Pedometer_IKS01A2 - Example of pedometer for LSM6DSL in X-NUCLEO-IKS0…

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ST / Mbed 2 deprecated Pedometer_IKS01A2

Example of pedometer for LSM6DSL in X-NUCLEO-IKS01A2

Fork of Pedometer_IKS01A2 by ST Expansion SW Team

Pedometer Demo Application based on sensor expansion board X-NUCLEO-IKS01A2

Main function is to show how to count steps 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 try to shake the board to simulate the steps and then view the notification using an hyper terminal. When a new step is detected, the LED is switched on for a while.
- the user button can be used to reset the step counter.

X_NUCLEO_IKS01A2/Components/HTS221Sensor/HTS221_Driver.c@2:67af0ad3ea2e, 2016-08-19 (annotated)

Committer:: cparata
Date:: Fri Aug 19 12:29:08 2016 +0000
Revision:: 2:67af0ad3ea2e
Parent:: 0:b189540a70e2

Add interfaces to all components

Who changed what in which revision?

User	Revision	Line number	New contents of line
cparata	0:b189540a70e2	1	/**
cparata	0:b189540a70e2	2	******************************************************************************
cparata	0:b189540a70e2	3	* @file HTS221_Driver.c
cparata	0:b189540a70e2	4	* @author HESA Application Team
cparata	0:b189540a70e2	5	* @version V1.1
cparata	0:b189540a70e2	6	* @date 10-August-2016
cparata	0:b189540a70e2	7	* @brief HTS221 driver file
cparata	0:b189540a70e2	8	******************************************************************************
cparata	0:b189540a70e2	9	* @attention
cparata	0:b189540a70e2	10	*
cparata	0:b189540a70e2	11	* <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
cparata	0:b189540a70e2	12	*
cparata	0:b189540a70e2	13	* Redistribution and use in source and binary forms, with or without modification,
cparata	0:b189540a70e2	14	* are permitted provided that the following conditions are met:
cparata	0:b189540a70e2	15	* 1. Redistributions of source code must retain the above copyright notice,
cparata	0:b189540a70e2	16	* this list of conditions and the following disclaimer.
cparata	0:b189540a70e2	17	* 2. Redistributions in binary form must reproduce the above copyright notice,
cparata	0:b189540a70e2	18	* this list of conditions and the following disclaimer in the documentation
cparata	0:b189540a70e2	19	* and/or other materials provided with the distribution.
cparata	0:b189540a70e2	20	* 3. Neither the name of STMicroelectronics nor the names of its contributors
cparata	0:b189540a70e2	21	* may be used to endorse or promote products derived from this software
cparata	0:b189540a70e2	22	* without specific prior written permission.
cparata	0:b189540a70e2	23	*
cparata	0:b189540a70e2	24	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
cparata	0:b189540a70e2	25	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
cparata	0:b189540a70e2	26	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
cparata	0:b189540a70e2	27	* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
cparata	0:b189540a70e2	28	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
cparata	0:b189540a70e2	29	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
cparata	0:b189540a70e2	30	* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
cparata	0:b189540a70e2	31	* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
cparata	0:b189540a70e2	32	* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
cparata	0:b189540a70e2	33	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
cparata	0:b189540a70e2	34	*
cparata	0:b189540a70e2	35	******************************************************************************
cparata	0:b189540a70e2	36	*/
cparata	0:b189540a70e2	37
cparata	0:b189540a70e2	38	/* Includes ------------------------------------------------------------------*/
cparata	0:b189540a70e2	39	#include "HTS221_Driver.h"
cparata	0:b189540a70e2	40
cparata	0:b189540a70e2	41	#ifdef __cplusplus
cparata	0:b189540a70e2	42	extern "C" {
cparata	0:b189540a70e2	43	#endif
cparata	0:b189540a70e2	44
cparata	0:b189540a70e2	45	#ifdef USE_FULL_ASSERT_HTS221
cparata	0:b189540a70e2	46	#include <stdio.h>
cparata	0:b189540a70e2	47	#endif
cparata	0:b189540a70e2	48
cparata	0:b189540a70e2	49
cparata	0:b189540a70e2	50	/** @addtogroup Environmental_Sensor
cparata	0:b189540a70e2	51	* @{
cparata	0:b189540a70e2	52	*/
cparata	0:b189540a70e2	53
cparata	0:b189540a70e2	54	/** @defgroup HTS221_DRIVER
cparata	0:b189540a70e2	55	* @brief HTS221 DRIVER
cparata	0:b189540a70e2	56	* @{
cparata	0:b189540a70e2	57	*/
cparata	0:b189540a70e2	58
cparata	0:b189540a70e2	59	/** @defgroup HTS221_Imported_Function_Prototypes
cparata	0:b189540a70e2	60	* @{
cparata	0:b189540a70e2	61	*/
cparata	0:b189540a70e2	62
cparata	0:b189540a70e2	63	extern uint8_t HTS221_IO_Write( void handle, uint8_t WriteAddr, uint8_t pBuffer, uint16_t nBytesToWrite );
cparata	0:b189540a70e2	64	extern uint8_t HTS221_IO_Read( void handle, uint8_t ReadAddr, uint8_t pBuffer, uint16_t nBytesToRead );
cparata	0:b189540a70e2	65
cparata	0:b189540a70e2	66	/**
cparata	0:b189540a70e2	67	* @}
cparata	0:b189540a70e2	68	*/
cparata	0:b189540a70e2	69
cparata	0:b189540a70e2	70	/** @defgroup HTS221_Private_Function_Prototypes
cparata	0:b189540a70e2	71	* @{
cparata	0:b189540a70e2	72	*/
cparata	0:b189540a70e2	73
cparata	0:b189540a70e2	74	/**
cparata	0:b189540a70e2	75	* @}
cparata	0:b189540a70e2	76	*/
cparata	0:b189540a70e2	77
cparata	0:b189540a70e2	78	/** @defgroup HTS221_Private_Functions
cparata	0:b189540a70e2	79	* @{
cparata	0:b189540a70e2	80	*/
cparata	0:b189540a70e2	81
cparata	0:b189540a70e2	82	/**
cparata	0:b189540a70e2	83	* @}
cparata	0:b189540a70e2	84	*/
cparata	0:b189540a70e2	85
cparata	0:b189540a70e2	86	/** @defgroup HTS221_Public_Functions
cparata	0:b189540a70e2	87	* @{
cparata	0:b189540a70e2	88	*/
cparata	0:b189540a70e2	89
cparata	0:b189540a70e2	90	/*******************************************************************************
cparata	0:b189540a70e2	91	* Function Name : HTS221_ReadReg
cparata	0:b189540a70e2	92	* Description : Generic Reading function. It must be fullfilled with either
cparata	0:b189540a70e2	93	* : I2C or SPI reading functions
cparata	0:b189540a70e2	94	* Input : Register Address
cparata	0:b189540a70e2	95	* Output : Data Read
cparata	0:b189540a70e2	96	* Return : None
cparata	0:b189540a70e2	97	*******************************************************************************/
cparata	0:b189540a70e2	98	HTS221_Error_et HTS221_ReadReg( void handle, uint8_t RegAddr, uint16_t NumByteToRead, uint8_t Data )
cparata	0:b189540a70e2	99	{
cparata	0:b189540a70e2	100
cparata	0:b189540a70e2	101	if ( NumByteToRead > 1 ) RegAddr \|= 0x80;
cparata	0:b189540a70e2	102
cparata	0:b189540a70e2	103	if ( HTS221_IO_Read( handle, RegAddr, Data, NumByteToRead ) )
cparata	0:b189540a70e2	104	return HTS221_ERROR;
cparata	0:b189540a70e2	105	else
cparata	0:b189540a70e2	106	return HTS221_OK;
