ST / Mbed 2 deprecated MultiEvent_IKS01A2

Example of multiple event detection for LSM6DSL in X-NUCLEO-IKS01A2

Dependencies:   X_NUCLEO_IKS01A2 mbed

Fork of MultiEvent_IKS01A2 by ST Expansion SW Team

Multi Event Demo Application based on sensor expansion board X-NUCLEO-IKS01A2

Main function is to show how to detect the free fall, tap, double tap, tilt, wake up, 6D Orientation and step events using the sensor expansion board and send a notification using UART to a connected PC or Desktop and display it on terminal applications like TeraTerm.
After connection has been established:
- the user can simulate all the events and then view the notification using an hyper terminal.
- the user button can be used to enable/disable all hardware features.

X_NUCLEO_IKS01A2/Components/LPS22HBSensor/LPS22HB_Driver.h@0:763b80993db4, 2016-11-24 (annotated)

Committer:
cparata
Date:
Thu Nov 24 15:42:24 2016 +0000
Revision:
0:763b80993db4
Add multi event example

Who changed what in which revision?

UserRevisionLine numberNew contents of line
cparata 0:763b80993db4 1 /**
cparata 0:763b80993db4 2 ******************************************************************************
cparata 0:763b80993db4 3 * @file LPS22HB_Driver.h
cparata 0:763b80993db4 4 * @author HESA Application Team
cparata 0:763b80993db4 5 * @version V1.1
cparata 0:763b80993db4 6 * @date 10-August-2016
cparata 0:763b80993db4 7 * @brief LPS22HB driver header file
cparata 0:763b80993db4 8 ******************************************************************************
cparata 0:763b80993db4 9 * @attention
cparata 0:763b80993db4 10 *
cparata 0:763b80993db4 11 * <h2><center>&copy; COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
cparata 0:763b80993db4 12 *
cparata 0:763b80993db4 13 * Redistribution and use in source and binary forms, with or without modification,
cparata 0:763b80993db4 14 * are permitted provided that the following conditions are met:
cparata 0:763b80993db4 15 * 1. Redistributions of source code must retain the above copyright notice,
cparata 0:763b80993db4 16 * this list of conditions and the following disclaimer.
cparata 0:763b80993db4 17 * 2. Redistributions in binary form must reproduce the above copyright notice,
cparata 0:763b80993db4 18 * this list of conditions and the following disclaimer in the documentation
cparata 0:763b80993db4 19 * and/or other materials provided with the distribution.
cparata 0:763b80993db4 20 * 3. Neither the name of STMicroelectronics nor the names of its contributors
cparata 0:763b80993db4 21 * may be used to endorse or promote products derived from this software
cparata 0:763b80993db4 22 * without specific prior written permission.
cparata 0:763b80993db4 23 *
cparata 0:763b80993db4 24 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
cparata 0:763b80993db4 25 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
cparata 0:763b80993db4 26 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
cparata 0:763b80993db4 27 * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
cparata 0:763b80993db4 28 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
cparata 0:763b80993db4 29 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
cparata 0:763b80993db4 30 * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
cparata 0:763b80993db4 31 * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
cparata 0:763b80993db4 32 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
cparata 0:763b80993db4 33 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
cparata 0:763b80993db4 34 *
cparata 0:763b80993db4 35 ******************************************************************************
cparata 0:763b80993db4 36 */
cparata 0:763b80993db4 37
cparata 0:763b80993db4 38 /* Define to prevent recursive inclusion -------------------------------------*/
cparata 0:763b80993db4 39 #ifndef __LPS22HB_DRIVER__H
cparata 0:763b80993db4 40 #define __LPS22HB_DRIVER__H
cparata 0:763b80993db4 41
cparata 0:763b80993db4 42 #include <stdint.h>
cparata 0:763b80993db4 43
cparata 0:763b80993db4 44 #ifdef __cplusplus
cparata 0:763b80993db4 45 extern "C" {
cparata 0:763b80993db4 46 #endif
cparata 0:763b80993db4 47
cparata 0:763b80993db4 48 // the user must include the proper file where HAL_ReadReg and HAL_WriteReg are implemented
cparata 0:763b80993db4 49 //#include "HAL_EnvSensors.h"
cparata 0:763b80993db4 50
cparata 0:763b80993db4 51 /* Uncomment the line below to expanse the "assert_param" macro in the drivers code */
cparata 0:763b80993db4 52 //#define USE_FULL_ASSERT_LPS22HB
cparata 0:763b80993db4 53
cparata 0:763b80993db4 54 /* Exported macro ------------------------------------------------------------*/
cparata 0:763b80993db4 55 #ifdef USE_FULL_ASSERT_LPS22HB
cparata 0:763b80993db4 56
cparata 0:763b80993db4 57 /**
cparata 0:763b80993db4 58 * @brief The assert_param macro is used for function's parameters check.
cparata 0:763b80993db4 59 * @param expr: If expr is false, it calls assert_failed function which reports
cparata 0:763b80993db4 60 * the name of the source file and the source line number of the call
cparata 0:763b80993db4 61 * that failed. If expr is true, it returns no value.
cparata 0:763b80993db4 62 * @retval None
cparata 0:763b80993db4 63 */
cparata 0:763b80993db4 64 #define LPS22HB_assert_param(expr) ((expr) ? (void)0 : LPS22HB_assert_failed((uint8_t *)__FILE__, __LINE__))
cparata 0:763b80993db4 65 /* Exported functions ------------------------------------------------------- */
cparata 0:763b80993db4 66 void LPS22HB_assert_failed(uint8_t* file, uint32_t line);
cparata 0:763b80993db4 67 #else
cparata 0:763b80993db4 68 #define LPS22HB_assert_param(expr) ((void)0)
cparata 0:763b80993db4 69 #endif /* USE_FULL_ASSERT_LPS22HB */
cparata 0:763b80993db4 70
cparata 0:763b80993db4 71 /** @addtogroup Environmental_Sensor
cparata 0:763b80993db4 72 * @{
cparata 0:763b80993db4 73 */
cparata 0:763b80993db4 74
cparata 0:763b80993db4 75 /** @addtogroup LPS22HB_DRIVER
cparata 0:763b80993db4 76 * @{
cparata 0:763b80993db4 77 */
cparata 0:763b80993db4 78
cparata 0:763b80993db4 79 /* Exported Types -------------------------------------------------------------*/
cparata 0:763b80993db4 80 /** @defgroup LPS22HB_Exported_Types
cparata 0:763b80993db4 81 * @{
cparata 0:763b80993db4 82 */
cparata 0:763b80993db4 83
cparata 0:763b80993db4 84 /**
cparata 0:763b80993db4 85 * @brief Error type.
cparata 0:763b80993db4 86 */
cparata 0:763b80993db4 87 typedef enum {LPS22HB_OK = (uint8_t)0, LPS22HB_ERROR = !LPS22HB_OK} LPS22HB_Error_et;
cparata 0:763b80993db4 88
cparata 0:763b80993db4 89 /**
cparata 0:763b80993db4 90 * @brief Enable/Disable type.
cparata 0:763b80993db4 91 */
cparata 0:763b80993db4 92 typedef enum {LPS22HB_DISABLE = (uint8_t)0, LPS22HB_ENABLE = !LPS22HB_DISABLE} LPS22HB_State_et;
cparata 0:763b80993db4 93 #define IS_LPS22HB_State(MODE) ((MODE == LPS22HB_ENABLE) || (MODE == LPS22HB_DISABLE) )
cparata 0:763b80993db4 94
cparata 0:763b80993db4 95 /**
cparata 0:763b80993db4 96 * @brief Bit status type.
cparata 0:763b80993db4 97 */
cparata 0:763b80993db4 98 typedef enum {LPS22HB_RESET = (uint8_t)0, LPS22HB_SET = !LPS22HB_RESET} LPS22HB_BitStatus_et;
cparata 0:763b80993db4 99 #define IS_LPS22HB_BitStatus(MODE) ((MODE == LPS22HB_RESET) || (MODE == LPS22HB_SET))
cparata 0:763b80993db4 100
cparata 0:763b80993db4 101 /*RES_CONF see LC_EN bit*/
cparata 0:763b80993db4 102 /**
cparata 0:763b80993db4 103 * @brief LPS22HB Power/Noise Mode configuration.
cparata 0:763b80993db4 104 */
cparata 0:763b80993db4 105 typedef enum {
cparata 0:763b80993db4 106 LPS22HB_LowNoise = (uint8_t)0x00, /*!< Low Noise mode */
cparata 0:763b80993db4 107 LPS22HB_LowPower = (uint8_t)0x01 /*!< Low Current mode */
cparata 0:763b80993db4 108 } LPS22HB_PowerMode_et;
cparata 0:763b80993db4 109
cparata 0:763b80993db4 110 #define IS_LPS22HB_PowerMode(MODE) ((MODE == LPS22HB_LowNoise) || (MODE == LPS22HB_LowPower))
cparata 0:763b80993db4 111
cparata 0:763b80993db4 112 /**
cparata 0:763b80993db4 113 * @brief Output data rate configuration.
cparata 0:763b80993db4 114 */
cparata 0:763b80993db4 115 typedef enum {
cparata 0:763b80993db4 116
cparata 0:763b80993db4 117 LPS22HB_ODR_ONE_SHOT = (uint8_t)0x00, /*!< Output Data Rate: one shot */
cparata 0:763b80993db4 118 LPS22HB_ODR_1HZ = (uint8_t)0x10, /*!< Output Data Rate: 1Hz */
cparata 0:763b80993db4 119 LPS22HB_ODR_10HZ = (uint8_t)0x20, /*!< Output Data Rate: 10Hz */
cparata 0:763b80993db4 120 LPS22HB_ODR_25HZ = (uint8_t)0x30, /*!< Output Data Rate: 25Hz */
cparata 0:763b80993db4 121 LPS22HB_ODR_50HZ = (uint8_t)0x40, /*!< Output Data Rate: 50Hz */
cparata 0:763b80993db4 122 LPS22HB_ODR_75HZ = (uint8_t)0x50 /*!< Output Data Rate: 75Hz */
cparata 0:763b80993db4 123 } LPS22HB_Odr_et;
cparata 0:763b80993db4 124
cparata 0:763b80993db4 125 #define IS_LPS22HB_ODR(ODR) ((ODR == LPS22HB_ODR_ONE_SHOT) || (ODR == LPS22HB_ODR_1HZ) || \
cparata 0:763b80993db4 126 (ODR == LPS22HB_ODR_10HZ) || (ODR == LPS22HB_ODR_25HZ)|| (ODR == LPS22HB_ODR_50HZ) || (ODR == LPS22HB_ODR_75HZ))
cparata 0:763b80993db4 127
cparata 0:763b80993db4 128 /**
cparata 0:763b80993db4 129 * @brief Low Pass Filter Cutoff Configuration.
cparata 0:763b80993db4 130 */
cparata 0:763b80993db4 131 typedef enum {
cparata 0:763b80993db4 132
cparata 0:763b80993db4 133 LPS22HB_ODR_9 = (uint8_t)0x00, /*!< Filter Cutoff ODR/9 */
cparata 0:763b80993db4 134 LPS22HB_ODR_20 = (uint8_t)0x04 /*!< Filter Cutoff ODR/20 */
cparata 0:763b80993db4 135 } LPS22HB_LPF_Cutoff_et;
cparata 0:763b80993db4 136
cparata 0:763b80993db4 137 #define IS_LPS22HB_LPF_Cutoff(CUTOFF) ((CUTOFF == LPS22HB_ODR_9) || (CUTOFF == LPS22HB_ODR_20) )
cparata 0:763b80993db4 138
cparata 0:763b80993db4 139 /**
cparata 0:763b80993db4 140 * @brief Block data update.
cparata 0:763b80993db4 141 */
cparata 0:763b80993db4 142
cparata 0:763b80993db4 143 typedef enum {
cparata 0:763b80993db4 144 LPS22HB_BDU_CONTINUOUS_UPDATE = (uint8_t)0x00, /*!< Data updated continuously */
cparata 0:763b80993db4 145 LPS22HB_BDU_NO_UPDATE = (uint8_t)0x02 /*!< Data updated after a read operation */
cparata 0:763b80993db4 146 } LPS22HB_Bdu_et;
cparata 0:763b80993db4 147 #define IS_LPS22HB_BDUMode(MODE) ((MODE == LPS22HB_BDU_CONTINUOUS_UPDATE) || (MODE == LPS22HB_BDU_NO_UPDATE))
cparata 0:763b80993db4 148
cparata 0:763b80993db4 149 /**
cparata 0:763b80993db4 150 * @brief LPS22HB Spi Mode configuration.
