mirror of https://github.com/ArduPilot/ardupilot
367 lines
10 KiB
C++
367 lines
10 KiB
C++
/*
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "AP_Baro_ICM20789.h"
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#if AP_BARO_ICM20789_ENABLED
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#include <AP_HAL/AP_HAL.h>
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#include <AP_HAL/I2CDevice.h>
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#include <utility>
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#include <AP_Common/AP_Common.h>
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#include <AP_BoardConfig/AP_BoardConfig.h>
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#include <stdio.h>
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#include <AP_Math/AP_Math.h>
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#include <AP_Logger/AP_Logger.h>
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#include <AP_InertialSensor/AP_InertialSensor_Invensense_registers.h>
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extern const AP_HAL::HAL &hal;
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/*
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CMD_READ options. The draft datasheet doesn't specify, but it seems
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Mode_1 has a conversion interval of 2ms. Mode_3 has a conversion
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interval of 20ms. Both seem to produce equally as smooth results, so
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presumably Mode_3 is doing internal averaging
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*/
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#define CMD_READ_PT_MODE_1 0x401A
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#define CMD_READ_PT_MODE_3 0x5059
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#define CMD_READ_TP_MODE_1 0x609C
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#define CMD_READ_TP_MODE_3 0x70DF
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#define CONVERSION_INTERVAL_MODE_1 2000
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#define CONVERSION_INTERVAL_MODE_3 20000
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// setup for Mode_3
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#define CMD_READ_PT CMD_READ_PT_MODE_3
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#define CONVERSION_INTERVAL CONVERSION_INTERVAL_MODE_3
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#define CMD_SOFT_RESET 0x805D
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#define CMD_READ_ID 0xEFC8
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#define BARO_ICM20789_DEBUG 0
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#if BARO_ICM20789_DEBUG
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#define debug(fmt, args...) hal.console->printf(fmt, ##args)
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#else
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#define debug(fmt, args...)
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#endif
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/*
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constructor
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*/
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AP_Baro_ICM20789::AP_Baro_ICM20789(AP_Baro &baro, AP_HAL::OwnPtr<AP_HAL::I2CDevice> _dev, AP_HAL::OwnPtr<AP_HAL::Device> _dev_imu)
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: AP_Baro_Backend(baro)
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, dev(std::move(_dev))
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, dev_imu(std::move(_dev_imu))
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{
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}
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AP_Baro_Backend *AP_Baro_ICM20789::probe(AP_Baro &baro,
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AP_HAL::OwnPtr<AP_HAL::I2CDevice> dev,
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AP_HAL::OwnPtr<AP_HAL::Device> dev_imu)
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{
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debug("Probing for ICM20789 baro\n");
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if (!dev || !dev_imu) {
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return nullptr;
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}
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AP_Baro_ICM20789 *sensor = new AP_Baro_ICM20789(baro, std::move(dev), std::move(dev_imu));
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if (!sensor || !sensor->init()) {
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delete sensor;
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return nullptr;
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}
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return sensor;
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}
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/*
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setup ICM20789 to enable barometer, assuming IMU is on SPI and baro is on I2C
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*/
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bool AP_Baro_ICM20789::imu_spi_init(void)
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{
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dev_imu->get_semaphore()->take_blocking();
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dev_imu->set_read_flag(0x80);
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dev_imu->set_speed(AP_HAL::Device::SPEED_LOW);
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uint8_t whoami = 0;
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uint8_t v;
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dev_imu->read_registers(MPUREG_USER_CTRL, &v, 1);
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dev_imu->write_register(MPUREG_PWR_MGMT_1, BIT_PWR_MGMT_1_CLK_XGYRO);
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hal.scheduler->delay(1);
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dev_imu->write_register(MPUREG_USER_CTRL, BIT_USER_CTRL_I2C_IF_DIS);
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dev_imu->write_register(MPUREG_PWR_MGMT_1,
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BIT_PWR_MGMT_1_SLEEP | BIT_PWR_MGMT_1_CLK_XGYRO);
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hal.scheduler->delay(1);
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dev_imu->write_register(MPUREG_PWR_MGMT_1, BIT_PWR_MGMT_1_CLK_XGYRO);
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hal.scheduler->delay(1);
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dev_imu->write_register(MPUREG_FIFO_EN, 0x00);
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dev_imu->write_register(MPUREG_PWR_MGMT_1,
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BIT_PWR_MGMT_1_SLEEP | BIT_PWR_MGMT_1_CLK_XGYRO);
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dev_imu->read_registers(MPUREG_WHOAMI, &whoami, 1);
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// wait for sensor to settle
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hal.scheduler->delay(100);
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dev_imu->read_registers(MPUREG_WHOAMI, &whoami, 1);
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dev_imu->write_register(MPUREG_INT_PIN_CFG, 0x00);
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dev_imu->write_register(MPUREG_USER_CTRL, BIT_USER_CTRL_I2C_IF_DIS);
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dev_imu->get_semaphore()->give();
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return true;
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}
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/*
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setup ICM20789 to enable barometer, assuming both IMU and baro on the same i2c bus
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*/
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bool AP_Baro_ICM20789::imu_i2c_init(void)
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{
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// as the baro device is already locked we need to re-use it,
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// changing its address to match the IMU address
