MultiEvent_IKS01A2 - Example of multiple event detection for LSM6DSL i…

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ST / Mbed 2 deprecated MultiEvent_IKS01A2

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

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/HTS221Sensor/HTS221_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?

User	Revision	Line number	New contents of line
cparata	0:763b80993db4	1	/**
cparata	0:763b80993db4	2	******************************************************************************
cparata	0:763b80993db4	3	* @file HTS221_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 HTS221 driver header file
cparata	0:763b80993db4	8	******************************************************************************
cparata	0:763b80993db4	9	* @attention
cparata	0:763b80993db4	10	*
cparata	0:763b80993db4	11	* <h2><center>© 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 __HTS221_DRIVER__H
cparata	0:763b80993db4	40	#define __HTS221_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	/* Uncomment the line below to expanse the "assert_param" macro in the drivers code */
cparata	0:763b80993db4	49	#define USE_FULL_ASSERT_HTS221
cparata	0:763b80993db4	50
cparata	0:763b80993db4	51	/* Exported macro ------------------------------------------------------------*/
cparata	0:763b80993db4	52	#ifdef USE_FULL_ASSERT_HTS221
cparata	0:763b80993db4	53
cparata	0:763b80993db4	54	/**
cparata	0:763b80993db4	55	* @brief The assert_param macro is used for function's parameters check.
cparata	0:763b80993db4	56	* @param expr: If expr is false, it calls assert_failed function which reports
cparata	0:763b80993db4	57	* the name of the source file and the source line number of the call
cparata	0:763b80993db4	58	* that failed. If expr is true, it returns no value.
cparata	0:763b80993db4	59	* @retval None
cparata	0:763b80993db4	60	*/
cparata	0:763b80993db4	61	#define HTS221_assert_param(expr) ((expr) ? (void)0 : HTS221_assert_failed((uint8_t *)__FILE__, __LINE__))
cparata	0:763b80993db4	62	/* Exported functions ------------------------------------------------------- */
cparata	0:763b80993db4	63	void HTS221_assert_failed(uint8_t* file, uint32_t line);
cparata	0:763b80993db4	64	#else
cparata	0:763b80993db4	65	#define HTS221_assert_param(expr) ((void)0)
cparata	0:763b80993db4	66	#endif /* USE_FULL_ASSERT_HTS221 */
cparata	0:763b80993db4	67
cparata	0:763b80993db4	68	/** @addtogroup Environmental_Sensor
cparata	0:763b80993db4	69	* @{
cparata	0:763b80993db4	70	*/
cparata	0:763b80993db4	71
cparata	0:763b80993db4	72	/** @addtogroup HTS221_DRIVER
cparata	0:763b80993db4	73	* @{
cparata	0:763b80993db4	74	*/
cparata	0:763b80993db4	75
cparata	0:763b80993db4	76	/* Exported Types -------------------------------------------------------------*/
cparata	0:763b80993db4	77	/** @defgroup HTS221_Exported_Types
cparata	0:763b80993db4	78	* @{
cparata	0:763b80993db4	79	*/
cparata	0:763b80993db4	80
cparata	0:763b80993db4	81
cparata	0:763b80993db4	82	/**
cparata	0:763b80993db4	83	* @brief Error code type.
cparata	0:763b80993db4	84	*/
cparata	0:763b80993db4	85	typedef enum {HTS221_OK = (uint8_t)0, HTS221_ERROR = !HTS221_OK} HTS221_Error_et;
cparata	0:763b80993db4	86
cparata	0:763b80993db4	87	/**
cparata	0:763b80993db4	88	* @brief State type.
cparata	0:763b80993db4	89	*/
cparata	0:763b80993db4	90	typedef enum {HTS221_DISABLE = (uint8_t)0, HTS221_ENABLE = !HTS221_DISABLE} HTS221_State_et;
cparata	0:763b80993db4	91	#define IS_HTS221_State(MODE) ((MODE == HTS221_ENABLE) \|\| (MODE == HTS221_DISABLE))
cparata	0:763b80993db4	92
cparata	0:763b80993db4	93	/**
cparata	0:763b80993db4	94	* @brief Bit status type.
cparata	0:763b80993db4	95	*/
cparata	0:763b80993db4	96	typedef enum {HTS221_RESET = (uint8_t)0, HTS221_SET = !HTS221_RESET} HTS221_BitStatus_et;
cparata	0:763b80993db4	97	#define IS_HTS221_BitStatus(MODE) ((MODE == HTS221_RESET) \|\| (MODE == HTS221_SET))
cparata	0:763b80993db4	98
cparata	0:763b80993db4	99	/**
cparata	0:763b80993db4	100	* @brief Humidity average.
