mirror of https://github.com/ArduPilot/ardupilot
1113 lines
37 KiB
C++
1113 lines
37 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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/*
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driver for Invensensev3 IMUs
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Supported:
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ICM-40609
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ICM-42688
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ICM-42605
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ICM-40605 - EOL
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IIM-42652
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ICM-42670
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ICM-45686
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Note that this sensor includes 32kHz internal sampling and an
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anti-aliasing filter, which means this driver can be a lot simpler
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than the Invensense and Invensensev2 drivers which need to handle
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8kHz sample rates to achieve decent aliasing protection
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*/
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#include <AP_HAL/AP_HAL.h>
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#include "AP_InertialSensor_Invensensev3.h"
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#include <utility>
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#include <stdio.h>
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#include <GCS_MAVLink/GCS.h>
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extern const AP_HAL::HAL& hal;
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// set bit 0x80 in register ID for read on SPI
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#define BIT_READ_FLAG 0x80
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// registers we use
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#define INV3REG_WHOAMI 0x75
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#define INV3REG_FIFO_CONFIG 0x16
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#define INV3REG_PWR_MGMT0 0x4e
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#define INV3REG_GYRO_CONFIG0 0x4f
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#define INV3REG_ACCEL_CONFIG0 0x50
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#define INV3REG_GYRO_CONFIG1 0x51
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#define INV3REG_GYRO_ACCEL_CONFIG0 0x52
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#define INV3REG_ACCEL_CONFIG1 0x53
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#define INV3REG_FIFO_CONFIG1 0x5f
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#define INV3REG_FIFO_CONFIG2 0x60
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#define INV3REG_FIFO_CONFIG3 0x61
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#define INV3REG_SIGNAL_PATH_RESET 0x4b
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#define INV3REG_INTF_CONFIG0 0x4c
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#define INV3REG_FIFO_COUNTH 0x2e
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#define INV3REG_FIFO_DATA 0x30
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#define INV3REG_BANK_SEL 0x76
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#define INV3REG_DEVICE_CONFIG 0x11
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#define INV3REG_INT_STATUS 0x2D
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// ICM42688 bank1
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#define INV3REG_GYRO_CONFIG_STATIC2 0x0B
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#define INV3REG_GYRO_CONFIG_STATIC3 0x0C
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#define INV3REG_GYRO_CONFIG_STATIC4 0x0D
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#define INV3REG_GYRO_CONFIG_STATIC5 0x0E
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// ICM42688 bank2
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#define INV3REG_ACCEL_CONFIG_STATIC2 0x03
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#define INV3REG_ACCEL_CONFIG_STATIC3 0x04
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#define INV3REG_ACCEL_CONFIG_STATIC4 0x05
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// registers for ICM-42670, multi-bank
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#define INV3REG_70_PWR_MGMT0 0x1F
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#define INV3REG_70_GYRO_CONFIG0 0x20
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#define INV3REG_70_GYRO_CONFIG1 0x23
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#define INV3REG_70_ACCEL_CONFIG0 0x21
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#define INV3REG_70_ACCEL_CONFIG1 0x24
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#define INV3REG_70_FIFO_COUNTH 0x3D
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#define INV3REG_70_FIFO_DATA 0x3F
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#define INV3REG_70_INTF_CONFIG0 0x35
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#define INV3REG_70_MCLK_RDY 0x00
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#define INV3REG_70_SIGNAL_PATH_RESET 0x02
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#define INV3REG_70_FIFO_CONFIG1 0x28
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#define INV3REG_BLK_SEL_W 0x79
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#define INV3REG_BLK_SEL_R 0x7C
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#define INV3REG_MADDR_W 0x7A
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#define INV3REG_MADDR_R 0x7D
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#define INV3REG_M_W 0x7B
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#define INV3REG_M_R 0x7E
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#define INV3REG_BANK_MREG1 0x00
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#define INV3REG_BANK_MREG2 0x28
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#define INV3REG_BANK_MREG3 0x50
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#define INV3REG_MREG1_FIFO_CONFIG5 0x1
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#define INV3REG_MREG1_SENSOR_CONFIG3 0x06
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#define INV3REG_456_WHOAMI 0x72
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#define INV3REG_456_PWR_MGMT0 0x10
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#define INV3REG_456_INT1_STATUS0 0x19
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#define INV3REG_456_ACCEL_CONFIG0 0x1B
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#define INV3REG_456_GYRO_CONFIG0 0x1C
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#define INV3REG_456_FIFO_CONFIG0 0x1D
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#define INV3REG_456_FIFO_CONFIG2 0x20
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#define INV3REG_456_FIFO_CONFIG3 0x21
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#define INV3REG_456_FIFO_CONFIG4 0x22
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#define INV3REG_456_RTC_CONFIG 0x26
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#define INV3REG_456_FIFO_COUNTH 0x12
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#define INV3REG_456_FIFO_COUNTL 0x13
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#define INV3REG_456_FIFO_DATA 0x14
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#define INV3REG_456_INTF_CONFIG0 0x2C
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#define INV3REG_456_IOC_PAD_SCENARIO 0x2F
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#define INV3REG_456_IOC_PAD_SCENARIO_AUX_OVRD 0x30
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#define INV3REG_456_IOC_PAD_SCENARIO_OVRD 0x31
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#define INV3REG_456_PWR_MGMT_AUX1 0x54
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#define INV3REG_456_IREG_ADDRH 0x7C
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#define INV3REG_456_IREG_ADDRL 0x7D
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#define INV3REG_456_IREG_DATA 0x7E
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#define INV3REG_456_REG_MISC2 0x7F
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#define INV3REG_456_SREG_CTRL 0x63
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#define INV3BANK_456_IMEM_SRAM_ADDR 0x0000
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#define INV3BANK_456_IPREG_BAR_ADDR 0xA000
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#define INV3BANK_456_IPREG_TOP1_ADDR 0xA200
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#define INV3BANK_456_IPREG_SYS1_ADDR 0xA400
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#define INV3BANK_456_IPREG_SYS2_ADDR 0xA500
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// ICM42xxx specific registers
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#define INV3REG_42XXX_INTF_CONFIG1 0x4d
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// WHOAMI values
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#define INV3_ID_ICM40605 0x33
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#define INV3_ID_ICM40609 0x3b
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#define INV3_ID_ICM42605 0x42
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#define INV3_ID_ICM42688 0x47
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#define INV3_ID_IIM42652 0x6f
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#define INV3_ID_ICM42670 0x67
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#define INV3_ID_ICM45686 0xE9
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// enable logging at FIFO rate for debugging
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#define INV3_ENABLE_FIFO_LOGGING 0
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/*
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really nice that this sensor has an option to request little-endian
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data
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*/
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struct PACKED FIFOData {