cparata	0:b189540a70e2	107	}
cparata	0:b189540a70e2	108
cparata	0:b189540a70e2	109	/*******************************************************************************
cparata	0:b189540a70e2	110	* Function Name : HTS221_WriteReg
cparata	0:b189540a70e2	111	* Description : Generic Writing function. It must be fullfilled with either
cparata	0:b189540a70e2	112	* : I2C or SPI writing function
cparata	0:b189540a70e2	113	* Input : Register Address, Data to be written
cparata	0:b189540a70e2	114	* Output : None
cparata	0:b189540a70e2	115	* Return : None
cparata	0:b189540a70e2	116	*******************************************************************************/
cparata	0:b189540a70e2	117	HTS221_Error_et HTS221_WriteReg( void handle, uint8_t RegAddr, uint16_t NumByteToWrite, uint8_t Data )
cparata	0:b189540a70e2	118	{
cparata	0:b189540a70e2	119
cparata	0:b189540a70e2	120	if ( NumByteToWrite > 1 ) RegAddr \|= 0x80;
cparata	0:b189540a70e2	121
cparata	0:b189540a70e2	122	if ( HTS221_IO_Write( handle, RegAddr, Data, NumByteToWrite ) )
cparata	0:b189540a70e2	123	return HTS221_ERROR;
cparata	0:b189540a70e2	124	else
cparata	0:b189540a70e2	125	return HTS221_OK;
cparata	0:b189540a70e2	126	}
cparata	0:b189540a70e2	127
cparata	0:b189540a70e2	128	/**
cparata	0:b189540a70e2	129	* @brief Get the version of this driver.
cparata	0:b189540a70e2	130	* @param pxVersion pointer to a HTS221_DriverVersion_st structure that contains the version information.
cparata	0:b189540a70e2	131	* This parameter is a pointer to @ref HTS221_DriverVersion_st.
cparata	0:b189540a70e2	132	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	133	*/
cparata	0:b189540a70e2	134	HTS221_Error_et HTS221_Get_DriverVersion(HTS221_DriverVersion_st* version)
cparata	0:b189540a70e2	135	{
cparata	0:b189540a70e2	136	version->Major = HTS221_DRIVER_VERSION_MAJOR;
cparata	0:b189540a70e2	137	version->Minor = HTS221_DRIVER_VERSION_MINOR;
cparata	0:b189540a70e2	138	version->Point = HTS221_DRIVER_VERSION_POINT;
cparata	0:b189540a70e2	139
cparata	0:b189540a70e2	140	return HTS221_OK;
cparata	0:b189540a70e2	141	}
cparata	0:b189540a70e2	142
cparata	0:b189540a70e2	143	/**
cparata	0:b189540a70e2	144	* @brief Get device type ID.
cparata	0:b189540a70e2	145	* @param *handle Device handle.
cparata	0:b189540a70e2	146	* @param deviceid pointer to the returned device type ID.
cparata	0:b189540a70e2	147	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	148	*/
cparata	0:b189540a70e2	149	HTS221_Error_et HTS221_Get_DeviceID(void handle, uint8_t deviceid)
cparata	0:b189540a70e2	150	{
cparata	0:b189540a70e2	151	if(HTS221_ReadReg(handle, HTS221_WHO_AM_I_REG, 1, deviceid))
cparata	0:b189540a70e2	152	return HTS221_ERROR;
cparata	0:b189540a70e2	153
cparata	0:b189540a70e2	154	return HTS221_OK;
cparata	0:b189540a70e2	155	}
cparata	0:b189540a70e2	156
cparata	0:b189540a70e2	157	/**
cparata	0:b189540a70e2	158	* @brief Initializes the HTS221 with the specified parameters in HTS221_Init_st struct.
cparata	0:b189540a70e2	159	* @param *handle Device handle.
cparata	0:b189540a70e2	160	* @param pxInit pointer to a HTS221_Init_st structure that contains the configuration.
cparata	0:b189540a70e2	161	* This parameter is a pointer to @ref HTS221_Init_st.
cparata	0:b189540a70e2	162	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	163	*/
cparata	0:b189540a70e2	164	HTS221_Error_et HTS221_Set_InitConfig(void handle, HTS221_Init_st pxInit)
cparata	0:b189540a70e2	165	{
cparata	0:b189540a70e2	166	uint8_t buffer[3];
cparata	0:b189540a70e2	167
cparata	0:b189540a70e2	168	HTS221_assert_param(IS_HTS221_AVGH(pxInit->avg_h));
cparata	0:b189540a70e2	169	HTS221_assert_param(IS_HTS221_AVGT(pxInit->avg_t));
cparata	0:b189540a70e2	170	HTS221_assert_param(IS_HTS221_ODR(pxInit->odr));
cparata	0:b189540a70e2	171	HTS221_assert_param(IS_HTS221_State(pxInit->bdu_status));
cparata	0:b189540a70e2	172	HTS221_assert_param(IS_HTS221_State(pxInit->heater_status));
cparata	0:b189540a70e2	173
cparata	0:b189540a70e2	174	HTS221_assert_param(IS_HTS221_DrdyLevelType(pxInit->irq_level));
cparata	0:b189540a70e2	175	HTS221_assert_param(IS_HTS221_OutputType(pxInit->irq_output_type));
cparata	0:b189540a70e2	176	HTS221_assert_param(IS_HTS221_State(pxInit->irq_enable));
cparata	0:b189540a70e2	177
cparata	0:b189540a70e2	178	if(HTS221_ReadReg(handle, HTS221_AV_CONF_REG, 1, buffer))
cparata	0:b189540a70e2	179	return HTS221_ERROR;
cparata	0:b189540a70e2	180
cparata	0:b189540a70e2	181	buffer[0] &= ~(HTS221_AVGH_MASK \| HTS221_AVGT_MASK);
cparata	0:b189540a70e2	182	buffer[0] \|= (uint8_t)pxInit->avg_h;
cparata	0:b189540a70e2	183	buffer[0] \|= (uint8_t)pxInit->avg_t;
cparata	0:b189540a70e2	184
cparata	0:b189540a70e2	185	if(HTS221_WriteReg(handle, HTS221_AV_CONF_REG, 1, buffer))
cparata	0:b189540a70e2	186	return HTS221_ERROR;
cparata	0:b189540a70e2	187
cparata	0:b189540a70e2	188	if(HTS221_ReadReg(handle, HTS221_CTRL_REG1, 3, buffer))
cparata	0:b189540a70e2	189	return HTS221_ERROR;
cparata	0:b189540a70e2	190
cparata	0:b189540a70e2	191	buffer[0] &= ~(HTS221_BDU_MASK \| HTS221_ODR_MASK);
cparata	0:b189540a70e2	192	buffer[0] \|= (uint8_t)pxInit->odr;
cparata	0:b189540a70e2	193	buffer[0] \|= ((uint8_t)pxInit->bdu_status) << HTS221_BDU_BIT;
cparata	0:b189540a70e2	194
cparata	0:b189540a70e2	195	buffer[1] &= ~HTS221_HEATHER_BIT;
cparata	0:b189540a70e2	196	buffer[1] \|= ((uint8_t)pxInit->heater_status) << HTS221_HEATHER_BIT;
cparata	0:b189540a70e2	197
cparata	0:b189540a70e2	198	buffer[2] &= ~(HTS221_DRDY_H_L_MASK \| HTS221_PP_OD_MASK \| HTS221_DRDY_MASK);
cparata	0:b189540a70e2	199	buffer[2] \|= ((uint8_t)pxInit->irq_level) << HTS221_DRDY_H_L_BIT;
cparata	0:b189540a70e2	200	buffer[2] \|= (uint8_t)pxInit->irq_output_type;
cparata	0:b189540a70e2	201	buffer[2] \|= ((uint8_t)pxInit->irq_enable) << HTS221_DRDY_BIT;
cparata	0:b189540a70e2	202
cparata	0:b189540a70e2	203	if(HTS221_WriteReg(handle, HTS221_CTRL_REG1, 3, buffer))
cparata	0:b189540a70e2	204	return HTS221_ERROR;
cparata	0:b189540a70e2	205
cparata	0:b189540a70e2	206	return HTS221_OK;
cparata	0:b189540a70e2	207	}
cparata	0:b189540a70e2	208
cparata	0:b189540a70e2	209	/**
cparata	0:b189540a70e2	210	* @brief Returns a HTS221_Init_st struct with the actual configuration.
cparata	0:b189540a70e2	211	* @param *handle Device handle.
cparata	0:b189540a70e2	212	* @param pxInit pointer to a HTS221_Init_st structure.
cparata	0:b189540a70e2	213	* This parameter is a pointer to @ref HTS221_Init_st.
cparata	0:b189540a70e2	214	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	215	*/
cparata	0:b189540a70e2	216	HTS221_Error_et HTS221_Get_InitConfig(void handle, HTS221_Init_st pxInit)
cparata	0:b189540a70e2	217	{
cparata	0:b189540a70e2	218	uint8_t buffer[3];
cparata	0:b189540a70e2	219
cparata	0:b189540a70e2	220	if(HTS221_ReadReg(handle, HTS221_AV_CONF_REG, 1, buffer))
cparata	0:b189540a70e2	221	return HTS221_ERROR;
