2020-04-05 04:19:00 -03:00
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/*
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* This file is free software: you can redistribute it and/or modify it
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* under the terms of the GNU General Public License as published by the
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* Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This file is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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* See the GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <utility>
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#include <AP_HAL/AP_HAL.h>
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#include <AP_Math/AP_Math.h>
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#include <AP_HAL/utility/sparse-endian.h>
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#include "AP_InertialSensor_ADIS1647x.h"
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#define BACKEND_SAMPLE_RATE 2000
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/*
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device registers
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*/
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#define REG_PROD_ID 0x72
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#define PROD_ID_16470 0x4056
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#define PROD_ID_16477 0x405d
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#define REG_GLOB_CMD 0x68
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#define GLOB_CMD_SW_RESET 0x80
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#define REG_RANG_MDL 0x5E // 16477 only
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#define REG_DATA_CNTR 0x22
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/*
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timings
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*/
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#define T_STALL_US 20U
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#define T_RESET_MS 250U
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#define TIMING_DEBUG 0
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#if TIMING_DEBUG
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2020-04-20 19:34:47 -03:00
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#define DEBUG_SET_PIN(n,v) hal.gpio->write(52+n, v)
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#define DEBUG_TOGGLE_PIN(n) hal.gpio->toggle(52+n)
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2020-04-05 04:19:00 -03:00
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#else
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#define DEBUG_SET_PIN(n,v)
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#define DEBUG_TOGGLE_PIN(n)
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#endif
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extern const AP_HAL::HAL& hal;
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AP_InertialSensor_ADIS1647x::AP_InertialSensor_ADIS1647x(AP_InertialSensor &imu,
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2020-04-20 19:34:47 -03:00
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AP_HAL::OwnPtr<AP_HAL::Device> _dev,
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enum Rotation _rotation,
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uint8_t drdy_gpio)
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2020-04-05 04:19:00 -03:00
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: AP_InertialSensor_Backend(imu)
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, dev(std::move(_dev))
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, rotation(_rotation)
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2020-04-20 19:34:47 -03:00
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, drdy_pin(drdy_gpio)
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2020-04-05 04:19:00 -03:00
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{
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}
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AP_InertialSensor_Backend *
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AP_InertialSensor_ADIS1647x::probe(AP_InertialSensor &imu,
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2020-04-20 19:34:47 -03:00
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AP_HAL::OwnPtr<AP_HAL::Device> dev,
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enum Rotation rotation,
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uint8_t drdy_gpio)
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2020-04-05 04:19:00 -03:00
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{
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if (!dev) {
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return nullptr;
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}
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2020-04-20 19:34:47 -03:00
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auto sensor = new AP_InertialSensor_ADIS1647x(imu, std::move(dev), rotation, drdy_gpio);
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2020-04-05 04:19:00 -03:00
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if (!sensor) {
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return nullptr;
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}
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if (!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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void AP_InertialSensor_ADIS1647x::start()
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{
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accel_instance = _imu.register_accel(BACKEND_SAMPLE_RATE, dev->get_bus_id_devtype(DEVTYPE_INS_ADIS1647X));
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gyro_instance = _imu.register_gyro(BACKEND_SAMPLE_RATE, dev->get_bus_id_devtype(DEVTYPE_INS_ADIS1647X));
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// setup sensor rotations from probe()
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set_gyro_orientation(gyro_instance, rotation);
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set_accel_orientation(accel_instance, rotation);
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/*
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as the sensor does not have a FIFO we need to jump through some
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hoops to ensure we don't lose any samples. This creates a thread
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to do the capture, running at very high priority
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*/
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if (!hal.scheduler->thread_create(FUNCTOR_BIND_MEMBER(&AP_InertialSensor_ADIS1647x::loop, void),
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"ADIS1647x",
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1024, AP_HAL::Scheduler::PRIORITY_BOOST, 1)) {
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AP_HAL::panic("Failed to create ADIS1647x thread");
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}
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}
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/*
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check product ID
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*/
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bool AP_InertialSensor_ADIS1647x::check_product_id(void)
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{
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uint16_t prod_id = read_reg16(REG_PROD_ID);