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uint8_t header;
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int16_t accel[3];
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int16_t gyro[3];
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int8_t temperature;
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uint16_t timestamp;
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};
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struct PACKED FIFODataHighRes {
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uint8_t header;
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uint8_t accel[6];
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uint8_t gyro[6];
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int16_t temperature;
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uint16_t timestamp;
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uint8_t gx : 4, ax : 4, gy : 4, ay : 4, gz : 4, az : 4;
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};
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#define INV3_SAMPLE_SIZE sizeof(FIFOData)
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#define INV3_HIGHRES_SAMPLE_SIZE sizeof(FIFODataHighRes)
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static_assert(sizeof(FIFOData) == 16);
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static_assert(sizeof(FIFODataHighRes) == 20);
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#define INV3_FIFO_BUFFER_LEN 8
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AP_InertialSensor_Invensensev3::AP_InertialSensor_Invensensev3(AP_InertialSensor &imu,
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AP_HAL::OwnPtr<AP_HAL::Device> _dev,
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enum Rotation _rotation)
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: AP_InertialSensor_Backend(imu)
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, rotation(_rotation)
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, dev(std::move(_dev))
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{
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}
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AP_InertialSensor_Invensensev3::~AP_InertialSensor_Invensensev3()
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{
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#if HAL_INS_HIGHRES_SAMPLE
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if (highres_sampling) {
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if (fifo_buffer != nullptr) {
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hal.util->free_type(fifo_buffer, INV3_FIFO_BUFFER_LEN * INV3_HIGHRES_SAMPLE_SIZE, AP_HAL::Util::MEM_DMA_SAFE);
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}
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} else
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#endif
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if (fifo_buffer != nullptr) {
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hal.util->free_type(fifo_buffer, INV3_FIFO_BUFFER_LEN * INV3_SAMPLE_SIZE, AP_HAL::Util::MEM_DMA_SAFE);
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}
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}
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AP_InertialSensor_Backend *AP_InertialSensor_Invensensev3::probe(AP_InertialSensor &imu,
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AP_HAL::OwnPtr<AP_HAL::Device> _dev,
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enum Rotation _rotation)
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{
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if (!_dev) {
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return nullptr;
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}
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if (_dev->bus_type() == AP_HAL::Device::BUS_TYPE_SPI) {
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_dev->set_read_flag(BIT_READ_FLAG);
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}
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AP_InertialSensor_Invensensev3 *sensor =
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new AP_InertialSensor_Invensensev3(imu, std::move(_dev), _rotation);
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if (!sensor || !sensor->hardware_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_Invensensev3::fifo_reset()
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{
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if (inv3_type == Invensensev3_Type::ICM42670) {
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// FIFO_FLUSH
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register_write(INV3REG_70_SIGNAL_PATH_RESET, 0x04);
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} else if (inv3_type == Invensensev3_Type::ICM45686) {
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// FIFO_FLUSH
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register_write(INV3REG_456_FIFO_CONFIG2, 0x80);
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register_write(INV3REG_456_FIFO_CONFIG2, 0x00, true);
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} else {
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// FIFO_MODE stop-on-full
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register_write(INV3REG_FIFO_CONFIG, 0x80);
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// FIFO partial disable, enable accel, gyro, temperature
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register_write(INV3REG_FIFO_CONFIG1, fifo_config1);
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// little-endian, fifo count in records, last data hold for ODR mismatch
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register_write(INV3REG_INTF_CONFIG0, 0xC0);
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register_write(INV3REG_SIGNAL_PATH_RESET, 2);
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}
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notify_accel_fifo_reset(accel_instance);
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notify_gyro_fifo_reset(gyro_instance);
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}
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void AP_InertialSensor_Invensensev3::start()
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{
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// pre-fetch instance numbers for checking fast sampling settings
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if (!_imu.get_gyro_instance(gyro_instance) || !_imu.get_accel_instance(accel_instance)) {
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return;
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}
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WITH_SEMAPHORE(dev->get_semaphore());
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// initially run the bus at low speed
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dev->set_speed(AP_HAL::Device::SPEED_LOW);
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enum DevTypes devtype = DEVTYPE_INS_ICM42688;
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fifo_config1 = 0x07;
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switch (inv3_type) {
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case Invensensev3_Type::IIM42652:
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devtype = DEVTYPE_INS_IIM42652;
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temp_sensitivity = 1.0 / 2.07;
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break;
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case Invensensev3_Type::ICM42688:
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devtype = DEVTYPE_INS_ICM42688;
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temp_sensitivity = 1.0 / 2.07;
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break;
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case Invensensev3_Type::ICM42605:
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devtype = DEVTYPE_INS_ICM42605;
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temp_sensitivity = 1.0 / 2.07;
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break;
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case Invensensev3_Type::ICM40605:
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devtype = DEVTYPE_INS_ICM40605;
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fifo_config1 = 0x0F;
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temp_sensitivity = 1.0 * 128 / 115.49;
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break;
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case Invensensev3_Type::ICM42670:
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devtype = DEVTYPE_INS_ICM42670;
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temp_sensitivity = 1.0 / 2.0;
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break;
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case Invensensev3_Type::ICM45686:
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devtype = DEVTYPE_INS_ICM45686;
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temp_sensitivity = 1.0 / 2.0;
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gyro_scale = GYRO_SCALE_4000DPS;
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accel_scale = ACCEL_SCALE_32G;
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break;
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case Invensensev3_Type::ICM40609:
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devtype = DEVTYPE_INS_ICM40609;
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temp_sensitivity = 1.0 / 2.07;
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accel_scale = ACCEL_SCALE_32G;
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break;
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}
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#if HAL_INS_HIGHRES_SAMPLE
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// now we know who we are, other things can be checked for
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if (enable_highres_sampling(accel_instance)) {
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switch (inv3_type) {
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case Invensensev3_Type::ICM42688: // HiRes 19bit
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case Invensensev3_Type::IIM42652: // HiRes 19bit