cparata	0:b189540a70e2	222
cparata	0:b189540a70e2	223	pxInit->avg_h = (HTS221_Avgh_et)(buffer[0] & HTS221_AVGH_MASK);
cparata	0:b189540a70e2	224	pxInit->avg_t = (HTS221_Avgt_et)(buffer[0] & HTS221_AVGT_MASK);
cparata	0:b189540a70e2	225
cparata	0:b189540a70e2	226	if(HTS221_ReadReg(handle, HTS221_CTRL_REG1, 3, buffer))
cparata	0:b189540a70e2	227	return HTS221_ERROR;
cparata	0:b189540a70e2	228
cparata	0:b189540a70e2	229	pxInit->odr = (HTS221_Odr_et)(buffer[0] & HTS221_ODR_MASK);
cparata	0:b189540a70e2	230	pxInit->bdu_status = (HTS221_State_et)((buffer[0] & HTS221_BDU_MASK) >> HTS221_BDU_BIT);
cparata	0:b189540a70e2	231	pxInit->heater_status = (HTS221_State_et)((buffer[1] & HTS221_HEATHER_MASK) >> HTS221_HEATHER_BIT);
cparata	0:b189540a70e2	232
cparata	0:b189540a70e2	233	pxInit->irq_level = (HTS221_DrdyLevel_et)(buffer[2] & HTS221_DRDY_H_L_MASK);
cparata	0:b189540a70e2	234	pxInit->irq_output_type = (HTS221_OutputType_et)(buffer[2] & HTS221_PP_OD_MASK);
cparata	0:b189540a70e2	235	pxInit->irq_enable = (HTS221_State_et)((buffer[2] & HTS221_DRDY_MASK) >> HTS221_DRDY_BIT);
cparata	0:b189540a70e2	236
cparata	0:b189540a70e2	237	return HTS221_OK;
cparata	0:b189540a70e2	238	}
cparata	0:b189540a70e2	239
cparata	0:b189540a70e2	240	/**
cparata	0:b189540a70e2	241	* @brief De initialization function for HTS221.
cparata	0:b189540a70e2	242	* This function put the HTS221 in power down, make a memory boot and clear the data output flags.
cparata	0:b189540a70e2	243	* @param *handle Device handle.
cparata	0:b189540a70e2	244	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	245	*/
cparata	0:b189540a70e2	246	HTS221_Error_et HTS221_DeInit(void *handle)
cparata	0:b189540a70e2	247	{
cparata	0:b189540a70e2	248	uint8_t buffer[4];
cparata	0:b189540a70e2	249
cparata	0:b189540a70e2	250	if(HTS221_ReadReg(handle, HTS221_CTRL_REG1, 2, buffer))
cparata	0:b189540a70e2	251	return HTS221_ERROR;
cparata	0:b189540a70e2	252
cparata	0:b189540a70e2	253	/* HTS221 in power down */
cparata	0:b189540a70e2	254	buffer[0] \|= 0x01 << HTS221_PD_BIT;
cparata	0:b189540a70e2	255
cparata	0:b189540a70e2	256	/* Make HTS221 boot */
cparata	0:b189540a70e2	257	buffer[1] \|= 0x01 << HTS221_BOOT_BIT;
cparata	0:b189540a70e2	258
cparata	0:b189540a70e2	259	if(HTS221_WriteReg(handle, HTS221_CTRL_REG1, 2, buffer))
cparata	0:b189540a70e2	260	return HTS221_ERROR;
cparata	0:b189540a70e2	261
cparata	0:b189540a70e2	262	/* Dump of data output */
cparata	0:b189540a70e2	263	if(HTS221_ReadReg(handle, HTS221_HR_OUT_L_REG, 4, buffer))
cparata	0:b189540a70e2	264	return HTS221_ERROR;
cparata	0:b189540a70e2	265
cparata	0:b189540a70e2	266	return HTS221_OK;
cparata	0:b189540a70e2	267	}
cparata	0:b189540a70e2	268
cparata	0:b189540a70e2	269	/**
cparata	0:b189540a70e2	270	* @brief Read HTS221 output registers, and calculate humidity and temperature.
cparata	0:b189540a70e2	271	* @param *handle Device handle.
cparata	0:b189540a70e2	272	* @param humidity pointer to the returned humidity value that must be divided by 10 to get the value in [%].
cparata	0:b189540a70e2	273	* @param temperature pointer to the returned temperature value that must be divided by 10 to get the value in ['C].
cparata	0:b189540a70e2	274	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	275	*/
cparata	0:b189540a70e2	276	HTS221_Error_et HTS221_Get_Measurement(void handle, uint16_t humidity, int16_t* temperature)
cparata	0:b189540a70e2	277	{
cparata	0:b189540a70e2	278	if ( HTS221_Get_Temperature( handle, temperature ) == HTS221_ERROR ) return HTS221_ERROR;
cparata	0:b189540a70e2	279	if ( HTS221_Get_Humidity( handle, humidity ) == HTS221_ERROR ) return HTS221_ERROR;
cparata	0:b189540a70e2	280
cparata	0:b189540a70e2	281	return HTS221_OK;
cparata	0:b189540a70e2	282	}
cparata	0:b189540a70e2	283
cparata	0:b189540a70e2	284	/**
cparata	0:b189540a70e2	285	* @brief Read HTS221 output registers. Humidity and temperature.
cparata	0:b189540a70e2	286	* @param *handle Device handle.
cparata	0:b189540a70e2	287	* @param humidity pointer to the returned humidity raw value.
cparata	0:b189540a70e2	288	* @param temperature pointer to the returned temperature raw value.
cparata	0:b189540a70e2	289	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	290	*/
cparata	0:b189540a70e2	291	HTS221_Error_et HTS221_Get_RawMeasurement(void handle, int16_t humidity, int16_t* temperature)
cparata	0:b189540a70e2	292	{
cparata	0:b189540a70e2	293	uint8_t buffer[4];
cparata	0:b189540a70e2	294
cparata	0:b189540a70e2	295	if(HTS221_ReadReg(handle, HTS221_HR_OUT_L_REG, 4, buffer))
cparata	0:b189540a70e2	296	return HTS221_ERROR;
cparata	0:b189540a70e2	297
cparata	0:b189540a70e2	298	*humidity = (int16_t)((((uint16_t)buffer[1]) << 8) \| (uint16_t)buffer[0]);
cparata	0:b189540a70e2	299	*temperature = (int16_t)((((uint16_t)buffer[3]) << 8) \| (uint16_t)buffer[2]);
cparata	0:b189540a70e2	300
cparata	0:b189540a70e2	301	return HTS221_OK;
cparata	0:b189540a70e2	302	}
cparata	0:b189540a70e2	303
cparata	0:b189540a70e2	304	/**
cparata	0:b189540a70e2	305	* @brief Read HTS221 Humidity output registers, and calculate humidity.
cparata	0:b189540a70e2	306	* @param *handle Device handle.
cparata	0:b189540a70e2	307	* @param Pointer to the returned humidity value that must be divided by 10 to get the value in [%].
cparata	0:b189540a70e2	308	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	309	*/
cparata	0:b189540a70e2	310	HTS221_Error_et HTS221_Get_Humidity(void handle, uint16_t value)
cparata	0:b189540a70e2	311	{
cparata	0:b189540a70e2	312	int16_t H0_T0_out, H1_T0_out, H_T_out;
cparata	0:b189540a70e2	313	int16_t H0_rh, H1_rh;
cparata	0:b189540a70e2	314	uint8_t buffer[2];
cparata	0:b189540a70e2	315	float tmp_f;
cparata	0:b189540a70e2	316
cparata	0:b189540a70e2	317	if(HTS221_ReadReg(handle, HTS221_H0_RH_X2, 2, buffer))
cparata	0:b189540a70e2	318	return HTS221_ERROR;
cparata	0:b189540a70e2	319	H0_rh = buffer[0] >> 1;
cparata	0:b189540a70e2	320	H1_rh = buffer[1] >> 1;
cparata	0:b189540a70e2	321
cparata	0:b189540a70e2	322	if(HTS221_ReadReg(handle, HTS221_H0_T0_OUT_L, 2, buffer))
cparata	0:b189540a70e2	323	return HTS221_ERROR;
cparata	0:b189540a70e2	324	H0_T0_out = (((uint16_t)buffer[1]) << 8) \| (uint16_t)buffer[0];
cparata	0:b189540a70e2	325
cparata	0:b189540a70e2	326	if(HTS221_ReadReg(handle, HTS221_H1_T0_OUT_L, 2, buffer))
cparata	0:b189540a70e2	327	return HTS221_ERROR;
cparata	0:b189540a70e2	328	H1_T0_out = (((uint16_t)buffer[1]) << 8) \| (uint16_t)buffer[0];
cparata	0:b189540a70e2	329
cparata	0:b189540a70e2	330	if(HTS221_ReadReg(handle, HTS221_HR_OUT_L_REG, 2, buffer))
cparata	0:b189540a70e2	331	return HTS221_ERROR;
cparata	0:b189540a70e2	332	H_T_out = (((uint16_t)buffer[1]) << 8) \| (uint16_t)buffer[0];
cparata	0:b189540a70e2	333
cparata	0:b189540a70e2	334	tmp_f = (float)(H_T_out - H0_T0_out) * (float)(H1_rh - H0_rh) / (float)(H1_T0_out - H0_T0_out) + H0_rh;