cparata 0:763b80993db4 151 */
cparata 0:763b80993db4 152 typedef enum {
cparata 0:763b80993db4 153 LPS22HB_SPI_4_WIRE = (uint8_t)0x00,
cparata 0:763b80993db4 154 LPS22HB_SPI_3_WIRE = (uint8_t)0x01
cparata 0:763b80993db4 155 } LPS22HB_SPIMode_et;
cparata 0:763b80993db4 156
cparata 0:763b80993db4 157 #define IS_LPS22HB_SPIMode(MODE) ((MODE == LPS22HB_SPI_4_WIRE) || (MODE == LPS22HB_SPI_3_WIRE))
cparata 0:763b80993db4 158
cparata 0:763b80993db4 159
cparata 0:763b80993db4 160 /**
cparata 0:763b80993db4 161 * @brief LPS22HB Interrupt Active Level Configuration (on High or Low)
cparata 0:763b80993db4 162 */
cparata 0:763b80993db4 163 typedef enum
cparata 0:763b80993db4 164 {
cparata 0:763b80993db4 165 LPS22HB_ActiveHigh = (uint8_t)0x00,
cparata 0:763b80993db4 166 LPS22HB_ActiveLow = (uint8_t)0x80
cparata 0:763b80993db4 167 }LPS22HB_InterruptActiveLevel_et;
cparata 0:763b80993db4 168 #define IS_LPS22HB_InterruptActiveLevel(MODE) ((MODE == LPS22HB_ActiveHigh) || (MODE == LPS22HB_ActiveLow))
cparata 0:763b80993db4 169
cparata 0:763b80993db4 170 /**
cparata 0:763b80993db4 171 * @brief LPS22HB Push-pull/Open Drain selection on Interrupt pads.
cparata 0:763b80993db4 172 */
cparata 0:763b80993db4 173 typedef enum
cparata 0:763b80993db4 174 {
cparata 0:763b80993db4 175 LPS22HB_PushPull = (uint8_t)0x00,
cparata 0:763b80993db4 176 LPS22HB_OpenDrain = (uint8_t)0x40
cparata 0:763b80993db4 177 }LPS22HB_OutputType_et;
cparata 0:763b80993db4 178 #define IS_LPS22HB_OutputType(MODE) ((MODE == LPS22HB_PushPull) || (MODE == LPS22HB_OpenDrain))
cparata 0:763b80993db4 179
cparata 0:763b80993db4 180
cparata 0:763b80993db4 181 /**
cparata 0:763b80993db4 182 * @brief Data Signal on INT pad control bits.
cparata 0:763b80993db4 183 */
cparata 0:763b80993db4 184 typedef enum
cparata 0:763b80993db4 185 {
cparata 0:763b80993db4 186 LPS22HB_DATA = (uint8_t)0x00,
cparata 0:763b80993db4 187 LPS22HB_P_HIGH = (uint8_t)0x01,
cparata 0:763b80993db4 188 LPS22HB_P_LOW = (uint8_t)0x02,
cparata 0:763b80993db4 189 LPS22HB_P_LOW_HIGH = (uint8_t)0x03
cparata 0:763b80993db4 190 }LPS22HB_OutputSignalConfig_et;
cparata 0:763b80993db4 191 #define IS_LPS22HB_OutputSignal(MODE) ((MODE == LPS22HB_DATA) || (MODE == LPS22HB_P_HIGH)||\
cparata 0:763b80993db4 192 (MODE == LPS22HB_P_LOW) || (MODE == LPS22HB_P_LOW_HIGH))
cparata 0:763b80993db4 193
cparata 0:763b80993db4 194
cparata 0:763b80993db4 195
cparata 0:763b80993db4 196 /**
cparata 0:763b80993db4 197 * @brief LPS22HB Interrupt Differential Status.
cparata 0:763b80993db4 198 */
cparata 0:763b80993db4 199
cparata 0:763b80993db4 200 typedef struct
cparata 0:763b80993db4 201 {
cparata 0:763b80993db4 202 uint8_t PH; /*!< High Differential Pressure event occured */
cparata 0:763b80993db4 203 uint8_t PL; /*!< Low Differential Pressure event occured */
cparata 0:763b80993db4 204 uint8_t IA; /*!< One or more interrupt events have been generated.Interrupt Active */
cparata 0:763b80993db4 205 uint8_t BOOT; /*!< i '1' indicates that the Boot (Reboot) phase is running */
cparata 0:763b80993db4 206 }LPS22HB_InterruptDiffStatus_st;
cparata 0:763b80993db4 207
cparata 0:763b80993db4 208
cparata 0:763b80993db4 209 /**
cparata 0:763b80993db4 210 * @brief LPS22HB Pressure and Temperature data status.
cparata 0:763b80993db4 211 */
cparata 0:763b80993db4 212 typedef struct
cparata 0:763b80993db4 213 {
cparata 0:763b80993db4 214 uint8_t TempDataAvailable; /*!< Temperature data available bit */
cparata 0:763b80993db4 215 uint8_t PressDataAvailable; /*!< Pressure data available bit */
cparata 0:763b80993db4 216 uint8_t TempDataOverrun; /*!< Temperature data over-run bit */
cparata 0:763b80993db4 217 uint8_t PressDataOverrun; /*!< Pressure data over-run bit */
cparata 0:763b80993db4 218 }LPS22HB_DataStatus_st;
cparata 0:763b80993db4 219
cparata 0:763b80993db4 220
cparata 0:763b80993db4 221 /**
cparata 0:763b80993db4 222 * @brief LPS22HB Clock Tree configuration.
cparata 0:763b80993db4 223 */
cparata 0:763b80993db4 224 typedef enum {
cparata 0:763b80993db4 225 LPS22HB_CTE_NotBalanced = (uint8_t)0x00,
cparata 0:763b80993db4 226 LPS22HB_CTE_Balanced = (uint8_t)0x20
cparata 0:763b80993db4 227 } LPS22HB_CTE_et;
cparata 0:763b80993db4 228
cparata 0:763b80993db4 229 #define IS_LPS22HB_CTE(MODE) ((MODE == LPS22HB_CTE_NotBalanced) || (MODE == LPS22HB_CTE_Balanced))
cparata 0:763b80993db4 230
cparata 0:763b80993db4 231 /**
cparata 0:763b80993db4 232 * @brief LPS22HB Fifo Mode.
cparata 0:763b80993db4 233 */
cparata 0:763b80993db4 234
cparata 0:763b80993db4 235 typedef enum {
cparata 0:763b80993db4 236 LPS22HB_FIFO_BYPASS_MODE = (uint8_t)0x00, /*!< The FIFO is disabled and empty. The pressure is read directly*/
cparata 0:763b80993db4 237 LPS22HB_FIFO_MODE = (uint8_t)0x20, /*!< Stops collecting data when full */
cparata 0:763b80993db4 238 LPS22HB_FIFO_STREAM_MODE = (uint8_t)0x40, /*!< Keep the newest measurements in the FIFO*/
cparata 0:763b80993db4 239 LPS22HB_FIFO_TRIGGER_STREAMTOFIFO_MODE = (uint8_t)0x60, /*!< STREAM MODE until trigger deasserted, then change to FIFO MODE*/
cparata 0:763b80993db4 240 LPS22HB_FIFO_TRIGGER_BYPASSTOSTREAM_MODE = (uint8_t)0x80, /*!< BYPASS MODE until trigger deasserted, then STREAM MODE*/
cparata 0:763b80993db4 241 LPS22HB_FIFO_TRIGGER_BYPASSTOFIFO_MODE = (uint8_t)0xE0 /*!< BYPASS mode until trigger deasserted, then FIFO MODE*/
cparata 0:763b80993db4 242 } LPS22HB_FifoMode_et;
cparata 0:763b80993db4 243
cparata 0:763b80993db4 244 #define IS_LPS22HB_FifoMode(MODE) ((MODE == LPS22HB_FIFO_BYPASS_MODE) || (MODE ==LPS22HB_FIFO_MODE)||\
cparata 0:763b80993db4 245 (MODE == LPS22HB_FIFO_STREAM_MODE) || (MODE == LPS22HB_FIFO_TRIGGER_STREAMTOFIFO_MODE)||\
cparata 0:763b80993db4 246 (MODE == LPS22HB_FIFO_TRIGGER_BYPASSTOSTREAM_MODE) || (MODE == LPS22HB_FIFO_TRIGGER_BYPASSTOFIFO_MODE))
cparata 0:763b80993db4 247
cparata 0:763b80993db4 248
cparata 0:763b80993db4 249 /**
cparata 0:763b80993db4 250 * @brief LPS22HB Fifo Satus.
cparata 0:763b80993db4 251 */
cparata 0:763b80993db4 252 typedef struct {
cparata 0:763b80993db4 253 uint8_t FIFO_LEVEL; /*!< FIFO Stored data level: 00000: FIFO empty; 10000: FIFO is FULL and ha 32 unread samples */
cparata 0:763b80993db4 254 uint8_t FIFO_EMPTY; /*!< Empty FIFO Flag .1 FIFO is empty (see FIFO_level) */
cparata 0:763b80993db4 255 uint8_t FIFO_FULL; /*!< Full FIFO flag.1 FIFO is Full (see FIFO_level) */
cparata 0:763b80993db4 256 uint8_t FIFO_OVR; /*!< Overrun bit status. 1 FIFO is full and at least one sample in the FIFO has been overwritten */
cparata 0:763b80993db4 257 uint8_t FIFO_FTH; /*!< FIFO Threshold (Watermark) Status. 1 FIFO filling is equal or higher then FTH (wtm) level.*/
cparata 0:763b80993db4 258 }LPS22HB_FifoStatus_st;
cparata 0:763b80993db4 259
cparata 0:763b80993db4 260
cparata 0:763b80993db4 261
cparata 0:763b80993db4 262 /**
cparata 0:763b80993db4 263 * @brief LPS22HB Configuration structure definition.
cparata 0:763b80993db4 264 */
cparata 0:763b80993db4 265 typedef struct
cparata 0:763b80993db4 266 {
cparata 0:763b80993db4 267 LPS22HB_PowerMode_et PowerMode; /*!< Enable Low Current Mode (low Power) or Low Noise Mode*/
cparata 0:763b80993db4 268 LPS22HB_Odr_et OutputDataRate; /*!< Output Data Rate */
cparata 0:763b80993db4 269 LPS22HB_Bdu_et BDU; /*!< Enable to inhibit the output registers update between the reading of upper and lower register parts.*/
cparata 0:763b80993db4 270 LPS22HB_State_et LowPassFilter; /*!< Enable/ Disable Low Pass Filter */
cparata 0:763b80993db4 271 LPS22HB_LPF_Cutoff_et LPF_Cutoff; /*!< Low Pass Filter Configuration */
cparata 0:763b80993db4 272 LPS22HB_SPIMode_et Sim; /*!< SPI Serial Interface Mode selection */
cparata 0:763b80993db4 273 LPS22HB_State_et IfAddInc; /*!< Enable/Disable Register address automatically inceremented during a multiple byte access */
cparata 0:763b80993db4 274 }LPS22HB_ConfigTypeDef_st;
cparata 0:763b80993db4 275
cparata 0:763b80993db4 276
cparata 0:763b80993db4 277 /**
cparata 0:763b80993db4 278 * @brief LPS22HB Interrupt structure definition .
