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actuators.c
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actuators.c
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/*
*
* Copyright (C) 2014 Freek van Tienen <freek.v.tienen@gmail.com>
*
* This file is part of paparazzi.
*
* paparazzi 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 2, or (at your option)
* any later version.
*
* paparazzi 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 paparazzi; see the file COPYING. If not, write to
* the Free Software Foundation, 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
/**
* @file boards/bebop/actuators.c
* Actuator driver for the bebop
*/
#include "subsystems/actuators.h"
#include "subsystems/actuators/motor_mixing.h"
#include "subsystems/electrical.h"
#include "actuators.h"
#include "led_hw.h"
#include "autopilot.h"
#if PERIODIC_TELEMETRY
#include "subsystems/datalink/telemetry.h"
#include "firmwares/rotorcraft/stabilization.h"
static void send_actuators_bebop(struct transport_tx *trans, struct link_device *dev)
{
pprz_msg_send_BEBOP_ACTUATORS(trans, dev, AC_ID,
&stabilization_cmd[COMMAND_THRUST],
&stabilization_cmd[COMMAND_ROLL],
&stabilization_cmd[COMMAND_PITCH],
&stabilization_cmd[COMMAND_YAW],
&actuators_bebop.rpm_ref[0],
&actuators_bebop.rpm_ref[1],
&actuators_bebop.rpm_ref[2],
&actuators_bebop.rpm_ref[3],
&actuators_bebop.rpm_obs[0],
&actuators_bebop.rpm_obs[1],
&actuators_bebop.rpm_obs[2],
&actuators_bebop.rpm_obs[3]);
}
#endif
uint32_t led_hw_values;
struct ActuatorsBebop actuators_bebop;
static uint8_t actuators_bebop_checksum(uint8_t *bytes, uint8_t size);
void actuators_bebop_init(void)
{
/* Initialize the I2C connection */
actuators_bebop.i2c_trans.slave_addr = ACTUATORS_BEBOP_ADDR;
actuators_bebop.i2c_trans.status = I2CTransDone;
actuators_bebop.led = 0;
#if PERIODIC_TELEMETRY
register_periodic_telemetry(DefaultPeriodic, "ACTUATORS_BEBOP", send_actuators_bebop);
#endif
}
void actuators_bebop_commit(void)
{
// Receive the status
actuators_bebop.i2c_trans.buf[0] = ACTUATORS_BEBOP_GET_OBS_DATA;
i2c_transceive(&i2c1, &actuators_bebop.i2c_trans, actuators_bebop.i2c_trans.slave_addr, 1, 13);
// Update status
electrical.vsupply = (actuators_bebop.i2c_trans.buf[9] + (actuators_bebop.i2c_trans.buf[8] << 8)) / 100;
actuators_bebop.rpm_obs[0] = (actuators_bebop.i2c_trans.buf[1] + (actuators_bebop.i2c_trans.buf[0] << 8));
actuators_bebop.rpm_obs[1] = (actuators_bebop.i2c_trans.buf[3] + (actuators_bebop.i2c_trans.buf[2] << 8));
actuators_bebop.rpm_obs[2] = (actuators_bebop.i2c_trans.buf[5] + (actuators_bebop.i2c_trans.buf[4] << 8));
actuators_bebop.rpm_obs[3] = (actuators_bebop.i2c_trans.buf[7] + (actuators_bebop.i2c_trans.buf[6] << 8));
// Saturate the bebop motors
//actuators_bebop_saturate();
// When detected a suicide
actuators_bebop.i2c_trans.buf[10] = actuators_bebop.i2c_trans.buf[10] & 0x7;
if (actuators_bebop.i2c_trans.buf[11] == 2 && actuators_bebop.i2c_trans.buf[10] != 1) {
autopilot_set_motors_on(FALSE);
}
// Start the motors
if (actuators_bebop.i2c_trans.buf[10] != 4 && actuators_bebop.i2c_trans.buf[10] != 2 && autopilot_motors_on) {
// Reset the error
actuators_bebop.i2c_trans.buf[0] = ACTUATORS_BEBOP_CLEAR_ERROR;
i2c_transmit(&i2c1, &actuators_bebop.i2c_trans, actuators_bebop.i2c_trans.slave_addr, 1);
// Start the motors
actuators_bebop.i2c_trans.buf[0] = ACTUATORS_BEBOP_START_PROP;
i2c_transmit(&i2c1, &actuators_bebop.i2c_trans, actuators_bebop.i2c_trans.slave_addr, 1);
}
// Stop the motors
else if (actuators_bebop.i2c_trans.buf[10] == 4 && !autopilot_motors_on) {
actuators_bebop.i2c_trans.buf[0] = ACTUATORS_BEBOP_STOP_PROP;
i2c_transmit(&i2c1, &actuators_bebop.i2c_trans, actuators_bebop.i2c_trans.slave_addr, 1);
} else if (actuators_bebop.i2c_trans.buf[10] == 4 && autopilot_motors_on) {
// Send the commands
actuators_bebop.i2c_trans.buf[0] = ACTUATORS_BEBOP_SET_REF_SPEED;
actuators_bebop.i2c_trans.buf[1] = actuators_bebop.rpm_ref[0] >> 8;
actuators_bebop.i2c_trans.buf[2] = actuators_bebop.rpm_ref[0] & 0xFF;
actuators_bebop.i2c_trans.buf[3] = actuators_bebop.rpm_ref[1] >> 8;
actuators_bebop.i2c_trans.buf[4] = actuators_bebop.rpm_ref[1] & 0xFF;
actuators_bebop.i2c_trans.buf[5] = actuators_bebop.rpm_ref[2] >> 8;
actuators_bebop.i2c_trans.buf[6] = actuators_bebop.rpm_ref[2] & 0xFF;
actuators_bebop.i2c_trans.buf[7] = actuators_bebop.rpm_ref[3] >> 8;
actuators_bebop.i2c_trans.buf[8] = actuators_bebop.rpm_ref[3] & 0xFF;
actuators_bebop.i2c_trans.buf[9] = 0x00; //UNK?
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wcast-qual"
actuators_bebop.i2c_trans.buf[10] = actuators_bebop_checksum((uint8_t *)actuators_bebop.i2c_trans.buf, 9);
#pragma GCC diagnostic pop
i2c_transmit(&i2c1, &actuators_bebop.i2c_trans, actuators_bebop.i2c_trans.slave_addr, 11);
}
// Update the LEDs
if (actuators_bebop.led != (led_hw_values & 0x3)) {
actuators_bebop.i2c_trans.buf[0] = ACTUATORS_BEBOP_TOGGLE_GPIO;
actuators_bebop.i2c_trans.buf[1] = (led_hw_values & 0x3);
i2c_transmit(&i2c1, &actuators_bebop.i2c_trans, actuators_bebop.i2c_trans.slave_addr, 2);
actuators_bebop.led = led_hw_values & 0x3;
}
}
static uint8_t actuators_bebop_checksum(uint8_t *bytes, uint8_t size)
{
uint8_t checksum = 0;
for (int i = 0; i < size; i++) {
checksum = checksum ^ bytes[i];
}
return checksum;
}