int gyro_offset_yaw; float Kp_ROLLPITCH; float Ki_ROLLPITCH; float Kp_YAW; float Ki_YAW; float GEOG_CORRECTION_FACTOR; int MAGNETOMETER; float Kp_RateRoll; float Ki_RateRoll; float Kd_RateRoll; float Kp_RatePitch; float Ki_RatePitch; float Kd_RatePitch; float Kp_RateYaw; float Ki_RateYaw; float Kd_RateYaw; float xmitFactor; float ch_roll_slope = 1; float ch_pitch_slope = 1; float ch_throttle_slope = 1; float ch_yaw_slope = 1; float ch_aux_slope = 1; float ch_aux2_slope = 1; float ch_roll_offset = 0; float ch_pitch_offset = 0; float ch_throttle_offset = 0; float ch_yaw_offset = 0; float ch_aux_offset = 0; float ch_aux2_offset = 0; // This function call contains the default values that are set to the ArduCopter // when a "Default EEPROM Value" command is sent through serial interface void defaultUserConfig() { KP_QUAD_ROLL = 1.8; KI_QUAD_ROLL = 0.30; //0.4 KD_QUAD_ROLL = 0.4; //0.48 KP_QUAD_PITCH = 1.8; KI_QUAD_PITCH = 0.30; //0.4 KD_QUAD_PITCH = 0.4; //0.48 KP_QUAD_YAW = 3.6; KI_QUAD_YAW = 0.15; KD_QUAD_YAW = 1.2; STABLE_MODE_KP_RATE = 0.2; // New param for stable mode KP_GPS_ROLL = 0.02; KI_GPS_ROLL = 0.008; KD_GPS_ROLL = 0.006; KP_GPS_PITCH = 0.02; KI_GPS_PITCH = 0.008; KD_GPS_PITCH = 0.006; GPS_MAX_ANGLE = 18; KP_ALTITUDE = 0.8; KI_ALTITUDE = 0.2; KD_ALTITUDE = 0.2; acc_offset_x = 2073; acc_offset_y = 2056; acc_offset_z = 2010; gyro_offset_roll = 1659; gyro_offset_pitch = 1618; gyro_offset_yaw = 1673; Kp_ROLLPITCH = 0.0014; Ki_ROLLPITCH = 0.00000015; Kp_YAW = 1.2; Ki_YAW = 0.00005; GEOG_CORRECTION_FACTOR = 0.87; MAGNETOMETER = 0; Kp_RateRoll = 0.6; Ki_RateRoll = 0.1; Kd_RateRoll = -0.8; Kp_RatePitch = 0.6; Ki_RatePitch = 0.1; Kd_RatePitch = -0.8; Kp_RateYaw = 1.6; Ki_RateYaw = 0.3; Kd_RateYaw = 0; xmitFactor = 0.8; roll_mid = 1500; pitch_mid = 1500; yaw_mid = 1500; ch_roll_slope = 1; ch_pitch_slope = 1; ch_throttle_slope = 1; ch_yaw_slope = 1; ch_aux_slope = 1; ch_aux2_slope = 1; ch_roll_offset = 0; ch_pitch_offset = 0; ch_throttle_offset = 0; ch_yaw_offset = 0; ch_aux_offset = 0; ch_aux2_offset = 0; } // EEPROM storage addresses #define KP_QUAD_ROLL_ADR 0 #define KI_QUAD_ROLL_ADR 8 #define KD_QUAD_ROLL_ADR 4 #define KP_QUAD_PITCH_ADR 12 #define KI_QUAD_PITCH_ADR 20 #define KD_QUAD_PITCH_ADR 16 #define KP_QUAD_YAW_ADR 24 #define KI_QUAD_YAW_ADR 32 #define KD_QUAD_YAW_ADR 28 #define STABLE_MODE_KP_RATE_ADR 36 #define KP_GPS_ROLL_ADR 40 #define KI_GPS_ROLL_ADR 48 #define KD_GPS_ROLL_ADR 44 #define KP_GPS_PITCH_ADR 52 #define KI_GPS_PITCH_ADR 60 #define KD_GPS_PITCH_ADR 56 #define GPS_MAX_ANGLE_ADR 64 #define KP_ALTITUDE_ADR 68 #define KI_ALTITUDE_ADR 76 #define KD_ALTITUDE_ADR 72 #define acc_offset_x_ADR 80 #define acc_offset_y_ADR 84 #define acc_offset_z_ADR 88 #define gyro_offset_roll_ADR 92 #define gyro_offset_pitch_ADR 96 #define gyro_offset_yaw_ADR 100 #define Kp_ROLLPITCH_ADR 104 #define Ki_ROLLPITCH_ADR 108 #define Kp_YAW_ADR 112 #define Ki_YAW_ADR 116 #define GEOG_CORRECTION_FACTOR_ADR 120 #define MAGNETOMETER_ADR 124 #define XMITFACTOR_ADR 128 #define KP_RATEROLL_ADR 132 #define KI_RATEROLL_ADR 136 #define KD_RATEROLL_ADR 140 #define KP_RATEPITCH_ADR 144 #define KI_RATEPITCH_ADR 148 #define KD_RATEPITCH_ADR 152 #define KP_RATEYAW_ADR 156 #define KI_RATEYAW_ADR 160 #define KD_RATEYAW_ADR 164 #define CHROLL_MID 168 #define CHPITCH_MID 172 #define CHYAW_MID 176 #define ch_roll_slope_ADR 180 #define ch_pitch_slope_ADR 184 #define ch_throttle_slope_ADR 188 #define ch_yaw_slope_ADR 192 #define ch_aux_slope_ADR 196 #define ch_aux2_slope_ADR 200 #define ch_roll_offset_ADR 204 #define ch_pitch_offset_ADR 208 #define ch_throttle_offset_ADR 212 #define ch_yaw_offset_ADR 216 #define ch_aux_offset_ADR 220 #define ch_aux2_offset_ADR 224