cparata 0:763b80993db4 279 */
cparata 0:763b80993db4 280 typedef struct {
cparata 0:763b80993db4 281 LPS22HB_InterruptActiveLevel_et INT_H_L; /*!< Interrupt active high, low. Default value: 0 */
cparata 0:763b80993db4 282 LPS22HB_OutputType_et PP_OD; /*!< Push-pull/open drain selection on interrupt pads. Default value: 0 */
cparata 0:763b80993db4 283 LPS22HB_OutputSignalConfig_et OutputSignal_INT; /*!< Data signal on INT Pad: Data,Pressure High, Preessure Low,P High or Low*/
cparata 0:763b80993db4 284 LPS22HB_State_et DRDY; /*!< Enable/Disable Data Ready Interrupt on INT_DRDY Pin*/
cparata 0:763b80993db4 285 LPS22HB_State_et FIFO_OVR; /*!< Enable/Disable FIFO Overrun Interrupt on INT_DRDY Pin*/
cparata 0:763b80993db4 286 LPS22HB_State_et FIFO_FTH; /*!< Enable/Disable FIFO threshold (Watermark) interrupt on INT_DRDY pin.*/
cparata 0:763b80993db4 287 LPS22HB_State_et FIFO_FULL; /*!< Enable/Disable FIFO FULL interrupt on INT_DRDY pin.*/
cparata 0:763b80993db4 288 LPS22HB_State_et LatchIRQ; /*!< Latch Interrupt request in to INT_SOURCE reg*/
cparata 0:763b80993db4 289 int16_t THS_threshold; /*!< Threshold value for pressure interrupt generation*/
cparata 0:763b80993db4 290 LPS22HB_State_et AutoRifP; /*!< Enable/Disable AutoRifP function */
cparata 0:763b80993db4 291 LPS22HB_State_et AutoZero; /*!< Enable/Disable AutoZero function */
cparata 0:763b80993db4 292 }LPS22HB_InterruptTypeDef_st;
cparata 0:763b80993db4 293
cparata 0:763b80993db4 294 /**
cparata 0:763b80993db4 295 * @brief LPS22HB FIFO structure definition.
cparata 0:763b80993db4 296 */
cparata 0:763b80993db4 297 typedef struct {
cparata 0:763b80993db4 298 LPS22HB_FifoMode_et FIFO_MODE; /*!< Fifo Mode Selection */
cparata 0:763b80993db4 299 LPS22HB_State_et WTM_INT; /*!< Enable/Disable the watermark interrupt*/
cparata 0:763b80993db4 300 uint8_t WTM_LEVEL; /*!< FIFO threshold/Watermark level selection*/
cparata 0:763b80993db4 301 }LPS22HB_FIFOTypeDef_st;
cparata 0:763b80993db4 302
cparata 0:763b80993db4 303 #define IS_LPS22HB_WtmLevel(LEVEL) ((LEVEL > 0) && (LEVEL <=31))
cparata 0:763b80993db4 304 /**
cparata 0:763b80993db4 305 * @brief LPS22HB Measure Type definition.
cparata 0:763b80993db4 306 */
cparata 0:763b80993db4 307 typedef struct {
cparata 0:763b80993db4 308 int16_t Tout;
cparata 0:763b80993db4 309 int32_t Pout;
cparata 0:763b80993db4 310 }LPS22HB_MeasureTypeDef_st;
cparata 0:763b80993db4 311
cparata 0:763b80993db4 312
cparata 0:763b80993db4 313 /**
cparata 0:763b80993db4 314 * @brief LPS22HB Driver Version Info structure definition.
cparata 0:763b80993db4 315 */
cparata 0:763b80993db4 316 typedef struct {
cparata 0:763b80993db4 317 uint8_t Major;
cparata 0:763b80993db4 318 uint8_t Minor;
cparata 0:763b80993db4 319 uint8_t Point;
cparata 0:763b80993db4 320 }LPS22HB_DriverVersion_st;
cparata 0:763b80993db4 321
cparata 0:763b80993db4 322
cparata 0:763b80993db4 323 /**
cparata 0:763b80993db4 324 * @brief Bitfield positioning.
cparata 0:763b80993db4 325 */
cparata 0:763b80993db4 326 #define LPS22HB_BIT(x) ((uint8_t)x)
cparata 0:763b80993db4 327
cparata 0:763b80993db4 328 /**
cparata 0:763b80993db4 329 * @brief I2C address.
cparata 0:763b80993db4 330 */
cparata 0:763b80993db4 331 /* SD0/SA0(pin 5) is connected to the voltage supply */
cparata 0:763b80993db4 332 #define LPS22HB_ADDRESS_HIGH 0xBA /**< LPS22HB I2C Address High */
cparata 0:763b80993db4 333 /* SDO/SA0 (pin5) is connected to the GND */
cparata 0:763b80993db4 334 #define LPS22HB_ADDRESS_LOW 0xB8 /**< LPS22HB I2C Address Low */
cparata 0:763b80993db4 335
cparata 0:763b80993db4 336 /**
cparata 0:763b80993db4 337 * @brief Set the LPS22HB driver version.
cparata 0:763b80993db4 338 */
cparata 0:763b80993db4 339
cparata 0:763b80993db4 340 #define LPS22HB_DriverVersion_Major (uint8_t)1
cparata 0:763b80993db4 341 #define LPS22HB_DriverVersion_Minor (uint8_t)0
cparata 0:763b80993db4 342 #define LPS22HB_DriverVersion_Point (uint8_t)0
cparata 0:763b80993db4 343
cparata 0:763b80993db4 344 /**
cparata 0:763b80993db4 345 * @}
cparata 0:763b80993db4 346 */
cparata 0:763b80993db4 347
cparata 0:763b80993db4 348
cparata 0:763b80993db4 349 /* Exported Constants ---------------------------------------------------------*/
cparata 0:763b80993db4 350 /** @defgroup LPS22HB_Exported_Constants
cparata 0:763b80993db4 351 * @{
cparata 0:763b80993db4 352 */
cparata 0:763b80993db4 353
cparata 0:763b80993db4 354
cparata 0:763b80993db4 355 /**
cparata 0:763b80993db4 356 * @addtogroup LPS22HB_Register
cparata 0:763b80993db4 357 * @{
cparata 0:763b80993db4 358 */
cparata 0:763b80993db4 359
cparata 0:763b80993db4 360
cparata 0:763b80993db4 361
cparata 0:763b80993db4 362 /**
cparata 0:763b80993db4 363 * @brief Device Identification register.
cparata 0:763b80993db4 364 * \code
cparata 0:763b80993db4 365 * Read
cparata 0:763b80993db4 366 * Default value: 0xB1
cparata 0:763b80993db4 367 * 7:0 This read-only register contains the device identifier that, for LPS22HB, is set to B1h.
cparata 0:763b80993db4 368 * \endcode
cparata 0:763b80993db4 369 */
cparata 0:763b80993db4 370
cparata 0:763b80993db4 371 #define LPS22HB_WHO_AM_I_REG (uint8_t)0x0F
cparata 0:763b80993db4 372
cparata 0:763b80993db4 373 /**
cparata 0:763b80993db4 374 * @brief Device Identification value.
cparata 0:763b80993db4 375 */
cparata 0:763b80993db4 376 #define LPS22HB_WHO_AM_I_VAL (uint8_t)0xB1
cparata 0:763b80993db4 377
cparata 0:763b80993db4 378
cparata 0:763b80993db4 379 /**
cparata 0:763b80993db4 380 * @brief Reference Pressure Register(LSB data)
cparata 0:763b80993db4 381 * \code
cparata 0:763b80993db4 382 * Read/write
cparata 0:763b80993db4 383 * Default value: 0x00
cparata 0:763b80993db4 384 * 7:0 REFL7-0: Lower part of the reference pressure value that
cparata 0:763b80993db4 385 * is sum to the sensor output pressure.
cparata 0:763b80993db4 386 * \endcode
cparata 0:763b80993db4 387 */
cparata 0:763b80993db4 388 #define LPS22HB_REF_P_XL_REG (uint8_t)0x15
cparata 0:763b80993db4 389
cparata 0:763b80993db4 390
cparata 0:763b80993db4 391 /**
cparata 0:763b80993db4 392 * @brief Reference Pressure Register (Middle data)
cparata 0:763b80993db4 393 * \code
cparata 0:763b80993db4 394 * Read/write
cparata 0:763b80993db4 395 * Default value: 0x00
cparata 0:763b80993db4 396 * 7:0 REFL15-8: Middle part of the reference pressure value that
cparata 0:763b80993db4 397 * is sum to the sensor output pressure.
cparata 0:763b80993db4 398 * \endcode
cparata 0:763b80993db4 399 */
cparata 0:763b80993db4 400 #define LPS22HB_REF_P_L_REG (uint8_t)0x16
cparata 0:763b80993db4 401
cparata 0:763b80993db4 402 /**
cparata 0:763b80993db4 403 * @brief Reference Pressure Register (MSB data)
cparata 0:763b80993db4 404 * \code
cparata 0:763b80993db4 405 * Read/write
cparata 0:763b80993db4 406 * Default value: 0x00
cparata 0:763b80993db4 407 * 7:0 REFL23-16 Higest part of the reference pressure value that
cparata 0:763b80993db4 408 * is sum to the sensor output pressure.
cparata 0:763b80993db4 409 * \endcode
cparata 0:763b80993db4 410 */
cparata 0:763b80993db4 411 #define LPS22HB_REF_P_H_REG (uint8_t)0x17
cparata 0:763b80993db4 412
cparata 0:763b80993db4 413
cparata 0:763b80993db4 414 /**
cparata 0:763b80993db4 415 * @brief Pressure and temperature resolution mode Register
cparata 0:763b80993db4 416 * \code
cparata 0:763b80993db4 417 * Read/write
cparata 0:763b80993db4 418 * Default value: 0x05
cparata 0:763b80993db4 419 * 7:2 These bits must be set to 0 for proper operation of the device
cparata 0:763b80993db4 420 * 1: Reserved
cparata 0:763b80993db4 421 * 0 LC_EN: Low Current Mode Enable. Default 0
cparata 0:763b80993db4 422 * \endcode
cparata 0:763b80993db4 423 */
cparata 0:763b80993db4 424 #define LPS22HB_RES_CONF_REG (uint8_t)0x1A
cparata 0:763b80993db4 425
cparata 0:763b80993db4 426 #define LPS22HB_LCEN_MASK (uint8_t)0x01
cparata 0:763b80993db4 427
cparata 0:763b80993db4 428 /**
cparata 0:763b80993db4 429 * @brief Control Register 1
cparata 0:763b80993db4 430 * \code
cparata 0:763b80993db4 431 * Read/write
cparata 0:763b80993db4 432 * Default value: 0x00
cparata 0:763b80993db4 433 * 7: This bit must be set to 0 for proper operation of the device
cparata 0:763b80993db4 434 * 6:4 ODR2, ODR1, ODR0: output data rate selection.Default 000
cparata 0:763b80993db4 435 * ODR2 | ODR1 | ODR0 | Pressure output data-rate(Hz) | Pressure output data-rate(Hz)
cparata 0:763b80993db4 436 * ----------------------------------------------------------------------------------
cparata 0:763b80993db4 437 * 0 | 0 | 0 | one shot | one shot
cparata 0:763b80993db4 438 * 0 | 0 | 1 | 1 | 1
cparata 0:763b80993db4 439 * 0 | 1 | 0 | 10 | 10
cparata 0:763b80993db4 440 * 0 | 1 | 1 | 25 | 25
cparata 0:763b80993db4 441 * 1 | 0 | 0 | 50 | 50
cparata 0:763b80993db4 442 * 1 | 0 | 1 | 75 | 75
cparata 0:763b80993db4 443 * 1 | 1 | 0 | Reserved | Reserved
cparata 0:763b80993db4 444 * 1 | 1 | 1 | Reserved | Reserved
cparata 0:763b80993db4 445 *
cparata 0:763b80993db4 446 * 3 EN_LPFP: Enable Low Pass filter on Pressure data. Default value:0
cparata 0:763b80993db4 447 * 2:LPF_CFG Low-pass configuration register. (0: Filter cutoff is ODR/9; 1: filter cutoff is ODR/20)
cparata 0:763b80993db4 448 * 1 BDU: block data update. 0 - continuous update; 1 - output registers not updated until MSB and LSB reading.
