Multitech mDot/UDK support.
Dependencies: ST_INTERFACES X_NUCLEO_COMMON
Fork of X_NUCLEO_IKS01A1 by
Components/lsm6ds3/lsm6ds3.h
- Committer:
- pferland
- Date:
- 2016-12-09
- Revision:
- 91:83ba1f916d99
- Parent:
- 44:d757094f6229
File content as of revision 91:83ba1f916d99:
/** ****************************************************************************** * @file lsm6ds3.h * @author MEMS Application Team * @version V1.2.0 * @date 28-May-2015 * @brief This file contains definitions for the lsm6ds3.c firmware driver ****************************************************************************** * @attention * * <h2><center>© COPYRIGHT(c) 2015 STMicroelectronics</center></h2> * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. Neither the name of STMicroelectronics nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * ****************************************************************************** */ /* Define to prevent recursive inclusion -------------------------------------*/ #ifndef __LSM6DS3_H #define __LSM6DS3_H #ifdef __cplusplus extern "C" { #endif /* Includes ------------------------------------------------------------------*/ #include "imu_6axes.h" /** @addtogroup BSP * @{ */ /** @addtogroup Components * @{ */ /** @addtogroup LSM6DS3 * @{ */ /** @addtogroup LSM6DS3_Exported_Defines LSM6DS3_Exported_Defines * @{ */ #ifndef NULL #define NULL (void *) 0 #endif /******************************************************************************/ /*********** START ACCELEROMETER AND GYROSCOPE REGISTER MAPPING **************/ /******************************************************************************/ /***************************************** COMMON REGISTERS ********************************************/ /** * @brief FIFO control register * \code * Read/write * Default value: 0x00 * [7] FUNC_CFG_EN: Enable access to the embedded functions configuration registers (1) from address 02h to 32h. Default value: 0. * [6:0] This bit must be set to �0� for the correct operation of the device * \endcode */ #define LSM6DS3_XG_FUNC_CFG_ACCESS 0x01 /** * @brief FIFO control register * \code * Read/write * Default value: 0x00 * [7:0] TPH_[7:0]: Sensor SyncronizationTime Frame with the step of 500ms and full range of 5s. Default: 0000 0000 * \endcode */ #define LSM6DS3_XG_SENSOR_SYNC_TIME_FRAME 0x04 /** * @brief FIFO control register * \code * Read/write * Default value: 0x00 * [7:2] This bit must be set to �0� for the correct operation of the device * [1] HP_RST: Gyro digital HP filter reset. Default: 0 * [1] SENSOR_SYNC_ENHP_RST: Enable sensor synchronization feature. Default 0 * \endcode */ #define LSM6DS3_XG_SENSOR_SYNC_ENABLE 0x05 /** * @brief FIFO control register * \code * Read/write * Default value: 0x00 * [7:0] FTH_7-0 FIFO threshold level setting - watermark flag is toggled when the number of bytes written to FIFO is greater or equal to threshold level. * \endcode */ #define LSM6DS3_XG_FIFO_CTRL1 0x06 /** * @brief FIFO control register * \code * Read/write * Default value: 0x00 * [7] TIMER_PEDO_FIFO_EN: Enable Pedometer step counter and time stamp as 4th sensor FIFO data. Default: 0 disabled * [6] TIMER_PEDO_FIFO_DRDY : Pedometer FIFO write mode. Default: 0 disabled * [5:4] This bit must be set to �0� for the correct operation of the device * [3:0] FTH_[11:8] FIFO threshold level setting(1). Default value: 0000 * \endcode */ #define LSM6DS3_XG_FIFO_CTRL2 0x07 /** * @brief FIFO control register * \code * Read/write * Default value: 0x00 * [7:6] This bit must be set to �0� for the correct operation of the device * [5:3] DEC_FIFO_GYRO[2:0]: Gyro FIFO decimation setting. Default value: 000 * [2:0] DEC_FIFO_XL[2:0]: XL FIFO decimation setting. Default value: 000 * \endcode */ #define LSM6DS3_XG_FIFO_CTRL3 0x08 /** * @brief FIFO control register * \code * Read/write * Default value: 0x00 * [7] This bit must be set to �0� for the correct operation of the device * [6] ONLY_HIGH_DATA :8 bit data storing in FIFO. Default: 0 * [5:3] DEC_SLV1_FIFO[2:0] Second external sensor FIFO decimation setting. Default: 000 * [2:0] DEC_SLV1_FIFO[2:0] First external sensor FIFO decimation setting. Default: 000 * \endcode */ #define LSM6DS3_XG_FIFO_CTRL4 0x09 /** * @brief FIFO control register * \code * Read/write * Default value: 0x00 * [7] This bit must be set to �0� for the correct operation of the device * [6:3] ODR_FIFO_[3:0]: FIFO ODR selection. Default: 0000 * [2:0] FIFO_MODE_[2:0] : FIFO mode selection bits. Default value: 000 * \endcode */ #define LSM6DS3_XG_FIFO_CTRL5 0x0A /** * @brief Angular rate sensor sign and orientation register * \code * Read/write * Default value: 0x00 * [7:6] This bit must be set to �0� for the correct operation of the device * [5] SignX_G: Pitch axis (X) Angular rate sign. Default value: 0 * [5] SignY_G: Roll axis (Y) Angular rate sign. Default value: 0 * [5] SignZ_G: Pitch axis (Z) Angular rate sign. Default value: 0 * [2:0] Orient[2:0] : Directional user orientation selection. Default Value: 000 * \endcode */ #define LSM6DS3_XG_ORIENT_CFG_G 0x0B /** * @brief INT1 pad control registrer * \code * Read/write * Default value: 0x00 * [7] INT1_PEDO: Pedometer step recognition interrupt enable on INT1 pad. Default value: 0 * [6] INT1_SIGN_MOT: Significant motion interrupt enable on INT1 pad. Default value: 0 * [5] INT1_FULL_FLAG: Full flag Interrupt Enable on INT1 pad. Default value: 0 * [4] INT1_OVR: Overrun Interrupt on INT1 pad. Default value: 0 * [3] INT1_FTH: FIFO threshold interrupt on INT1 pad. Default value: 0 * [2] INT1_BOOT: Overrun Interrupt on INT1 pad. Default value: 0 * [1] INT1_DRDY_G: Gyroscope Data Ready on INT1 pad. Default value: 0. * [0] INT1_DRDY_XL: Accelerometer Data Ready