cparata	0:763b80993db4	101	*/
cparata	0:763b80993db4	102	typedef enum
cparata	0:763b80993db4	103	{
cparata	0:763b80993db4	104	HTS221_AVGH_4 = (uint8_t)0x00, /!< Internal average on 4 samples /
cparata	0:763b80993db4	105	HTS221_AVGH_8 = (uint8_t)0x01, /!< Internal average on 8 samples /
cparata	0:763b80993db4	106	HTS221_AVGH_16 = (uint8_t)0x02, /!< Internal average on 16 samples /
cparata	0:763b80993db4	107	HTS221_AVGH_32 = (uint8_t)0x03, /!< Internal average on 32 samples /
cparata	0:763b80993db4	108	HTS221_AVGH_64 = (uint8_t)0x04, /!< Internal average on 64 samples /
cparata	0:763b80993db4	109	HTS221_AVGH_128 = (uint8_t)0x05, /!< Internal average on 128 samples /
cparata	0:763b80993db4	110	HTS221_AVGH_256 = (uint8_t)0x06, /!< Internal average on 256 samples /
cparata	0:763b80993db4	111	HTS221_AVGH_512 = (uint8_t)0x07 /!< Internal average on 512 samples /
cparata	0:763b80993db4	112	} HTS221_Avgh_et;
cparata	0:763b80993db4	113	#define IS_HTS221_AVGH(AVGH) ((AVGH == HTS221_AVGH_4) \|\| (AVGH == HTS221_AVGH_8) \|\| \
cparata	0:763b80993db4	114	(AVGH == HTS221_AVGH_16) \|\| (AVGH == HTS221_AVGH_32) \|\| \
cparata	0:763b80993db4	115	(AVGH == HTS221_AVGH_64) \|\| (AVGH == HTS221_AVGH_128) \|\| \
cparata	0:763b80993db4	116	(AVGH == HTS221_AVGH_256) \|\| (AVGH == HTS221_AVGH_512))
cparata	0:763b80993db4	117
cparata	0:763b80993db4	118	/**
cparata	0:763b80993db4	119	* @brief Temperature average.
cparata	0:763b80993db4	120	*/
cparata	0:763b80993db4	121	typedef enum
cparata	0:763b80993db4	122	{
cparata	0:763b80993db4	123	HTS221_AVGT_2 = (uint8_t)0x00, /!< Internal average on 2 samples /
cparata	0:763b80993db4	124	HTS221_AVGT_4 = (uint8_t)0x08, /!< Internal average on 4 samples /
cparata	0:763b80993db4	125	HTS221_AVGT_8 = (uint8_t)0x10, /!< Internal average on 8 samples /
cparata	0:763b80993db4	126	HTS221_AVGT_16 = (uint8_t)0x18, /!< Internal average on 16 samples /
cparata	0:763b80993db4	127	HTS221_AVGT_32 = (uint8_t)0x20, /!< Internal average on 32 samples /
cparata	0:763b80993db4	128	HTS221_AVGT_64 = (uint8_t)0x28, /!< Internal average on 64 samples /
cparata	0:763b80993db4	129	HTS221_AVGT_128 = (uint8_t)0x30, /!< Internal average on 128 samples /
cparata	0:763b80993db4	130	HTS221_AVGT_256 = (uint8_t)0x38 /!< Internal average on 256 samples /
cparata	0:763b80993db4	131	} HTS221_Avgt_et;
cparata	0:763b80993db4	132	#define IS_HTS221_AVGT(AVGT) ((AVGT == HTS221_AVGT_2) \|\| (AVGT == HTS221_AVGT_4) \|\| \
cparata	0:763b80993db4	133	(AVGT == HTS221_AVGT_8) \|\| (AVGT == HTS221_AVGT_16) \|\| \
cparata	0:763b80993db4	134	(AVGT == HTS221_AVGT_32) \|\| (AVGT == HTS221_AVGT_64) \|\| \
cparata	0:763b80993db4	135	(AVGT == HTS221_AVGT_128) \|\| (AVGT == HTS221_AVGT_256))
cparata	0:763b80993db4	136
cparata	0:763b80993db4	137	/**
cparata	0:763b80993db4	138	* @brief Output data rate configuration.
cparata	0:763b80993db4	139	*/
cparata	0:763b80993db4	140	typedef enum
cparata	0:763b80993db4	141	{
cparata	0:763b80993db4	142	HTS221_ODR_ONE_SHOT = (uint8_t)0x00, /!< Output Data Rate: one shot /
cparata	0:763b80993db4	143	HTS221_ODR_1HZ = (uint8_t)0x01, /!< Output Data Rate: 1Hz /
cparata	0:763b80993db4	144	HTS221_ODR_7HZ = (uint8_t)0x02, /!< Output Data Rate: 7Hz /
cparata	0:763b80993db4	145	HTS221_ODR_12_5HZ = (uint8_t)0x03, /!< Output Data Rate: 12.5Hz /
cparata	0:763b80993db4	146	} HTS221_Odr_et;
cparata	0:763b80993db4	147	#define IS_HTS221_ODR(ODR) ((ODR == HTS221_ODR_ONE_SHOT) \|\| (ODR == HTS221_ODR_1HZ) \|\| \
cparata	0:763b80993db4	148	(ODR == HTS221_ODR_7HZ) \|\| (ODR == HTS221_ODR_12_5HZ))
cparata	0:763b80993db4	149
cparata	0:763b80993db4	150
cparata	0:763b80993db4	151	/**
cparata	0:763b80993db4	152	* @brief Push-pull/Open Drain selection on DRDY pin.
