Arkadi Rafalovich
Library I2C pins modification to fit nucleo 32 pins modules
Dependencies: ST_INTERFACES X_NUCLEO_COMMON
Dependents: STM32_MagneticLight
Fork of
X_NUCLEO_IKS01A1
by 
ST
Diff: Components/hts221/hts221_class.cpp
- Revision:
- 24:92cc9c6e4b2b
- Parent:
- 14:298bc52b4a70
- Child:
- 26:e8bca468b3a6
--- a/Components/hts221/hts221_class.cpp Fri May 29 16:50:56 2015 +0200
+++ b/Components/hts221/hts221_class.cpp Wed Jun 03 14:57:57 2015 +0200
@@ -36,8 +36,8 @@
*/
/* betzw - based on:
- X-CUBE-MEMS1/trunk/Drivers/BSP/Components/hts221/hts221.c: revision #270,
- X-CUBE-MEMS1/trunk: revision #293
+ X-CUBE-MEMS1/trunk/Drivers/BSP/Components/hts221/hts221.c: revision #395,
+ X-CUBE-MEMS1/trunk: revision #402
*/
/* Includes ------------------------------------------------------------------*/
@@ -49,93 +49,94 @@
/* Methods -------------------------------------------------------------------*/
/**
* @brief HTS221 Calibration procedure
- * @param None
* @retval HUM_TEMP_OK in case of success, an error code otherwise
*/
HUM_TEMP_StatusTypeDef HTS221::HTS221_Calibration(void)
{
- /* Temperature Calibration */
- /* Temperature in degree for calibration ( "/8" to obtain float) */
- uint16_t T0_degC_x8_L, T0_degC_x8_H, T1_degC_x8_L, T1_degC_x8_H;
- uint8_t H0_rh_x2, H1_rh_x2;
- uint8_t tempReg[2] = {0,0};
-
- if(HTS221_IO_Read(tempReg, HTS221_T0_degC_X8_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- T0_degC_x8_L = (uint16_t)tempReg[0];
-
- if(HTS221_IO_Read(tempReg, HTS221_T1_T0_MSB_X8_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- T0_degC_x8_H = (uint16_t) (tempReg[0] & 0x03);
- T0_degC = ((float)((T0_degC_x8_H<<8) | (T0_degC_x8_L)))/8;
-
- if(HTS221_IO_Read(tempReg, HTS221_T1_degC_X8_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- T1_degC_x8_L = (uint16_t)tempReg[0];
-
- if(HTS221_IO_Read(tempReg, HTS221_T1_T0_MSB_X8_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- T1_degC_x8_H = (uint16_t) (tempReg[0] & 0x0C);
- T1_degC_x8_H = T1_degC_x8_H >> 2;
- T1_degC = ((float)((T1_degC_x8_H<<8) | (T1_degC_x8_L)))/8;
-
- if(HTS221_IO_Read(tempReg, (HTS221_T0_OUT_L_ADDR | HTS221_I2C_MULTIPLEBYTE_CMD), 2) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- T0_out = ((((int16_t)tempReg[1]) << 8)+(int16_t)tempReg[0]);
-
- if(HTS221_IO_Read(tempReg, (HTS221_T1_OUT_L_ADDR | HTS221_I2C_MULTIPLEBYTE_CMD), 2) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- T1_out = ((((int16_t)tempReg[1]) << 8)+(int16_t)tempReg[0]);
-
- /* Humidity Calibration */
- /* Humidity in degree for calibration ( "/2" to obtain float) */
-
- if(HTS221_IO_Read(&H0_rh_x2, HTS221_H0_RH_X2_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- if(HTS221_IO_Read(&H1_rh_x2, HTS221_H1_RH_X2_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- if(HTS221_IO_Read(&tempReg[0], (HTS221_H0_T0_OUT_L_ADDR | HTS221_I2C_MULTIPLEBYTE_CMD), 2) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- H0_T0_out = ((((int16_t)tempReg[1]) << 8)+(int16_t)tempReg[0]);
-
- if(HTS221_IO_Read(&tempReg[0], (HTS221_H1_T0_OUT_L_ADDR | HTS221_I2C_MULTIPLEBYTE_CMD), 2) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- H1_T0_out = ((((int16_t)tempReg[1]) << 8)+(int16_t)tempReg[0]);
-
- H0_rh = ((float)H0_rh_x2)/2;
- H1_rh = ((float)H1_rh_x2)/2;
-
- return HUM_TEMP_OK;
+ /* Temperature Calibration */
+ /* Temperature in degree for calibration ( "/8" to obtain float) */
+ uint16_t T0_degC_x8_L, T0_degC_x8_H, T1_degC_x8_L, T1_degC_x8_H;
+ uint8_t H0_rh_x2, H1_rh_x2;
+ uint8_t tempReg[2] = {0, 0};
+