on INT1 pad. Default value: 0 * \endcode */ #define LSM6DS3_XG_INT1_CTRL 0x0D //new, done /** * @brief INT2 pad control registrer * \code * Read/write * Default value: 0x00 * [7] INT2_PEDO: Pedometer step recognition interrupt enable on INT1 pad. Default value: 0 * [6] INT2_SIGN_MOT: Significant motion interrupt enable on INT1 pad. Default value: 0 * [5] INT2_FULL_FLAG: Full flag Interrupt Enable on INT1 pad. Default value: 0 * [4] INT2_OVR: Overrun Interrupt on INT1 pad. Default value: 0 * [3] INT2_FTH: FIFO threshold interrupt on INT1 pad. Default value: 0 * [2] INT2_BOOT: Overrun Interrupt on INT1 pad. Default value: 0 * [1] INT2_DRDY_G: Gyroscope Data Ready on INT1 pad. Default value: 0. * [0] INT2_DRDY_XL: Accelerometer Data Ready on INT1 pad. Default value: 0 * \endcode */ #define LSM6DS3_XG_INT2_CTRL 0x0E /** * @brief Device identifier register. * \code * Read * Default value:69 * [7:0] This read-only register contains the device identifier * \endcode */ #define LSM6DS3_XG_WHO_AM_I_ADDR 0x0F /** * @brief Control Register 3 * \code * Read/write * Default value: 0x00 * [7] BOOT: Reboot memory content. Default value: 0 * [6] BDU: Block Data Update. Default value: 0 * [5] H_LACTIVE: Interrupt activation level. Default value: 0 * [4] PP_OD: Push-pull/Open Drain selection on INT pad. Default value: 0 * [3] SIM: SPI Serial Interface Mode selection. Default value: 0 * [2] IF_INC: Register address automatically incremented during a multiple byte access with a serial interface (I2C or SPI). Default value: 0 * [1] BLE: Big/Little Endian Data Selection. Default value: 0 * [0] SW_RESET: Software Reset. Default value: 0 * \endcode */ #define LSM6DS3_XG_CTRL3_C 0x12 /** * @brief Control Register 4 * \code * Read/write * Default value: 0x00 * [7] BW_SCAL_ODR: Accelerometer bandwidth selection. Default value: 0 * [6] SLEEP_G: Gyroscope sleep mode enable. Default value: 0 * [5] INT2_on_INT1: All interrupt signals available on INT1 pad enable. Default value: 0 * [4] This bit must be set to �0� for the correct operation of the device * [3] DRDY_MASK: Configuration 1(3) Data Available Enable bit. Default Value: 0 * [2] I2C_disable Disable I2C interface. Default value: 0 * [1] MODE3_EN Enable auxiliary SPI interface (Mode3, refer to Table 1.). Default value: 0 * [0] STOP_ON_FTH Enable FIFO threshold level use. Default value: 0. * \endcode */ #define LSM6DS3_XG_CTRL4_C 0x13 /** * @brief Control Register 4 * \code * Read/write * Default value: 0x00 * [7:4] This bit must be set to �0� for the correct operation of the device * [3:2] ST_G[1:0]: Angular rate sensor Self Test Enable. Default value: 00 * [1:0] ST_XL[1:0]: Linear acceleration sensor Self Test Enable. Default value: 00 * \endcode */ #define LSM6DS3_XG_CTRL5_C 0x14 /** * @brief Control Register 10 * \code * Read/write * Default value: 0x38 * [7:6] These bits must be set to �0� for the correct operation of the device * [5] Zen_G: Gyroscope�s Z-axis output enable. Default value: 1 * [4] Yen_G: Gyroscope�s Y-axis output enable. Default value: 1 * [3] Xen_G: Gyroscope�s X-axis output enable. Default value: 1 * [2] FUNC_EN: Enable embedded functionalities (pedometer, tilt and significant motion) . Default value: 0 * [1] PEDO_RST_STEP: Reset pedometer step counter . Default value: 0 * [0] SIGN_MOTION_EN: Enable significant motion function. For a correct functionality of significant motion function, TILT_EN bit in FUNC_SRC (53h) register must be set to 1 . Default value: 1 * \endcode */ #define LSM6DS3_XG_CTRL10_C 0x19 /** * @brief Sensor hub Master config Register * \code * Read/write * Default value: 0x00 * [7] DRDY_ON_INT1:Manage the DRDY signal on INT1 pad. Default: 0 * [6] DATA_VALID_SEL_FIFO: Selection of FIFO data-valid signal. Default value: 0 * [5] This bit must be set to �0� for the correct operation of the device * [4] START_CONFIG: Sensor Hub trigger signal selection. Default value: 0 * [3] PULL_UP_EN: Auxiliary I2C pull-up. Default value: 0 * [2] PASS_THROUGH_MODE: I2C interface pass-through. Default value: 0 * [1] IRON_EN:Enable soft iron correction algorithm for magnetometer. Default value: 0. * [0] MASTER_ON: Sensor Hub I2C master enable. Default: 0 * \endcode */ #define LSM6DS3_XG_MASTER_CONFIG 0x1A /** * @brief Wake up interrupt source register * \code * Read * Default value: output * [7:6] This bit must be set to �0� for the correct operation of the device * [5] FF_IA: Free fall event detection status. Default: 0 * [4] SLEEP_STATE_IA: Sleep event status. Default value: 0 * [3] WU_IA: Wake up event detection status. Default * [2] X_WU: detection status on X axis. Default value: 0 * [1] Y_WU: detection status on Y axis. Default value: 0 * [0] Z_WU: detection status on Z axis. Default value: 0 * \endcode */ #define LSM6DS3_XG_WAKE_UP_SRC 0x1B /** * @brief Tap source register * \code * Read * Default value: output * [7] This bit must be set to �0� for the correct operation of the device * [6] TAP_IA: Tap event detection status. Default: 0 * [5] SINGLE_TAP: Single tap event status. Default value: 0 * [4] DOUBLE_TAP: Double tap event detection status. Default value: 0 * [3] TAP_SIGN: Sign of acceleration detected by tap event. Default: 0 * [2] X_TAP: Tap event detection status on X axis. Default value: 0 * [1] Y_TAP: Tap event detection status on Y axis. Default value: 0 * [0] Z_TAP: Tap event detection status on Z axis. Default value: 0 * \endcode */ #define LSM6DS3_XG_TAP_SRC 0x1C /** * @brief Portrait, landscape face-up and face-down source register * \code * Read * Default value: output * [7] This bit must be set to �0� for the correct operation of the device * [6] D6D_IA: Interrupt active for change position portrait, landscape, face-up, face-down. Default