cparata	0:763b80993db4	153	*/
cparata	0:763b80993db4	154	typedef enum
cparata	0:763b80993db4	155	{
cparata	0:763b80993db4	156	HTS221_PUSHPULL = (uint8_t)0x00, /!< DRDY pin in push pull /
cparata	0:763b80993db4	157	HTS221_OPENDRAIN = (uint8_t)0x40 /!< DRDY pin in open drain /
cparata	0:763b80993db4	158	} HTS221_OutputType_et;
cparata	0:763b80993db4	159	#define IS_HTS221_OutputType(MODE) ((MODE == HTS221_PUSHPULL) \|\| (MODE == HTS221_OPENDRAIN))
cparata	0:763b80993db4	160
cparata	0:763b80993db4	161	/**
cparata	0:763b80993db4	162	* @brief Active level of DRDY pin.
cparata	0:763b80993db4	163	*/
cparata	0:763b80993db4	164	typedef enum
cparata	0:763b80993db4	165	{
cparata	0:763b80993db4	166	HTS221_HIGH_LVL = (uint8_t)0x00, /!< HIGH state level for DRDY pin /
cparata	0:763b80993db4	167	HTS221_LOW_LVL = (uint8_t)0x80 /!< LOW state level for DRDY pin /
cparata	0:763b80993db4	168	} HTS221_DrdyLevel_et;
cparata	0:763b80993db4	169	#define IS_HTS221_DrdyLevelType(MODE) ((MODE == HTS221_HIGH_LVL) \|\| (MODE == HTS221_LOW_LVL))
cparata	0:763b80993db4	170
cparata	0:763b80993db4	171	/**
cparata	0:763b80993db4	172	* @brief Driver Version Info structure definition.
cparata	0:763b80993db4	173	*/
cparata	0:763b80993db4	174	typedef struct
cparata	0:763b80993db4	175	{
cparata	0:763b80993db4	176	uint8_t Major;
cparata	0:763b80993db4	177	uint8_t Minor;
cparata	0:763b80993db4	178	uint8_t Point;
cparata	0:763b80993db4	179	} HTS221_DriverVersion_st;
cparata	0:763b80993db4	180
cparata	0:763b80993db4	181
cparata	0:763b80993db4	182	/**
cparata	0:763b80993db4	183	* @brief HTS221 Init structure definition.
cparata	0:763b80993db4	184	*/
cparata	0:763b80993db4	185	typedef struct
cparata	0:763b80993db4	186	{
cparata	0:763b80993db4	187	HTS221_Avgh_et avg_h; /!< Humidity average /
cparata	0:763b80993db4	188	HTS221_Avgt_et avg_t; /!< Temperature average /
cparata	0:763b80993db4	189	HTS221_Odr_et odr; /!< Output data rate /
cparata	0:763b80993db4	190	HTS221_State_et bdu_status; /!< HTS221_ENABLE/HTS221_DISABLE the block data update /
cparata	0:763b80993db4	191	HTS221_State_et heater_status; /!< HTS221_ENABLE/HTS221_DISABLE the internal heater /
cparata	0:763b80993db4	192
cparata	0:763b80993db4	193	HTS221_DrdyLevel_et irq_level; /!< HTS221_HIGH_LVL/HTS221_LOW_LVL the level for DRDY pin /
cparata	0:763b80993db4	194	HTS221_OutputType_et irq_output_type; /!< Output configuration for DRDY pin /
cparata	0:763b80993db4	195	HTS221_State_et irq_enable; /!< HTS221_ENABLE/HTS221_DISABLE interrupt on DRDY pin /
cparata	0:763b80993db4	196	} HTS221_Init_st;
cparata	0:763b80993db4	197
cparata	0:763b80993db4	198	/**
cparata	0:763b80993db4	199	* @}
cparata	0:763b80993db4	200	*/
cparata	0:763b80993db4	201
cparata	0:763b80993db4	202
cparata	0:763b80993db4	203	/* Exported Constants ---------------------------------------------------------*/
cparata	0:763b80993db4	204	/** @defgroup HTS221_Exported_Constants
cparata	0:763b80993db4	205	* @{
cparata	0:763b80993db4	206	*/
cparata	0:763b80993db4	207
cparata	0:763b80993db4	208	/**
cparata	0:763b80993db4	209	* @brief Bitfield positioning.