cparata	0:b189540a70e2	335	tmp_f *= 10.0f;
cparata	0:b189540a70e2	336
cparata	0:b189540a70e2	337	*value = ( tmp_f > 1000.0f ) ? 1000
cparata	0:b189540a70e2	338	: ( tmp_f < 0.0f ) ? 0
cparata	0:b189540a70e2	339	: ( uint16_t )tmp_f;
cparata	0:b189540a70e2	340
cparata	0:b189540a70e2	341	return HTS221_OK;
cparata	0:b189540a70e2	342	}
cparata	0:b189540a70e2	343
cparata	0:b189540a70e2	344	/**
cparata	0:b189540a70e2	345	* @brief Read HTS221 humidity output registers.
cparata	0:b189540a70e2	346	* @param *handle Device handle.
cparata	0:b189540a70e2	347	* @param Pointer to the returned humidity raw value.
cparata	0:b189540a70e2	348	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	349	*/
cparata	0:b189540a70e2	350	HTS221_Error_et HTS221_Get_HumidityRaw(void handle, int16_t value)
cparata	0:b189540a70e2	351	{
cparata	0:b189540a70e2	352	uint8_t buffer[2];
cparata	0:b189540a70e2	353
cparata	0:b189540a70e2	354	if(HTS221_ReadReg(handle, HTS221_HR_OUT_L_REG, 2, buffer))
cparata	0:b189540a70e2	355	return HTS221_ERROR;
cparata	0:b189540a70e2	356
cparata	0:b189540a70e2	357	*value = (int16_t)((((uint16_t)buffer[1]) << 8) \| (uint16_t)buffer[0]);
cparata	0:b189540a70e2	358
cparata	0:b189540a70e2	359	return HTS221_OK;
cparata	0:b189540a70e2	360	}
cparata	0:b189540a70e2	361
cparata	0:b189540a70e2	362	/**
cparata	0:b189540a70e2	363	* @brief Read HTS221 temperature output registers, and calculate temperature.
cparata	0:b189540a70e2	364	* @param *handle Device handle.
cparata	0:b189540a70e2	365	* @param Pointer to the returned temperature value that must be divided by 10 to get the value in ['C].
cparata	0:b189540a70e2	366	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	367	*/
cparata	0:b189540a70e2	368	HTS221_Error_et HTS221_Get_Temperature(void handle, int16_t value)
cparata	0:b189540a70e2	369	{
cparata	0:b189540a70e2	370	int16_t T0_out, T1_out, T_out, T0_degC_x8_u16, T1_degC_x8_u16;
cparata	0:b189540a70e2	371	int16_t T0_degC, T1_degC;
cparata	0:b189540a70e2	372	uint8_t buffer[4], tmp;
cparata	0:b189540a70e2	373	float tmp_f;
cparata	0:b189540a70e2	374
cparata	0:b189540a70e2	375	if(HTS221_ReadReg(handle, HTS221_T0_DEGC_X8, 2, buffer))
cparata	0:b189540a70e2	376	return HTS221_ERROR;
cparata	0:b189540a70e2	377	if(HTS221_ReadReg(handle, HTS221_T0_T1_DEGC_H2, 1, &tmp))
cparata	0:b189540a70e2	378	return HTS221_ERROR;
cparata	0:b189540a70e2	379
cparata	0:b189540a70e2	380	T0_degC_x8_u16 = (((uint16_t)(tmp & 0x03)) << 8) \| ((uint16_t)buffer[0]);
cparata	0:b189540a70e2	381	T1_degC_x8_u16 = (((uint16_t)(tmp & 0x0C)) << 6) \| ((uint16_t)buffer[1]);
cparata	0:b189540a70e2	382	T0_degC = T0_degC_x8_u16 >> 3;
cparata	0:b189540a70e2	383	T1_degC = T1_degC_x8_u16 >> 3;
cparata	0:b189540a70e2	384
cparata	0:b189540a70e2	385	if(HTS221_ReadReg(handle, HTS221_T0_OUT_L, 4, buffer))
cparata	0:b189540a70e2	386	return HTS221_ERROR;
cparata	0:b189540a70e2	387
cparata	0:b189540a70e2	388	T0_out = (((uint16_t)buffer[1]) << 8) \| (uint16_t)buffer[0];
cparata	0:b189540a70e2	389	T1_out = (((uint16_t)buffer[3]) << 8) \| (uint16_t)buffer[2];
cparata	0:b189540a70e2	390
cparata	0:b189540a70e2	391	if(HTS221_ReadReg(handle, HTS221_TEMP_OUT_L_REG, 2, buffer))
cparata	0:b189540a70e2	392	return HTS221_ERROR;
cparata	0:b189540a70e2	393
cparata	0:b189540a70e2	394	T_out = (((uint16_t)buffer[1]) << 8) \| (uint16_t)buffer[0];
cparata	0:b189540a70e2	395
cparata	0:b189540a70e2	396	tmp_f = (float)(T_out - T0_out) * (float)(T1_degC - T0_degC) / (float)(T1_out - T0_out) + T0_degC;
cparata	0:b189540a70e2	397	tmp_f *= 10.0f;
cparata	0:b189540a70e2	398
cparata	0:b189540a70e2	399	*value = ( int16_t )tmp_f;
cparata	0:b189540a70e2	400
cparata	0:b189540a70e2	401	return HTS221_OK;
cparata	0:b189540a70e2	402	}
cparata	0:b189540a70e2	403
cparata	0:b189540a70e2	404	/**
cparata	0:b189540a70e2	405	* @brief Read HTS221 temperature output registers.
cparata	0:b189540a70e2	406	* @param *handle Device handle.
cparata	0:b189540a70e2	407	* @param Pointer to the returned temperature raw value.
cparata	0:b189540a70e2	408	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	409	*/
cparata	0:b189540a70e2	410	HTS221_Error_et HTS221_Get_TemperatureRaw(void handle, int16_t value)
cparata	0:b189540a70e2	411	{
cparata	0:b189540a70e2	412	uint8_t buffer[2];
cparata	0:b189540a70e2	413
cparata	0:b189540a70e2	414	if(HTS221_ReadReg(handle, HTS221_TEMP_OUT_L_REG, 2, buffer))
cparata	0:b189540a70e2	415	return HTS221_ERROR;
cparata	0:b189540a70e2	416
cparata	0:b189540a70e2	417	*value = (int16_t)((((uint16_t)buffer[1]) << 8) \| (uint16_t)buffer[0]);
cparata	0:b189540a70e2	418
cparata	0:b189540a70e2	419	return HTS221_OK;
cparata	0:b189540a70e2	420	}
cparata	0:b189540a70e2	421
cparata	0:b189540a70e2	422	/**
cparata	0:b189540a70e2	423	* @brief Get the availability of new data for humidity and temperature.
cparata	0:b189540a70e2	424	* @param *handle Device handle.
cparata	0:b189540a70e2	425	* @param humidity pointer to the returned humidity data status [HTS221_SET/HTS221_RESET].
cparata	0:b189540a70e2	426	* @param temperature pointer to the returned temperature data status [HTS221_SET/HTS221_RESET].
cparata	0:b189540a70e2	427	* This parameter is a pointer to @ref HTS221_BitStatus_et.
cparata	0:b189540a70e2	428	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	429	*/
cparata	0:b189540a70e2	430	HTS221_Error_et HTS221_Get_DataStatus(void handle, HTS221_BitStatus_et humidity, HTS221_BitStatus_et* temperature)
cparata	0:b189540a70e2	431	{
cparata	0:b189540a70e2	432	uint8_t tmp;
cparata	0:b189540a70e2	433
cparata	0:b189540a70e2	434	if(HTS221_ReadReg(handle, HTS221_STATUS_REG, 1, &tmp))
cparata	0:b189540a70e2	435	return HTS221_ERROR;
cparata	0:b189540a70e2	436
cparata	0:b189540a70e2	437	*humidity = (HTS221_BitStatus_et)((tmp & HTS221_HDA_MASK) >> HTS221_H_DA_BIT);
cparata	0:b189540a70e2	438	*temperature = (HTS221_BitStatus_et)(tmp & HTS221_TDA_MASK);
cparata	0:b189540a70e2	439
cparata	0:b189540a70e2	440	return HTS221_OK;
cparata	0:b189540a70e2	441	}
cparata	0:b189540a70e2	442
cparata	0:b189540a70e2	443	/**
cparata	0:b189540a70e2	444	* @brief Exit from power down mode.
cparata	0:b189540a70e2	445	* @param *handle Device handle.
cparata	0:b189540a70e2	446	* @param void.
cparata	0:b189540a70e2	447	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	448	*/
cparata	0:b189540a70e2	449	HTS221_Error_et HTS221_Activate(void *handle)
cparata	0:b189540a70e2	450	{
cparata	0:b189540a70e2	451	uint8_t tmp;
cparata	0:b189540a70e2	452
cparata	0:b189540a70e2	453	if(HTS221_ReadReg(handle, HTS221_CTRL_REG1, 1, &tmp))
cparata	0:b189540a70e2	454	return HTS221_ERROR;
cparata	0:b189540a70e2	455
cparata	0:b189540a70e2	456	tmp \|= HTS221_PD_MASK;
cparata	0:b189540a70e2	457
cparata	0:b189540a70e2	458	if(HTS221_WriteReg(handle, HTS221_CTRL_REG1, 1, &tmp))
cparata	0:b189540a70e2	459	return HTS221_ERROR;