cparata 0:763b80993db4 449 * 0 SIM: SPI Serial Interface Mode selection. 0 - SPI 4-wire; 1 - SPI 3-wire
cparata 0:763b80993db4 450 * \endcode
cparata 0:763b80993db4 451 */
cparata 0:763b80993db4 452 #define LPS22HB_CTRL_REG1 (uint8_t)0x10
cparata 0:763b80993db4 453
cparata 0:763b80993db4 454 #define LPS22HB_ODR_MASK (uint8_t)0x70
cparata 0:763b80993db4 455 #define LPS22HB_LPFP_MASK (uint8_t)0x08
cparata 0:763b80993db4 456 #define LPS22HB_LPFP_CUTOFF_MASK (uint8_t)0x04
cparata 0:763b80993db4 457 #define LPS22HB_BDU_MASK (uint8_t)0x02
cparata 0:763b80993db4 458 #define LPS22HB_SIM_MASK (uint8_t)0x01
cparata 0:763b80993db4 459
cparata 0:763b80993db4 460 #define LPS22HB_LPFP_BIT LPS22HB_BIT(3)
cparata 0:763b80993db4 461
cparata 0:763b80993db4 462
cparata 0:763b80993db4 463 /**
cparata 0:763b80993db4 464 * @brief Control Register 2
cparata 0:763b80993db4 465 * \code
cparata 0:763b80993db4 466 * Read/write
cparata 0:763b80993db4 467 * Default value: 0x10
cparata 0:763b80993db4 468 * 7 BOOT: Reboot memory content. 0: normal mode; 1: reboot memory content. Self-clearing upon completation
cparata 0:763b80993db4 469 * 6 FIFO_EN: FIFO Enable. 0: disable; 1: enable
cparata 0:763b80993db4 470 * 5 STOP_ON_FTH: Stop on FIFO Threshold FIFO Watermark level use. 0: disable; 1: enable
cparata 0:763b80993db4 471 * 4 IF_ADD_INC: Register address automatically incrementeed during a multiple byte access with a serial interface (I2C or SPI). Default value 1.( 0: disable; 1: enable)
cparata 0:763b80993db4 472 * 3 I2C DIS: Disable I2C interface 0: I2C Enabled; 1: I2C disabled
cparata 0:763b80993db4 473 * 2 SWRESET: Software reset. 0: normal mode; 1: SW reset. Self-clearing upon completation
cparata 0:763b80993db4 474 * 1 AUTO_ZERO: Autozero enable. 0: normal mode; 1: autozero enable.
cparata 0:763b80993db4 475 * 0 ONE_SHOT: One shot enable. 0: waiting for start of conversion; 1: start for a new dataset
cparata 0:763b80993db4 476 * \endcode
cparata 0:763b80993db4 477 */
cparata 0:763b80993db4 478 #define LPS22HB_CTRL_REG2 (uint8_t)0x11
cparata 0:763b80993db4 479
cparata 0:763b80993db4 480 #define LPS22HB_BOOT_BIT LPS22HB_BIT(7)
cparata 0:763b80993db4 481 #define LPS22HB_FIFO_EN_BIT LPS22HB_BIT(6)
cparata 0:763b80993db4 482 #define LPS22HB_WTM_EN_BIT LPS22HB_BIT(5)
cparata 0:763b80993db4 483 #define LPS22HB_ADD_INC_BIT LPS22HB_BIT(4)
cparata 0:763b80993db4 484 #define LPS22HB_I2C_BIT LPS22HB_BIT(3)
cparata 0:763b80993db4 485 #define LPS22HB_SW_RESET_BIT LPS22HB_BIT(2)
cparata 0:763b80993db4 486
cparata 0:763b80993db4 487 #define LPS22HB_FIFO_EN_MASK (uint8_t)0x40
cparata 0:763b80993db4 488 #define LPS22HB_WTM_EN_MASK (uint8_t)0x20
cparata 0:763b80993db4 489 #define LPS22HB_ADD_INC_MASK (uint8_t)0x10
cparata 0:763b80993db4 490 #define LPS22HB_I2C_MASK (uint8_t)0x08
cparata 0:763b80993db4 491 #define LPS22HB_ONE_SHOT_MASK (uint8_t)0x01
cparata 0:763b80993db4 492
cparata 0:763b80993db4 493
cparata 0:763b80993db4 494 /**
cparata 0:763b80993db4 495 * @brief CTRL Reg3 Interrupt Control Register
cparata 0:763b80993db4 496 * \code
cparata 0:763b80993db4 497 * Read/write
cparata 0:763b80993db4 498 * Default value: 0x00
cparata 0:763b80993db4 499 * 7 INT_H_L: Interrupt active high, low. 0:active high; 1: active low.
cparata 0:763b80993db4 500 * 6 PP_OD: Push-Pull/OpenDrain selection on interrupt pads. 0: Push-pull; 1: open drain.
cparata 0:763b80993db4 501 * 5 F_FSS5: FIFO full flag on INT_DRDY pin. Defaul value: 0. (0: Diasable; 1 : Enable).
cparata 0:763b80993db4 502 * 4 F_FTH: FIFO threshold (watermark) status on INT_DRDY pin. Defaul value: 0. (0: Diasable; 1 : Enable).
cparata 0:763b80993db4 503 * 3 F_OVR: FIFO overrun interrupt on INT_DRDY pin. Defaul value: 0. (0: Diasable; 1 : Enable).
cparata 0:763b80993db4 504 * 2 DRDY: Data-ready signal on INT_DRDY pin. Defaul value: 0. (0: Diasable; 1 : Enable).
cparata 0:763b80993db4 505 * 1:0 INT_S2, INT_S1: data signal on INT pad control bits.
cparata 0:763b80993db4 506 * INT_S2 | INT_S1 | INT pin
cparata 0:763b80993db4 507 * ------------------------------------------------------
cparata 0:763b80993db4 508 * 0 | 0 | Data signal( in order of priority:PTH_DRDY or F_FTH or F_OVR_or F_FSS5
cparata 0:763b80993db4 509 * 0 | 1 | Pressure high (P_high)
cparata 0:763b80993db4 510 * 1 | 0 | Pressure low (P_low)
cparata 0:763b80993db4 511 * 1 | 1 | P_low OR P_high
cparata 0:763b80993db4 512 * \endcode
cparata 0:763b80993db4 513 */
cparata 0:763b80993db4 514 #define LPS22HB_CTRL_REG3 (uint8_t)0x12
cparata 0:763b80993db4 515
cparata 0:763b80993db4 516 #define LPS22HB_PP_OD_BIT LPS22HB_BIT(6)
cparata 0:763b80993db4 517 #define LPS22HB_FIFO_FULL_BIT LPS22HB_BIT(5)
cparata 0:763b80993db4 518 #define LPS22HB_FIFO_FTH_BIT LPS22HB_BIT(4)
cparata 0:763b80993db4 519 #define LPS22HB_FIFO_OVR_BIT LPS22HB_BIT(3)
cparata 0:763b80993db4 520 #define LPS22HB_DRDY_BIT LPS22HB_BIT(2)
cparata 0:763b80993db4 521
cparata 0:763b80993db4 522
cparata 0:763b80993db4 523 #define LPS22HB_INT_H_L_MASK (uint8_t)0x80
cparata 0:763b80993db4 524 #define LPS22HB_PP_OD_MASK (uint8_t)0x40
cparata 0:763b80993db4 525 #define LPS22HB_FIFO_FULL_MASK (uint8_t)0x20
cparata 0:763b80993db4 526 #define LPS22HB_FIFO_FTH_MASK (uint8_t)0x10
cparata 0:763b80993db4 527 #define LPS22HB_FIFO_OVR_MASK (uint8_t)0x08
cparata 0:763b80993db4 528 #define LPS22HB_DRDY_MASK (uint8_t)0x04
cparata 0:763b80993db4 529 #define LPS22HB_INT_S12_MASK (uint8_t)0x03
cparata 0:763b80993db4 530
cparata 0:763b80993db4 531
cparata 0:763b80993db4 532 /**
cparata 0:763b80993db4 533 * @brief Interrupt Differential configuration Register
cparata 0:763b80993db4 534 * \code
cparata 0:763b80993db4 535 * Read/write
cparata 0:763b80993db4 536 * Default value: 0x00.
cparata 0:763b80993db4 537 * 7 AUTORIFP: AutoRifP Enable ??
cparata 0:763b80993db4 538 * 6 RESET_ARP: Reset AutoRifP function
cparata 0:763b80993db4 539 * 4 AUTOZERO: Autozero enabled
cparata 0:763b80993db4 540 * 5 RESET_AZ: Reset Autozero Function
cparata 0:763b80993db4 541 * 3 DIFF_EN: Interrupt generation enable
cparata 0:763b80993db4 542 * 2 LIR: Latch Interrupt request into INT_SOURCE register. 0 - interrupt request not latched; 1 - interrupt request latched
cparata 0:763b80993db4 543 * 1 PL_E: Enable interrupt generation on differential pressure low event. 0 - disable; 1 - enable
cparata 0:763b80993db4 544 * 0 PH_E: Enable interrupt generation on differential pressure high event. 0 - disable; 1 - enable
cparata 0:763b80993db4 545 * \endcode
cparata 0:763b80993db4 546 */
cparata 0:763b80993db4 547 #define LPS22HB_INTERRUPT_CFG_REG (uint8_t)0x0B
cparata 0:763b80993db4 548
cparata 0:763b80993db4 549 #define LPS22HB_DIFF_EN_BIT LPS22HB_BIT(3)
cparata 0:763b80993db4 550 #define LPS22HB_LIR_BIT LPS22HB_BIT(2)
cparata 0:763b80993db4 551 #define LPS22HB_PLE_BIT LPS22HB_BIT(1)
cparata 0:763b80993db4 552 #define LPS22HB_PHE_BIT LPS22HB_BIT(0)
cparata 0:763b80993db4 553
cparata 0:763b80993db4 554 #define LPS22HB_AUTORIFP_MASK (uint8_t)0x80
cparata 0:763b80993db4 555 #define LPS22HB_RESET_ARP_MASK (uint8_t)0x40
cparata 0:763b80993db4 556 #define LPS22HB_AUTOZERO_MASK (uint8_t)0x20
cparata 0:763b80993db4 557 #define LPS22HB_RESET_AZ_MASK (uint8_t)0x10
cparata 0:763b80993db4 558 #define LPS22HB_DIFF_EN_MASK (uint8_t)0x08
cparata 0:763b80993db4 559 #define LPS22HB_LIR_MASK (uint8_t)0x04
cparata 0:763b80993db4 560 #define LPS22HB_PLE_MASK (uint8_t)0x02
cparata 0:763b80993db4 561 #define LPS22HB_PHE_MASK (uint8_t)0x01
cparata 0:763b80993db4 562
cparata 0:763b80993db4 563
cparata 0:763b80993db4 564
cparata 0:763b80993db4 565 /**
cparata 0:763b80993db4 566 * @brief Interrupt source Register (It is cleared by reading it)
cparata 0:763b80993db4 567 * \code
cparata 0:763b80993db4 568 * Read
cparata 0:763b80993db4 569 * Default value: ----.
cparata 0:763b80993db4 570 * 7 BOOT_STATUS: If 1 indicates that the Boot (Reboot) phase is running.
cparata 0:763b80993db4 571 * 6:3 Reserved: Keep these bits at 0
cparata 0:763b80993db4 572 * 2 IA: Interrupt Active.0: no interrupt has been generated; 1: one or more interrupt events have been generated.
cparata 0:763b80993db4 573 * 1 PL: Differential pressure Low. 0: no interrupt has been generated; 1: Low differential pressure event has occurred.
cparata 0:763b80993db4 574 * 0 PH: Differential pressure High. 0: no interrupt has been generated; 1: High differential pressure event has occurred.
cparata 0:763b80993db4 575 * \endcode
cparata 0:763b80993db4 576 */
cparata 0:763b80993db4 577 #define LPS22HB_INTERRUPT_SOURCE_REG (uint8_t)0x25
cparata 0:763b80993db4 578
cparata 0:763b80993db4 579 #define LPS22HB_BOOT_STATUS_BIT LPS22HB_BIT(7)
cparata 0:763b80993db4 580 #define LPS22HB_IA_BIT LPS22HB_BIT(2)
cparata 0:763b80993db4 581 #define LPS22HB_PL_BIT LPS22HB_BIT(1)
cparata 0:763b80993db4 582 #define LPS22HB_PH_BIT LPS22HB_BIT(0)
cparata 0:763b80993db4 583
cparata 0:763b80993db4 584 #define LPS22HB_BOOT_STATUS_MASK (uint8_t)0x80
cparata 0:763b80993db4 585 #define LPS22HB_IA_MASK (uint8_t)0x04
cparata 0:763b80993db4 586 #define LPS22HB_PL_MASK (uint8_t)0x02
cparata 0:763b80993db4 587 #define LPS22HB_PH_MASK (uint8_t)0x01
cparata 0:763b80993db4 588
cparata 0:763b80993db4 589
cparata 0:763b80993db4 590 /**
cparata 0:763b80993db4 591 * @brief Status Register
cparata 0:763b80993db4 592 * \code
cparata 0:763b80993db4 593 * Read
cparata 0:763b80993db4 594 * Default value: ---
cparata 0:763b80993db4 595 * 7:6 Reserved: 0
cparata 0:763b80993db4 596 * 5 T_OR: Temperature data overrun. 0: no overrun has occurred; 1: a new data for temperature has overwritten the previous one.