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uint8_t old_address = dev->get_bus_address();
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dev->set_address(dev_imu->get_bus_address());
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dev->set_retries(4);
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uint8_t whoami=0;
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dev->read_registers(MPUREG_WHOAMI, &whoami, 1);
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debug("ICM20789: whoami 0x%02x old_address=%02x\n", whoami, old_address);
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dev->write_register(MPUREG_FIFO_EN, 0x00);
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dev->write_register(MPUREG_PWR_MGMT_1, BIT_PWR_MGMT_1_CLK_XGYRO);
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// wait for sensor to settle
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hal.scheduler->delay(10);
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dev->write_register(MPUREG_INT_PIN_CFG, BIT_BYPASS_EN);
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dev->set_address(old_address);
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return true;
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}
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bool AP_Baro_ICM20789::init()
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{
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if (!dev) {
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return false;
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}
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debug("Looking for 20789 baro\n");
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dev->get_semaphore()->take_blocking();
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debug("Setting up IMU\n");
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if (dev_imu->bus_type() != AP_HAL::Device::BUS_TYPE_I2C) {
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if (!imu_spi_init()) {
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debug("ICM20789: failed to initialise IMU SPI device\n");
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return false;
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}
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} else if (!imu_i2c_init()) {
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debug("ICM20789: failed to initialise IMU I2C device\n");
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return false;
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}
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if (!send_cmd16(CMD_SOFT_RESET)) {
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debug("ICM20789: reset failed\n");
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goto failed;
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}
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// wait for sensor to settle
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hal.scheduler->delay(10);
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if (!read_calibration_data()) {
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debug("ICM20789: read_calibration_data failed\n");
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goto failed;
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}
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// start a reading
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if (!send_cmd16(CMD_READ_PT)) {
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debug("ICM20789: start read failed\n");
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goto failed;
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}
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dev->set_retries(0);
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instance = _frontend.register_sensor();
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dev->set_device_type(DEVTYPE_BARO_ICM20789);
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set_bus_id(instance, dev->get_bus_id());
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dev->get_semaphore()->give();
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debug("ICM20789: startup OK\n");
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// use 10ms to ensure we don't lose samples, with max lag of 10ms
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dev->register_periodic_callback(CONVERSION_INTERVAL/2, FUNCTOR_BIND_MEMBER(&AP_Baro_ICM20789::timer, void));
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return true;
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failed:
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dev->get_semaphore()->give();
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return false;
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}
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bool AP_Baro_ICM20789::send_cmd16(uint16_t cmd)
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{
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uint8_t cmd_b[2] = { uint8_t(cmd >> 8), uint8_t(cmd & 0xFF) };
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return dev->transfer(cmd_b, 2, nullptr, 0);
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}
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bool AP_Baro_ICM20789::read_calibration_data(void)
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{
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// setup for OTP read
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const uint8_t cmd[5] = { 0xC5, 0x95, 0x00, 0x66, 0x9C };
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if (!dev->transfer(cmd, sizeof(cmd), nullptr, 0)) {
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debug("ICM20789: read cal1 failed\n");
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return false;
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}
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for (uint8_t i=0; i<4; i++) {
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if (!send_cmd16(0xC7F7)) {
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debug("ICM20789: read cal2[%u] failed\n", i);
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return false;
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}
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uint8_t d[3];
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if (!dev->transfer(nullptr, 0, d, sizeof(d))) {
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debug("ICM20789: read cal3[%u] failed\n", i);
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return false;
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}
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sensor_constants[i] = int16_t((d[0]<<8) | d[1]);
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debug("sensor_constants[%u]=%d\n", i, sensor_constants[i]);
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}
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return true;
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}
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void AP_Baro_ICM20789::calculate_conversion_constants(const float p_Pa[3], const float p_LUT[3],
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float &A, float &B, float &C)
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{
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C = (p_LUT[0] * p_LUT[1] * (p_Pa[0] - p_Pa[1]) +
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p_LUT[1] * p_LUT[2] * (p_Pa[1] - p_Pa[2]) +
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p_LUT[2] * p_LUT[0] * (p_Pa[2] - p_Pa[0])) /
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(p_LUT[2] * (p_Pa[0] - p_Pa[1]) +
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p_LUT[0] * (p_Pa[1] - p_Pa[2]) +
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p_LUT[1] * (p_Pa[2] - p_Pa[0]));
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A = (p_Pa[0] * p_LUT[0] - p_Pa[1] * p_LUT[1] - (p_Pa[1] - p_Pa[0]) * C) / (p_LUT[0] - p_LUT[1]);
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B = (p_Pa[0] - A) * (p_LUT[0] + C);
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}
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/*
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Convert an output from a calibrated sensor to a pressure in Pa.