value: 0 * [5] ZH: Z-axis high event (over-threshold). Default value: 0 * [4] ZL: Z-axis low event (under-threshold). Default value: 0 * [5] YH: Y-axis high event (over-threshold). Default value: 0 * [4] YL: Y-axis low event (under-threshold). Default value: 0 * [5] X_H: X-axis high event (over-threshold). Default value: 0 * [4] X_L: X-axis low event (under-threshold). Default value: 0 * \endcode */ #define LSM6DS3_XG_D6D_SRC 0x1D /** * @brief Status register * \code * Read * Default value: output * [7:4] No meaning set * [3] EV_BOOT: Boot running flag signal. Default value: 0 * [2] No meaning set * [1] GDA: Gyroscope new data avaialble. Default value: 0 * [0] XLDA: Accelerometer new data avaialble. Default value: 0 * \endcode */ #define LSM6DS3_XG_STATUS_REG 0x1E /** * @brief FIFO status control register * \code * Read * Default value: 0x00 * [7:0] DIFF_FIFO_[7:0]: Number of unread words (16 bit axes) stored in FIFO . For a complete number of unread samples, consider DIFF_FIFO [11:8] in FIFO_STATUS2 (3Bh) * \endcode */ #define LSM6DS3_XG_FIFO_STATUS1 0x3A /** * @brief FIFO status control register (r). For a proper reading of the register it is suggested to set BDU bit in CTRL3_C (12h) to 0. * \code * Read * Default value: 0x00 * [7] FTH FIFO watermark status. Deafult value: 0 * [6] OVER_RUN: FIFO overrun status. Default value: 0 * [5] FIFO_FULL: FIFO full status. Default value: 0 * [5] FIFO_EMPTY: FIFO empty bit. Default value: 0; 0: FIFO contains data; 1: FIFO is empty * [3:0] DIFF_FIFO_[11:8] Number of unread words (16 bit axes) stored in FIFO : For a complete number of unread samples, consider DIFF_FIFO [11:8] in FIFO_STATUS1 (3Ah) * \endcode */ #define LSM6DS3_XG_FIFO_STATUS2 0x3B /** * @brief FIFO status control register (r). For a proper reading of the register it is suggested to set BDU bit in CTRL3_C (12h) to 0 * \code * Read * Default value: 0x00 * [7:0] FIFO_PATTERN_[7:0] : Word of recursive pattern read at the next reading * \endcode */ #define LSM6DS3_XG_FIFO_STATUS3 0x3C /** * @brief FIFO status control register (r). For a proper reading of the register it is suggested to set BDU bit in CTRL3_C (12h) to 0 * \code * Read * Default value: 0x00 * [1:0] FIFO_PATTERN_[9:8] : Word of recursive pattern read at the next reading * \endcode */ #define LSM6DS3_XG_FIFO_STATUS4 0x3D /** * @brief FIFO status control register (r). For a proper reading of the register it is suggested to set BDU bit in CTRL3_C (12h) to 0. * \code * Read * Default value: 0x00 * [4:0] FIFO_PATTERN_[9:8] : Word of recursive pattern read at the next reading * \endcode */ #define LSM6DS3_XG_FIFO_STATUS4 0x3D /** * @brief FIFO data output register (r). For a proper reading of the register it is suggested to set BDU bit in CTRL3_C (12h) to 0. * \code * Read * Default value: 0x00 * [7:0] DATA_OUT_FIFO_L_[7:0]: FIFO data output (First byte) * \endcode */ #define LSM6DS3_XG_FIFO_DATA_OUT_L 0x3E /** * @brief FIFO data output register (r). For a proper reading of the register it is suggested to set BDU bit in CTRL3_C (12h) to 0. * \code * Read * Default value: 0x00 * [7:0] DATA_OUT_FIFO_H_[7:0]: FIFO data output (second byte) * \endcode */ #define LSM6DS3_XG_FIFO_DATA_OUT_H 0x3F /** * @brief Time stamp first byte data output register (r). The value is expressed as 24 bit and the bit resolution is defined by setting value in WAKE_UP_DUR (5Ch). * \code * Read * Default value: output * [7:0] TIMESTAMP0_[7:0]: FIFO first byte data output * \endcode */ #define LSM6DS3_XG_TIMESTAMP0_REG 0x40 /** * @brief Time stamp second byte data output register (r). The value is expressed as 24 bit and the bit resolution is defined by setting value in WAKE_UP_DUR (5Ch). * \code * Read * Default value: output * [7:0] TIMESTAMP1_[7:0]: FIFO second byte data output * \endcode */ #define LSM6DS3_XG_TIMESTAMP1_REG 0x41 /** * @brief Time stamp third byte data output register (r). The value is expressed as 24 bit and the bit resolution is defined by setting value in WAKE_UP_DUR (5Ch). * \code * Read * Default value: output * [7:0] TIMESTAMP2_[7:0]: FIFO third byte data output * \endcode */ #define LSM6DS3_XG_TIMESTAMP2_REG 0x42 /** * @brief Step counter output register (r). * \code * Read * Default value: output * [7:0] STEP_COUNTER_L_[7:0]: Step counter output (LSbyte) * \endcode */ #define LSM6DS3_XG_STEP_COUNTER_L 0x4B /** * @brief Step counter output register (r). * \code * Read * Default value: output * [7:0] STEP_COUNTER_H_[7:0]: Step counter output (MSbyte) * \endcode */ #define LSM6DS3_XG_STEP_COUNTER_H 0x4C /** * @brief Significant motion, tilt, step detector, soft iron and sensor hub interrupt source register * \code * Read * Default value: output * [7] This bit must be set to �0� for the correct operation of the device * [6] SIGN_MOTION_IA: Significant motion event detection status. Default value: 0 * [5] TILT_IA: Tilt event detection status. Default value: 0 * [5] STEP_DETECTED: Step detector event detection status. Default value: 0 * [3:2] This bit must be set to �0� for the correct operation of the device * [1] SI_END_OP:Soft iron calculation status. Default value: 0 * [0] SENSORHUB_END_OP:Senso hub communication status. Default value: 0 * \endcode */ #define LSM6DS3_XG_FUNC_SRC 0x53 /** * @brief Time stamp, pedometer, tilt, filtering, and tap recognition functions configuration register * \code * Read/write * Default value: 0x00 * [7] TIMER_EN: Time stamp count enable, output data are collected in TIMESTAMP0_REG (40h), TIMESTAMP1_REG (41h), TIMESTAMP2_REG (42h) register. Default: 0 * [6] PEDO_EN: Pedometer algorithm enable(1). Default value: 0 * [5] TILT_EN: Tilt calculation enable.