cparata	0:b189540a70e2	460
cparata	0:b189540a70e2	461	return HTS221_OK;
cparata	0:b189540a70e2	462	}
cparata	0:b189540a70e2	463
cparata	0:b189540a70e2	464	/**
cparata	0:b189540a70e2	465	* @brief Put the sensor in power down mode.
cparata	0:b189540a70e2	466	* @param *handle Device handle.
cparata	0:b189540a70e2	467	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	468	*/
cparata	0:b189540a70e2	469	HTS221_Error_et HTS221_DeActivate(void *handle)
cparata	0:b189540a70e2	470	{
cparata	0:b189540a70e2	471	uint8_t tmp;
cparata	0:b189540a70e2	472
cparata	0:b189540a70e2	473	if(HTS221_ReadReg(handle, HTS221_CTRL_REG1, 1, &tmp))
cparata	0:b189540a70e2	474	return HTS221_ERROR;
cparata	0:b189540a70e2	475
cparata	0:b189540a70e2	476	tmp &= ~HTS221_PD_MASK;
cparata	0:b189540a70e2	477
cparata	0:b189540a70e2	478	if(HTS221_WriteReg(handle, HTS221_CTRL_REG1, 1, &tmp))
cparata	0:b189540a70e2	479	return HTS221_ERROR;
cparata	0:b189540a70e2	480
cparata	0:b189540a70e2	481	return HTS221_OK;
cparata	0:b189540a70e2	482	}
cparata	0:b189540a70e2	483
cparata	0:b189540a70e2	484
cparata	0:b189540a70e2	485
cparata	0:b189540a70e2	486	/**
cparata	0:b189540a70e2	487	* @brief Check if the single measurement has completed.
cparata	0:b189540a70e2	488	* @param *handle Device handle.
cparata	0:b189540a70e2	489	* @param tmp is set to 1, when the measure is completed
cparata	0:b189540a70e2	490	* @retval Status [HTS221_ERROR, HTS221_OK]
cparata	0:b189540a70e2	491	*/
cparata	0:b189540a70e2	492	HTS221_Error_et HTS221_IsMeasurementCompleted(void handle, HTS221_BitStatus_et Is_Measurement_Completed)
cparata	0:b189540a70e2	493	{
cparata	0:b189540a70e2	494	uint8_t tmp;
cparata	0:b189540a70e2	495
cparata	0:b189540a70e2	496	if(HTS221_ReadReg(handle, HTS221_STATUS_REG, 1, &tmp))
cparata	0:b189540a70e2	497	return HTS221_ERROR;
cparata	0:b189540a70e2	498
cparata	0:b189540a70e2	499	if((tmp & (uint8_t)(HTS221_HDA_MASK \| HTS221_TDA_MASK)) == (uint8_t)(HTS221_HDA_MASK \| HTS221_TDA_MASK))
cparata	0:b189540a70e2	500	*Is_Measurement_Completed = HTS221_SET;
cparata	0:b189540a70e2	501	else
cparata	0:b189540a70e2	502	*Is_Measurement_Completed = HTS221_RESET;
cparata	0:b189540a70e2	503
cparata	0:b189540a70e2	504	return HTS221_OK;
cparata	0:b189540a70e2	505	}
cparata	0:b189540a70e2	506
cparata	0:b189540a70e2	507
cparata	0:b189540a70e2	508	/**
cparata	0:b189540a70e2	509	* @brief Set_ humidity and temperature average mode.
cparata	0:b189540a70e2	510	* @param *handle Device handle.
cparata	0:b189540a70e2	511	* @param avgh is the average mode for humidity, this parameter is @ref HTS221_Avgh_et.
cparata	0:b189540a70e2	512	* @param avgt is the average mode for temperature, this parameter is @ref HTS221_Avgt_et.
cparata	0:b189540a70e2	513	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	514	*/
cparata	0:b189540a70e2	515	HTS221_Error_et HTS221_Set_AvgHT(void *handle, HTS221_Avgh_et avgh, HTS221_Avgt_et avgt)
cparata	0:b189540a70e2	516	{
cparata	0:b189540a70e2	517	uint8_t tmp;
cparata	0:b189540a70e2	518
cparata	0:b189540a70e2	519	HTS221_assert_param(IS_HTS221_AVGH(avgh));
cparata	0:b189540a70e2	520	HTS221_assert_param(IS_HTS221_AVGT(avgt));
cparata	0:b189540a70e2	521
cparata	0:b189540a70e2	522	if(HTS221_ReadReg(handle, HTS221_AV_CONF_REG, 1, &tmp))
cparata	0:b189540a70e2	523	return HTS221_ERROR;
cparata	0:b189540a70e2	524
cparata	0:b189540a70e2	525	tmp &= ~(HTS221_AVGH_MASK \| HTS221_AVGT_MASK);
cparata	0:b189540a70e2	526	tmp \|= (uint8_t)avgh;
cparata	0:b189540a70e2	527	tmp \|= (uint8_t)avgt;
cparata	0:b189540a70e2	528
cparata	0:b189540a70e2	529	if(HTS221_WriteReg(handle, HTS221_AV_CONF_REG, 1, &tmp))
cparata	0:b189540a70e2	530	return HTS221_ERROR;
cparata	0:b189540a70e2	531
cparata	0:b189540a70e2	532	return HTS221_OK;
cparata	0:b189540a70e2	533	}
cparata	0:b189540a70e2	534
cparata	0:b189540a70e2	535	/**
cparata	0:b189540a70e2	536	* @brief Set humidity average mode.
cparata	0:b189540a70e2	537	* @param *handle Device handle.
cparata	0:b189540a70e2	538	* @param avgh is the average mode for humidity, this parameter is @ref HTS221_Avgh_et.
cparata	0:b189540a70e2	539	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	540	*/
cparata	0:b189540a70e2	541	HTS221_Error_et HTS221_Set_AvgH(void *handle, HTS221_Avgh_et avgh)
cparata	0:b189540a70e2	542	{
cparata	0:b189540a70e2	543	uint8_t tmp;
cparata	0:b189540a70e2	544
cparata	0:b189540a70e2	545	HTS221_assert_param(IS_HTS221_AVGH(avgh));
cparata	0:b189540a70e2	546
cparata	0:b189540a70e2	547	if(HTS221_ReadReg(handle, HTS221_AV_CONF_REG, 1, &tmp))
cparata	0:b189540a70e2	548	return HTS221_ERROR;
cparata	0:b189540a70e2	549
cparata	0:b189540a70e2	550	tmp &= ~HTS221_AVGH_MASK;
cparata	0:b189540a70e2	551	tmp \|= (uint8_t)avgh;
cparata	0:b189540a70e2	552
cparata	0:b189540a70e2	553	if(HTS221_WriteReg(handle, HTS221_AV_CONF_REG, 1, &tmp))
cparata	0:b189540a70e2	554	return HTS221_ERROR;
cparata	0:b189540a70e2	555
cparata	0:b189540a70e2	556	return HTS221_OK;
cparata	0:b189540a70e2	557	}
cparata	0:b189540a70e2	558
cparata	0:b189540a70e2	559	/**
cparata	0:b189540a70e2	560	* @brief Set temperature average mode.
cparata	0:b189540a70e2	561	* @param *handle Device handle.
cparata	0:b189540a70e2	562	* @param avgt is the average mode for temperature, this parameter is @ref HTS221_Avgt_et.
cparata	0:b189540a70e2	563	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	564	*/
cparata	0:b189540a70e2	565	HTS221_Error_et HTS221_Set_AvgT(void *handle, HTS221_Avgt_et avgt)
cparata	0:b189540a70e2	566	{
cparata	0:b189540a70e2	567	uint8_t tmp;
cparata	0:b189540a70e2	568
cparata	0:b189540a70e2	569	HTS221_assert_param(IS_HTS221_AVGT(avgt));
cparata	0:b189540a70e2	570
cparata	0:b189540a70e2	571	if(HTS221_ReadReg(handle, HTS221_AV_CONF_REG, 1, &tmp))
cparata	0:b189540a70e2	572	return HTS221_ERROR;
cparata	0:b189540a70e2	573
cparata	0:b189540a70e2	574	tmp &= ~HTS221_AVGT_MASK;
cparata	0:b189540a70e2	575	tmp \|= (uint8_t)avgt;
cparata	0:b189540a70e2	576
cparata	0:b189540a70e2	577	if(HTS221_WriteReg(handle, HTS221_AV_CONF_REG, 1, &tmp))
cparata	0:b189540a70e2	578	return HTS221_ERROR;
cparata	0:b189540a70e2	579
cparata	0:b189540a70e2	580	return HTS221_OK;
cparata	0:b189540a70e2	581	}
cparata	0:b189540a70e2	582
cparata	0:b189540a70e2	583	/**
cparata	0:b189540a70e2	584	* @brief Get humidity and temperature average mode.
cparata	0:b189540a70e2	585	* @param *handle Device handle.
cparata	0:b189540a70e2	586	* @param avgh pointer to the returned value with the humidity average mode.
cparata	0:b189540a70e2	587	* @param avgt pointer to the returned value with the temperature average mode.
cparata	0:b189540a70e2	588	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	589	*/
cparata	0:b189540a70e2	590	HTS221_Error_et HTS221_Get_AvgHT(void handle, HTS221_Avgh_et avgh, HTS221_Avgt_et* avgt)
cparata	0:b189540a70e2	591	{
cparata	0:b189540a70e2	592	uint8_t tmp;