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Arguments:
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p_LSB -- Raw pressure data from sensor
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T_LSB -- Raw temperature data from sensor
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*/
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float AP_Baro_ICM20789::get_pressure(uint32_t p_LSB, uint32_t T_LSB)
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{
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float t = T_LSB - 32768.0;
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float s[3];
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s[0] = LUT_lower + float(sensor_constants[0] * t * t) * quadr_factor;
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s[1] = offst_factor * sensor_constants[3] + float(sensor_constants[1] * t * t) * quadr_factor;
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s[2] = LUT_upper + float(sensor_constants[2] * t * t) * quadr_factor;
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float A, B, C;
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calculate_conversion_constants(p_Pa_calib, s, A, B, C);
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return A + B / (C + p_LSB);
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}
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#if BARO_ICM20789_DEBUG
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static struct {
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uint32_t Praw, Traw;
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float T, P;
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} dd;
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#endif
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void AP_Baro_ICM20789::convert_data(uint32_t Praw, uint32_t Traw)
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{
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// temperature is easy
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float T = -45 + (175.0f / (1U<<16)) * Traw;
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// pressure involves a few more calculations
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float P = get_pressure(Praw, Traw);
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if (!pressure_ok(P)) {
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return;
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}
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WITH_SEMAPHORE(_sem);
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#if BARO_ICM20789_DEBUG
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dd.Praw = Praw;
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dd.Traw = Traw;
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dd.P = P;
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dd.T = T;
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#endif
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accum.psum += P;
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accum.tsum += T;
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accum.count++;
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}
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void AP_Baro_ICM20789::timer(void)
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{
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uint8_t d[9] {};
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if (dev->transfer(nullptr, 0, d, sizeof(d))) {
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// ignore CRC bytes for now
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uint32_t Praw = (uint32_t(d[0]) << 16) | (uint32_t(d[1]) << 8) | d[3];
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uint32_t Traw = (uint32_t(d[6]) << 8) | d[7];
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convert_data(Praw, Traw);
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send_cmd16(CMD_READ_PT);
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last_measure_us = AP_HAL::micros();
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} else {
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if (AP_HAL::micros() - last_measure_us > CONVERSION_INTERVAL*3) {
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// lost a sample
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send_cmd16(CMD_READ_PT);
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last_measure_us = AP_HAL::micros();
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}
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}
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}
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void AP_Baro_ICM20789::update()
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{
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#if BARO_ICM20789_DEBUG
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// useful for debugging
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// @LoggerMessage: ICMB
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// @Description: ICM20789 diagnostics
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// @Field: TimeUS: Time since system startup
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// @Field: Traw: raw temperature from sensor
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// @Field: Praw: raw pressure from sensor
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// @Field: P: pressure
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// @Field: T: temperature
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AP::logger().WriteStreaming("ICMB", "TimeUS,Traw,Praw,P,T", "QIIff",
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AP_HAL::micros64(),
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dd.Traw, dd.Praw, dd.P, dd.T);
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#endif
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WITH_SEMAPHORE(_sem);
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if (accum.count > 0) {
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_copy_to_frontend(instance, accum.psum/accum.count, accum.tsum/accum.count);
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accum.psum = accum.tsum = 0;
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accum.count = 0;
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}
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}
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#endif // AP_BARO_ICM20789_ENABLED
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