+ if(HTS221_IO_Read(tempReg, HTS221_T0_degC_X8_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ T0_degC_x8_L = (uint16_t)tempReg[0];
+
+ if(HTS221_IO_Read(tempReg, HTS221_T1_T0_MSB_X8_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ T0_degC_x8_H = (uint16_t) (tempReg[0] & 0x03);
+ T0_degC = ((float)((T0_degC_x8_H << 8) | (T0_degC_x8_L))) / 8;
+
+ if(HTS221_IO_Read(tempReg, HTS221_T1_degC_X8_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ T1_degC_x8_L = (uint16_t)tempReg[0];
+
+ if(HTS221_IO_Read(tempReg, HTS221_T1_T0_MSB_X8_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ T1_degC_x8_H = (uint16_t) (tempReg[0] & 0x0C);
+ T1_degC_x8_H = T1_degC_x8_H >> 2;
+ T1_degC = ((float)((T1_degC_x8_H << 8) | (T1_degC_x8_L))) / 8;
+
+ if(HTS221_IO_Read(tempReg, (HTS221_T0_OUT_L_ADDR | HTS221_I2C_MULTIPLEBYTE_CMD), 2) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ T0_out = ((((int16_t)tempReg[1]) << 8) + (int16_t)tempReg[0]);
+
+ if(HTS221_IO_Read(tempReg, (HTS221_T1_OUT_L_ADDR | HTS221_I2C_MULTIPLEBYTE_CMD), 2) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ T1_out = ((((int16_t)tempReg[1]) << 8) + (int16_t)tempReg[0]);
+
+ /* Humidity Calibration */
+ /* Humidity in degree for calibration ( "/2" to obtain float) */
+
+ if(HTS221_IO_Read(&H0_rh_x2, HTS221_H0_RH_X2_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ if(HTS221_IO_Read(&H1_rh_x2, HTS221_H1_RH_X2_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ if(HTS221_IO_Read(&tempReg[0], (HTS221_H0_T0_OUT_L_ADDR | HTS221_I2C_MULTIPLEBYTE_CMD),
+ 2) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ H0_T0_out = ((((int16_t)tempReg[1]) << 8) + (int16_t)tempReg[0]);
+
+ if(HTS221_IO_Read(&tempReg[0], (HTS221_H1_T0_OUT_L_ADDR | HTS221_I2C_MULTIPLEBYTE_CMD),
+ 2) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ H1_T0_out = ((((int16_t)tempReg[1]) << 8) + (int16_t)tempReg[0]);
+
+ H0_rh = ((float)H0_rh_x2) / 2;
+ H1_rh = ((float)H1_rh_x2) / 2;
+
+ return HUM_TEMP_OK;
}
@@ -145,42 +146,42 @@
* @retval HUM_TEMP_OK in case of success, an error code otherwise
*/
HUM_TEMP_StatusTypeDef HTS221::HTS221_Init(HUM_TEMP_InitTypeDef *HTS221_Init)
-{
- uint8_t tmp = 0x00;
-
- /* Configure the low level interface ---------------------------------------*/
- if(HTS221_IO_Init() != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- if(HTS221_Power_On() != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- if(HTS221_Calibration() != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- if(HTS221_IO_Read(&tmp, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- /* Output Data Rate selection */
- tmp &= ~(HTS221_ODR_MASK);
- tmp |= HTS221_Init->OutputDataRate;
-
- if(HTS221_IO_Write(&tmp, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- HTS221_IO_ITConfig();
-
- return HUM_TEMP_OK;
+{
+ uint8_t tmp = 0x00;
+
+ /* Configure the low level interface ---------------------------------------*/
+ if(HTS221_IO_Init() != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ if(HTS221_Power_On() != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ if(HTS221_Calibration() != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ if(HTS221_IO_Read(&tmp, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ /* Output Data Rate selection */
+ tmp &= ~(HTS221_ODR_MASK);
+ tmp |= HTS221_Init->OutputDataRate;
+
+ if(HTS221_IO_Write(&tmp, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ HTS221_IO_ITConfig();
+
+ return HUM_TEMP_OK;
}
/**
@@ -190,39 +191,38 @@
*/
HUM_TEMP_StatusTypeDef HTS221::HTS221_ReadID(uint8_t *ht_id)