cparata	0:763b80993db4	210	*/
cparata	0:763b80993db4	211	#define HTS221_BIT(x) ((uint8_t)x)
cparata	0:763b80993db4	212
cparata	0:763b80993db4	213	/**
cparata	0:763b80993db4	214	* @brief I2C address.
cparata	0:763b80993db4	215	*/
cparata	0:763b80993db4	216	#define HTS221_I2C_ADDRESS (uint8_t)0xBE
cparata	0:763b80993db4	217
cparata	0:763b80993db4	218	/**
cparata	0:763b80993db4	219	* @brief Driver version.
cparata	0:763b80993db4	220	*/
cparata	0:763b80993db4	221	#define HTS221_DRIVER_VERSION_MAJOR (uint8_t)1
cparata	0:763b80993db4	222	#define HTS221_DRIVER_VERSION_MINOR (uint8_t)1
cparata	0:763b80993db4	223	#define HTS221_DRIVER_VERSION_POINT (uint8_t)0
cparata	0:763b80993db4	224
cparata	0:763b80993db4	225	/**
cparata	0:763b80993db4	226	* @addtogroup HTS221_Registers
cparata	0:763b80993db4	227	* @{
cparata	0:763b80993db4	228	*/
cparata	0:763b80993db4	229
cparata	0:763b80993db4	230
cparata	0:763b80993db4	231	/**
cparata	0:763b80993db4	232	* @brief Device Identification register.
cparata	0:763b80993db4	233	* \code
cparata	0:763b80993db4	234	* Read
cparata	0:763b80993db4	235	* Default value: 0xBC
cparata	0:763b80993db4	236	* 7:0 This read-only register contains the device identifier for HTS221.
cparata	0:763b80993db4	237	* \endcode
cparata	0:763b80993db4	238	*/
cparata	0:763b80993db4	239	#define HTS221_WHO_AM_I_REG (uint8_t)0x0F
cparata	0:763b80993db4	240
cparata	0:763b80993db4	241	/**
cparata	0:763b80993db4	242	* @brief Device Identification value.
cparata	0:763b80993db4	243	*/
cparata	0:763b80993db4	244	#define HTS221_WHO_AM_I_VAL (uint8_t)0xBC
cparata	0:763b80993db4	245
cparata	0:763b80993db4	246
cparata	0:763b80993db4	247	/**
cparata	0:763b80993db4	248	* @brief Humidity and temperature average mode register.
cparata	0:763b80993db4	249	* \code
cparata	0:763b80993db4	250	* Read/write
cparata	0:763b80993db4	251	* Default value: 0x1B
cparata	0:763b80993db4	252	* 7:6 Reserved.
cparata	0:763b80993db4	253	* 5:3 AVGT2-AVGT1-AVGT0: Select the temperature internal average.
cparata	0:763b80993db4	254	*
cparata	0:763b80993db4	255	* AVGT2 \| AVGT1 \| AVGT0 \| Nr. Internal Average
cparata	0:763b80993db4	256	* ----------------------------------------------------
cparata	0:763b80993db4	257	* 0 \| 0 \| 0 \| 2
cparata	0:763b80993db4	258	* 0 \| 0 \| 1 \| 4
cparata	0:763b80993db4	259	* 0 \| 1 \| 0 \| 8
cparata	0:763b80993db4	260	* 0 \| 1 \| 1 \| 16
cparata	0:763b80993db4	261	* 1 \| 0 \| 0 \| 32
cparata	0:763b80993db4	262	* 1 \| 0 \| 1 \| 64
cparata	0:763b80993db4	263	* 1 \| 1 \| 0 \| 128
cparata	0:763b80993db4	264	* 1 \| 1 \| 1 \| 256
cparata	0:763b80993db4	265	*
cparata	0:763b80993db4	266	* 2:0 AVGH2-AVGH1-AVGH0: Select humidity internal average.
cparata	0:763b80993db4	267	* AVGH2 \| AVGH1 \| AVGH0 \| Nr. Internal Average
cparata	0:763b80993db4	268	* ------------------------------------------------------
cparata	0:763b80993db4	269	* 0 \| 0 \| 0 \| 4
cparata	0:763b80993db4	270	* 0 \| 0 \| 1 \| 8
cparata	0:763b80993db4	271	* 0 \| 1 \| 0 \| 16
cparata	0:763b80993db4	272	* 0 \| 1 \| 1 \| 32
cparata	0:763b80993db4	273	* 1 \| 0 \| 0 \| 64
cparata	0:763b80993db4	274	* 1 \| 0 \| 1 \| 128
cparata	0:763b80993db4	275	* 1 \| 1 \| 0 \| 256
cparata	0:763b80993db4	276	* 1 \| 1 \| 1 \| 512
cparata	0:763b80993db4	277	*
cparata	0:763b80993db4	278	* \endcode
cparata	0:763b80993db4	279	*/
cparata	0:763b80993db4	280	#define HTS221_AV_CONF_REG (uint8_t)0x10
cparata	0:763b80993db4	281
cparata	0:763b80993db4	282	#define HTS221_AVGT_BIT HTS221_BIT(3)
cparata	0:763b80993db4	283	#define HTS221_AVGH_BIT HTS221_BIT(0)
cparata	0:763b80993db4	284
cparata	0:763b80993db4	285	#define HTS221_AVGH_MASK (uint8_t)0x07
cparata	0:763b80993db4	286	#define HTS221_AVGT_MASK (uint8_t)0x38
cparata	0:763b80993db4	287
cparata	0:763b80993db4	288	/**
cparata	0:763b80993db4	289	* @brief Control register 1.