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switch (prod_id) {
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case PROD_ID_16470:
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// can do up to 40G
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accel_scale = 1.25 * GRAVITY_MSS * 0.001;
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_clip_limit = 39.5f * GRAVITY_MSS;
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gyro_scale = radians(0.1);
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return true;
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case PROD_ID_16477:
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// can do up to 40G
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accel_scale = 1.25 * GRAVITY_MSS * 0.001;
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_clip_limit = 39.5f * GRAVITY_MSS;
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// RANG_MDL register used for gyro range
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uint16_t rang_mdl = read_reg16(REG_RANG_MDL);
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switch ((rang_mdl >> 2) & 3) {
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case 0:
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gyro_scale = radians(1.0/160);
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break;
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case 1:
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gyro_scale = radians(1.0/40);
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break;
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case 3:
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gyro_scale = radians(1.0/10);
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break;
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default:
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return false;
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}
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return true;
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}
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return false;
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}
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bool AP_InertialSensor_ADIS1647x::init()
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{
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WITH_SEMAPHORE(dev->get_semaphore());
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if (!check_product_id()) {
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return false;
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}
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// perform software reset
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write_reg16(REG_GLOB_CMD, GLOB_CMD_SW_RESET);
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hal.scheduler->delay(T_RESET_MS);
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// re-check after reset
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if (!check_product_id()) {
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return false;
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}
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// we leave all config registers at defaults
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#if TIMING_DEBUG
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// useful for debugging scheduling of transfers
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hal.gpio->pinMode(52, HAL_GPIO_OUTPUT);
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hal.gpio->pinMode(53, HAL_GPIO_OUTPUT);
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hal.gpio->pinMode(54, HAL_GPIO_OUTPUT);
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hal.gpio->pinMode(55, HAL_GPIO_OUTPUT);
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#endif
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// we need to use low speed for burst transfers
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dev->set_speed(AP_HAL::Device::SPEED_LOW);
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return true;
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}
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/*
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read a 16 bit register value
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*/
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uint16_t AP_InertialSensor_ADIS1647x::read_reg16(uint8_t regnum) const
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{
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uint8_t req[2] = {regnum, 0};
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uint8_t reply[2] {};
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dev->transfer(req, sizeof(req), nullptr, 0);
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hal.scheduler->delay_microseconds(T_STALL_US);
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dev->transfer(nullptr, 0, reply, sizeof(reply));
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uint16_t ret = (reply[0]<<8U) | reply[1];
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return ret;
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}
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/*
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write a 16 bit register value
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*/
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void AP_InertialSensor_ADIS1647x::write_reg16(uint8_t regnum, uint16_t value) const
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{
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uint8_t req[2];
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req[0] = (regnum | 0x80);
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req[1] = value & 0xFF;
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dev->transfer(req, sizeof(req), nullptr, 0);
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hal.scheduler->delay_microseconds(T_STALL_US);
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req[0] = ((regnum+1) | 0x80);
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req[1] = (value>>8) & 0xFF;
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dev->transfer(req, sizeof(req), nullptr, 0);
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hal.scheduler->delay_microseconds(T_STALL_US);
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}
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/*
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loop to read the sensor
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*/
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void AP_InertialSensor_ADIS1647x::read_sensor(void)
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{
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struct adis_data {
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uint8_t cmd[2];
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uint16_t diag_stat;
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int16_t gx;
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int16_t gy;
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int16_t gz;
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int16_t ax;
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int16_t ay;
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int16_t az;
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int16_t temp;
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uint16_t counter;
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uint8_t pad;
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uint8_t checksum;