{
- if(!ht_id)
- {
- return HUM_TEMP_ERROR;
- }
-
- return HTS221_IO_Read(ht_id, HTS221_WHO_AM_I_ADDR, 1);
+ if(!ht_id)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ return HTS221_IO_Read(ht_id, HTS221_WHO_AM_I_ADDR, 1);
}
/**
* @brief Reboot memory content of HTS221
- * @param None
* @retval HUM_TEMP_OK in case of success, an error code otherwise
*/
HUM_TEMP_StatusTypeDef HTS221::HTS221_RebootCmd(void)
{
- uint8_t tmpreg;
-
- /* Read CTRL_REG2 register */
- if(HTS221_IO_Read(&tmpreg, HTS221_CTRL_REG2_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- /* Enable or Disable the reboot memory */
- tmpreg |= HTS221_BOOT_REBOOTMEMORY;
-
- /* Write value to MEMS CTRL_REG2 regsister */
- if(HTS221_IO_Write(&tmpreg, HTS221_CTRL_REG2_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- return HUM_TEMP_OK;
+ uint8_t tmpreg;
+
+ /* Read CTRL_REG2 register */
+ if(HTS221_IO_Read(&tmpreg, HTS221_CTRL_REG2_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ /* Enable or Disable the reboot memory */
+ tmpreg |= HTS221_BOOT_REBOOTMEMORY;
+
+ /* Write value to MEMS CTRL_REG2 regsister */
+ if(HTS221_IO_Write(&tmpreg, HTS221_CTRL_REG2_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ return HUM_TEMP_OK;
}
@@ -233,64 +233,67 @@
*/
HUM_TEMP_StatusTypeDef HTS221::HTS221_GetHumidity(float* pfData)
{
- int16_t H_T_out, humidity_t;
- uint8_t tempReg[2] = {0,0};
- uint8_t tmp = 0x00;
- float H_rh;
-
- if(HTS221_IO_Read(&tmp, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
+ int16_t H_T_out, humidity_t;
+ uint8_t tempReg[2] = {0, 0};
+ uint8_t tmp = 0x00;
+ float H_rh;
+
+ if(HTS221_IO_Read(&tmp, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ /* Output Data Rate selection */
+ tmp &= (HTS221_ODR_MASK);
+
+ if(tmp == 0x00)
+ {
+ if(HTS221_IO_Read(&tmp, HTS221_CTRL_REG2_ADDR, 1) != HUM_TEMP_OK)
{
return HUM_TEMP_ERROR;
}
-
- /* Output Data Rate selection */
- tmp &= (HTS221_ODR_MASK);
- if(tmp == 0x00)
- {
- if(HTS221_IO_Read(&tmp, HTS221_CTRL_REG2_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- /* Serial Interface Mode selection */
- tmp &= ~(HTS221_ONE_SHOT_MASK);
- tmp |= HTS221_ONE_SHOT_START;
-
- if(HTS221_IO_Write(&tmp, HTS221_CTRL_REG2_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
+ /* Serial Interface Mode selection */
+ tmp &= ~(HTS221_ONE_SHOT_MASK);
+ tmp |= HTS221_ONE_SHOT_START;
- do{
-
- if(HTS221_IO_Read(&tmp, HTS221_STATUS_REG_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- }while(!(tmp&&0x02));
- }
-
-
- if(HTS221_IO_Read(&tempReg[0], (HTS221_HUMIDITY_OUT_L_ADDR | HTS221_I2C_MULTIPLEBYTE_CMD), 2) != HUM_TEMP_OK)
+ if(HTS221_IO_Write(&tmp, HTS221_CTRL_REG2_ADDR, 1) != HUM_TEMP_OK)
{
return HUM_TEMP_ERROR;
}
- H_T_out = ((((int16_t)tempReg[1]) << 8)+(int16_t)tempReg[0]);
-
- H_rh = ( float )(((( H_T_out - H0_T0_out ) * ( H1_rh - H0_rh )) / ( H1_T0_out - H0_T0_out )) + H0_rh );
-
- // Truncate to specific number of decimal digits
- humidity_t = (uint16_t)(H_rh * pow(10.0f,HUM_DECIMAL_DIGITS));
- *pfData = ((float)humidity_t)/pow(10.0f,HUM_DECIMAL_DIGITS);
+ do
+ {
- // Prevent data going below 0% and above 100% due to linear interpolation
- if ( *pfData < 0.0f ) *pfData = 0.0f;
- if ( *pfData > 100.0f ) *pfData = 100.0f;
-
- return HUM_TEMP_OK;
+ if(HTS221_IO_Read(&tmp, HTS221_STATUS_REG_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ }
+ while(!(tmp && 0x02));
+ }
+
+
+ if(HTS221_IO_Read(&tempReg[0], (HTS221_HUMIDITY_OUT_L_ADDR | HTS221_I2C_MULTIPLEBYTE_CMD),