cparata	0:b189540a70e2	593
cparata	0:b189540a70e2	594	if(HTS221_ReadReg(handle, HTS221_AV_CONF_REG, 1, &tmp))
cparata	0:b189540a70e2	595	return HTS221_ERROR;
cparata	0:b189540a70e2	596
cparata	0:b189540a70e2	597	*avgh = (HTS221_Avgh_et)(tmp & HTS221_AVGH_MASK);
cparata	0:b189540a70e2	598	*avgt = (HTS221_Avgt_et)(tmp & HTS221_AVGT_MASK);
cparata	0:b189540a70e2	599
cparata	0:b189540a70e2	600	return HTS221_OK;
cparata	0:b189540a70e2	601	}
cparata	0:b189540a70e2	602
cparata	0:b189540a70e2	603	/**
cparata	0:b189540a70e2	604	* @brief Set block data update mode.
cparata	0:b189540a70e2	605	* @param *handle Device handle.
cparata	0:b189540a70e2	606	* @param status can be HTS221_ENABLE: enable the block data update, output data registers are updated once both MSB and LSB are read.
cparata	0:b189540a70e2	607	* @param status can be HTS221_DISABLE: output data registers are continuously updated.
cparata	0:b189540a70e2	608	* This parameter is a @ref HTS221_BitStatus_et.
cparata	0:b189540a70e2	609	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	610	*/
cparata	0:b189540a70e2	611	HTS221_Error_et HTS221_Set_BduMode(void *handle, HTS221_State_et status)
cparata	0:b189540a70e2	612	{
cparata	0:b189540a70e2	613	uint8_t tmp;
cparata	0:b189540a70e2	614
cparata	0:b189540a70e2	615	HTS221_assert_param(IS_HTS221_State(status));
cparata	0:b189540a70e2	616
cparata	0:b189540a70e2	617	if(HTS221_ReadReg(handle, HTS221_CTRL_REG1, 1, &tmp))
cparata	0:b189540a70e2	618	return HTS221_ERROR;
cparata	0:b189540a70e2	619
cparata	0:b189540a70e2	620	tmp &= ~HTS221_BDU_MASK;
cparata	0:b189540a70e2	621	tmp \|= ((uint8_t)status) << HTS221_BDU_BIT;
cparata	0:b189540a70e2	622
cparata	0:b189540a70e2	623	if(HTS221_WriteReg(handle, HTS221_CTRL_REG1, 1, &tmp))
cparata	0:b189540a70e2	624	return HTS221_ERROR;
cparata	0:b189540a70e2	625
cparata	0:b189540a70e2	626	return HTS221_OK;
cparata	0:b189540a70e2	627	}
cparata	0:b189540a70e2	628
cparata	0:b189540a70e2	629	/**
cparata	0:b189540a70e2	630	* @brief Get block data update mode.
cparata	0:b189540a70e2	631	* @param *handle Device handle.
cparata	0:b189540a70e2	632	* @param Pointer to the returned value with block data update mode status.
cparata	0:b189540a70e2	633	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	634	*/
cparata	0:b189540a70e2	635	HTS221_Error_et HTS221_Get_BduMode(void handle, HTS221_State_et status)
cparata	0:b189540a70e2	636	{
cparata	0:b189540a70e2	637	uint8_t tmp;
cparata	0:b189540a70e2	638
cparata	0:b189540a70e2	639	if(HTS221_ReadReg(handle, HTS221_CTRL_REG1, 1, &tmp))
cparata	0:b189540a70e2	640	return HTS221_ERROR;
cparata	0:b189540a70e2	641
cparata	0:b189540a70e2	642	*status = (HTS221_State_et)((tmp & HTS221_BDU_MASK) >> HTS221_BDU_BIT);
cparata	0:b189540a70e2	643
cparata	0:b189540a70e2	644	return HTS221_OK;
cparata	0:b189540a70e2	645	}
cparata	0:b189540a70e2	646
cparata	0:b189540a70e2	647	/**
cparata	0:b189540a70e2	648	* @brief Enter or exit from power down mode.
cparata	0:b189540a70e2	649	* @param *handle Device handle.
cparata	0:b189540a70e2	650	* @param status can be HTS221_SET: HTS221 in power down mode.
cparata	0:b189540a70e2	651	* @param status can be HTS221_REET: HTS221 in active mode.
cparata	0:b189540a70e2	652	* This parameter is a @ref HTS221_BitStatus_et.
cparata	0:b189540a70e2	653	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	654	*/
cparata	0:b189540a70e2	655	HTS221_Error_et HTS221_Set_PowerDownMode(void *handle, HTS221_BitStatus_et status)
cparata	0:b189540a70e2	656	{
cparata	0:b189540a70e2	657	uint8_t tmp;
cparata	0:b189540a70e2	658
cparata	0:b189540a70e2	659	HTS221_assert_param(IS_HTS221_BitStatus(status));
cparata	0:b189540a70e2	660
cparata	0:b189540a70e2	661	if(HTS221_ReadReg(handle, HTS221_CTRL_REG1, 1, &tmp))
cparata	0:b189540a70e2	662	return HTS221_ERROR;
cparata	0:b189540a70e2	663
cparata	0:b189540a70e2	664	tmp &= ~HTS221_PD_MASK;
cparata	0:b189540a70e2	665	tmp \|= ((uint8_t)status) << HTS221_PD_BIT;
cparata	0:b189540a70e2	666
cparata	0:b189540a70e2	667	if(HTS221_WriteReg(handle, HTS221_CTRL_REG1, 1, &tmp))
cparata	0:b189540a70e2	668	return HTS221_ERROR;
cparata	0:b189540a70e2	669
cparata	0:b189540a70e2	670	return HTS221_OK;
cparata	0:b189540a70e2	671	}
cparata	0:b189540a70e2	672
cparata	0:b189540a70e2	673	/**
cparata	0:b189540a70e2	674	* @brief Get if HTS221 is in active mode or in power down mode.
cparata	0:b189540a70e2	675	* @param *handle Device handle.
cparata	0:b189540a70e2	676	* @param Pointer to the returned value with HTS221 status.
cparata	0:b189540a70e2	677	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	678	*/
cparata	0:b189540a70e2	679	HTS221_Error_et HTS221_Get_PowerDownMode(void handle, HTS221_BitStatus_et status)
cparata	0:b189540a70e2	680	{
cparata	0:b189540a70e2	681	uint8_t tmp;
cparata	0:b189540a70e2	682
cparata	0:b189540a70e2	683	if(HTS221_ReadReg(handle, HTS221_CTRL_REG1, 1, &tmp))
cparata	0:b189540a70e2	684	return HTS221_ERROR;
cparata	0:b189540a70e2	685
cparata	0:b189540a70e2	686	*status = (HTS221_BitStatus_et)((tmp & HTS221_PD_MASK) >> HTS221_PD_BIT);
cparata	0:b189540a70e2	687
cparata	0:b189540a70e2	688	return HTS221_OK;
cparata	0:b189540a70e2	689	}
cparata	0:b189540a70e2	690
cparata	0:b189540a70e2	691	/**
cparata	0:b189540a70e2	692	* @brief Set the output data rate mode.
cparata	0:b189540a70e2	693	* @param *handle Device handle.
cparata	0:b189540a70e2	694	* @param odr is the output data rate mode.
cparata	0:b189540a70e2	695	* This parameter is a @ref HTS221_Odr_et.
cparata	0:b189540a70e2	696	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	697	*/
cparata	0:b189540a70e2	698	HTS221_Error_et HTS221_Set_Odr(void *handle, HTS221_Odr_et odr)
cparata	0:b189540a70e2	699	{
cparata	0:b189540a70e2	700	uint8_t tmp;
cparata	0:b189540a70e2	701
cparata	0:b189540a70e2	702	HTS221_assert_param(IS_HTS221_ODR(odr));
cparata	0:b189540a70e2	703
cparata	0:b189540a70e2	704	if(HTS221_ReadReg(handle, HTS221_CTRL_REG1, 1, &tmp))
cparata	0:b189540a70e2	705	return HTS221_ERROR;
cparata	0:b189540a70e2	706
cparata	0:b189540a70e2	707	tmp &= ~HTS221_ODR_MASK;
cparata	0:b189540a70e2	708	tmp \|= (uint8_t)odr;
cparata	0:b189540a70e2	709
cparata	0:b189540a70e2	710	if(HTS221_WriteReg(handle, HTS221_CTRL_REG1, 1, &tmp))
cparata	0:b189540a70e2	711	return HTS221_ERROR;
cparata	0:b189540a70e2	712
cparata	0:b189540a70e2	713	return HTS221_OK;
cparata	0:b189540a70e2	714	}
cparata	0:b189540a70e2	715
cparata	0:b189540a70e2	716	/**
cparata	0:b189540a70e2	717	* @brief Get the output data rate mode.
cparata	0:b189540a70e2	718	* @param *handle Device handle.
cparata	0:b189540a70e2	719	* @param Pointer to the returned value with output data rate mode.
cparata	0:b189540a70e2	720	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	721	*/
cparata	0:b189540a70e2	722	HTS221_Error_et HTS221_Get_Odr(void handle, HTS221_Odr_et odr)
cparata	0:b189540a70e2	723	{