cparata	0:763b80993db4	290	* \code
cparata	0:763b80993db4	291	* Read/write
cparata	0:763b80993db4	292	* Default value: 0x00
cparata	0:763b80993db4	293	* 7 PD: power down control. 0 - power down mode; 1 - active mode.
cparata	0:763b80993db4	294	* 6:3 Reserved.
cparata	0:763b80993db4	295	* 2 BDU: block data update. 0 - continuous update; 1 - output registers not updated until MSB and LSB reading.
cparata	0:763b80993db4	296	* 1:0 ODR1, ODR0: output data rate selection.
cparata	0:763b80993db4	297	*
cparata	0:763b80993db4	298	* ODR1 \| ODR0 \| Humidity output data-rate(Hz) \| Pressure output data-rate(Hz)
cparata	0:763b80993db4	299	* ----------------------------------------------------------------------------------
cparata	0:763b80993db4	300	* 0 \| 0 \| one shot \| one shot
cparata	0:763b80993db4	301	* 0 \| 1 \| 1 \| 1
cparata	0:763b80993db4	302	* 1 \| 0 \| 7 \| 7
cparata	0:763b80993db4	303	* 1 \| 1 \| 12.5 \| 12.5
cparata	0:763b80993db4	304	*
cparata	0:763b80993db4	305	* \endcode
cparata	0:763b80993db4	306	*/
cparata	0:763b80993db4	307	#define HTS221_CTRL_REG1 (uint8_t)0x20
cparata	0:763b80993db4	308
cparata	0:763b80993db4	309	#define HTS221_PD_BIT HTS221_BIT(7)
cparata	0:763b80993db4	310	#define HTS221_BDU_BIT HTS221_BIT(2)
cparata	0:763b80993db4	311	#define HTS221_ODR_BIT HTS221_BIT(0)
cparata	0:763b80993db4	312
cparata	0:763b80993db4	313	#define HTS221_PD_MASK (uint8_t)0x80
cparata	0:763b80993db4	314	#define HTS221_BDU_MASK (uint8_t)0x04
cparata	0:763b80993db4	315	#define HTS221_ODR_MASK (uint8_t)0x03
cparata	0:763b80993db4	316
cparata	0:763b80993db4	317	/**
cparata	0:763b80993db4	318	* @brief Control register 2.
cparata	0:763b80993db4	319	* \code
cparata	0:763b80993db4	320	* Read/write
cparata	0:763b80993db4	321	* Default value: 0x00
cparata	0:763b80993db4	322	* 7 BOOT: Reboot memory content. 0: normal mode; 1: reboot memory content. Self-cleared upon completation.
cparata	0:763b80993db4	323	* 6:2 Reserved.
cparata	0:763b80993db4	324	* 1 HEATHER: 0: heater enable; 1: heater disable.
cparata	0:763b80993db4	325	* 0 ONE_SHOT: 0: waiting for start of conversion; 1: start for a new dataset. Self-cleared upon completation.
cparata	0:763b80993db4	326	* \endcode
cparata	0:763b80993db4	327	*/
cparata	0:763b80993db4	328	#define HTS221_CTRL_REG2 (uint8_t)0x21
cparata	0:763b80993db4	329
cparata	0:763b80993db4	330	#define HTS221_BOOT_BIT HTS221_BIT(7)
cparata	0:763b80993db4	331	#define HTS221_HEATHER_BIT HTS221_BIT(1)
cparata	0:763b80993db4	332	#define HTS221_ONESHOT_BIT HTS221_BIT(0)
cparata	0:763b80993db4	333
cparata	0:763b80993db4	334	#define HTS221_BOOT_MASK (uint8_t)0x80
cparata	0:763b80993db4	335	#define HTS221_HEATHER_MASK (uint8_t)0x02
cparata	0:763b80993db4	336	#define HTS221_ONE_SHOT_MASK (uint8_t)0x01
cparata	0:763b80993db4	337
cparata	0:763b80993db4	338	/**
cparata	0:763b80993db4	339	* @brief Control register 3.
cparata	0:763b80993db4	340	* \code
cparata	0:763b80993db4	341	* Read/write
cparata	0:763b80993db4	342	* Default value: 0x00
cparata	0:763b80993db4	343	* 7 DRDY_H_L: Interrupt edge. 0: active high, 1: active low.