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case Invensensev3_Type::ICM42670: // HiRes 19bit
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case Invensensev3_Type::ICM45686: // HiRes 20bit
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highres_sampling = dev->bus_type() == AP_HAL::Device::BUS_TYPE_SPI;
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break;
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case Invensensev3_Type::ICM40609: // No HiRes
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case Invensensev3_Type::ICM42605:
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case Invensensev3_Type::ICM40605:
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break;
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}
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}
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// optionally enable high resolution mode
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if (highres_sampling) {
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fifo_config1 |= (1U<<4); // FIFO_HIRES_EN
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gyro_scale = GYRO_SCALE_HIGHRES_2000DPS;
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accel_scale = ACCEL_SCALE_HIGHRES_16G;
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temp_sensitivity = 1.0 / 132.48;
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if (inv3_type == Invensensev3_Type::ICM45686) {
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temp_sensitivity = 1.0 / 128.0;
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accel_scale = ACCEL_SCALE_HIGHRES_32G;
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gyro_scale = GYRO_SCALE_HIGHRES_4000DPS;
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} else if (inv3_type == Invensensev3_Type::ICM42670) {
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temp_sensitivity = 1.0 / 128.0;
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}
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}
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#endif
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// always use FIFO
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fifo_reset();
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// setup on-sensor filtering and scaling and backend rate
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if (inv3_type == Invensensev3_Type::ICM42670) {
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set_filter_and_scaling_icm42670();
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} else if (inv3_type == Invensensev3_Type::ICM45686) {
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set_filter_and_scaling_icm456xy();
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} else {
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set_filter_and_scaling();
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}
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// pre-calculate backend period
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backend_period_us = 1000000UL / backend_rate_hz;
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if (!_imu.register_gyro(gyro_instance, backend_rate_hz, dev->get_bus_id_devtype(devtype)) ||
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!_imu.register_accel(accel_instance, backend_rate_hz, dev->get_bus_id_devtype(devtype))) {
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return;
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}
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// update backend sample rate
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_set_accel_raw_sample_rate(accel_instance, backend_rate_hz);
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_set_gyro_raw_sample_rate(gyro_instance, backend_rate_hz);
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// indicate what multiplier is appropriate for the sensors'
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// readings to fit them into an int16_t:
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_set_raw_sample_accel_multiplier(accel_instance, multiplier_accel);
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// now that we have initialised, we set the bus speed to high
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dev->set_speed(AP_HAL::Device::SPEED_HIGH);
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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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// allocate fifo buffer
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#if HAL_INS_HIGHRES_SAMPLE
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if (highres_sampling) {
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fifo_buffer = hal.util->malloc_type(INV3_FIFO_BUFFER_LEN * INV3_HIGHRES_SAMPLE_SIZE, AP_HAL::Util::MEM_DMA_SAFE);
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} else
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#endif
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fifo_buffer = hal.util->malloc_type(INV3_FIFO_BUFFER_LEN * INV3_SAMPLE_SIZE, AP_HAL::Util::MEM_DMA_SAFE);
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if (fifo_buffer == nullptr) {
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AP_HAL::panic("Invensensev3: Unable to allocate FIFO buffer");
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}
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// start the timer process to read samples, using the fastest rate avilable
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periodic_handle = dev->register_periodic_callback(backend_period_us, FUNCTOR_BIND_MEMBER(&AP_InertialSensor_Invensensev3::read_fifo, void));
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}
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// get a startup banner to output to the GCS
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bool AP_InertialSensor_Invensensev3::get_output_banner(char* banner, uint8_t banner_len) {
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if (fast_sampling) {
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snprintf(banner, banner_len, "IMU%u: fast%s sampling enabled %.1fkHz",
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gyro_instance,
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#if HAL_INS_HIGHRES_SAMPLE
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highres_sampling ? ", high-resolution" :
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#endif
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"" , backend_rate_hz * 0.001);
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return true;
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}
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return false;
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}
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/*
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publish any pending data
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*/
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bool AP_InertialSensor_Invensensev3::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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_publish_temperature(accel_instance, temp_filtered);
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return true;
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}
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/*
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accumulate new samples
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*/
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void AP_InertialSensor_Invensensev3::accumulate()
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{
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// nothing to do
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}
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bool AP_InertialSensor_Invensensev3::accumulate_samples(const FIFOData *data, uint8_t n_samples)
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{
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#if INV3_ENABLE_FIFO_LOGGING
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const uint64_t tstart = AP_HAL::micros64();
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#endif
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for (uint8_t i = 0; i < n_samples; i++) {
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const FIFOData &d = data[i];
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// we have a header to confirm we don't have FIFO corruption! no more mucking
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// about with the temperature registers
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// ICM45686 - TMST_FIELD_EN bit 3 : 1
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// ICM42688 - HEADER_TIMESTAMP_FSYNC bit 2-3 : 10
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if ((d.header & 0xFC) != 0x68) { // ACCEL_EN | GYRO_EN | TMST_FIELD_EN
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// no or bad data
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return false;
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}
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Vector3f accel{float(d.accel[0]), float(d.accel[1]), float(d.accel[2])};
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Vector3f gyro{float(d.gyro[0]), float(d.gyro[1]), float(d.gyro[2])};
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accel *= accel_scale;
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gyro *= gyro_scale;
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#if INV3_ENABLE_FIFO_LOGGING
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Write_GYR(gyro_instance, tstart+(i*backend_period_us), gyro, true);
|
|
#endif
|
|
|
|
const float temp = d.temperature * temp_sensitivity + temp_zero;
|
|
|
|
// these four calls are about 40us
|
|
_rotate_and_correct_accel(accel_instance, accel);
|
|
_rotate_and_correct_gyro(gyro_instance, gyro);
|
|
|
|
_notify_new_accel_raw_sample(accel_instance, accel, 0);
|
|
_notify_new_gyro_raw_sample(gyro_instance, gyro);
|
|
|
|
temp_filtered = temp_filter.apply(temp);
|
|
}
|
|
return true;
|
|
}
|
|
|
|
#if HAL_INS_HIGHRES_SAMPLE
|
|
// high-resolution packets are always 20-bits, but not always 20-bits of data.