(2) Default value: 0 * [4] This bit must be set to �0� for the correct operation of the device * [3] TAP_X_EN: Enable X direction in tap recognition. Default value: 0 * [2] TAP_Y_EN: Enable Z direction in tap recognition. Default value: 0 * [1] TAP_Z_EN: Enable Z direction in tap recognition. Default value: 0 * [0] LIR: Relatch of the time stamp, pedometer, tilt, filtering, and tap recognition functions routed to PINs. * \endcode */ #define LSM6DS3_XG_TAP_CFG 0x58 /** * @brief Portrait/landscape position and tap function threshold register * \code * Read/write * Default value: 0x00 * [7] This bit must be set to �0� for the correct operation of the device * [6:5] SIXD_THS[1:0]: Threshold for D6D function. Default value: 00 * [4:0] TAP_THS[4:0]: Threshold for tap recognition. Default value: 0000 * \endcode */ #define LSM6DS3_XG_TAP_THS_6D 0x59 /** * @brief Tap recognition function setting register (r/w) * \code * Read/write * Default value: 0x00 * [7:4] DUR[3:0]: Duration of maximum time gap for double tap recognition. Default: 0000 * [3:2] QUIET[1:0]: Expected quiet time after a tap detection. Default value: 00 * [1:0] SHOCK[1:0]: Maximum duration of over-threshold event. Default value: 00 * \endcode */ #define LSM6DS3_XG_INT_DUR2 0x5A /** * @brief Tap recognition function setting register * \code * Read/write * Default value: 0x00 * [7] SINGLE_DOUBLE_TAP: Single/double tap event detection. Default: 0 * [6] INACTIVITY: Inactivity event enable. Default value: 0 * [5:0] WK_THS[5:0]:Threshold for wake-up. Default value: 0000 * \endcode */ #define LSM6DS3_XG_WAKE_UP_THS 0x5B /** * @brief Free-fall, wake-up, time stamp and sleep mode functions duration setting register (r/w). * \code * Read/write * Default value: 0x00 * [7] FF_DUR5:Free fall duration event. Default: 0 * [6:5] WAKE_DUR[1:0]: Wake up duration event. Default: 00 * [4] TIMER_HR: Time stamp register resolution setting(1). Default value: 0 * [3:0] SLEEP_DUR[3:0] : Duration to go in sleep mode. Default value: 0000 * \endcode */ #define LSM6DS3_XG_WAKE_UP_DUR 0x5C /** * @brief Free-fall function duration setting register * \code * Read/write * Default value: 0x00 * [7:3] FF_DUR[4:0]: Free fall duration event. Default: 0. For the complete configuration of the free fall duration, refer to FF_DUR5 in WAKE_UP_DUR (5Ch) configuration * [2:0] FF_THS[2:0]: Free fall threshold setting. Default: 000. * \endcode */ #define LSM6DS3_XG_WAKE_FREE_FALL 0x5D /** * @brief Functions routing on INT1 register * \code * Read/write * Default value: 0x00 * [7] INT1_INACT_STATE: Routing on INT1 of inactivity mode. Default: 0 * [6] INT1_SINGLE_TAP: Single tap recognition routing on INT1. Default: 0 * [5] INT1_WU: Routing of wake-up event on INT1. Default value: 0 * [4] INT1_FF: Routing of free-fall event on INT1. Default value: 0 * [3] INT1_TAP: Routing of tap event on INT1. Default value: 0 * [2] INT1_6D: Routing of 6D event on INT1. Default value: 0 * [1] INT1_TILT: Routing of tilt event on INT1. Default value: 0 * [0] INT1_TIMER: Routing of end counter event of timer on INT1. Default value: 0 * \endcode */ #define LSM6DS3_XG_MD1_CFG 0x5E /** * @brief Functions routing on INT2 register * \code * Read/write * Default value: 0x00 * [7] INT2_INACT_STATE: Routing on INT1 of inactivity mode. Default: 0 * [6] INT2_SINGLE_TAP: Single tap recognition routing on INT1. Default: 0 * [5] INT2_WU: Routing of wake-up event on INT1. Default value: 0 * [4] INT2_FF: Routing of free-fall event on INT1. Default value: 0 * [3] INT2_TAP: Routing of tap event on INT1. Default value: 0 * [2] INT2_6D: Routing of 6D event on INT1. Default value: 0 * [1] INT2_TILT: Routing of tilt event on INT1. Default value: 0 * [0] INT2_TIMER: Routing of end counter event of timer on INT1. Default value: 0 * \endcode */ #define LSM6DS3_XG_MD2_CFG 0x5F /***************************************** SENSORHUB REGISTERS ********************************************/ /** * @brief SENSORHUB REGISTER 1 : SLV0 first external sensor, first axis output register (r). The value is expressed as 16bit word in two�s complement * \code * Read * Default value: 0x00 * [7:0] SHUB1[7:0]: SLV0 first external sensor, first byte of the first axis. * \endcode */ #define LSM6DS3_XG_SENSORHUB1_REG 0x2E /** * @brief SENSORHUB REGISTER 2 : SLV0 first external sensor, first axis output register (r). The value is expressed as 16bit word in two�s complement * \code * Read * Default value: 0x00 * [7:0] SHUB2[7:0]: SLV0 first external sensor, second byte of the first axis. * \endcode */ #define LSM6DS3_XG_SENSORHUB2_REG 0x2F /** * @brief SENSORHUB REGISTER 3 : SLV0 first external sensor, second axis output register (r). The value is expressed as 16bit word in two�s complement * \code * Read * Default value: 0x00 * [7:0] SHUB3[7:0]: SLV0 first external sensor, first byte of the second axis. * \endcode */ #define LSM6DS3_XG_SENSORHUB3_REG 0x30 /** * @brief SENSORHUB REGISTER 4 : SLV0 first external sensor, second axis output register (r). The value is expressed as 16bit word in two�s complement * \code * Read * Default value: 0x00 * [7:0] SHUB4[7:0]: SLV0 first external sensor, second byte of the second axis. * \endcode */ #define LSM6DS3_XG_SENSORHUB4_REG 0x31 /** * @brief SENSORHUB REGISTER 5 : SLV0 first external sensor, third axis output register (r). The value is expressed as 16bit word in two�s complement * \code * Read * Default value: 0x00 * [7:0] SHUB5[7:0]: SLV0 first external sensor, second byte of the second axis. * \endcode */ #define LSM6DS3_XG_SENSORHUB5_REG 0x32 /** * @brief SENSORHUB REGISTER 6 : SLV0 first external sensor, third axis output register (r). The value is expressed as 16bit word in two�s complement * \code * Read * Default value: 0x00 * [7:0] SHUB6[7:0]: SLV0 first external