cparata 0:763b80993db4 597 * 4 P_OR: Pressure data overrun. 0: no overrun has occurred; 1: new data for pressure has overwritten the previous one.
cparata 0:763b80993db4 598 * 3:2 Reserved: 0
cparata 0:763b80993db4 599 * 1 T_DA: Temperature data available. 0: new data for temperature is not yet available; 1: new data for temperature is available.
cparata 0:763b80993db4 600 * 0 P_DA: Pressure data available. 0: new data for pressure is not yet available; 1: new data for pressure is available.
cparata 0:763b80993db4 601 * \endcode
cparata 0:763b80993db4 602 */
cparata 0:763b80993db4 603 #define LPS22HB_STATUS_REG (uint8_t)0x27
cparata 0:763b80993db4 604
cparata 0:763b80993db4 605 #define LPS22HB_TOR_BIT LPS22HB_BIT(5)
cparata 0:763b80993db4 606 #define LPS22HB_POR_BIT LPS22HB_BIT(4)
cparata 0:763b80993db4 607 #define LPS22HB_TDA_BIT LPS22HB_BIT(1)
cparata 0:763b80993db4 608 #define LPS22HB_PDA_BIT LPS22HB_BIT(0)
cparata 0:763b80993db4 609
cparata 0:763b80993db4 610 #define LPS22HB_TOR_MASK (uint8_t)0x20
cparata 0:763b80993db4 611 #define LPS22HB_POR_MASK (uint8_t)0x10
cparata 0:763b80993db4 612 #define LPS22HB_TDA_MASK (uint8_t)0x02
cparata 0:763b80993db4 613 #define LPS22HB_PDA_MASK (uint8_t)0x01
cparata 0:763b80993db4 614
cparata 0:763b80993db4 615
cparata 0:763b80993db4 616
cparata 0:763b80993db4 617 /**
cparata 0:763b80993db4 618 * @brief Pressure data (LSB) register.
cparata 0:763b80993db4 619 * \code
cparata 0:763b80993db4 620 * Read
cparata 0:763b80993db4 621 * Default value: 0x00.(To be verified)
cparata 0:763b80993db4 622 * POUT7 - POUT0: Pressure data LSB (2's complement).
cparata 0:763b80993db4 623 * Pressure output data: Pout(hPA)=(PRESS_OUT_H & PRESS_OUT_L &
cparata 0:763b80993db4 624 * PRESS_OUT_XL)[dec]/4096.
cparata 0:763b80993db4 625 * \endcode
cparata 0:763b80993db4 626 */
cparata 0:763b80993db4 627
cparata 0:763b80993db4 628 #define LPS22HB_PRESS_OUT_XL_REG (uint8_t)0x28
cparata 0:763b80993db4 629 /**
cparata 0:763b80993db4 630 * @brief Pressure data (Middle part) register.
cparata 0:763b80993db4 631 * \code
cparata 0:763b80993db4 632 * Read
cparata 0:763b80993db4 633 * Default value: 0x80.
cparata 0:763b80993db4 634 * POUT15 - POUT8: Pressure data middle part (2's complement).
cparata 0:763b80993db4 635 * Pressure output data: Pout(hPA)=(PRESS_OUT_H & PRESS_OUT_L &
cparata 0:763b80993db4 636 * PRESS_OUT_XL)[dec]/4096.
cparata 0:763b80993db4 637 * \endcode
cparata 0:763b80993db4 638 */
cparata 0:763b80993db4 639 #define LPS22HB_PRESS_OUT_L_REG (uint8_t)0x29
cparata 0:763b80993db4 640
cparata 0:763b80993db4 641 /**
cparata 0:763b80993db4 642 * @brief Pressure data (MSB) register.
cparata 0:763b80993db4 643 * \code
cparata 0:763b80993db4 644 * Read
cparata 0:763b80993db4 645 * Default value: 0x2F.
cparata 0:763b80993db4 646 * POUT23 - POUT16: Pressure data MSB (2's complement).
cparata 0:763b80993db4 647 * Pressure output data: Pout(hPA)=(PRESS_OUT_H & PRESS_OUT_L &
cparata 0:763b80993db4 648 * PRESS_OUT_XL)[dec]/4096.
cparata 0:763b80993db4 649 * \endcode
cparata 0:763b80993db4 650 */
cparata 0:763b80993db4 651 #define LPS22HB_PRESS_OUT_H_REG (uint8_t)0x2A
cparata 0:763b80993db4 652
cparata 0:763b80993db4 653 /**
cparata 0:763b80993db4 654 * @brief Temperature data (LSB) register.
cparata 0:763b80993db4 655 * \code
cparata 0:763b80993db4 656 * Read
cparata 0:763b80993db4 657 * Default value: 0x00.
cparata 0:763b80993db4 658 * TOUT7 - TOUT0: temperature data LSB.
cparata 0:763b80993db4 659 * Tout(degC)=TEMP_OUT/100
cparata 0:763b80993db4 660 * \endcode
cparata 0:763b80993db4 661 */
cparata 0:763b80993db4 662 #define LPS22HB_TEMP_OUT_L_REG (uint8_t)0x2B
cparata 0:763b80993db4 663
cparata 0:763b80993db4 664 /**
cparata 0:763b80993db4 665 * @brief Temperature data (MSB) register.
cparata 0:763b80993db4 666 * \code
cparata 0:763b80993db4 667 * Read
cparata 0:763b80993db4 668 * Default value: 0x00.
cparata 0:763b80993db4 669 * TOUT15 - TOUT8: temperature data MSB.
cparata 0:763b80993db4 670 * Tout(degC)=TEMP_OUT/100
cparata 0:763b80993db4 671 * \endcode
cparata 0:763b80993db4 672 */
cparata 0:763b80993db4 673 #define LPS22HBH_TEMP_OUT_H_REG (uint8_t)0x2C
cparata 0:763b80993db4 674
cparata 0:763b80993db4 675 /**
cparata 0:763b80993db4 676 * @brief Threshold pressure (LSB) register.
cparata 0:763b80993db4 677 * \code
cparata 0:763b80993db4 678 * Read/write
cparata 0:763b80993db4 679 * Default value: 0x00.
cparata 0:763b80993db4 680 * 7:0 THS7-THS0: LSB Threshold pressure Low part of threshold value for pressure interrupt
cparata 0:763b80993db4 681 * generation. The complete threshold value is given by THS_P_H & THS_P_L and is
cparata 0:763b80993db4 682 * expressed as unsigned number. P_ths(hPA)=(THS_P_H & THS_P_L)[dec]/16.
cparata 0:763b80993db4 683 * \endcode
cparata 0:763b80993db4 684 */
cparata 0:763b80993db4 685 #define LPS22HB_THS_P_LOW_REG (uint8_t)0x0C
cparata 0:763b80993db4 686
cparata 0:763b80993db4 687 /**
cparata 0:763b80993db4 688 * @brief Threshold pressure (MSB)
cparata 0:763b80993db4 689 * \code
cparata 0:763b80993db4 690 * Read/write
cparata 0:763b80993db4 691 * Default value: 0x00.
cparata 0:763b80993db4 692 * 7:0 THS15-THS8: MSB Threshold pressure. High part of threshold value for pressure interrupt
cparata 0:763b80993db4 693 * generation. The complete threshold value is given by THS_P_H & THS_P_L and is
cparata 0:763b80993db4 694 * expressed as unsigned number. P_ths(mbar)=(THS_P_H & THS_P_L)[dec]/16.
cparata 0:763b80993db4 695 * \endcode
cparata 0:763b80993db4 696 */
cparata 0:763b80993db4 697 #define LPS22HB_THS_P_HIGH_REG (uint8_t)0x0D
cparata 0:763b80993db4 698
cparata 0:763b80993db4 699 /**
cparata 0:763b80993db4 700 * @brief FIFO control register
cparata 0:763b80993db4 701 * \code
cparata 0:763b80993db4 702 * Read/write
cparata 0:763b80993db4 703 * Default value: 0x00
cparata 0:763b80993db4 704 * 7:5 F_MODE2, F_MODE1, F_MODE0: FIFO mode selection.
cparata 0:763b80993db4 705 * FM2 | FM1 | FM0 | FIFO MODE
cparata 0:763b80993db4 706 * ---------------------------------------------------
cparata 0:763b80993db4 707 * 0 | 0 | 0 | BYPASS MODE
cparata 0:763b80993db4 708 * 0 | 0 | 1 | FIFO MODE. Stops collecting data when full
cparata 0:763b80993db4 709 * 0 | 1 | 0 | STREAM MODE: Keep the newest measurements in the FIFO
cparata 0:763b80993db4 710 * 0 | 1 | 1 | STREAM MODE until trigger deasserted, then change to FIFO MODE
cparata 0:763b80993db4 711 * 1 | 0 | 0 | BYPASS MODE until trigger deasserted, then STREAM MODE
cparata 0:763b80993db4 712 * 1 | 0 | 1 | Reserved for future use
cparata 0:763b80993db4 713 * 1 | 1 | 0 | Reserved
cparata 0:763b80993db4 714 * 1 | 1 | 1 | BYPASS mode until trigger deasserted, then FIFO MODE
cparata 0:763b80993db4 715 *
cparata 0:763b80993db4 716 * 4:0 WTM_POINT4-0 : FIFO Watermark level selection (0-31)
cparata 0:763b80993db4 717 */
cparata 0:763b80993db4 718 #define LPS22HB_CTRL_FIFO_REG (uint8_t)0x14
cparata 0:763b80993db4 719
cparata 0:763b80993db4 720 #define LPS22HB_FIFO_MODE_MASK (uint8_t)0xE0
cparata 0:763b80993db4 721 #define LPS22HB_WTM_POINT_MASK (uint8_t)0x1F
cparata 0:763b80993db4 722
cparata 0:763b80993db4 723
cparata 0:763b80993db4 724 /**
cparata 0:763b80993db4 725 * @brief FIFO Status register
cparata 0:763b80993db4 726 * \code
cparata 0:763b80993db4 727 * Read
cparata 0:763b80993db4 728 * Default value: ----
cparata 0:763b80993db4 729 * 7 FTH_FIFO: FIFO threshold status. 0:FIFO filling is lower than FTH level; 1: FIFO is equal or higher than FTH level.
cparata 0:763b80993db4 730 * 6 OVR: Overrun bit status. 0 - FIFO not full; 1 -FIFO is full and at least one sample in the FIFO has been overwritten.
cparata 0:763b80993db4 731 * 5:0 FSS: FIFO Stored data level. 000000: FIFO empty, 100000: FIFO is full and has 32 unread samples.
cparata 0:763b80993db4 732 * \endcode
cparata 0:763b80993db4 733 */
cparata 0:763b80993db4 734 #define LPS22HB_STATUS_FIFO_REG (uint8_t)0x26
cparata 0:763b80993db4 735
cparata 0:763b80993db4 736 #define LPS22HB_FTH_FIFO_BIT LPS22HB_BIT(7)
cparata 0:763b80993db4 737 #define LPS22HB_OVR_FIFO_BIT LPS22HB_BIT(6)
cparata 0:763b80993db4 738
cparata 0:763b80993db4 739 #define LPS22HB_FTH_FIFO_MASK (uint8_t)0x80
cparata 0:763b80993db4 740 #define LPS22HB_OVR_FIFO_MASK (uint8_t)0x40
cparata 0:763b80993db4 741 #define LPS22HB_LEVEL_FIFO_MASK (uint8_t)0x3F
cparata 0:763b80993db4 742 #define LPS22HB_FIFO_EMPTY (uint8_t)0x00
cparata 0:763b80993db4 743 #define LPS22HB_FIFO_FULL (uint8_t)0x20
cparata 0:763b80993db4 744
cparata 0:763b80993db4 745
cparata 0:763b80993db4 746
cparata 0:763b80993db4 747 /**
cparata 0:763b80993db4 748 * @brief Pressure offset register (LSB)
cparata 0:763b80993db4 749 * \code
cparata 0:763b80993db4 750 * Read/write
cparata 0:763b80993db4 751 * Default value: 0x00
cparata 0:763b80993db4 752 * 7:0 RPDS7-0:Pressure Offset for 1 point calibration (OPC) after soldering.