|
|
// Scale factors account for the useless bits
|
|
static inline float uint20_to_float(uint8_t msb, uint8_t bits, uint8_t lsb)
|
|
{
|
|
uint32_t value20bit = uint32_t(msb) << 12U | uint32_t(bits) << 4U | lsb;
|
|
int32_t value32bit;
|
|
// Check the sign bit (MSB)
|
|
if (value20bit & 0x80000) { // MSB is set (negative value)
|
|
// Extend the sign bit to the upper 12 bits of the 32-bit integer
|
|
value32bit = (int32_t)(value20bit | 0xFFF00000);
|
|
} else { // MSB is not set (positive value)
|
|
// Zero-fill the upper 12 bits of the 32-bit integer
|
|
value32bit = value20bit;
|
|
}
|
|
|
|
return float(value32bit);
|
|
}
|
|
|
|
|
|
bool AP_InertialSensor_Invensensev3::accumulate_highres_samples(const FIFODataHighRes *data, uint8_t n_samples)
|
|
{
|
|
#if INV3_ENABLE_FIFO_LOGGING
|
|
const uint64_t tstart = AP_HAL::micros64();
|
|
#endif
|
|
for (uint8_t i = 0; i < n_samples; i++) {
|
|
const FIFODataHighRes &d = data[i];
|
|
|
|
// we have a header to confirm we don't have FIFO corruption! no more mucking
|
|
// about with the temperature registers
|
|
if ((d.header & 0xFC) != 0x78) { // ACCEL_EN | GYRO_EN | HIRES_EN | TMST_FIELD_EN
|
|
// no or bad data
|
|
return false;
|
|
}
|
|
|
|
Vector3f accel{uint20_to_float(d.accel[1], d.accel[0], d.ax),
|
|
uint20_to_float(d.accel[3], d.accel[2], d.ay),
|
|
uint20_to_float(d.accel[5], d.accel[4], d.az)};
|
|
Vector3f gyro{uint20_to_float(d.gyro[1], d.gyro[0], d.gx),
|
|
uint20_to_float(d.gyro[3], d.gyro[2], d.gy),
|
|
uint20_to_float(d.gyro[5], d.gyro[4], d.gz)};
|
|
|
|
accel *= accel_scale;
|
|
gyro *= gyro_scale;
|
|
|
|
#if INV3_ENABLE_FIFO_LOGGING
|
|
Write_GYR(gyro_instance, tstart+(i*backend_period_us), gyro, true);
|
|
#endif
|
|
const float temp = d.temperature * temp_sensitivity + temp_zero;
|
|
|
|
// these four calls are about 40us
|
|
_rotate_and_correct_accel(accel_instance, accel);
|
|
_rotate_and_correct_gyro(gyro_instance, gyro);
|
|
|
|
_notify_new_accel_raw_sample(accel_instance, accel, 0);
|
|
_notify_new_gyro_raw_sample(gyro_instance, gyro);
|
|
|
|
temp_filtered = temp_filter.apply(temp);
|
|
}
|
|
return true;
|
|
}
|
|
#endif
|
|
|
|
/*
|
|
timer function called at ODR rate
|
|
*/
|
|
void AP_InertialSensor_Invensensev3::read_fifo()
|
|
{
|
|
bool need_reset = false;
|
|
uint16_t n_samples;
|
|
|
|
uint8_t reg_counth;
|
|
uint8_t reg_data;
|
|
|
|
switch (inv3_type) {
|
|
case Invensensev3_Type::ICM45686:
|
|
reg_counth = INV3REG_456_FIFO_COUNTH;
|
|
reg_data = INV3REG_456_FIFO_DATA;
|
|
break;
|
|
case Invensensev3_Type::ICM42670:
|
|
reg_counth = INV3REG_70_FIFO_COUNTH;
|
|
reg_data = INV3REG_70_FIFO_DATA;
|
|
break;
|
|
default:
|
|
reg_counth = INV3REG_FIFO_COUNTH;
|
|
reg_data = INV3REG_FIFO_DATA;
|
|
break;
|
|
}
|
|
|
|
#if HAL_INS_HIGHRES_SAMPLE
|
|
const uint8_t fifo_sample_size = highres_sampling ? INV3_HIGHRES_SAMPLE_SIZE : INV3_SAMPLE_SIZE;
|
|
#else
|
|
const uint8_t fifo_sample_size = INV3_SAMPLE_SIZE;
|
|
#endif
|
|
if (!block_read(reg_counth, (uint8_t*)&n_samples, 2)) {
|
|
goto check_registers;
|
|
}
|
|
|
|
if (n_samples == 0) {
|
|
/* Not enough data in FIFO */
|
|
goto check_registers;
|
|
}
|
|
|
|
// adjust the periodic callback to be synchronous with the incoming data
|
|
// this means that we rarely run read_fifo() without updating the sensor data
|
|
dev->adjust_periodic_callback(periodic_handle, backend_period_us);
|
|
|
|
while (n_samples > 0) {
|
|
uint8_t n = MIN(n_samples, INV3_FIFO_BUFFER_LEN);
|
|
if (!block_read(reg_data, (uint8_t*)fifo_buffer, n * fifo_sample_size)) {
|
|
goto check_registers;
|
|
}
|
|
#if HAL_INS_HIGHRES_SAMPLE
|
|
if (highres_sampling) {
|
|
if (!accumulate_highres_samples((FIFODataHighRes*)fifo_buffer, n)) {
|
|
need_reset = true;
|
|
break;
|
|
}
|
|
} else
|
|
#endif
|
|
if (!accumulate_samples((FIFOData*)fifo_buffer, n)) {
|
|
need_reset = true;
|
|
break;
|
|
}
|
|
n_samples -= n;
|
|
}
|
|
|
|
if (need_reset) {
|
|
fifo_reset();
|
|
}
|
|
|
|
check_registers:
|
|
// check next register value for correctness
|
|
dev->set_speed(AP_HAL::Device::SPEED_LOW);
|
|
AP_HAL::Device::checkreg reg;
|
|
if (!dev->check_next_register(reg)) {
|
|
log_register_change(dev->get_bus_id(), reg);