sensor, second byte of the third axis * \endcode */ #define LSM6DS3_XG_SENSORHUB6_REG 0x33 /** * @brief SENSORHUB REGISTER 7 : SLV1 second external sensor, first axis output register (r). The value is expressed as 16bit word in two�s complement * \code * Read * Default value: 0x00 * [7:0] SHUB7[7:0]: SLV1 second external sensor, first byte of the first axis. * \endcode */ #define LSM6DS3_XG_SENSORHUB7_REG 0x34 /** * @brief SENSORHUB REGISTER 8 : SLV1 second external sensor, first axis output register (r). The value is expressed as 16bit word in two�s complement * \code * Read * Default value: 0x00 * [7:0] SHUB8[7:0]: SLV1 second external sensor, second byte of the first axis. * \endcode */ #define LSM6DS3_XG_SENSORHUB8_REG 0x35 /** * @brief SENSORHUB REGISTER 9 : SLV1 second external sensor,, second axis output register (r). The value is expressed as 16bit word in two�s complement * \code * Read * Default value: 0x00 * [7:0] SHUB9[7:0]: SLV1 second external sensor, first byte of the second axis. * \endcode */ #define LSM6DS3_XG_SENSORHUB9_REG 0x36 /** * @brief SLV1 second external sensor, second axis output register (r). The value is expressed as 16bit word in two�s complement * \code * Read * Default value: 0x00 * [7:0] SHUB10[7:0]: SLV1 second external sensor, second byte of the second axis. * \endcode */ #define LSM6DS3_XG_SENSORHUB10_REG 0x37 /** * @brief SLV1 second external sensor, third axis output register (r). The value is expressed as 16bit word in two�s complement * \code * Read * Default value: 0x00 * [7:0] SHUB11[7:0]: SLV1 second external sensor, first byte of the third axis. * \endcode */ #define LSM6DS3_XG_SENSORHUB11_REG 0x38 /** * @brief SLV1 second external sensor, third axis output register (r). The value is expressed as 16bit word in two�s complement * \code * Read * Default value: 0x00 * [7:0] SHUB12[7:0]: SLV1 second external sensor, second byte of the third axis. * \endcode */ #define LSM6DS3_XG_SENSORHUB12_REG 0x39 /***************************************** GYROSCOPE REGISTERS ********************************************/ /** * @brief Angular rate sensor Control Register 2 * \code * Read/write * Default value: 0x00 * [7:4] ODR_G[3:0]: Gyroscope output data rate selection * [3:2] FS_G[1-0]: Gyroscope full-scale selection * [1] FS_125: Gyroscope full-scale at 125 dps * [0] This bit must be set to �0� for the correct operation of the device * \endcode */ #define LSM6DS3_XG_CTRL2_G 0x11 /** * @brief Angular rate sensor Control Register 6 * \code * Read/write * Default value: 0x00 * [7] TRIG_EN: Data edge sensitive trigger Enable. Default value: 0 * [6] LVLen: Data level sensitive trigger Enable. Default value: 0 * [5] LVL2en: Level sensitive latched Enable. Default value: 0 * [4] XL_H_MODE: High Performance operating mode disable for accelerometer(1). Default value: 0 * [3:0] This bit must be set to �0� for the correct operation of the device * \endcode */ #define LSM6DS3_XG_CTRL6_G 0x15 /** * @brief Angular rate sensor Control Register 7 * \code * Read/write * Default value: 0x00 * [7] G_H_MODE: High Performance operating mode disable for Gyroscope(1) . Default: 0 * [6] HP_EN: High Pass filter Enable. Default Value: 0 * [5:4] HPCF_G[1:0]: Gyroscope High Pass filter Cut Off frequency selection. Default value: 00 * [3:0] This bit must be set to �0� for the correct operation of the device * \endcode */ #define LSM6DS3_XG_CTRL7_G 0x16 /** * @brief Gyroscope data (LSB) * \code * Read * \endcode */ #define LSM6DS3_XG_OUT_X_L_G 0x22 /** * @brief Gyroscope data (MSB) * \code * Read * \endcode */ #define LSM6DS3_XG_OUT_X_H_G 0x23 /** * @brief Gyroscope data (LSB) * \code * Read * \endcode */ #define LSM6DS3_XG_OUT_Y_L_G 0x24 /** * @brief Gyroscope data (MSB) * \code * Read * \endcode */ #define LSM6DS3_XG_OUT_Y_H_G 0x25 /** * @brief Gyroscope data (LSB) * \code * Read * \endcode */ #define LSM6DS3_XG_OUT_Z_L_G 0x26 /** * @brief Gyroscope data (MSB) * \code * Read * \endcode */ #define LSM6DS3_XG_OUT_Z_H_G 0x27 /*************************************** ACCELEROMETER REGISTERS *******************************************/ /** * @brief Linear acceleration sensor Control Register 1 * \code * Read/write * Default value: 0x00 * [7:4] ODR_XL3-0: Accelerometer Output data rate and power mode selection * [3:2] FS_XL1-0: Accelerometer full-scale selection * [1:0] BW_XL1-0: Anti-aliasing filter bandwidth selection * \endcode */ #define LSM6DS3_XG_CTRL1_XL 0x10 /** * @brief XL sensor Control Register 8 * \code * Read/write * Default value: 0x00 * [7:3] This bit must be set to �0� for the correct operation of the device * [2] SLOPE_FDS: Enable HP filter on output registers and FIFO. Default value: 0 * [1:0] This bit must be set to �0� for the correct operation of the device * \endcode */ #define LSM6DS3_XG_CTRL8_XL 0x17 /** * @brief Linear acceleration sensor Control Register 9 * \code * Read/write * Default value: 0x38 * [7:6] These bits must be set to �0� for the correct operation of the device * [5] Zen_XL: Accelerometers�s Z-axis output enable * [4] Yen_XL: Accelerometers�s Y-axis output enable * [3] Xen_XL: Accelerometers�s X-axis output enable * [2:0] These bits must be set to �0� for the correct operation of the device * \endcode */ #define LSM6DS3_XG_CTRL9_XL 0x18 /** * @brief Accelerometer data (LSB) * \code * Read * \endcode */ #define LSM6DS3_XG_OUT_X_L_XL 0x28 /** * @brief Accelerometer data (MSB) * \code * Read * \endcode */ #define LSM6DS3_XG_OUT_X_H_XL 0x29 /** * @brief Accelerometer data (LSB) * \code * Read * \endcode */ #define LSM6DS3_XG_OUT_Y_L_XL 0x2A /** * @brief Accelerometer data (MSB) * \code * Read * \endcode */ #define LSM6DS3_XG_OUT_Y_H_XL 0x2B /** * @brief Accelerometer data (LSB) * \code * Read * \endcode */ #define LSM6DS3_XG_OUT_Z_L_XL 0x2C /** * @brief Accelerometer data (MSB) * \code * Read * \endcode */ #define LSM6DS3_XG_OUT_Z_H_XL 0x2D /******************************************************************************/ /************* END ACCELEROMETER AND GYROSCOPE REGISTER MAPPING **************/ /******************************************************************************/ /************************************** COMMON REGISTERS VALUE *******************************************/ /** * @brief Device Address */ #define LSM6DS3_ADDRESS_LOW 0xD4 // SAD[0] = 0 #define LSM6DS3_ADDRESS_HIGH 0xD6 // SAD[0] = 1 #define LSM6DS3_XG_MEMS_ADDRESS LSM6DS3_ADDRESS_LOW // SAD[0] = 0 /** * @brief Device Identifier. Default value of the WHO_AM_I register. */ #define I_AM_LSM6DS3_XG ((uint8_t)0x69) /** * @brief Register address automatically incremented during a multiple byte * access with a serial interface (I2C or SPI). Default value of the * LSM6DS3_XG_CTRL3_C register. */ #define LSM6DS3_XG_IF_INC ((uint8_t)0x04) #define LSM6DS3_XG_IF_INC_MASK ((uint8_t)0x04) /** @defgroup LSM6DS3_XG_FIFO_Output_Data_Rate_Selection_FIFO_CTRL5 LSM6DS3_XG_FIFO_Output_Data_Rate_Selection_FIFO_CTRL5 * @{ */ #define LSM6DS3_XG_FIFO_ODR_NA ((uint8_t)0x00) /*!< FIFO ODR NA */ #define LSM6DS3_XG_FIFO_ODR_10HZ ((uint8_t)0x08) /*!< FIFO ODR 10Hz */ #define LSM6DS3_XG_FIFO_ODR_25HZ ((uint8_t)0x10) /*!< FIFO ODR 25Hz */ #define LSM6DS3_XG_FIFO_ODR_50HZ ((uint8_t)0x18) /*!< FIFO ODR 50Hz */ #define LSM6DS3_XG_FIFO_ODR_100HZ ((uint8_t)0x20) /*!< FIFO ODR 100Hz */ #define LSM6DS3_XG_FIFO_ODR_200HZ ((uint8_t)0x28) /*!< FIFO ODR 200Hz */ #define LSM6DS3_XG_FIFO_ODR_400HZ ((uint8_t)0x30) /*!< FIFO ODR 400Hz */ #define LSM6DS3_XG_FIFO_ODR_800HZ ((uint8_t)0x38) /*!< FIFO ODR 800Hz */ #define LSM6DS3_XG_FIFO_ODR_1600HZ ((uint8_t)0x40) /*!< FIFO ODR 1600Hz */ #define LSM6DS3_XG_FIFO_ODR_3300HZ ((uint8_t)0x48) /*!< FIFO ODR 3300Hz */ #define LSM6DS3_XG_FIFO_ODR_6600HZ ((uint8_t)0x50) /*!< FIFO ODR 6600Hz */ #define LSM6DS3_XG_FIFO_ODR_MASK ((uint8_t)0x78) /** * @} */ /** @defgroup LSM6DS3_XG_FIFO_Mode_Selection_FIFO_CTRL5 LSM6DS3_XG_FIFO_Mode_Selection_FIFO_CTRL5 * @{ */ #define LSM6DS3_XG_FIFO_MODE_BYPASS ((uint8_t)0x00) /*!< BYPASS Mode. FIFO turned off */ #define LSM6DS3_XG_FIFO_MODE_FIFO ((uint8_t)0x01) /*!< FIFO Mode. Stop collecting data when FIFO is full */ #define LSM6DS3_XG_FIFO_MODE_CONTINUOUS_THEN_FIFO ((uint8_t)0x03) /*!< CONTINUOUS mode until trigger is deasserted, then FIFO mode */ #define LSM6DS3_XG_FIFO_MODE_BYPASS_THEN_CONTINUOUS ((uint8_t)0x04) /*!< BYPASS mode until trigger is deasserted, then CONTINUOUS mode */ #define LSM6DS3_XG_FIFO_MODE_CONTINUOUS_OVERWRITE ((uint8_t)0x05) /*!< CONTINUOUS mode. If the FIFO is full the new sample overwrite the older one */ #define LSM6DS3_XG_FIFO_MODE_MASK ((uint8_t)0x07) /** * @} */ /************************************** GYROSCOPE REGISTERS VALUE *******************************************/ /** @addtogroup LSM6DS3_XG_Gyroscope_Output_Data_Rate_Selection_CTRL_REG1_G LSM6DS3_XG_Gyroscope_Output_Data_Rate_Selection_CTRL_REG1_G * @{ */ #define LSM6DS3_G_ODR_PD ((uint8_t)0x00) /*!< Output Data Rate: Power-down*/ #define LSM6DS3_G_ODR_13HZ ((uint8_t)0x10) /*!< Output Data Rate: 13 Hz*/ #define LSM6DS3_G_ODR_26HZ ((uint8_t)0x20) /*!< Output Data Rate: 26 Hz*/ #define LSM6DS3_G_ODR_52HZ ((uint8_t)0x30) /*!< Output Data Rate: 52 Hz */ #define LSM6DS3_G_ODR_104HZ ((uint8_t)0x40) /*!< Output Data Rate: 104 Hz */ #define LSM6DS3_G_ODR_208HZ ((uint8_t)0x50) /*!< Output Data Rate: 208 Hz */ #define LSM6DS3_G_ODR_416HZ ((uint8_t)0x60) /*!< Output Data Rate: 416 Hz */ #define LSM6DS3_G_ODR_833HZ ((uint8_t)0x70) /*!< Output Data Rate: 833 Hz */ #define LSM6DS3_G_ODR_1660HZ ((uint8_t)0x80) /*!< Output Data Rate: 1.66 kHz */ #define LSM6DS3_G_ODR_MASK ((uint8_t)0xF0) /** * @} */ /** @addtogroup LSM6DS3_XG_Gyroscope_Full_Scale_Selection_CTRL2_G LSM6DS3_XG_Gyroscope_Full_Scale_Selection_CTRL2_G * @{ */ #define LSM6DS3_G_FS_125_DISABLE ((uint8_t)0x00) /*!< Full scale: 125 dps enable: disable */ #define LSM6DS3_G_FS_125_ENABLE ((uint8_t)0x02) /*!< Full scale: 125 dps enable: enable */ #define LSM6DS3_G_FS_125_MASK ((uint8_t)0x02) #define LSM6DS3_G_FS_245 ((uint8_t)0x00) /*!< Full scale: 245 dps*/ #define LSM6DS3_G_FS_500 ((uint8_t)0x04) /*!< Full scale: 500 dps */ #define LSM6DS3_G_FS_1000 ((uint8_t)0x08) /*!< Full scale: 1000 dps */ #define LSM6DS3_G_FS_2000 ((uint8_t)0x0C) /*!< Full scale: 2000 dps */ #define LSM6DS3_G_FS_MASK ((uint8_t)0x0C) /** * @} */ /** @addtogroup LSM6DS3_XG_Gyroscope_Z_Axis_Output_Enable_Selection_CTRL10_C LSM6DS3_XG_Gyroscope_Z_Axis_Output_Enable_Selection_CTRL10_C * @{ */ #define LSM6DS3_G_ZEN_DISABLE ((uint8_t)0x00) /*!< Gyroscope�s Z-axis output enable: disable */ #define LSM6DS3_G_ZEN_ENABLE ((uint8_t)0x20) /*!< Gyroscope�s Z-axis output enable: enable */ #define LSM6DS3_G_ZEN_MASK ((uint8_t)0x20) /** * @} */ /** @addtogroup LSM6DS3_XG_Gyroscope_Y_Axis_Output_Enable_Selection_CTRL10_C LSM6DS3_XG_Gyroscope_Y_Axis_Output_Enable_Selection_CTRL10_C * @{ */ #define LSM6DS3_G_YEN_DISABLE ((uint8_t)0x00) /*!< Gyroscope�s Y-axis output enable: disable */ #define LSM6DS3_G_YEN_ENABLE ((uint8_t)0x10) /*!< Gyroscope�s Y-axis output enable: enable */ #define LSM6DS3_G_YEN_MASK ((uint8_t)0x10) /** * @} */ /** @addtogroup LSM6DS3_XG_Gyroscope_X_Axis_Output_Enable_Selection_CTRL10_C LSM6DS3_XG_Gyroscope_X_Axis_Output_Enable_Selection_CTRL10_C * @{ */ #define LSM6DS3_G_XEN_DISABLE ((uint8_t)0x00) /*!< Gyroscope�s X-axis output enable: disable */ #define LSM6DS3_G_XEN_ENABLE ((uint8_t)0x08) /*!