cparata	0:b189540a70e2	724	uint8_t tmp;
cparata	0:b189540a70e2	725
cparata	0:b189540a70e2	726	if(HTS221_ReadReg(handle, HTS221_CTRL_REG1, 1, &tmp))
cparata	0:b189540a70e2	727	return HTS221_ERROR;
cparata	0:b189540a70e2	728
cparata	0:b189540a70e2	729	tmp &= HTS221_ODR_MASK;
cparata	0:b189540a70e2	730	*odr = (HTS221_Odr_et)tmp;
cparata	0:b189540a70e2	731
cparata	0:b189540a70e2	732	return HTS221_OK;
cparata	0:b189540a70e2	733	}
cparata	0:b189540a70e2	734
cparata	0:b189540a70e2	735	/**
cparata	0:b189540a70e2	736	* @brief Reboot Memory Content.
cparata	0:b189540a70e2	737	* @param *handle Device handle.
cparata	0:b189540a70e2	738	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	739	*/
cparata	0:b189540a70e2	740	HTS221_Error_et HTS221_MemoryBoot(void *handle)
cparata	0:b189540a70e2	741	{
cparata	0:b189540a70e2	742	uint8_t tmp;
cparata	0:b189540a70e2	743
cparata	0:b189540a70e2	744	if(HTS221_ReadReg(handle, HTS221_CTRL_REG2, 1, &tmp))
cparata	0:b189540a70e2	745	return HTS221_ERROR;
cparata	0:b189540a70e2	746
cparata	0:b189540a70e2	747	tmp \|= HTS221_BOOT_MASK;
cparata	0:b189540a70e2	748
cparata	0:b189540a70e2	749	if(HTS221_WriteReg(handle, HTS221_CTRL_REG2, 1, &tmp))
cparata	0:b189540a70e2	750	return HTS221_ERROR;
cparata	0:b189540a70e2	751
cparata	0:b189540a70e2	752	return HTS221_OK;
cparata	0:b189540a70e2	753	}
cparata	0:b189540a70e2	754
cparata	0:b189540a70e2	755	/**
cparata	0:b189540a70e2	756	* @brief Configure the internal heater.
cparata	0:b189540a70e2	757	* @param *handle Device handle.
cparata	0:b189540a70e2	758	* @param The status of the internal heater [HTS221_ENABLE/HTS221_DISABLE].
cparata	0:b189540a70e2	759	* This parameter is a @ref HTS221_State_et.
cparata	0:b189540a70e2	760	* @retval Error code [HTS221_OK, HTS221_ERROR]
cparata	0:b189540a70e2	761	*/
cparata	0:b189540a70e2	762	HTS221_Error_et HTS221_Set_HeaterState(void *handle, HTS221_State_et status)
cparata	0:b189540a70e2	763	{
cparata	0:b189540a70e2	764	uint8_t tmp;
cparata	0:b189540a70e2	765
cparata	0:b189540a70e2	766	HTS221_assert_param(IS_HTS221_State(status));
cparata	0:b189540a70e2	767
cparata	0:b189540a70e2	768	if(HTS221_ReadReg(handle, HTS221_CTRL_REG2, 1, &tmp))
cparata	0:b189540a70e2	769	return HTS221_ERROR;
cparata	0:b189540a70e2	770
cparata	0:b189540a70e2	771	tmp &= ~HTS221_HEATHER_MASK;
cparata	0:b189540a70e2	772	tmp \|= ((uint8_t)status) << HTS221_HEATHER_BIT;
cparata	0:b189540a70e2	773
cparata	0:b189540a70e2	774	if(HTS221_WriteReg(handle, HTS221_CTRL_REG2, 1, &tmp))
cparata	0:b189540a70e2	775	return HTS221_ERROR;
cparata	0:b189540a70e2	776
cparata	0:b189540a70e2	777	return HTS221_OK;
cparata	0:b189540a70e2	778	}
cparata	0:b189540a70e2	779
cparata	0:b189540a70e2	780	/**
cparata	0:b189540a70e2	781	* @brief Get the internal heater.
cparata	0:b189540a70e2	782	* @param *handle Device handle.
cparata	0:b189540a70e2	783	* @param Pointer to the returned status of the internal heater [HTS221_ENABLE/HTS221_DISABLE].
cparata	0:b189540a70e2	784	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	785	*/
cparata	0:b189540a70e2	786	HTS221_Error_et HTS221_Get_HeaterState(void handle, HTS221_State_et status)
cparata	0:b189540a70e2	787	{
cparata	0:b189540a70e2	788	uint8_t tmp;
cparata	0:b189540a70e2	789
cparata	0:b189540a70e2	790	if(HTS221_ReadReg(handle, HTS221_CTRL_REG2, 1, &tmp))
cparata	0:b189540a70e2	791	return HTS221_ERROR;
cparata	0:b189540a70e2	792
cparata	0:b189540a70e2	793	*status = (HTS221_State_et)((tmp & HTS221_HEATHER_MASK) >> HTS221_HEATHER_BIT);
cparata	0:b189540a70e2	794
cparata	0:b189540a70e2	795	return HTS221_OK;
cparata	0:b189540a70e2	796	}
cparata	0:b189540a70e2	797
cparata	0:b189540a70e2	798	/**
cparata	0:b189540a70e2	799	* @brief Set ONE_SHOT bit to start a new conversion (ODR mode has to be 00).
cparata	0:b189540a70e2	800	* Once the measurement is done, ONE_SHOT bit is self-cleared.
cparata	0:b189540a70e2	801	* @param *handle Device handle.
cparata	0:b189540a70e2	802	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	803	*/
cparata	0:b189540a70e2	804	HTS221_Error_et HTS221_StartOneShotMeasurement(void *handle)
cparata	0:b189540a70e2	805	{
cparata	0:b189540a70e2	806	uint8_t tmp;
cparata	0:b189540a70e2	807
cparata	0:b189540a70e2	808	if(HTS221_ReadReg(handle, HTS221_CTRL_REG2, 1, &tmp))
cparata	0:b189540a70e2	809	return HTS221_ERROR;
cparata	0:b189540a70e2	810
cparata	0:b189540a70e2	811	tmp \|= HTS221_ONE_SHOT_MASK;
cparata	0:b189540a70e2	812
cparata	0:b189540a70e2	813	if(HTS221_WriteReg(handle, HTS221_CTRL_REG2, 1, &tmp))
cparata	0:b189540a70e2	814	return HTS221_ERROR;
cparata	0:b189540a70e2	815
cparata	0:b189540a70e2	816	return HTS221_OK;
cparata	0:b189540a70e2	817
cparata	0:b189540a70e2	818	}
cparata	0:b189540a70e2	819
cparata	0:b189540a70e2	820	/**
cparata	0:b189540a70e2	821	* @brief Set level configuration of the interrupt pin DRDY.
cparata	0:b189540a70e2	822	* @param *handle Device handle.
cparata	0:b189540a70e2	823	* @param status can be HTS221_LOW_LVL: active level is LOW.
cparata	0:b189540a70e2	824	* @param status can be HTS221_HIGH_LVL: active level is HIGH.
cparata	0:b189540a70e2	825	* This parameter is a @ref HTS221_State_et.
cparata	0:b189540a70e2	826	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	827	*/
cparata	0:b189540a70e2	828	HTS221_Error_et HTS221_Set_IrqActiveLevel(void *handle, HTS221_DrdyLevel_et value)
cparata	0:b189540a70e2	829	{
cparata	0:b189540a70e2	830	uint8_t tmp;
cparata	0:b189540a70e2	831
cparata	0:b189540a70e2	832	HTS221_assert_param(IS_HTS221_DrdyLevelType(value));
cparata	0:b189540a70e2	833
cparata	0:b189540a70e2	834	if(HTS221_ReadReg(handle, HTS221_CTRL_REG3, 1, &tmp))
cparata	0:b189540a70e2	835	return HTS221_ERROR;
cparata	0:b189540a70e2	836
cparata	0:b189540a70e2	837	tmp &= ~HTS221_DRDY_H_L_MASK;
cparata	0:b189540a70e2	838	tmp \|= (uint8_t)value;
cparata	0:b189540a70e2	839
cparata	0:b189540a70e2	840	if(HTS221_WriteReg(handle, HTS221_CTRL_REG3, 1, &tmp))
cparata	0:b189540a70e2	841	return HTS221_ERROR;
cparata	0:b189540a70e2	842
cparata	0:b189540a70e2	843	return HTS221_OK;
cparata	0:b189540a70e2	844	}
cparata	0:b189540a70e2	845
cparata	0:b189540a70e2	846	/**
cparata	0:b189540a70e2	847	* @brief Get level configuration of the interrupt pin DRDY.
cparata	0:b189540a70e2	848	* @param *handle Device handle.
cparata	0:b189540a70e2	849	* @param Pointer to the returned status of the level configuration [HTS221_ENABLE/HTS221_DISABLE].
cparata	0:b189540a70e2	850	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	851	*/
cparata	0:b189540a70e2	852	HTS221_Error_et HTS221_Get_IrqActiveLevel(void handle, HTS221_DrdyLevel_et value)
cparata	0:b189540a70e2	853	{
cparata	0:b189540a70e2	854	uint8_t tmp;
cparata	0:b189540a70e2	855
cparata	0:b189540a70e2	856	if(HTS221_ReadReg(handle, HTS221_CTRL_REG3, 1, &tmp))
cparata	0:b189540a70e2	857	return HTS221_ERROR;