|
|
_inc_gyro_error_count(gyro_instance);
|
|
_inc_accel_error_count(accel_instance);
|
|
}
|
|
dev->set_speed(AP_HAL::Device::SPEED_HIGH);
|
|
}
|
|
|
|
bool AP_InertialSensor_Invensensev3::block_read(uint8_t reg, uint8_t *buf, uint32_t size)
|
|
{
|
|
return dev->read_registers(reg, buf, size);
|
|
}
|
|
|
|
uint8_t AP_InertialSensor_Invensensev3::register_read(uint8_t reg)
|
|
{
|
|
uint8_t val = 0;
|
|
dev->read_registers(reg, &val, 1);
|
|
return val;
|
|
}
|
|
|
|
void AP_InertialSensor_Invensensev3::register_write(uint8_t reg, uint8_t val, bool checked)
|
|
{
|
|
dev->write_register(reg, val, checked);
|
|
}
|
|
|
|
/*
|
|
read a bank register, only used on startup
|
|
*/
|
|
uint8_t AP_InertialSensor_Invensensev3::register_read_bank(uint8_t bank, uint8_t reg)
|
|
{
|
|
if (inv3_type == Invensensev3_Type::ICM42670) {
|
|
// the ICM42670 has a complex bank setup
|
|
register_write(INV3REG_BLK_SEL_R, bank);
|
|
register_write(INV3REG_MADDR_R, reg);
|
|
hal.scheduler->delay_microseconds(10);
|
|
const uint8_t val = register_read(INV3REG_M_R);
|
|
hal.scheduler->delay_microseconds(10);
|
|
register_write(INV3REG_BLK_SEL_R, 0);
|
|
return val;
|
|
}
|
|
register_write(INV3REG_BANK_SEL, bank);
|
|
const uint8_t val = register_read(reg);
|
|
register_write(INV3REG_BANK_SEL, 0);
|
|
return val;
|
|
}
|
|
|
|
/*
|
|
write to a bank register. This is only used on startup, so can use
|
|
sleeps to wait for success
|
|
*/
|
|
void AP_InertialSensor_Invensensev3::register_write_bank(uint8_t bank, uint8_t reg, uint8_t val)
|
|
{
|
|
if (inv3_type == Invensensev3_Type::ICM42670) {
|
|
// the ICM42670 has a complex bank setup
|
|
register_write(INV3REG_BLK_SEL_W, bank);
|
|
register_write(INV3REG_MADDR_W, reg);
|
|
register_write(INV3REG_M_W, val);
|
|
hal.scheduler->delay_microseconds(10);
|
|
register_write(INV3REG_BLK_SEL_W, 0);
|
|
hal.scheduler->delay_microseconds(10);
|
|
} else {
|
|
register_write(INV3REG_BANK_SEL, bank);
|
|
register_write(reg, val);
|
|
register_write(INV3REG_BANK_SEL, 0);
|
|
}
|
|
}
|
|
|
|
// calculate the fast sampling backend rate
|
|
uint16_t AP_InertialSensor_Invensensev3::calculate_fast_sampling_backend_rate(uint16_t base_odr, uint16_t max_odr) const
|
|
{
|
|
// constrain the gyro rate to be at least the loop rate
|
|
uint8_t loop_limit = 1;
|
|
if (get_loop_rate_hz() > base_odr) {
|
|
loop_limit = 2;
|
|
}
|
|
if (get_loop_rate_hz() > base_odr * 2) {
|
|
loop_limit = 4;
|
|
}
|
|
// constrain the gyro rate to be a 2^N multiple
|
|
uint8_t fast_sampling_rate = constrain_int16(get_fast_sampling_rate(), loop_limit, 8);
|
|
|
|
// calculate rate we will be giving samples to the backend
|
|
return constrain_int16(base_odr * fast_sampling_rate, base_odr, max_odr);
|
|
}
|
|
|
|
/*
|
|
set the filter frequencies and scaling
|
|
|
|
The AAF for gyros needs to be high enough to avoid group delay and low enough to have
|
|
(ideally) 40dB at the nyquist frequency so that noise above this is not folded into the
|
|
range seen by ArduPilot. A reasonable approximation for the former is 1Khz and for the latter
|
|
1/4 of the sample frequency, so for 1/4 sample frequency > 1Khz we pick 1Khz and for 1/4 sample
|
|
frequency < 1Khz we use 1/4 sample frequency.
|
|
|
|
The AAF for accels is set lower to minimise noise and clipping. The constraint is that the
|
|
group delay between gyros and accels should be <5ms to avoid inertial nav errors.
|
|
|
|
The UI filter block cannot be disabled and is fixed at ODR/4. This is a 2p filter by default
|
|
(as is the AAF). Since the order of the UI filter does not appear to significantly affect
|
|
group delay at higher ODRs it is left at the default. The group delay of the AAF is not documented,
|
|
but we assume it is similar to the UI 2p performance:
|
|
|
|
2Khz - 0.2ms
|
|
1Khz - 0.4ms
|
|
666Hz - 0.6ms
|
|
500Hz - 0.8ms
|
|
333Hz - 2.0ms
|
|
190Hz - 2.4ms
|
|
|
|
Since the UI group delay is the same for both accels and gyros we only need to consider the
|
|
difference in group delay for the AAFs. At the highest ODR of 4Khz or 8Khz the group delay for
|
|
gyros will be 0.4ms thus the accel AAF can safely be set to ~190Hz.