< Gyroscope�s X-axis output enable: enable */ #define LSM6DS3_G_XEN_MASK ((uint8_t)0x08) /** * @} */ /************************************ ACCELEROMETER REGISTERS VALUE *****************************************/ /** @addtogroup LSM6DS3_XG_Accelerometer_Output_Data_Rate_Selection_CTRL1_XL LSM6DS3_XG_Accelerometer_Output_Data_Rate_Selection_CTRL1_XL * @{ */ #define LSM6DS3_XL_ODR_PD ((uint8_t)0x00) /*!< Output Data Rate: Power-down*/ #define LSM6DS3_XL_ODR_13HZ ((uint8_t)0x10) /*!< Output Data Rate: 13 Hz*/ #define LSM6DS3_XL_ODR_26HZ ((uint8_t)0x20) /*!< Output Data Rate: 26 Hz*/ #define LSM6DS3_XL_ODR_52HZ ((uint8_t)0x30) /*!< Output Data Rate: 52 Hz */ #define LSM6DS3_XL_ODR_104HZ ((uint8_t)0x40) /*!< Output Data Rate: 104 Hz */ #define LSM6DS3_XL_ODR_208HZ ((uint8_t)0x50) /*!< Output Data Rate: 208 Hz */ #define LSM6DS3_XL_ODR_416HZ ((uint8_t)0x60) /*!< Output Data Rate: 416 Hz */ #define LSM6DS3_XL_ODR_833HZ ((uint8_t)0x70) /*!< Output Data Rate: 833 Hz */ #define LSM6DS3_XL_ODR_1660HZ ((uint8_t)0x80) /*!< Output Data Rate: 1.66 kHz */ #define LSM6DS3_XL_ODR_3330HZ ((uint8_t)0x90) /*!< Output Data Rate: 3.33 kHz */ #define LSM6DS3_XL_ODR_6660HZ ((uint8_t)0xA0) /*!< Output Data Rate: 6.66 kHz */ #define LSM6DS3_XL_ODR_MASK ((uint8_t)0xF0) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_Full_Scale_Selection_CTRL1_XL LSM6DS3_XG_Accelerometer_Full_Scale_Selection_CTRL1_XL * @{ */ #define LSM6DS3_XL_FS_2G ((uint8_t)0x00) /*!< Full scale: +- 2g */ #define LSM6DS3_XL_FS_4G ((uint8_t)0x08) /*!< Full scale: +- 4g */ #define LSM6DS3_XL_FS_8G ((uint8_t)0x0C) /*!< Full scale: +- 8g */ #define LSM6DS3_XL_FS_16G ((uint8_t)0x04) /*!< Full scale: +- 16g */ #define LSM6DS3_XL_FS_MASK ((uint8_t)0x0C) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_Anti_Aliasing_Filter_Bandwidth_Selection_CTRL1_XL LSM6DS3_XG_Accelerometer_Anti_Aliasing_Filter_Bandwidth_Selection_CTRL1_XL * @{ */ #define LSM6DS3_XL_BW_400HZ ((uint8_t)0x00) /*!< Anti-aliasing filter bandwidht: 400 Hz */ #define LSM6DS3_XL_BW_200HZ ((uint8_t)0x01) /*!< Anti-aliasing filter bandwidht: 200 Hz */ #define LSM6DS3_XL_BW_100HZ ((uint8_t)0x02) /*!< Anti-aliasing filter bandwidht: 100 Hz */ #define LSM6DS3_XL_BW_50HZ ((uint8_t)0x03) /*!< Anti-aliasing filter bandwidht: 50 Hz */ #define LSM6DS3_XL_BW_MASK ((uint8_t)0x03) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_Z_Axis_Output_Enable_Selection_CTRL9_XL LSM6DS3_XG_Accelerometer_Z_Axis_Output_Enable_Selection_CTRL9_XL * @{ */ #define LSM6DS3_XL_ZEN_DISABLE ((uint8_t)0x00) /*!< Accelerometer�s Z-axis output enable: disable */ #define LSM6DS3_XL_ZEN_ENABLE ((uint8_t)0x20) /*!< Accelerometer�s Z-axis output enable: enable */ #define LSM6DS3_XL_ZEN_MASK ((uint8_t)0x20) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_Y_Axis_Output_Enable_Selection_CTRL9_XL LSM6DS3_XG_Accelerometer_Y_Axis_Output_Enable_Selection_CTRL9_XL * @{ */ #define LSM6DS3_XL_YEN_DISABLE ((uint8_t)0x00) /*!< Accelerometer�s Y-axis output enable: disable */ #define LSM6DS3_XL_YEN_ENABLE ((uint8_t)0x10) /*!< Accelerometer�s Y-axis output enable: enable */ #define LSM6DS3_XL_YEN_MASK ((uint8_t)0x10) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_X_Axis_Output_Enable_Selection_CTRL9_XL LSM6DS3_XG_Accelerometer_X_Axis_Output_Enable_Selection_CTRL9_XL * @{ */ #define LSM6DS3_XL_XEN_DISABLE ((uint8_t)0x00) /*!< Accelerometer�s X-axis output enable: disable */ #define LSM6DS3_XL_XEN_ENABLE ((uint8_t)0x08) /*!< Accelerometer�s X-axis output enable: enable */ #define LSM6DS3_XL_XEN_MASK ((uint8_t)0x08) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_FF_DUR5_Selection_WAKE_UP_DUR LSM6DS3_XG_Accelerometer_FF_DUR5_Selection_WAKE_UP_DUR * @{ */ #define LSM6DS3_XG_WAKE_UP_DUR_FF_DUR5_DEFAULT ((uint8_t)0x00) #define LSM6DS3_XG_WAKE_UP_DUR_FF_DUR5_MASK ((uint8_t)0x80) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_WAKE_DUR_Selection_WAKE_UP_DUR LSM6DS3_XG_Accelerometer_WAKE_DUR_Selection_WAKE_UP_DUR * @{ */ #define LSM6DS3_XG_WAKE_UP_DUR_WAKE_DUR_DEFAULT ((uint8_t)0x00) #define LSM6DS3_XG_WAKE_UP_DUR_WAKE_DUR_MASK ((uint8_t)0x60) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_TIMER_HR_Selection_WAKE_UP_DUR LSM6DS3_XG_Accelerometer_TIMER_HR_Selection_WAKE_UP_DUR * @{ */ #define LSM6DS3_XG_WAKE_UP_DUR_TIMER_HR_DEFAULT ((uint8_t)0x00) #define LSM6DS3_XG_WAKE_UP_DUR_TIMER_HR_MASK ((uint8_t)0x10) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_SLEEP_DUR_Selection_WAKE_UP_DUR LSM6DS3_XG_Accelerometer_SLEEP_DUR_Selection_WAKE_UP_DUR * @{ */ #define LSM6DS3_XG_WAKE_UP_DUR_SLEEP_DUR_DEFAULT ((uint8_t)0x00) #define LSM6DS3_XG_WAKE_UP_DUR_SLEEP_DUR_MASK ((uint8_t)0x0F) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_FF_DUR_Selection_FREE_FALL LSM6DS3_XG_Accelerometer_FF_DUR_Selection_FREE_FALL * @{ */ #define LSM6DS3_XG_WAKE_FREE_FALL_FF_DUR_DEFAULT ((uint8_t)0x00) #define LSM6DS3_XG_WAKE_FREE_FALL_FF_DUR_TYPICAL ((uint8_t)0x30) #define LSM6DS3_XG_WAKE_FREE_FALL_FF_DUR_MASK ((uint8_t)0xF8) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_FF_THS_Selection_FREE_FALL LSM6DS3_XG_Accelerometer_FF_THS_Selection_FREE_FALL * @{ */ #define LSM6DS3_XG_WAKE_FREE_FALL_FF_THS_156MG ((uint8_t)0x00) #define LSM6DS3_XG_WAKE_FREE_FALL_FF_THS_219MG ((uint8_t)0x01) #define LSM6DS3_XG_WAKE_FREE_FALL_FF_THS_250MG ((uint8_t)0x02) #define LSM6DS3_XG_WAKE_FREE_FALL_FF_THS_312MG ((uint8_t)0x03) #define LSM6DS3_XG_WAKE_FREE_FALL_FF_THS_344MG ((uint8_t)0x04) #define LSM6DS3_XG_WAKE_FREE_FALL_FF_THS_406MG ((uint8_t)0x05) #define LSM6DS3_XG_WAKE_FREE_FALL_FF_THS_469MG ((uint8_t)0x06) #define LSM6DS3_XG_WAKE_FREE_FALL_FF_THS_500MG ((uint8_t)0x07) #define LSM6DS3_XG_WAKE_FREE_FALL_FF_THS_MASK ((uint8_t)0x07) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_INT1_INACT_STATE_Selection_MD1_CFG