cparata 0:763b80993db4 753 * This register contains the low part of the pressure offset value after soldering,for
cparata 0:763b80993db4 754 * differential pressure computing. The complete value is given by RPDS_L & RPDS_H
cparata 0:763b80993db4 755 * and is expressed as signed 2 complement value.
cparata 0:763b80993db4 756 * \endcode
cparata 0:763b80993db4 757 */
cparata 0:763b80993db4 758 #define LPS22HB_RPDS_L_REG (uint8_t)0x18
cparata 0:763b80993db4 759
cparata 0:763b80993db4 760 /**
cparata 0:763b80993db4 761 * @brief Pressure offset register (MSB)
cparata 0:763b80993db4 762 * \code
cparata 0:763b80993db4 763 * Read/write
cparata 0:763b80993db4 764 * Default value: 0x00
cparata 0:763b80993db4 765 * 7:0 RPDS15-8:Pressure Offset for 1 point calibration (OPC) after soldering.
cparata 0:763b80993db4 766 * This register contains the high part of the pressure offset value after soldering (see description RPDS_L)
cparata 0:763b80993db4 767 * \endcode
cparata 0:763b80993db4 768 */
cparata 0:763b80993db4 769 #define LPS22HB_RPDS_H_REG (uint8_t)0x19
cparata 0:763b80993db4 770
cparata 0:763b80993db4 771
cparata 0:763b80993db4 772 /**
cparata 0:763b80993db4 773 * @brief Clock Tree Configuration register
cparata 0:763b80993db4 774 * \code
cparata 0:763b80993db4 775 * Read/write
cparata 0:763b80993db4 776 * Default value: 0x00
cparata 0:763b80993db4 777 * 7:6 Reserved.
cparata 0:763b80993db4 778 * 5: CTE: Clock Tree Enhancement
cparata 0:763b80993db4 779 * \endcode
cparata 0:763b80993db4 780 */
cparata 0:763b80993db4 781
cparata 0:763b80993db4 782 #define LPS22HB_CLOCK_TREE_CONFIGURATION (uint8_t)0x43
cparata 0:763b80993db4 783
cparata 0:763b80993db4 784 #define LPS22HB_CTE_MASK (uint8_t)0x20
cparata 0:763b80993db4 785
cparata 0:763b80993db4 786 /**
cparata 0:763b80993db4 787 * @}
cparata 0:763b80993db4 788 */
cparata 0:763b80993db4 789
cparata 0:763b80993db4 790
cparata 0:763b80993db4 791 /**
cparata 0:763b80993db4 792 * @}
cparata 0:763b80993db4 793 */
cparata 0:763b80993db4 794
cparata 0:763b80993db4 795
cparata 0:763b80993db4 796 /* Exported Functions -------------------------------------------------------------*/
cparata 0:763b80993db4 797 /** @defgroup LPS22HB_Exported_Functions
cparata 0:763b80993db4 798 * @{
cparata 0:763b80993db4 799 */
cparata 0:763b80993db4 800
cparata 0:763b80993db4 801 LPS22HB_Error_et LPS22HB_ReadReg( void *handle, uint8_t RegAddr, uint16_t NumByteToRead, uint8_t *Data );
cparata 0:763b80993db4 802 LPS22HB_Error_et LPS22HB_WriteReg( void *handle, uint8_t RegAddr, uint16_t NumByteToWrite, uint8_t *Data );
cparata 0:763b80993db4 803
cparata 0:763b80993db4 804 /**
cparata 0:763b80993db4 805 * @brief Init the HAL layer.
cparata 0:763b80993db4 806 * @param None
cparata 0:763b80993db4 807 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 808 */
cparata 0:763b80993db4 809 #define LPS22HB_HalInit (LPS22HB_Error_et)HAL_Init_I2C
cparata 0:763b80993db4 810
cparata 0:763b80993db4 811 /**
cparata 0:763b80993db4 812 * @brief DeInit the HAL layer.
cparata 0:763b80993db4 813 * @param None
cparata 0:763b80993db4 814 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 815 */
cparata 0:763b80993db4 816 #define LPS22HB_HalDeInit (LPS22HB_Error_et)HAL_DeInit_I2C
cparata 0:763b80993db4 817
cparata 0:763b80993db4 818
cparata 0:763b80993db4 819 /**
cparata 0:763b80993db4 820 * @brief Get the LPS22HB driver version.
cparata 0:763b80993db4 821 * @param None
cparata 0:763b80993db4 822 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 823 */
cparata 0:763b80993db4 824 LPS22HB_Error_et LPS22HB_Get_DriverVersion(LPS22HB_DriverVersion_st *Version);
cparata 0:763b80993db4 825
cparata 0:763b80993db4 826 /**
cparata 0:763b80993db4 827 * @brief Initialization function for LPS22HB.
cparata 0:763b80993db4 828 * This function make a memory boot.
cparata 0:763b80993db4 829 * Init the sensor with a standard basic confifuration.
cparata 0:763b80993db4 830 * Low Power, ODR 25 Hz, Low Pass Filter disabled; BDU enabled; I2C enabled;
cparata 0:763b80993db4 831 * NO FIFO; NO Interrupt Enabled.
cparata 0:763b80993db4 832 * @param None.
cparata 0:763b80993db4 833 * @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 834 */
cparata 0:763b80993db4 835 LPS22HB_Error_et LPS22HB_Init(void *handle);
cparata 0:763b80993db4 836
cparata 0:763b80993db4 837 /**
cparata 0:763b80993db4 838 * @brief DeInit the LPS2Hb driver.
cparata 0:763b80993db4 839 * @param None
cparata 0:763b80993db4 840 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 841 */
cparata 0:763b80993db4 842
cparata 0:763b80993db4 843 LPS22HB_Error_et LPS22HB_DeInit(void *handle);
cparata 0:763b80993db4 844
cparata 0:763b80993db4 845
cparata 0:763b80993db4 846 /**
cparata 0:763b80993db4 847 * @brief Read identification code by WHO_AM_I register
cparata 0:763b80993db4 848 * @param Buffer to empty by Device identification Value.
cparata 0:763b80993db4 849 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 850 */
cparata 0:763b80993db4 851 LPS22HB_Error_et LPS22HB_Get_DeviceID(void *handle, uint8_t* deviceid);
cparata 0:763b80993db4 852
cparata 0:763b80993db4 853
cparata 0:763b80993db4 854 /**
cparata 0:763b80993db4 855 * @brief Set LPS22HB Low Power or Low Noise Mode Configuration
cparata 0:763b80993db4 856 * @param LPS22HB_LowNoise or LPS22HB_LowPower mode
cparata 0:763b80993db4 857 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 858 */
cparata 0:763b80993db4 859 LPS22HB_Error_et LPS22HB_Set_PowerMode(void *handle, LPS22HB_PowerMode_et mode);
cparata 0:763b80993db4 860
cparata 0:763b80993db4 861 /**
cparata 0:763b80993db4 862 * @brief Get LPS22HB Power Mode
cparata 0:763b80993db4 863 * @param Buffer to empty with Mode: Low Noise or Low Current
cparata 0:763b80993db4 864 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 865 */
cparata 0:763b80993db4 866 LPS22HB_Error_et LPS22HB_Get_PowerMode(void *handle, LPS22HB_PowerMode_et* mode);
cparata 0:763b80993db4 867
cparata 0:763b80993db4 868
cparata 0:763b80993db4 869 /**
cparata 0:763b80993db4 870 * @brief Set LPS22HB Output Data Rate
cparata 0:763b80993db4 871 * @param Output Data Rate
cparata 0:763b80993db4 872 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 873 */
cparata 0:763b80993db4 874 LPS22HB_Error_et LPS22HB_Set_Odr(void *handle, LPS22HB_Odr_et odr);
cparata 0:763b80993db4 875
cparata 0:763b80993db4 876
cparata 0:763b80993db4 877 /**
cparata 0:763b80993db4 878 * @brief Get LPS22HB Output Data Rate
cparata 0:763b80993db4 879 * @param Buffer to empty with Output Data Rate
cparata 0:763b80993db4 880 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 881 */
cparata 0:763b80993db4 882 LPS22HB_Error_et LPS22HB_Get_Odr(void *handle, LPS22HB_Odr_et* odr);
cparata 0:763b80993db4 883
cparata 0:763b80993db4 884 /**
cparata 0:763b80993db4 885 * @brief Enable/Disale low-pass filter on LPS22HB pressure data
cparata 0:763b80993db4 886 * @param state: enable or disable
cparata 0:763b80993db4 887 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 888 */
cparata 0:763b80993db4 889 LPS22HB_Error_et LPS22HB_Set_LowPassFilter(void *handle, LPS22HB_State_et state);
cparata 0:763b80993db4 890
cparata 0:763b80993db4 891
cparata 0:763b80993db4 892 /**
cparata 0:763b80993db4 893 * @brief Set low-pass filter cutoff configuration on LPS22HB pressure data
cparata 0:763b80993db4 894 * @param Filter Cutoff ODR/9 or ODR/20
cparata 0:763b80993db4 895 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 896 */
cparata 0:763b80993db4 897 LPS22HB_Error_et LPS22HB_Set_LowPassFilterCutoff(void *handle, LPS22HB_LPF_Cutoff_et cutoff);
cparata 0:763b80993db4 898
cparata 0:763b80993db4 899 /**
cparata 0:763b80993db4 900 * @brief Set Block Data Update mode
cparata 0:763b80993db4 901 * @param LPS22HB_BDU_CONTINUOS_UPDATE/ LPS22HB_BDU_NO_UPDATE
cparata 0:763b80993db4 902 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 903 */
cparata 0:763b80993db4 904 LPS22HB_Error_et LPS22HB_Set_Bdu(void *handle, LPS22HB_Bdu_et bdu);
cparata 0:763b80993db4 905
cparata 0:763b80993db4 906
cparata 0:763b80993db4 907 /**
cparata 0:763b80993db4 908 * @brief Get Block Data Update mode
cparata 0:763b80993db4 909 * @param Buffer to empty whit the bdu mode read from sensor
cparata 0:763b80993db4 910 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 911 */
cparata 0:763b80993db4 912 LPS22HB_Error_et LPS22HB_Get_Bdu(void *handle, LPS22HB_Bdu_et* bdu);
cparata 0:763b80993db4 913
cparata 0:763b80993db4 914 /**
cparata 0:763b80993db4 915 * @brief Set SPI mode: 3 Wire Interface OR 4 Wire Interface
cparata 0:763b80993db4 916 * @param LPS22HB_SPI_4_WIRE/LPS22HB_SPI_3_WIRE
cparata 0:763b80993db4 917 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 918 */
cparata 0:763b80993db4 919 LPS22HB_Error_et LPS22HB_Set_SpiInterface(void *handle, LPS22HB_SPIMode_et spimode);
cparata 0:763b80993db4 920
cparata 0:763b80993db4 921 /**
cparata 0:763b80993db4 922 * @brief Get SPI mode: 3 Wire Interface OR 4 Wire Interface
cparata 0:763b80993db4 923 * @param buffer to empty with SPI mode
cparata 0:763b80993db4 924 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 925 */
cparata 0:763b80993db4 926 LPS22HB_Error_et LPS22HB_Get_SpiInterface(void *handle, LPS22HB_SPIMode_et* spimode);
cparata 0:763b80993db4 927
cparata 0:763b80993db4 928 /**
cparata 0:763b80993db4 929 * @brief Software Reset
cparata 0:763b80993db4 930 * @param void
cparata 0:763b80993db4 931 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 932 */
cparata 0:763b80993db4 933 LPS22HB_Error_et LPS22HB_SwReset(void *handle);
cparata 0:763b80993db4 934
cparata 0:763b80993db4 935 /**
cparata 0:763b80993db4 936 * @brief Reboot Memory Content.