|
|
*/
|
|
void AP_InertialSensor_Invensensev3::set_filter_and_scaling(void)
|
|
{
|
|
// 1KHz by default
|
|
backend_rate_hz = 1000;
|
|
uint8_t odr_config = 0x06;
|
|
|
|
// AAF at ~1/4 of 1Khz by default for gyros- 258Hz
|
|
// AAF at 213Hz for accels
|
|
uint8_t aaf_delt = 6, accel_aaf_delt = 5;
|
|
uint16_t aaf_deltsqr = 36, accel_aaf_deltsqr = 25;
|
|
uint8_t aaf_bitshift = 10, accel_aaf_bitshift = 10;
|
|
|
|
// limited filtering on ICM-42605
|
|
if (inv3_type == Invensensev3_Type::ICM42605) {
|
|
// 249Hz AAF gyros
|
|
aaf_delt = 21;
|
|
aaf_deltsqr = 440;
|
|
aaf_bitshift = 6;
|
|
// 184Hz AAF accels
|
|
accel_aaf_delt = 16;
|
|
accel_aaf_deltsqr = 256;
|
|
accel_aaf_bitshift = 7;
|
|
}
|
|
|
|
// checked for
|
|
// ICM-40609
|
|
// ICM-42688
|
|
// ICM-42605
|
|
// IIM-42652
|
|
if (enable_fast_sampling(accel_instance) && get_fast_sampling_rate() > 1) {
|
|
fast_sampling = dev->bus_type() == AP_HAL::Device::BUS_TYPE_SPI;
|
|
|
|
if (fast_sampling) {
|
|
backend_rate_hz = calculate_fast_sampling_backend_rate(backend_rate_hz, 8 * backend_rate_hz);
|
|
|
|
// limited filtering on ICM-42605
|
|
if (inv3_type == Invensensev3_Type::ICM42605) {
|
|
switch (backend_rate_hz) {
|
|
case 2000: // 2KHz
|
|
odr_config = 0x05;
|
|
// 507Hz AAF
|
|
aaf_delt = 47;
|
|
aaf_deltsqr = 2208;
|
|
aaf_bitshift = 4;
|
|
break;
|
|
case 4000: // 4KHz
|
|
// 995Hz AAF
|
|
aaf_delt = 63;
|
|
aaf_deltsqr = 3968;
|
|
aaf_bitshift = 3;
|
|
odr_config = 0x04;
|
|
break;
|
|
case 8000: // 8Khz
|
|
// 995Hz AAF
|
|
aaf_delt = 63;
|
|
aaf_deltsqr = 3968;
|
|
aaf_bitshift = 3;
|
|
odr_config = 0x03;
|
|
break;
|
|
default: // 1Khz, 334Hz AAF
|
|
break;
|
|
}
|
|
} else {
|
|
// ICM-42688 / ICM-40609 / IIM-426525
|
|
switch (backend_rate_hz) {
|
|
case 2000: // 2KHz
|
|
odr_config = 0x05;
|
|
// 536Hz AAF
|
|
aaf_delt = 12;
|
|
aaf_deltsqr = 144;
|
|
aaf_bitshift = 8;
|
|
break;
|
|
case 4000: // 4KHz
|
|
odr_config = 0x04;
|
|
// 997Hz AAF
|
|
aaf_delt = 21;
|
|
aaf_deltsqr = 440;
|
|
aaf_bitshift = 6;
|
|
break;
|
|
case 8000: // 8Khz
|
|
odr_config = 0x03;
|
|
// 997Hz AAF
|
|
aaf_delt = 21;
|
|
aaf_deltsqr = 440;
|
|
aaf_bitshift = 6;
|
|
break;
|
|
default: // 1KHz, 348Hz AAF
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
// disable gyro and accel as per 12.9 in the ICM-42688 docs
|
|
register_write(INV3REG_PWR_MGMT0, 0x00);
|
|
|
|
// setup gyro for backend rate
|
|
register_write(INV3REG_GYRO_CONFIG0, odr_config);
|
|
// setup accel for backend rate
|
|
register_write(INV3REG_ACCEL_CONFIG0, odr_config);
|
|
|
|
// setup anti-alias filters for gyro at 1/4 ODR, notch left at default
|
|
// The defaults for 42605 and 42609 are different to the 42688, make sure AAF and notch are enabled on all
|
|
uint8_t aaf_enable = register_read_bank(1, INV3REG_GYRO_CONFIG_STATIC2);
|
|
register_write_bank(1, INV3REG_GYRO_CONFIG_STATIC2, aaf_enable & ~0x03);
|
|
register_write_bank(1, INV3REG_GYRO_CONFIG_STATIC3, aaf_delt); // GYRO_AAF_DELT
|
|
register_write_bank(1, INV3REG_GYRO_CONFIG_STATIC4, (aaf_deltsqr & 0xFF)); // GYRO_AAF_DELTSQR
|
|
register_write_bank(1, INV3REG_GYRO_CONFIG_STATIC5, ((aaf_bitshift<<4) & 0xF0) | ((aaf_deltsqr>>8) & 0x0F)); // GYRO_AAF_BITSHIFT | GYRO_AAF_DELTSQR
|
|
|
|
// setup accel AAF at fixed ~500Hz
|
|
register_write_bank(2, INV3REG_ACCEL_CONFIG_STATIC2, accel_aaf_delt<<1); // ACCEL_AAF_DELT | enabled bit
|
|
register_write_bank(2, INV3REG_ACCEL_CONFIG_STATIC3, (accel_aaf_deltsqr & 0xFF)); // ACCEL_AAF_DELTSQR
|
|
register_write_bank(2, INV3REG_ACCEL_CONFIG_STATIC4, ((accel_aaf_bitshift<<4) & 0xF0) | ((accel_aaf_deltsqr>>8) & 0x0F)); // ACCEL_AAF_BITSHIFT | ACCEL_AAF_DELTSQR
|
|
|
|
switch (inv3_type) {
|
|
case Invensensev3_Type::ICM42688:
|
|
case Invensensev3_Type::ICM42605:
|
|
case Invensensev3_Type::IIM42652:
|
|
case Invensensev3_Type::ICM42670: {
|
|
/*
|
|
fix for the "stuck gyro" issue, which affects all IxM42xxx
|
|
sensors. This disables the AFSR feature which changes the
|
|
noise sensitivity with angular rate. When the switch happens
|
|
(at around 100 deg/sec) the gyro gets stuck for around 2ms,
|
|
producing constant output which causes a DC gyro bias
|
|
*/
|
|
const uint8_t v = register_read(INV3REG_42XXX_INTF_CONFIG1);
|
|
register_write(INV3REG_42XXX_INTF_CONFIG1, (v & 0x3F) | 0x40, true);
|
|
break;
|
|
}
|
|
case Invensensev3_Type::ICM40605:
|
|
case Invensensev3_Type::ICM40609:
|
|
case Invensensev3_Type::ICM45686:
|
|
break;
|
|
}
|
|
|
|
// enable gyro and accel in low-noise modes
|
|
register_write(INV3REG_PWR_MGMT0, 0x0F);
|
|
hal.scheduler->delay_microseconds(300);