LSM6DS3_XG_Accelerometer_INT1_INACT_STATE_Selection_MD1_CFG * @{ */ #define LSM6DS3_XG_MD1_CFG_INT1_INACT_STATE_DISABLE ((uint8_t)0x00) #define LSM6DS3_XG_MD1_CFG_INT1_INACT_STATE_ENABLE ((uint8_t)0x80) #define LSM6DS3_XG_MD1_CFG_INT1_INACT_STATE_MASK ((uint8_t)0x80) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_INT1_SINGLE_TAP_Selection_MD1_CFG LSM6DS3_XG_Accelerometer_INT1_SINGLE_TAP_Selection_MD1_CFG * @{ */ #define LSM6DS3_XG_MD1_CFG_INT1_SINGLE_TAP_DISABLE ((uint8_t)0x00) #define LSM6DS3_XG_MD1_CFG_INT1_SINGLE_TAP_ENABLE ((uint8_t)0x40) #define LSM6DS3_XG_MD1_CFG_INT1_SINGLE_TAP_MASK ((uint8_t)0x40) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_INT1_WU_Selection_MD1_CFG LSM6DS3_XG_Accelerometer_INT1_WU_Selection_MD1_CFG * @{ */ #define LSM6DS3_XG_MD1_CFG_INT1_WU_DISABLE ((uint8_t)0x00) #define LSM6DS3_XG_MD1_CFG_INT1_WU_ENABLE ((uint8_t)0x20) #define LSM6DS3_XG_MD1_CFG_INT1_WU_MASK ((uint8_t)0x20) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_INT1_FF_Selection_MD1_CFG LSM6DS3_XG_Accelerometer_INT1_FF_Selection_MD1_CFG * @{ */ #define LSM6DS3_XG_MD1_CFG_INT1_FF_DISABLE ((uint8_t)0x00) #define LSM6DS3_XG_MD1_CFG_INT1_FF_ENABLE ((uint8_t)0x10) #define LSM6DS3_XG_MD1_CFG_INT1_FF_MASK ((uint8_t)0x10) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_INT1_DOUBLE_TAP_Selection_MD1_CFG LSM6DS3_XG_Accelerometer_INT1_DOUBLE_TAP_Selection_MD1_CFG * @{ */ #define LSM6DS3_XG_MD1_CFG_INT1_DOUBLE_TAP_DISABLE ((uint8_t)0x00) #define LSM6DS3_XG_MD1_CFG_INT1_DOUBLE_TAP_ENABLE ((uint8_t)0x08) #define LSM6DS3_XG_MD1_CFG_INT1_DOUBLE_TAP_MASK ((uint8_t)0x08) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_INT1_6D_Selection_MD1_CFG LSM6DS3_XG_Accelerometer_INT1_6D_Selection_MD1_CFG * @{ */ #define LSM6DS3_XG_MD1_CFG_INT1_6D_DISABLE ((uint8_t)0x00) #define LSM6DS3_XG_MD1_CFG_INT1_6D_ENABLE ((uint8_t)0x04) #define LSM6DS3_XG_MD1_CFG_INT1_6D_MASK ((uint8_t)0x04) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_INT1_TILT_Selection_MD1_CFG LSM6DS3_XG_Accelerometer_INT1_TILT_Selection_MD1_CFG * @{ */ #define LSM6DS3_XG_MD1_CFG_INT1_TILT_DISABLE ((uint8_t)0x00) #define LSM6DS3_XG_MD1_CFG_INT1_TILT_ENABLE ((uint8_t)0x02) #define LSM6DS3_XG_MD1_CFG_INT1_TILT_MASK ((uint8_t)0x02) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_INT1_TIMER_Selection_MD1_CFG LSM6DS3_XG_Accelerometer_INT1_TIMER_Selection_MD1_CFG * @{ */ #define LSM6DS3_XG_MD1_CFG_INT1_TIMER_DISABLE ((uint8_t)0x00) #define LSM6DS3_XG_MD1_CFG_INT1_TIMER_ENABLE ((uint8_t)0x01) #define LSM6DS3_XG_MD1_CFG_INT1_TIMER_MASK ((uint8_t)0x01) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_FF_IA_Enable_WAKE_UP_SRC LSM6DS3_XG_Accelerometer_FF_IA_Enable_WAKE_UP_SRC * @{ */ #define LSM6DS3_XG_WAKE_UP_SRC_FF_IA_DISABLE ((uint8_t)0x00) #define LSM6DS3_XG_WAKE_UP_SRC_FF_IA_ENABLE ((uint8_t)0x20) #define LSM6DS3_XG_WAKE_UP_SRC_FF_IA_MASK ((uint8_t)0x20) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_SLEEP_STATE_IA_Enable_WAKE_UP_SRC LSM6DS3_XG_Accelerometer_SLEEP_STATE_IA_Enable_WAKE_UP_SRC * @{ */ #define LSM6DS3_XG_WAKE_UP_SRC_SLEEP_STATE_IA_DISABLE ((uint8_t)0x00) #define LSM6DS3_XG_WAKE_UP_SRC_SLEEP_STATE_IA_ENABLE ((uint8_t)0x10) #define LSM6DS3_XG_WAKE_UP_SRC_SLEEP_STATE_IA_MASK ((uint8_t)0x10) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_WU_IA_Enable_WAKE_UP_SRC LSM6DS3_XG_Accelerometer_WU_IA_Enable_WAKE_UP_SRC * @{ */ #define LSM6DS3_XG_WAKE_UP_SRC_WU_IA_DISABLE ((uint8_t)0x00) #define LSM6DS3_XG_WAKE_UP_SRC_WU_IA_ENABLE ((uint8_t)0x08) #define LSM6DS3_XG_WAKE_UP_SRC_WU_IA_MASK ((uint8_t)0x08) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_X_WU_Enable_WAKE_UP_SRC LSM6DS3_XG_Accelerometer_X_WU_Enable_WAKE_UP_SRC * @{ */ #define LSM6DS3_XG_WAKE_UP_SRC_X_WU_DISABLE ((uint8_t)0x00) #define LSM6DS3_XG_WAKE_UP_SRC_X_WU_ENABLE ((uint8_t)0x04) #define LSM6DS3_XG_WAKE_UP_SRC_X_WU_MASK ((uint8_t)0x04) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_Y_WU_Enable_WAKE_UP_SRC LSM6DS3_XG_Accelerometer_Y_WU_Enable_WAKE_UP_SRC * @{ */ #define LSM6DS3_XG_WAKE_UP_SRC_Y_WU_DISABLE ((uint8_t)0x00) #define LSM6DS3_XG_WAKE_UP_SRC_Y_WU_ENABLE ((uint8_t)0x02) #define LSM6DS3_XG_WAKE_UP_SRC_Y_WU_MASK ((uint8_t)0x02) /** * @} */ /** @addtogroup LSM6DS3_XG_Accelerometer_Z_WU_Enable_WAKE_UP_SRC LSM6DS3_XG_Accelerometer_Z_WU_Enable_WAKE_UP_SRC * @{ */ #define LSM6DS3_XG_WAKE_UP_SRC_Z_WU_DISABLE ((uint8_t)0x00) #define LSM6DS3_XG_WAKE_UP_SRC_Z_WU_ENABLE ((uint8_t)0x01) #define LSM6DS3_XG_WAKE_UP_SRC_Z_WU_MASK ((uint8_t)0x01) /** * @} */ /** * @} */ /** @addtogroup LSM6DS3_Imported_Functions LSM6DS3_Imported_Functions * @{ */ /* Six axes sensor IO functions */ extern IMU_6AXES_StatusTypeDef LSM6DS3_IO_Init( void ); extern IMU_6AXES_StatusTypeDef LSM6DS3_IO_Write( uint8_t* pBuffer, uint8_t DeviceAddr, uint8_t RegisterAddr, uint16_t NumByteToWrite ); extern IMU_6AXES_StatusTypeDef LSM6DS3_IO_Read( uint8_t* pBuffer, uint8_t DeviceAddr, uint8_t RegisterAddr, uint16_t NumByteToRead ); extern void LSM6DS3_IO_ITConfig( void ); /** * @} */ /** @addtogroup LSM6DS3_Exported_Types LSM6DS3_Exported_Types * @{ */ /** * @brief LSM6DS3 driver extended internal structure definition */ typedef struct { IMU_6AXES_StatusTypeDef (*Enable_Free_Fall_Detection) (void); IMU_6AXES_StatusTypeDef (*Disable_Free_Fall_Detection) (void); IMU_6AXES_StatusTypeDef (*Get_Status_Free_Fall_Detection) (uint8_t *); } LSM6DS3_DrvExtTypeDef; /** * @} */ /** @addtogroup LSM6DS3_Exported_Variables LSM6DS3_Exported_Variables * @{ */ /* Six axes sensor driver structure */ extern IMU_6AXES_DrvTypeDef LSM6DS3Drv; extern IMU_6AXES_DrvExtTypeDef LSM6DS3Drv_ext; /** * @} */ /** * @} */ /** * @} */ /** * @} */ #ifdef __cplusplus } #endif #endif /* __LSM6DS3_H */ /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/