cparata 0:763b80993db4 937 * @param void
cparata 0:763b80993db4 938 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 939 */
cparata 0:763b80993db4 940 LPS22HB_Error_et LPS22HB_MemoryBoot(void *handle);
cparata 0:763b80993db4 941
cparata 0:763b80993db4 942 /**
cparata 0:763b80993db4 943 * @brief Software Reset ann BOOT
cparata 0:763b80993db4 944 * @param void
cparata 0:763b80993db4 945 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 946 */
cparata 0:763b80993db4 947 LPS22HB_Error_et LPS22HB_SwResetAndMemoryBoot(void *handle);
cparata 0:763b80993db4 948
cparata 0:763b80993db4 949
cparata 0:763b80993db4 950 /**
cparata 0:763b80993db4 951 * @brief Enable or Disable FIFO
cparata 0:763b80993db4 952 * @param LPS22HB_ENABLE/LPS22HB_DISABLE
cparata 0:763b80993db4 953 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 954 */
cparata 0:763b80993db4 955 LPS22HB_Error_et LPS22HB_Set_FifoModeUse(void *handle, LPS22HB_State_et status);
cparata 0:763b80993db4 956
cparata 0:763b80993db4 957 /**
cparata 0:763b80993db4 958 * @brief Enable or Disable FIFO Watermark level use. Stop on FIFO Threshold
cparata 0:763b80993db4 959 * @param LPS22HB_ENABLE/LPS22HB_DISABLE
cparata 0:763b80993db4 960 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 961 */
cparata 0:763b80993db4 962 LPS22HB_Error_et LPS22HB_Set_FifoWatermarkLevelUse(void *handle, LPS22HB_State_et status);
cparata 0:763b80993db4 963
cparata 0:763b80993db4 964 /**
cparata 0:763b80993db4 965 * @brief Enable or Disable the Automatic increment register address during a multiple byte access with a serial interface (I2C or SPI)
cparata 0:763b80993db4 966 * @param LPS22HB_ENABLE/LPS22HB_DISABLE. Default is LPS22HB_ENABLE
cparata 0:763b80993db4 967 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 968 */
cparata 0:763b80993db4 969 LPS22HB_Error_et LPS22HB_Set_AutomaticIncrementRegAddress(void *handle, LPS22HB_State_et status);
cparata 0:763b80993db4 970
cparata 0:763b80993db4 971
cparata 0:763b80993db4 972 /**
cparata 0:763b80993db4 973 * @brief Set One Shot bit to start a new conversion (ODR mode has to be 000)
cparata 0:763b80993db4 974 * @param void
cparata 0:763b80993db4 975 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 976 */
cparata 0:763b80993db4 977 LPS22HB_Error_et LPS22HB_StartOneShotMeasurement(void *handle);
cparata 0:763b80993db4 978
cparata 0:763b80993db4 979 /**
cparata 0:763b80993db4 980 * @brief Enable/Disable I2C
cparata 0:763b80993db4 981 * @param State. Enable (reset bit)/ Disable (set bit)
cparata 0:763b80993db4 982 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 983 */
cparata 0:763b80993db4 984 LPS22HB_Error_et LPS22HB_Set_I2C(void *handle, LPS22HB_State_et i2cstate);
cparata 0:763b80993db4 985
cparata 0:763b80993db4 986
cparata 0:763b80993db4 987 /*CTRL_REG3 Interrupt Control*/
cparata 0:763b80993db4 988 /**
cparata 0:763b80993db4 989 * @brief Set Interrupt Active on High or Low Level
cparata 0:763b80993db4 990 * @param LPS22HB_ActiveHigh/LPS22HB_ActiveLow
cparata 0:763b80993db4 991 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 992 */
cparata 0:763b80993db4 993 LPS22HB_Error_et LPS22HB_Set_InterruptActiveLevel(void *handle, LPS22HB_InterruptActiveLevel_et mode);
cparata 0:763b80993db4 994
cparata 0:763b80993db4 995 /**
cparata 0:763b80993db4 996 * @brief Set Push-pull/open drain selection on interrupt pads.
cparata 0:763b80993db4 997 * @param LPS22HB_PushPull/LPS22HB_OpenDrain
cparata 0:763b80993db4 998 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 999 */
cparata 0:763b80993db4 1000 LPS22HB_Error_et LPS22HB_Set_InterruptOutputType(void *handle, LPS22HB_OutputType_et output);
cparata 0:763b80993db4 1001
cparata 0:763b80993db4 1002 /**
cparata 0:763b80993db4 1003 * @brief Set Data signal on INT1 pad control bits.
cparata 0:763b80993db4 1004 * @param LPS22HB_DATA,LPS22HB_P_HIGH_LPS22HB_P_LOW,LPS22HB_P_LOW_HIGH
cparata 0:763b80993db4 1005 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1006 */
cparata 0:763b80993db4 1007 LPS22HB_Error_et LPS22HB_Set_InterruptControlConfig(void *handle, LPS22HB_OutputSignalConfig_et config);
cparata 0:763b80993db4 1008
cparata 0:763b80993db4 1009
cparata 0:763b80993db4 1010 /**
cparata 0:763b80993db4 1011 * @brief Enable/Disable Data-ready signal on INT_DRDY pin.
cparata 0:763b80993db4 1012 * @param LPS22HB_ENABLE/LPS22HB_DISABLE
cparata 0:763b80993db4 1013 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1014 */
cparata 0:763b80993db4 1015 LPS22HB_Error_et LPS22HB_Set_DRDYInterrupt(void *handle, LPS22HB_State_et status);
cparata 0:763b80993db4 1016
cparata 0:763b80993db4 1017 /**
cparata 0:763b80993db4 1018 * @brief Enable/Disable FIFO overrun interrupt on INT_DRDY pin.
cparata 0:763b80993db4 1019 * @param LPS22HB_ENABLE/LPS22HB_DISABLE
cparata 0:763b80993db4 1020 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1021 */
cparata 0:763b80993db4 1022 LPS22HB_Error_et LPS22HB_Set_FIFO_OVR_Interrupt(void *handle, LPS22HB_State_et status);
cparata 0:763b80993db4 1023
cparata 0:763b80993db4 1024 /**
cparata 0:763b80993db4 1025 * @brief Enable/Disable FIFO threshold (Watermark) interrupt on INT_DRDY pin.
cparata 0:763b80993db4 1026 * @param LPS22HB_ENABLE/LPS22HB_DISABLE
cparata 0:763b80993db4 1027 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1028 */
cparata 0:763b80993db4 1029 LPS22HB_Error_et LPS22HB_Set_FIFO_FTH_Interrupt(void *handle, LPS22HB_State_et status);
cparata 0:763b80993db4 1030
cparata 0:763b80993db4 1031 /**
cparata 0:763b80993db4 1032 * @brief Enable/Disable FIFO FULL interrupt on INT_DRDY pin.
cparata 0:763b80993db4 1033 * @param LPS22HB_ENABLE/LPS22HB_DISABLE
cparata 0:763b80993db4 1034 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1035 */
cparata 0:763b80993db4 1036 LPS22HB_Error_et LPS22HB_Set_FIFO_FULL_Interrupt(void *handle, LPS22HB_State_et status);
cparata 0:763b80993db4 1037
cparata 0:763b80993db4 1038 /**
cparata 0:763b80993db4 1039 * @brief Enable AutoRifP function
cparata 0:763b80993db4 1040 * @param none
cparata 0:763b80993db4 1041 * @detail When this function is enabled, an internal register is set with the current pressure values
cparata 0:763b80993db4 1042 * and the content is subtracted from the pressure output value and result is used for the interrupt generation.
cparata 0:763b80993db4 1043 * the AutoRifP is slf creared.
cparata 0:763b80993db4 1044 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1045 */
cparata 0:763b80993db4 1046 LPS22HB_Error_et LPS22HB_Set_AutoRifP(void *handle);
cparata 0:763b80993db4 1047
cparata 0:763b80993db4 1048 /**
cparata 0:763b80993db4 1049 * @brief Disable AutoRifP
cparata 0:763b80993db4 1050 * @param none
cparata 0:763b80993db4 1051 * @detail the RESET_ARP bit is used to disable the AUTORIFP function. This bis i is selfdleared
cparata 0:763b80993db4 1052 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1053 */
cparata 0:763b80993db4 1054 LPS22HB_Error_et LPS22HB_ResetAutoRifP(void *handle);
cparata 0:763b80993db4 1055
cparata 0:763b80993db4 1056 /**?????
cparata 0:763b80993db4 1057 * @brief Set AutoZero Function bit
cparata 0:763b80993db4 1058 * @detail When set to ‘1’, the actual pressure output is copied in the REF_P reg (@0x15..0x17)
cparata 0:763b80993db4 1059 * @param None
cparata 0:763b80993db4 1060 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1061 */
cparata 0:763b80993db4 1062 LPS22HB_Error_et LPS22HB_Set_AutoZeroFunction(void *handle);
cparata 0:763b80993db4 1063
cparata 0:763b80993db4 1064 /**???
cparata 0:763b80993db4 1065 * @brief Set ResetAutoZero Function bit
cparata 0:763b80993db4 1066 * @details REF_P reg (@0x015..17) set pressure reference to default value RPDS reg (0x18/19).
cparata 0:763b80993db4 1067 * @param None
cparata 0:763b80993db4 1068 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1069 */
cparata 0:763b80993db4 1070 LPS22HB_Error_et LPS22HB_ResetAutoZeroFunction(void *handle);
cparata 0:763b80993db4 1071
cparata 0:763b80993db4 1072
cparata 0:763b80993db4 1073 /**
cparata 0:763b80993db4 1074 * @brief Enable/ Disable the computing of differential pressure output (Interrupt Generation)
cparata 0:763b80993db4 1075 * @param LPS22HB_ENABLE,LPS22HB_DISABLE
cparata 0:763b80993db4 1076 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1077 */
cparata 0:763b80993db4 1078 LPS22HB_Error_et LPS22HB_Set_InterruptDifferentialGeneration(void *handle, LPS22HB_State_et diff_en) ;
cparata 0:763b80993db4 1079
cparata 0:763b80993db4 1080
cparata 0:763b80993db4 1081
cparata 0:763b80993db4 1082 /**
cparata 0:763b80993db4 1083 * @brief Get the DIFF_EN bit value
cparata 0:763b80993db4 1084 * @param buffer to empty with the read value of DIFF_EN bit
cparata 0:763b80993db4 1085 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1086 */
cparata 0:763b80993db4 1087 LPS22HB_Error_et LPS22HB_Get_InterruptDifferentialGeneration(void *handle, LPS22HB_State_et* diff_en);
cparata 0:763b80993db4 1088
cparata 0:763b80993db4 1089
cparata 0:763b80993db4 1090 /**
cparata 0:763b80993db4 1091 * @brief Latch Interrupt request to the INT_SOURCE register.
cparata 0:763b80993db4 1092 * @param LPS22HB_ENABLE/LPS22HB_DISABLE
cparata 0:763b80993db4 1093 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1094 */
cparata 0:763b80993db4 1095 LPS22HB_Error_et LPS22HB_LatchInterruptRequest(void *handle, LPS22HB_State_et status);
cparata 0:763b80993db4 1096
cparata 0:763b80993db4 1097 /**
cparata 0:763b80993db4 1098 * @brief Enable\Disable Interrupt Generation on differential pressure Low event
cparata 0:763b80993db4 1099 * @param LPS22HB_ENABLE/LPS22HB_DISABLE
cparata 0:763b80993db4 1100 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1101 */
cparata 0:763b80993db4 1102 LPS22HB_Error_et LPS22HB_Set_PLE(void *handle, LPS22HB_State_et status);
cparata 0:763b80993db4 1103
cparata 0:763b80993db4 1104 /**
cparata 0:763b80993db4 1105 * @brief Enable\Disable Interrupt Generation on differential pressure High event
cparata 0:763b80993db4 1106 * @param LPS22HB_ENABLE/LPS22HB_DISABLE
cparata 0:763b80993db4 1107 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1108 */
cparata 0:763b80993db4 1109 LPS22HB_Error_et LPS22HB_Set_PHE(void *handle, LPS22HB_State_et status);
cparata 0:763b80993db4 1110
cparata 0:763b80993db4 1111 /**
cparata 0:763b80993db4 1112 * @brief Get the Interrupt Generation on differential pressure status event and the Boot Status.
cparata 0:763b80993db4 1113 * @detail The INT_SOURCE register is cleared by reading it.