|
|
}
|
|
|
|
/*
|
|
set the filter frequencies and scaling for the ICM-42670
|
|
*/
|
|
void AP_InertialSensor_Invensensev3::set_filter_and_scaling_icm42670(void)
|
|
{
|
|
backend_rate_hz = 1600;
|
|
// use low-noise mode
|
|
register_write(INV3REG_70_PWR_MGMT0, 0x0f);
|
|
hal.scheduler->delay_microseconds(300);
|
|
|
|
// setup gyro for 1.6kHz, 2000dps range
|
|
register_write(INV3REG_70_GYRO_CONFIG0, 0x05);
|
|
// Low noise mode uses an AAF with fixed bandwidth, so disable LPF
|
|
register_write(INV3REG_70_GYRO_CONFIG1, 0x30);
|
|
|
|
// setup accel for 1.6kHz, 16g range
|
|
register_write(INV3REG_70_ACCEL_CONFIG0, 0x05);
|
|
// AAF is not available for accels, so LPF at 180Hz
|
|
register_write(INV3REG_70_ACCEL_CONFIG1, 0x01);
|
|
|
|
// fix "stuck" gyro issue
|
|
const uint8_t v = register_read(INV3REG_42XXX_INTF_CONFIG1);
|
|
register_write(INV3REG_42XXX_INTF_CONFIG1, (v & 0x3F) | 0x40);
|
|
}
|
|
|
|
/*
|
|
set the filter frequencies and scaling for the ICM-456xy
|
|
*/
|
|
void AP_InertialSensor_Invensensev3::set_filter_and_scaling_icm456xy(void)
|
|
{
|
|
uint8_t odr_config = 4;
|
|
backend_rate_hz = 1600;
|
|
// always fast sampling
|
|
fast_sampling = dev->bus_type() == AP_HAL::Device::BUS_TYPE_SPI;
|
|
|
|
if (enable_fast_sampling(accel_instance) && get_fast_sampling_rate() > 1) {
|
|
backend_rate_hz = calculate_fast_sampling_backend_rate(backend_rate_hz, backend_rate_hz * 4);
|
|
}
|
|
|
|
// this sensor actually only supports 2 speeds
|
|
backend_rate_hz = constrain_int16(backend_rate_hz, 3200, 6400);
|
|
|
|
switch (backend_rate_hz) {
|
|
case 6400: // 6.4Khz
|
|
odr_config = 3;
|
|
break;
|
|
case 3200: // 3.2Khz
|
|
odr_config = 4;
|
|
break;
|
|
default:
|
|
break;
|
|
}
|
|
|
|
// Disable FIFO first
|
|
register_write(INV3REG_456_FIFO_CONFIG3, 0x00);
|
|
register_write(INV3REG_456_FIFO_CONFIG0, 0x00);
|
|
|
|
// setup gyro for 1.6-6.4kHz, 4000dps range
|
|
register_write(INV3REG_456_GYRO_CONFIG0, (0x0 << 4) | odr_config); // GYRO_UI_FS_SEL b4-7, GYRO_ODR b0-3
|
|
|
|
// setup accel for 1.6-6.4kHz, 32g range
|
|
register_write(INV3REG_456_ACCEL_CONFIG0, (0x0 << 4) | odr_config); // ACCEL_UI_FS_SEL b4-6, ACCEL_ODR b0-3
|
|
|
|
// enable timestamps on FIFO data
|
|
// SMC_CONTROL_0
|
|
uint8_t reg = register_read_bank_icm456xy(INV3BANK_456_IPREG_TOP1_ADDR, 0x58);
|
|
#ifdef ICM45686_CLKIN
|
|
reg |= (0x1<<4U); // ACCEL_LP_CLK_SEL
|
|
#endif
|
|
register_write_bank_icm456xy(INV3BANK_456_IPREG_TOP1_ADDR, 0x58, reg | 0x01);
|
|
|
|
uint8_t fifo_config = (1U<<2 | 1U<<1); // FIFO_ACCEL_EN | FIFO_GYRO_EN, FIFO_IF_EN disabled
|
|
#if HAL_INS_HIGHRES_SAMPLE
|
|
// optionally enable high resolution mode
|
|
if (highres_sampling) {
|
|
fifo_config |= (1U<<3); // FIFO_HIRES_EN
|
|
}
|
|
#endif
|
|
// enable FIFO for each sensor
|
|
register_write(INV3REG_456_FIFO_CONFIG3, fifo_config, true);
|
|
|
|
// FIFO enabled - stop-on-full, disable bypass and 2K FIFO
|
|
register_write(INV3REG_456_FIFO_CONFIG0, (2 << 6) | 0x07, true);
|
|
|
|
// enable Interpolator and Anti Aliasing Filter on Gyro
|
|
reg = register_read_bank_icm456xy(INV3BANK_456_IPREG_SYS1_ADDR, 0xA6); // GYRO_SRC_CTRL b5-6
|
|
register_write_bank_icm456xy(INV3BANK_456_IPREG_SYS1_ADDR, 0xA6, (reg & ~(0x3 << 5)) | (0x2 << 5));
|
|
|
|
// enable Interpolator and Anti Aliasing Filter on accel
|
|
reg = register_read_bank_icm456xy(INV3BANK_456_IPREG_SYS2_ADDR, 0x7B); // ACCEL_SRC_CTRL b0-1
|
|
register_write_bank_icm456xy(INV3BANK_456_IPREG_SYS2_ADDR, 0x7B, (reg & ~0x3) | 0x2);
|
|
|
|
// enable FIFO sensor registers
|
|
fifo_config |= (1U<<0); // FIFO_IF_EN
|
|
register_write(INV3REG_456_FIFO_CONFIG3, fifo_config, true);
|
|
}
|
|
|
|
/*
|
|
check whoami for sensor type
|
|
*/
|
|
bool AP_InertialSensor_Invensensev3::check_whoami(void)
|
|
{
|
|
uint8_t whoami = register_read(INV3REG_WHOAMI);
|
|
|
|
switch (whoami) {
|
|
case INV3_ID_ICM40609:
|
|
inv3_type = Invensensev3_Type::ICM40609;
|
|
return true;
|
|
case INV3_ID_ICM42688:
|
|
inv3_type = Invensensev3_Type::ICM42688;
|
|
return true;
|
|
case INV3_ID_ICM42605:
|
|
inv3_type = Invensensev3_Type::ICM42605;
|
|
return true;
|
|
case INV3_ID_ICM40605:
|
|
inv3_type = Invensensev3_Type::ICM40605;
|
|
return true;
|
|
case INV3_ID_IIM42652:
|
|
inv3_type = Invensensev3_Type::IIM42652;
|
|
return true;
|
|
case INV3_ID_ICM42670:
|
|
inv3_type = Invensensev3_Type::ICM42670;
|
|
return true;
|
|
}
|
|
// check 456 who am i
|
|
whoami = register_read(INV3REG_456_WHOAMI);
|
|
switch (whoami) {
|
|
case INV3_ID_ICM45686:
|
|
inv3_type = Invensensev3_Type::ICM45686;
|
|
return true;
|