cparata	0:763b80993db4	344	* 6 PP_OD: Push-Pull/OpenDrain selection on interrupt pads. 0: push-pull; 1: open drain.
cparata	0:763b80993db4	345	* 5:3 Reserved.
cparata	0:763b80993db4	346	* 2 DRDY: interrupt config. 0: disable, 1: enable.
cparata	0:763b80993db4	347	* \endcode
cparata	0:763b80993db4	348	*/
cparata	0:763b80993db4	349	#define HTS221_CTRL_REG3 (uint8_t)0x22
cparata	0:763b80993db4	350
cparata	0:763b80993db4	351	#define HTS221_DRDY_H_L_BIT HTS221_BIT(7)
cparata	0:763b80993db4	352	#define HTS221_PP_OD_BIT HTS221_BIT(6)
cparata	0:763b80993db4	353	#define HTS221_DRDY_BIT HTS221_BIT(2)
cparata	0:763b80993db4	354
cparata	0:763b80993db4	355	#define HTS221_DRDY_H_L_MASK (uint8_t)0x80
cparata	0:763b80993db4	356	#define HTS221_PP_OD_MASK (uint8_t)0x40
cparata	0:763b80993db4	357	#define HTS221_DRDY_MASK (uint8_t)0x04
cparata	0:763b80993db4	358
cparata	0:763b80993db4	359	/**
cparata	0:763b80993db4	360	* @brief Status register.
cparata	0:763b80993db4	361	* \code
cparata	0:763b80993db4	362	* Read
cparata	0:763b80993db4	363	* Default value: 0x00
cparata	0:763b80993db4	364	* 7:2 Reserved.
cparata	0:763b80993db4	365	* 1 H_DA: Humidity data available. 0: new data for humidity is not yet available; 1: new data for humidity is available.
cparata	0:763b80993db4	366	* 0 T_DA: Temperature data available. 0: new data for temperature is not yet available; 1: new data for temperature is available.
cparata	0:763b80993db4	367	* \endcode
cparata	0:763b80993db4	368	*/
cparata	0:763b80993db4	369	#define HTS221_STATUS_REG (uint8_t)0x27
cparata	0:763b80993db4	370
cparata	0:763b80993db4	371	#define HTS221_H_DA_BIT HTS221_BIT(1)
cparata	0:763b80993db4	372	#define HTS221_T_DA_BIT HTS221_BIT(0)
cparata	0:763b80993db4	373
cparata	0:763b80993db4	374	#define HTS221_HDA_MASK (uint8_t)0x02
cparata	0:763b80993db4	375	#define HTS221_TDA_MASK (uint8_t)0x01
cparata	0:763b80993db4	376
cparata	0:763b80993db4	377	/**
cparata	0:763b80993db4	378	* @brief Humidity data (LSB).
cparata	0:763b80993db4	379	* \code
cparata	0:763b80993db4	380	* Read
cparata	0:763b80993db4	381	* Default value: 0x00.
cparata	0:763b80993db4	382	* HOUT7 - HOUT0: Humidity data LSB (2's complement).
cparata	0:763b80993db4	383	* \endcode
cparata	0:763b80993db4	384	*/
cparata	0:763b80993db4	385	#define HTS221_HR_OUT_L_REG (uint8_t)0x28
cparata	0:763b80993db4	386
cparata	0:763b80993db4	387	/**
cparata	0:763b80993db4	388	* @brief Humidity data (MSB).
cparata	0:763b80993db4	389	* \code
cparata	0:763b80993db4	390	* Read
cparata	0:763b80993db4	391	* Default value: 0x00.
cparata	0:763b80993db4	392	* HOUT15 - HOUT8: Humidity data MSB (2's complement).
cparata	0:763b80993db4	393	* \endcode
cparata	0:763b80993db4	394	*/
cparata	0:763b80993db4	395	#define HTS221_HR_OUT_H_REG (uint8_t)0x29
cparata	0:763b80993db4	396
cparata	0:763b80993db4	397
cparata	0:763b80993db4	398	/**
cparata	0:763b80993db4	399	* @brief Temperature data (LSB).
cparata	0:763b80993db4	400	* \code
cparata	0:763b80993db4	401	* Read
cparata	0:763b80993db4	402	* Default value: 0x00.
cparata	0:763b80993db4	403	* TOUT7 - TOUT0: temperature data LSB.
cparata	0:763b80993db4	404	* \endcode
cparata	0:763b80993db4	405	*/
cparata	0:763b80993db4	406	#define HTS221_TEMP_OUT_L_REG (uint8_t)0x2A
cparata	0:763b80993db4	407
cparata	0:763b80993db4	408	/**
cparata	0:763b80993db4	409	* @brief Temperature data (MSB).