cparata 0:763b80993db4 1114 * @param Status Event Flag: BOOT, PH,PL,IA
cparata 0:763b80993db4 1115 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1116 */
cparata 0:763b80993db4 1117 LPS22HB_Error_et LPS22HB_Get_InterruptDifferentialEventStatus(void *handle, LPS22HB_InterruptDiffStatus_st* interruptsource);
cparata 0:763b80993db4 1118
cparata 0:763b80993db4 1119
cparata 0:763b80993db4 1120 /**
cparata 0:763b80993db4 1121 * @brief Get the status of Pressure and Temperature data
cparata 0:763b80993db4 1122 * @param Data Status Flag: TempDataAvailable, TempDataOverrun, PressDataAvailable, PressDataOverrun
cparata 0:763b80993db4 1123 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1124 */
cparata 0:763b80993db4 1125 LPS22HB_Error_et LPS22HB_Get_DataStatus(void *handle, LPS22HB_DataStatus_st* datastatus);
cparata 0:763b80993db4 1126
cparata 0:763b80993db4 1127
cparata 0:763b80993db4 1128 /**
cparata 0:763b80993db4 1129 * @brief Get the LPS22HB raw presure value
cparata 0:763b80993db4 1130 * @param The buffer to empty with the pressure raw value
cparata 0:763b80993db4 1131 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1132 */
cparata 0:763b80993db4 1133 LPS22HB_Error_et LPS22HB_Get_RawPressure(void *handle, int32_t *raw_press);
cparata 0:763b80993db4 1134
cparata 0:763b80993db4 1135 /**
cparata 0:763b80993db4 1136 * @brief Get the LPS22HB Pressure value in hPA.
cparata 0:763b80993db4 1137 * @param The buffer to empty with the pressure value that must be divided by 100 to get the value in hPA
cparata 0:763b80993db4 1138 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1139 */
cparata 0:763b80993db4 1140 LPS22HB_Error_et LPS22HB_Get_Pressure(void *handle, int32_t* Pout);
cparata 0:763b80993db4 1141
cparata 0:763b80993db4 1142 /**
cparata 0:763b80993db4 1143 * @brief Read LPS22HB output register, and calculate the raw temperature.
cparata 0:763b80993db4 1144 * @param The buffer to empty with the temperature raw value
cparata 0:763b80993db4 1145 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1146 */
cparata 0:763b80993db4 1147 LPS22HB_Error_et LPS22HB_Get_RawTemperature(void *handle, int16_t *raw_data);
cparata 0:763b80993db4 1148
cparata 0:763b80993db4 1149 /**
cparata 0:763b80993db4 1150 * @brief Read the Temperature value in °C.
cparata 0:763b80993db4 1151 * @param The buffer to empty with the temperature value that must be divided by 10 to get the value in ['C]
cparata 0:763b80993db4 1152 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1153 */
cparata 0:763b80993db4 1154 LPS22HB_Error_et LPS22HB_Get_Temperature(void *handle, int16_t* Tout);
cparata 0:763b80993db4 1155
cparata 0:763b80993db4 1156 /**
cparata 0:763b80993db4 1157 * @brief Get the threshold value used for pressure interrupt generation.
cparata 0:763b80993db4 1158 * @param The buffer to empty with the temperature value
cparata 0:763b80993db4 1159 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1160 */
cparata 0:763b80993db4 1161 LPS22HB_Error_et LPS22HB_Get_PressureThreshold(void *handle, int16_t *P_ths);
cparata 0:763b80993db4 1162
cparata 0:763b80993db4 1163 /**
cparata 0:763b80993db4 1164 * @brief Set the threshold value used for pressure interrupt generation.
cparata 0:763b80993db4 1165 * @param The buffer to empty with the temperature value
cparata 0:763b80993db4 1166 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1167 */
cparata 0:763b80993db4 1168 LPS22HB_Error_et LPS22HB_Set_PressureThreshold(void *handle, int16_t P_ths);
cparata 0:763b80993db4 1169
cparata 0:763b80993db4 1170 /**
cparata 0:763b80993db4 1171 * @brief Set Fifo Mode.
cparata 0:763b80993db4 1172 * @param Fifo Mode struct
cparata 0:763b80993db4 1173 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1174 */
cparata 0:763b80993db4 1175 LPS22HB_Error_et LPS22HB_Set_FifoMode(void *handle, LPS22HB_FifoMode_et fifomode);
cparata 0:763b80993db4 1176 /**
cparata 0:763b80993db4 1177 * @brief Get Fifo Mode.
cparata 0:763b80993db4 1178 * @param Buffer to empty with fifo mode value
cparata 0:763b80993db4 1179 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1180 */
cparata 0:763b80993db4 1181 LPS22HB_Error_et LPS22HB_Get_FifoMode(void *handle, LPS22HB_FifoMode_et* fifomode);
cparata 0:763b80993db4 1182
cparata 0:763b80993db4 1183 /**
cparata 0:763b80993db4 1184 * @brief Set Fifo Watermark Level.
cparata 0:763b80993db4 1185 * @param Watermark level value [0 31]
cparata 0:763b80993db4 1186 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1187 */
cparata 0:763b80993db4 1188 LPS22HB_Error_et LPS22HB_Set_FifoWatermarkLevel(void *handle, uint8_t wtmlevel);
cparata 0:763b80993db4 1189
cparata 0:763b80993db4 1190 /**
cparata 0:763b80993db4 1191 * @brief Get FIFO Watermark Level
cparata 0:763b80993db4 1192 * @param buffer to empty with watermak level[0,31] value read from sensor
cparata 0:763b80993db4 1193 * @retval Status [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1194 */
cparata 0:763b80993db4 1195 LPS22HB_Error_et LPS22HB_Get_FifoWatermarkLevel(void *handle, uint8_t *wtmlevel);
cparata 0:763b80993db4 1196
cparata 0:763b80993db4 1197
cparata 0:763b80993db4 1198 /**
cparata 0:763b80993db4 1199 * @brief Get Fifo Status.
cparata 0:763b80993db4 1200 * @param Buffer to empty with fifo status
cparata 0:763b80993db4 1201 * @retval Status [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1202 */
cparata 0:763b80993db4 1203 LPS22HB_Error_et LPS22HB_Get_FifoStatus(void *handle, LPS22HB_FifoStatus_st* status);
cparata 0:763b80993db4 1204
cparata 0:763b80993db4 1205
cparata 0:763b80993db4 1206 /**
cparata 0:763b80993db4 1207 * @brief Get the reference pressure after soldering for computing differential pressure (hPA)
cparata 0:763b80993db4 1208 * @param buffer to empty with the he pressure value (hPA)
cparata 0:763b80993db4 1209 * @retval Status [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1210 */
cparata 0:763b80993db4 1211 LPS22HB_Error_et LPS22HB_Get_PressureOffsetValue(void *handle, int16_t *pressoffset);
cparata 0:763b80993db4 1212
cparata 0:763b80993db4 1213 /**
cparata 0:763b80993db4 1214 * @brief Get the Reference Pressure value
cparata 0:763b80993db4 1215 * @detail It is a 24-bit data added to the sensor output measurement to detect a measured pressure beyond programmed limits.
cparata 0:763b80993db4 1216 * @param Buffer to empty with reference pressure value
cparata 0:763b80993db4 1217 * @retval Status [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1218 */
cparata 0:763b80993db4 1219 LPS22HB_Error_et LPS22HB_Get_ReferencePressure(void *handle, int32_t* RefP);
cparata 0:763b80993db4 1220
cparata 0:763b80993db4 1221
cparata 0:763b80993db4 1222 /**
cparata 0:763b80993db4 1223 * @brief Check if the single measurement has completed.
cparata 0:763b80993db4 1224 * @param the returned value is set to 1, when the measurement is completed
cparata 0:763b80993db4 1225 * @retval Status [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1226 */
cparata 0:763b80993db4 1227 LPS22HB_Error_et LPS22HB_IsMeasurementCompleted(void *handle, uint8_t* Is_Measurement_Completed);
cparata 0:763b80993db4 1228
cparata 0:763b80993db4 1229
cparata 0:763b80993db4 1230 /**
cparata 0:763b80993db4 1231 * @brief Get the values of the last single measurement.
cparata 0:763b80993db4 1232 * @param Pressure and temperature value
cparata 0:763b80993db4 1233 * @retvalStatus [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1234 */
cparata 0:763b80993db4 1235 LPS22HB_Error_et LPS22HB_Get_Measurement(void *handle, LPS22HB_MeasureTypeDef_st *Measurement_Value);
cparata 0:763b80993db4 1236
cparata 0:763b80993db4 1237
cparata 0:763b80993db4 1238 /**
cparata 0:763b80993db4 1239 * @brief Set Generic Configuration
cparata 0:763b80993db4 1240 * @param Struct to empty with the chosen values
cparata 0:763b80993db4 1241 * @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1242 */
cparata 0:763b80993db4 1243 LPS22HB_Error_et LPS22HB_Set_GenericConfig(void *handle, LPS22HB_ConfigTypeDef_st* pxLPS22HBInit);
cparata 0:763b80993db4 1244
cparata 0:763b80993db4 1245 /**
cparata 0:763b80993db4 1246 * @brief Get Generic configuration
cparata 0:763b80993db4 1247 * @param Struct to empty with configuration values
cparata 0:763b80993db4 1248 * @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1249 */
cparata 0:763b80993db4 1250 LPS22HB_Error_et LPS22HB_Get_GenericConfig(void *handle, LPS22HB_ConfigTypeDef_st* pxLPS22HBInit);
cparata 0:763b80993db4 1251
cparata 0:763b80993db4 1252 /**
cparata 0:763b80993db4 1253 * @brief Set Interrupt configuration
cparata 0:763b80993db4 1254 * @param Struct holding the configuration values
cparata 0:763b80993db4 1255 * @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1256 */
cparata 0:763b80993db4 1257 LPS22HB_Error_et LPS22HB_Set_InterruptConfig(void *handle, LPS22HB_InterruptTypeDef_st* pLPS22HBInt);
cparata 0:763b80993db4 1258
cparata 0:763b80993db4 1259 /**
cparata 0:763b80993db4 1260 * @brief LPS22HBGet_InterruptConfig
cparata 0:763b80993db4 1261 * @param Struct to empty with configuration values
cparata 0:763b80993db4 1262 * @retval S Error code[LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1263 */
cparata 0:763b80993db4 1264 LPS22HB_Error_et LPS22HB_Get_InterruptConfig(void *handle, LPS22HB_InterruptTypeDef_st* pLPS22HBInt);
cparata 0:763b80993db4 1265
cparata 0:763b80993db4 1266 /**
cparata 0:763b80993db4 1267 * @brief Set Fifo configuration
cparata 0:763b80993db4 1268 * @param Struct holding the configuration values
cparata 0:763b80993db4 1269 * @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1270 */
cparata 0:763b80993db4 1271 LPS22HB_Error_et LPS22HB_Set_FifoConfig(void *handle, LPS22HB_FIFOTypeDef_st* pLPS22HBFIFO);
cparata 0:763b80993db4 1272
cparata 0:763b80993db4 1273 /**
cparata 0:763b80993db4 1274 * @brief Get Fifo configuration
cparata 0:763b80993db4 1275 * @param Struct to empty with the configuration values
cparata 0:763b80993db4 1276 * @retval Error code[LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1277 */
cparata 0:763b80993db4 1278 LPS22HB_Error_et LPS22HB_Get_FifoConfig(void *handle, LPS22HB_FIFOTypeDef_st* pLPS22HBFIFO);
cparata 0:763b80993db4 1279
cparata 0:763b80993db4 1280 /**
cparata 0:763b80993db4 1281 * @brief Clock Tree Confoguration
cparata 0:763b80993db4 1282 * @param LPS22HB_CTE_NotBalanced, LPS22HB_CTE_ABalanced
cparata 0:763b80993db4 1283 * @retval Error Code [LPS22HB_ERROR, LPS22HB_OK]
cparata 0:763b80993db4 1284 */
cparata 0:763b80993db4 1285 LPS22HB_Error_et LPS22HB_Set_ClockTreeConfifuration(void *handle, LPS22HB_CTE_et mode);
cparata 0:763b80993db4 1286
cparata 0:763b80993db4 1287 /**
cparata 0:763b80993db4 1288 * @}
cparata 0:763b80993db4 1289 */
cparata 0:763b80993db4 1290
cparata 0:763b80993db4 1291 /**
cparata 0:763b80993db4 1292 * @}
cparata 0:763b80993db4 1293 */
cparata 0:763b80993db4 1294
cparata 0:763b80993db4 1295 /**
cparata 0:763b80993db4 1296 * @}
cparata 0:763b80993db4 1297 */
cparata 0:763b80993db4 1298
cparata 0:763b80993db4 1299 #ifdef __cplusplus
cparata 0:763b80993db4 1300 }
cparata 0:763b80993db4 1301 #endif
cparata 0:763b80993db4 1302
cparata 0:763b80993db4 1303 #endif /* __LPS22HB_DRIVER__H */
cparata 0:763b80993db4 1304
cparata 0:763b80993db4 1305 /******************* (C) COPYRIGHT 2013 STMicroelectronics *****END OF FILE****/