|
}
|
|
// not a value WHOAMI result
|
|
return false;
|
|
}
|
|
|
|
uint8_t AP_InertialSensor_Invensensev3::register_read_bank_icm456xy(uint16_t bank_addr, uint16_t reg)
|
|
{
|
|
// combine addr
|
|
uint16_t addr = bank_addr + reg;
|
|
|
|
uint8_t send[] = {INV3REG_456_IREG_ADDRH, (uint8_t)(addr >> 8), (uint8_t)(addr & 0xFF)};
|
|
|
|
// set indirect register address
|
|
dev->transfer(send, sizeof(send), nullptr, 0);
|
|
|
|
// try reading IREG_DATA on ready
|
|
for (uint8_t i=0; i<10; i++) {
|
|
if (register_read(INV3REG_456_REG_MISC2) & 0x01) {
|
|
break;
|
|
}
|
|
// minimum wait time-gap between IREG access is 4us
|
|
hal.scheduler->delay_microseconds(10);
|
|
}
|
|
|
|
// read the data
|
|
return register_read(INV3REG_456_IREG_DATA);
|
|
}
|
|
|
|
void AP_InertialSensor_Invensensev3::register_write_bank_icm456xy(uint16_t bank_addr, uint16_t reg, uint8_t val)
|
|
{
|
|
// combine addr
|
|
uint16_t addr = bank_addr + reg;
|
|
|
|
uint8_t send[] = {INV3REG_456_IREG_ADDRH, (uint8_t)(addr >> 8), (uint8_t)(addr & 0xFF), val};
|
|
|
|
// set indirect register address
|
|
dev->transfer(send, sizeof(send), nullptr, 0);
|
|
|
|
//check if IREG_DATA ready, we can return immediately if so
|
|
if (register_read(INV3REG_456_REG_MISC2) & 0x01) {
|
|
return;
|
|
}
|
|
// minimum wait time-gap between IREG access is 4us
|
|
hal.scheduler->delay_microseconds(10);
|
|
}
|
|
|
|
|
|
bool AP_InertialSensor_Invensensev3::hardware_init(void)
|
|
{
|
|
WITH_SEMAPHORE(dev->get_semaphore());
|
|
|
|
dev->setup_checked_registers(8, dev->bus_type() == AP_HAL::Device::BUS_TYPE_I2C?200:20);
|
|
|
|
// initially run the bus at low speed
|
|
dev->set_speed(AP_HAL::Device::SPEED_LOW);
|
|
|
|
if (!check_whoami()) {
|
|
return false;
|
|
}
|
|
|
|
dev->set_speed(AP_HAL::Device::SPEED_HIGH);
|
|
|
|
switch (inv3_type) {
|
|
case Invensensev3_Type::ICM45686:
|
|
case Invensensev3_Type::ICM40609:
|
|
_clip_limit = 29.5f * GRAVITY_MSS;
|
|
break;
|
|
case Invensensev3_Type::ICM42688:
|
|
case Invensensev3_Type::IIM42652:
|
|
case Invensensev3_Type::ICM42605:
|
|
case Invensensev3_Type::ICM40605:
|
|
case Invensensev3_Type::ICM42670:
|
|
_clip_limit = 15.5f * GRAVITY_MSS;
|
|
break;
|
|
}
|
|
|
|
if (inv3_type == Invensensev3_Type::ICM42670) {
|
|
// the ICM-42670 needs some more power-up config
|
|
for (uint8_t tries=0; tries<50; tries++) {
|
|
// initiate a power up sequence
|
|
register_write(INV3REG_70_SIGNAL_PATH_RESET, 0x10);
|
|
hal.scheduler->delay_microseconds(1000);
|
|
register_write(INV3REG_70_PWR_MGMT0, 0x0f, true);
|
|
if (register_read(INV3REG_70_MCLK_RDY) != 0) {
|
|
break;
|
|
}
|
|
hal.scheduler->delay(5);
|
|
}
|
|
if (register_read(INV3REG_70_MCLK_RDY) == 0) {
|
|
return false;
|
|
}
|
|
|
|
// disable APEX for larger FIFO
|
|
register_write_bank(INV3REG_BANK_MREG1, INV3REG_MREG1_SENSOR_CONFIG3, 0x40);
|
|
|
|
// use 16 bit data, gyro+accel
|
|
uint8_t fifo_config = 0x03;
|
|
#if HAL_INS_HIGHRES_SAMPLE
|
|
// optionally enable high resolution mode
|
|
if (highres_sampling) {
|
|
fifo_config |= (1U<<3); // FIFO_HIRES_EN
|
|
}
|
|
#endif
|
|
register_write_bank(INV3REG_BANK_MREG1, INV3REG_MREG1_FIFO_CONFIG5, fifo_config);
|
|
|
|
// FIFO stop-on-full, disable bypass
|
|
register_write(INV3REG_70_FIFO_CONFIG1, 0x2, true);
|
|
|
|
// little-endian, fifo count in records
|
|
register_write(INV3REG_70_INTF_CONFIG0, 0x40, true);
|
|
} else if (inv3_type == Invensensev3_Type::ICM45686) {
|
|
|
|
// do soft reset
|
|
register_write(INV3REG_456_REG_MISC2, 0x02);
|
|
hal.scheduler->delay_microseconds(1000);
|
|
// check if reset done
|
|
if (!(register_read(INV3REG_456_INT1_STATUS0) & 0x80)) {
|
|
// failed to reset
|
|
return false;
|
|
}
|
|
// turn off aux1
|
|
register_write(INV3REG_456_PWR_MGMT_AUX1, 0x3);
|
|
|
|
// gyro and accel in low-noise mode
|
|
register_write(INV3REG_456_PWR_MGMT0, 0x0f);
|
|
|
|
#ifdef ICM45686_CLKIN
|
|
/*************************CLKIN setting*************************/
|
|
// override INT2 pad as CLKIN, AUX1 disabled
|
|
register_write(INV3REG_456_IOC_PAD_SCENARIO_OVRD, (0x1 << 2)| 0x2 , true);
|
|
|
|
// disable AUX1
|
|
register_write(INV3REG_456_IOC_PAD_SCENARIO_AUX_OVRD, (0x1<<1U), true);
|
|
|
|
// enable RTC MODE
|
|
register_write(INV3REG_456_RTC_CONFIG, (0x1<<5U));
|
|
#endif
|
|
/*************************CLKIN setting*************************/
|
|
// disable STC
|
|
uint8_t reg = register_read_bank_icm456xy(INV3BANK_456_IPREG_TOP1_ADDR, 0x68); // I3C_STC_MODE b2
|
|
register_write_bank_icm456xy(INV3BANK_456_IPREG_TOP1_ADDR, 0x68, reg & ~0x04);
|
|
}
|
|
|
|
return true;
|
|
}
|