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} data {};
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uint64_t sample_start_us = AP_HAL::micros64();
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do {
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WITH_SEMAPHORE(dev->get_semaphore());
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data.cmd[0] = REG_GLOB_CMD;
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DEBUG_SET_PIN(2, 1);
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if (!dev->transfer((const uint8_t *)&data, sizeof(data), (uint8_t *)&data, sizeof(data))) {
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break;
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}
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DEBUG_SET_PIN(2, 0);
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} while (be16toh(data.counter) == last_counter);
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DEBUG_SET_PIN(1, 1);
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/*
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check the 8 bit checksum of the packet
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*/
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uint8_t sum = 0;
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const uint8_t *b = (const uint8_t *)&data.diag_stat;
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for (uint8_t i=0; i<offsetof(adis_data, pad) - offsetof(adis_data, diag_stat); i++) {
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sum += b[i];
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}
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if (sum != data.checksum) {
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DEBUG_TOGGLE_PIN(3);
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DEBUG_TOGGLE_PIN(3);
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DEBUG_TOGGLE_PIN(3);
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DEBUG_TOGGLE_PIN(3);
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// corrupt data
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return;
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}
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/*
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check if we have lost a sample
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*/
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uint16_t counter = be16toh(data.counter);
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if (done_first_read && uint16_t(last_counter+1) != counter) {
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DEBUG_TOGGLE_PIN(3);
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}
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done_first_read = true;
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last_counter = counter;
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Vector3f accel{float(int16_t(be16toh(data.ax))), float(int16_t(be16toh(data.ay))), float(int16_t(be16toh(data.az)))};
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Vector3f gyro{float(int16_t(be16toh(data.gx))), float(int16_t(be16toh(data.gy))), float(int16_t(be16toh(data.gz)))};
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accel *= accel_scale;
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gyro *= gyro_scale;
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_rotate_and_correct_accel(accel_instance, accel);
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_notify_new_accel_raw_sample(accel_instance, accel, sample_start_us);
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_rotate_and_correct_gyro(gyro_instance, gyro);
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_notify_new_gyro_raw_sample(gyro_instance, gyro, sample_start_us);
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/*
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publish average temperature at 20Hz
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*/
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temp_sum += float(int16_t(be16toh(data.temp))*0.1);
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temp_count++;
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if (temp_count == 100) {
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_publish_temperature(accel_instance, temp_sum/temp_count);
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temp_sum = 0;
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temp_count = 0;
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}
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DEBUG_SET_PIN(1, 0);
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}
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/*
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sensor read loop
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*/
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void AP_InertialSensor_ADIS1647x::loop(void)
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{
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while (true) {
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uint32_t tstart = AP_HAL::micros();
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// we deliberately set the period a bit fast to ensure we
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// don't lose a sample
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const uint32_t period_us = 480;
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2020-04-20 19:34:47 -03:00
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bool wait_ok = false;
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if (drdy_pin != 0) {
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// when we have a DRDY pin then wait for it to go high
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DEBUG_SET_PIN(0, 1);
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wait_ok = hal.gpio->wait_pin(drdy_pin, AP_HAL::GPIO::INTERRUPT_RISING, 1000);
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DEBUG_SET_PIN(0, 0);
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}
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2020-04-05 04:19:00 -03:00
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read_sensor();
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uint32_t dt = AP_HAL::micros() - tstart;
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if (dt < period_us) {
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2020-04-20 19:34:47 -03:00
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uint32_t wait_us = period_us - dt;
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if (!wait_ok || wait_us > period_us/2) {
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DEBUG_SET_PIN(3, 1);
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hal.scheduler->delay_microseconds(wait_us);
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DEBUG_SET_PIN(3, 0);
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}
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2020-04-05 04:19:00 -03:00
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}
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}
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}
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bool AP_InertialSensor_ADIS1647x::update()
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{
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update_accel(accel_instance);
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update_gyro(gyro_instance);
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return true;
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}
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