cparata	0:763b80993db4	410	* \code
cparata	0:763b80993db4	411	* Read
cparata	0:763b80993db4	412	* Default value: 0x00.
cparata	0:763b80993db4	413	* TOUT15 - TOUT8: temperature data MSB.
cparata	0:763b80993db4	414	* \endcode
cparata	0:763b80993db4	415	*/
cparata	0:763b80993db4	416	#define HTS221_TEMP_OUT_H_REG (uint8_t)0x2B
cparata	0:763b80993db4	417
cparata	0:763b80993db4	418	/**
cparata	0:763b80993db4	419	* @brief Calibration registers.
cparata	0:763b80993db4	420	* \code
cparata	0:763b80993db4	421	* Read
cparata	0:763b80993db4	422	* \endcode
cparata	0:763b80993db4	423	*/
cparata	0:763b80993db4	424	#define HTS221_H0_RH_X2 (uint8_t)0x30
cparata	0:763b80993db4	425	#define HTS221_H1_RH_X2 (uint8_t)0x31
cparata	0:763b80993db4	426	#define HTS221_T0_DEGC_X8 (uint8_t)0x32
cparata	0:763b80993db4	427	#define HTS221_T1_DEGC_X8 (uint8_t)0x33
cparata	0:763b80993db4	428	#define HTS221_T0_T1_DEGC_H2 (uint8_t)0x35
cparata	0:763b80993db4	429	#define HTS221_H0_T0_OUT_L (uint8_t)0x36
cparata	0:763b80993db4	430	#define HTS221_H0_T0_OUT_H (uint8_t)0x37
cparata	0:763b80993db4	431	#define HTS221_H1_T0_OUT_L (uint8_t)0x3A
cparata	0:763b80993db4	432	#define HTS221_H1_T0_OUT_H (uint8_t)0x3B
cparata	0:763b80993db4	433	#define HTS221_T0_OUT_L (uint8_t)0x3C
cparata	0:763b80993db4	434	#define HTS221_T0_OUT_H (uint8_t)0x3D
cparata	0:763b80993db4	435	#define HTS221_T1_OUT_L (uint8_t)0x3E
cparata	0:763b80993db4	436	#define HTS221_T1_OUT_H (uint8_t)0x3F
cparata	0:763b80993db4	437
cparata	0:763b80993db4	438
cparata	0:763b80993db4	439	/**
cparata	0:763b80993db4	440	* @}
cparata	0:763b80993db4	441	*/
cparata	0:763b80993db4	442
cparata	0:763b80993db4	443
cparata	0:763b80993db4	444	/**
cparata	0:763b80993db4	445	* @}
cparata	0:763b80993db4	446	*/
cparata	0:763b80993db4	447
cparata	0:763b80993db4	448
cparata	0:763b80993db4	449	/* Exported Functions -------------------------------------------------------------*/
cparata	0:763b80993db4	450	/** @defgroup HTS221_Exported_Functions
cparata	0:763b80993db4	451	* @{
cparata	0:763b80993db4	452	*/
cparata	0:763b80993db4	453
cparata	0:763b80993db4	454	HTS221_Error_et HTS221_ReadReg( void handle, uint8_t RegAddr, uint16_t NumByteToRead, uint8_t Data );
cparata	0:763b80993db4	455	HTS221_Error_et HTS221_WriteReg( void handle, uint8_t RegAddr, uint16_t NumByteToWrite, uint8_t Data );
cparata	0:763b80993db4	456
cparata	0:763b80993db4	457	HTS221_Error_et HTS221_Get_DriverVersion(HTS221_DriverVersion_st* version);
cparata	0:763b80993db4	458	HTS221_Error_et HTS221_Get_DeviceID(void handle, uint8_t deviceid);
cparata	0:763b80993db4	459
cparata	0:763b80993db4	460	HTS221_Error_et HTS221_Set_InitConfig(void handle, HTS221_Init_st pxInit);
cparata	0:763b80993db4	461	HTS221_Error_et HTS221_Get_InitConfig(void handle, HTS221_Init_st pxInit);
cparata	0:763b80993db4	462	HTS221_Error_et HTS221_DeInit(void *handle);
cparata	0:763b80993db4	463	HTS221_Error_et HTS221_IsMeasurementCompleted(void handle, HTS221_BitStatus_et Is_Measurement_Completed);
cparata	0:763b80993db4	464
cparata	0:763b80993db4	465	HTS221_Error_et HTS221_Get_Measurement(void handle, uint16_t humidity, int16_t* temperature);
cparata	0:763b80993db4	466	HTS221_Error_et HTS221_Get_RawMeasurement(void handle, int16_t humidity, int16_t* temperature);
cparata	0:763b80993db4	467	HTS221_Error_et HTS221_Get_Humidity(void handle, uint16_t value);
cparata	0:763b80993db4	468	HTS221_Error_et HTS221_Get_HumidityRaw(void handle, int16_t value);
cparata	0:763b80993db4	469	HTS221_Error_et HTS221_Get_TemperatureRaw(void handle, int16_t value);