cparata	0:b189540a70e2	858
cparata	0:b189540a70e2	859	*value = (HTS221_DrdyLevel_et)(tmp & HTS221_DRDY_H_L_MASK);
cparata	0:b189540a70e2	860
cparata	0:b189540a70e2	861	return HTS221_OK;
cparata	0:b189540a70e2	862	}
cparata	0:b189540a70e2	863
cparata	0:b189540a70e2	864	/**
cparata	0:b189540a70e2	865	* @brief Set Push-pull/open drain configuration for the interrupt pin DRDY.
cparata	0:b189540a70e2	866	* @param *handle Device handle.
cparata	0:b189540a70e2	867	* @param value is the output type configuration.
cparata	0:b189540a70e2	868	* This parameter is a @ref HTS221_OutputType_et.
cparata	0:b189540a70e2	869	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	870	*/
cparata	0:b189540a70e2	871	HTS221_Error_et HTS221_Set_IrqOutputType(void *handle, HTS221_OutputType_et value)
cparata	0:b189540a70e2	872	{
cparata	0:b189540a70e2	873	uint8_t tmp;
cparata	0:b189540a70e2	874
cparata	0:b189540a70e2	875	HTS221_assert_param(IS_HTS221_OutputType(value));
cparata	0:b189540a70e2	876
cparata	0:b189540a70e2	877	if(HTS221_ReadReg(handle, HTS221_CTRL_REG3, 1, &tmp))
cparata	0:b189540a70e2	878	return HTS221_ERROR;
cparata	0:b189540a70e2	879
cparata	0:b189540a70e2	880	tmp &= ~HTS221_PP_OD_MASK;
cparata	0:b189540a70e2	881	tmp \|= (uint8_t)value;
cparata	0:b189540a70e2	882
cparata	0:b189540a70e2	883	if(HTS221_WriteReg(handle, HTS221_CTRL_REG3, 1, &tmp))
cparata	0:b189540a70e2	884	return HTS221_ERROR;
cparata	0:b189540a70e2	885
cparata	0:b189540a70e2	886	return HTS221_OK;
cparata	0:b189540a70e2	887	}
cparata	0:b189540a70e2	888
cparata	0:b189540a70e2	889	/**
cparata	0:b189540a70e2	890	* @brief Get the configuration for the interrupt pin DRDY.
cparata	0:b189540a70e2	891	* @param *handle Device handle.
cparata	0:b189540a70e2	892	* @param Pointer to the returned value with output type configuration.
cparata	0:b189540a70e2	893	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	894	*/
cparata	0:b189540a70e2	895	HTS221_Error_et HTS221_Get_IrqOutputType(void handle, HTS221_OutputType_et value)
cparata	0:b189540a70e2	896	{
cparata	0:b189540a70e2	897	uint8_t tmp;
cparata	0:b189540a70e2	898
cparata	0:b189540a70e2	899	if(HTS221_ReadReg(handle, HTS221_CTRL_REG3, 1, &tmp))
cparata	0:b189540a70e2	900	return HTS221_ERROR;
cparata	0:b189540a70e2	901
cparata	0:b189540a70e2	902	*value = (HTS221_OutputType_et)(tmp & HTS221_PP_OD_MASK);
cparata	0:b189540a70e2	903
cparata	0:b189540a70e2	904	return HTS221_OK;
cparata	0:b189540a70e2	905	}
cparata	0:b189540a70e2	906
cparata	0:b189540a70e2	907	/**
cparata	0:b189540a70e2	908	* @brief Enable/disable the interrupt mode.
cparata	0:b189540a70e2	909	* @param *handle Device handle.
cparata	0:b189540a70e2	910	* @param status is the enable/disable for the interrupt mode.
cparata	0:b189540a70e2	911	* This parameter is a @ref HTS221_State_et.
cparata	0:b189540a70e2	912	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	913	*/
cparata	0:b189540a70e2	914	HTS221_Error_et HTS221_Set_IrqEnable(void *handle, HTS221_State_et status)
cparata	0:b189540a70e2	915	{
cparata	0:b189540a70e2	916	uint8_t tmp;
cparata	0:b189540a70e2	917
cparata	0:b189540a70e2	918	HTS221_assert_param(IS_HTS221_State(status));
cparata	0:b189540a70e2	919
cparata	0:b189540a70e2	920	if(HTS221_ReadReg(handle, HTS221_CTRL_REG3, 1, &tmp))
cparata	0:b189540a70e2	921	return HTS221_ERROR;
cparata	0:b189540a70e2	922
cparata	0:b189540a70e2	923	tmp &= ~HTS221_DRDY_MASK;
cparata	0:b189540a70e2	924	tmp \|= ((uint8_t)status) << HTS221_DRDY_BIT;
cparata	0:b189540a70e2	925
cparata	0:b189540a70e2	926	if(HTS221_WriteReg(handle, HTS221_CTRL_REG3, 1, &tmp))
cparata	0:b189540a70e2	927	return HTS221_ERROR;
cparata	0:b189540a70e2	928
cparata	0:b189540a70e2	929	return HTS221_OK;
cparata	0:b189540a70e2	930	}
cparata	0:b189540a70e2	931
cparata	0:b189540a70e2	932	/**
cparata	0:b189540a70e2	933	* @brief Get the interrupt mode.
cparata	0:b189540a70e2	934	* @param *handle Device handle.
cparata	0:b189540a70e2	935	* @param Pointer to the returned status of the interrupt mode configuration [HTS221_ENABLE/HTS221_DISABLE].
cparata	0:b189540a70e2	936	* @retval Error code [HTS221_OK, HTS221_ERROR].
cparata	0:b189540a70e2	937	*/
cparata	0:b189540a70e2	938	HTS221_Error_et HTS221_Get_IrqEnable(void handle, HTS221_State_et status)
cparata	0:b189540a70e2	939	{
cparata	0:b189540a70e2	940	uint8_t tmp;
cparata	0:b189540a70e2	941
cparata	0:b189540a70e2	942	if(HTS221_ReadReg(handle, HTS221_CTRL_REG3, 1, &tmp))
cparata	0:b189540a70e2	943	return HTS221_ERROR;
cparata	0:b189540a70e2	944
cparata	0:b189540a70e2	945	*status = (HTS221_State_et)((tmp & HTS221_DRDY_MASK) >> HTS221_DRDY_BIT);
cparata	0:b189540a70e2	946
cparata	0:b189540a70e2	947	return HTS221_OK;
cparata	0:b189540a70e2	948	}
cparata	0:b189540a70e2	949
cparata	0:b189540a70e2	950
cparata	0:b189540a70e2	951	#ifdef USE_FULL_ASSERT_HTS221
cparata	0:b189540a70e2	952	/**
cparata	0:b189540a70e2	953	* @brief Reports the name of the source file and the source line number
cparata	0:b189540a70e2	954	* where the assert_param error has occurred.
cparata	0:b189540a70e2	955	* @param file: pointer to the source file name
cparata	0:b189540a70e2	956	* @param line: assert_param error line source number
cparata	0:b189540a70e2	957	* @retval : None
cparata	0:b189540a70e2	958	*/
cparata	0:b189540a70e2	959	void HTS221_assert_failed(uint8_t* file, uint32_t line)
cparata	0:b189540a70e2	960	{
cparata	0:b189540a70e2	961	/* User can add his own implementation to report the file name and line number */
cparata	0:b189540a70e2	962	printf("Wrong parameters value: file %s on line %d\r\n", file, (int)line);
cparata	0:b189540a70e2	963
cparata	0:b189540a70e2	964	/* Infinite loop */
cparata	0:b189540a70e2	965	while (1)
cparata	0:b189540a70e2	966	{
cparata	0:b189540a70e2	967	}
cparata	0:b189540a70e2	968	}
cparata	0:b189540a70e2	969	#endif
cparata	0:b189540a70e2	970
cparata	0:b189540a70e2	971	#ifdef __cplusplus
cparata	0:b189540a70e2	972	}
cparata	0:b189540a70e2	973	#endif
cparata	0:b189540a70e2	974
cparata	0:b189540a70e2	975	/**
cparata	0:b189540a70e2	976	* @}
cparata	0:b189540a70e2	977	*/
cparata	0:b189540a70e2	978
cparata	0:b189540a70e2	979	/**
cparata	0:b189540a70e2	980	* @}
cparata	0:b189540a70e2	981	*/
cparata	0:b189540a70e2	982
cparata	0:b189540a70e2	983	/**
cparata	0:b189540a70e2	984	* @}
cparata	0:b189540a70e2	985	*/
cparata	0:b189540a70e2	986
cparata	0:b189540a70e2	987	/***************** (C) COPYRIGHT 2013 STMicroelectronics *END OF FILE**/

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	16 Dec 2016
Imports:	98
Forks:	0
Commits:	17
Dependents:	0
Dependencies:	2
Followers:	401

The code in this repository is Apache licensed.

Pedometer Demo Application based on sensor expansion board X-NUCLEO-IKS01A2

X_NUCLEO_IKS01A2/Components/HTS221Sensor/HTS221_Driver.c@2:67af0ad3ea2e, 2016-08-19 (annotated)

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