cparata	0:763b80993db4	470	HTS221_Error_et HTS221_Get_Temperature(void handle, int16_t value);
cparata	0:763b80993db4	471	HTS221_Error_et HTS221_Get_DataStatus(void handle, HTS221_BitStatus_et humidity, HTS221_BitStatus_et* temperature);
cparata	0:763b80993db4	472	HTS221_Error_et HTS221_Activate(void *handle);
cparata	0:763b80993db4	473	HTS221_Error_et HTS221_DeActivate(void *handle);
cparata	0:763b80993db4	474
cparata	0:763b80993db4	475	HTS221_Error_et HTS221_Set_AvgHT(void *handle, HTS221_Avgh_et avgh, HTS221_Avgt_et avgt);
cparata	0:763b80993db4	476	HTS221_Error_et HTS221_Set_AvgH(void *handle, HTS221_Avgh_et avgh);
cparata	0:763b80993db4	477	HTS221_Error_et HTS221_Set_AvgT(void *handle, HTS221_Avgt_et avgt);
cparata	0:763b80993db4	478	HTS221_Error_et HTS221_Get_AvgHT(void handle, HTS221_Avgh_et avgh, HTS221_Avgt_et* avgt);
cparata	0:763b80993db4	479	HTS221_Error_et HTS221_Set_BduMode(void *handle, HTS221_State_et status);
cparata	0:763b80993db4	480	HTS221_Error_et HTS221_Get_BduMode(void handle, HTS221_State_et status);
cparata	0:763b80993db4	481	HTS221_Error_et HTS221_Set_PowerDownMode(void *handle, HTS221_BitStatus_et status);
cparata	0:763b80993db4	482	HTS221_Error_et HTS221_Get_PowerDownMode(void handle, HTS221_BitStatus_et status);
cparata	0:763b80993db4	483	HTS221_Error_et HTS221_Set_Odr(void *handle, HTS221_Odr_et odr);
cparata	0:763b80993db4	484	HTS221_Error_et HTS221_Get_Odr(void handle, HTS221_Odr_et odr);
cparata	0:763b80993db4	485	HTS221_Error_et HTS221_MemoryBoot(void *handle);
cparata	0:763b80993db4	486	HTS221_Error_et HTS221_Set_HeaterState(void *handle, HTS221_State_et status);
cparata	0:763b80993db4	487	HTS221_Error_et HTS221_Get_HeaterState(void handle, HTS221_State_et status);
cparata	0:763b80993db4	488	HTS221_Error_et HTS221_StartOneShotMeasurement(void *handle);
cparata	0:763b80993db4	489	HTS221_Error_et HTS221_Set_IrqActiveLevel(void *handle, HTS221_DrdyLevel_et status);
cparata	0:763b80993db4	490	HTS221_Error_et HTS221_Get_IrqActiveLevel(void handle, HTS221_DrdyLevel_et status);
cparata	0:763b80993db4	491	HTS221_Error_et HTS221_Set_IrqOutputType(void *handle, HTS221_OutputType_et value);
cparata	0:763b80993db4	492	HTS221_Error_et HTS221_Get_IrqOutputType(void handle, HTS221_OutputType_et value);
cparata	0:763b80993db4	493	HTS221_Error_et HTS221_Set_IrqEnable(void *handle, HTS221_State_et status);
cparata	0:763b80993db4	494	HTS221_Error_et HTS221_Get_IrqEnable(void handle, HTS221_State_et status);
cparata	0:763b80993db4	495
cparata	0:763b80993db4	496	/**
cparata	0:763b80993db4	497	* @}
cparata	0:763b80993db4	498	*/
cparata	0:763b80993db4	499
cparata	0:763b80993db4	500	/**
cparata	0:763b80993db4	501	* @}
cparata	0:763b80993db4	502	*/
cparata	0:763b80993db4	503
cparata	0:763b80993db4	504	/**
cparata	0:763b80993db4	505	* @}
cparata	0:763b80993db4	506	*/
cparata	0:763b80993db4	507
cparata	0:763b80993db4	508	#ifdef __cplusplus
cparata	0:763b80993db4	509	}
cparata	0:763b80993db4	510	#endif
cparata	0:763b80993db4	511
cparata	0:763b80993db4	512	#endif /* __HTS221_DRIVER__H */
cparata	0:763b80993db4	513
cparata	0:763b80993db4	514	/***************** (C) COPYRIGHT 2013 STMicroelectronics *END OF FILE**/

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	16 Dec 2016
Imports:	170
Forks:	0
Commits:	10
Dependents:	0
Dependencies:	2
Followers:	400

The code in this repository is Apache licensed.

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

X_NUCLEO_IKS01A2/Components/HTS221Sensor/HTS221_Driver.h@0:763b80993db4, 2016-11-24 (annotated)

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