+ 2) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ H_T_out = ((((int16_t)tempReg[1]) << 8) + (int16_t)tempReg[0]);
+
+ H_rh = ( float )(((( H_T_out - H0_T0_out ) * ( H1_rh - H0_rh )) / ( H1_T0_out - H0_T0_out )) + H0_rh );
+
+ // Truncate to specific number of decimal digits
+ humidity_t = (uint16_t)(H_rh * pow(10, HUM_DECIMAL_DIGITS));
+ *pfData = ((float)humidity_t) / pow(10, HUM_DECIMAL_DIGITS);
+
+ // Prevent data going below 0% and above 100% due to linear interpolation
+ if ( *pfData < 0.0f ) *pfData = 0.0f;
+ if ( *pfData > 100.0f ) *pfData = 100.0f;
+
+ return HUM_TEMP_OK;
}
/**
@@ -300,112 +303,115 @@
*/
HUM_TEMP_StatusTypeDef HTS221::HTS221_GetTemperature(float* pfData)
{
- int16_t T_out, temperature_t;
- uint8_t tempReg[2] = {0,0};
- uint8_t tmp = 0x00;
- float T_degC;
-
- if(HTS221_IO_Read(&tmp, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- /* Output Data Rate selection */
- tmp &= (HTS221_ODR_MASK);
-
- if(tmp == 0x00)
- {
- if(HTS221_IO_Read(&tmp, HTS221_CTRL_REG2_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- /* Serial Interface Mode selection */
- tmp &= ~(HTS221_ONE_SHOT_MASK);
- tmp |= HTS221_ONE_SHOT_START;
-
- if(HTS221_IO_Write(&tmp, HTS221_CTRL_REG2_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- do{
-
- if(HTS221_IO_Read(&tmp, HTS221_STATUS_REG_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- }while(!(tmp&&0x01));
- }
-
- if(HTS221_IO_Read(&tempReg[0], (HTS221_TEMP_OUT_L_ADDR | HTS221_I2C_MULTIPLEBYTE_CMD), 2) != HUM_TEMP_OK)
+ int16_t T_out, temperature_t;
+ uint8_t tempReg[2] = {0, 0};
+ uint8_t tmp = 0x00;
+ float T_degC;
+
+ if(HTS221_IO_Read(&tmp, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ /* Output Data Rate selection */
+ tmp &= (HTS221_ODR_MASK);
+
+ if(tmp == 0x00)
+ {
+ if(HTS221_IO_Read(&tmp, HTS221_CTRL_REG2_ADDR, 1) != HUM_TEMP_OK)
{
return HUM_TEMP_ERROR;
}
- T_out = ((((int16_t)tempReg[1]) << 8)+(int16_t)tempReg[0]);
-
- T_degC = ((float)(T_out - T0_out))/(T1_out - T0_out) * (T1_degC - T0_degC) + T0_degC;
-
- temperature_t = (int16_t)(T_degC * pow(10.0f,TEMP_DECIMAL_DIGITS));
-
- *pfData = ((float)temperature_t)/pow(10.0f,TEMP_DECIMAL_DIGITS);
+ /* Serial Interface Mode selection */
+ tmp &= ~(HTS221_ONE_SHOT_MASK);
+ tmp |= HTS221_ONE_SHOT_START;
+
+ if(HTS221_IO_Write(&tmp, HTS221_CTRL_REG2_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ do
+ {
- return HUM_TEMP_OK;
+ if(HTS221_IO_Read(&tmp, HTS221_STATUS_REG_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ }
+ while(!(tmp && 0x01));
+ }
+
+ if(HTS221_IO_Read(&tempReg[0], (HTS221_TEMP_OUT_L_ADDR | HTS221_I2C_MULTIPLEBYTE_CMD),
+ 2) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ T_out = ((((int16_t)tempReg[1]) << 8) + (int16_t)tempReg[0]);
+
+ T_degC = ((float)(T_out - T0_out)) / (T1_out - T0_out) * (T1_degC - T0_degC) + T0_degC;
+
+ temperature_t = (int16_t)(T_degC * pow(10, TEMP_DECIMAL_DIGITS));
+
+ *pfData = ((float)temperature_t) / pow(10, TEMP_DECIMAL_DIGITS);
+
+ return HUM_TEMP_OK;
}
/**
* @brief Exit the shutdown mode for HTS221
- * @param None
* @retval HUM_TEMP_OK in case of success, an error code otherwise
*/
HUM_TEMP_StatusTypeDef HTS221::HTS221_Power_On(void)
{
- uint8_t tmpReg;
-
- /* Read the register content */
- if(HTS221_IO_Read(&tmpReg, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- /* Set the power down bit */
- tmpReg |= HTS221_MODE_ACTIVE;
-
- /* Write register */
- if(HTS221_IO_Write(&tmpReg, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- return HUM_TEMP_OK;
+ uint8_t tmpReg;
+
+ /* Read the register content */
+ if(HTS221_IO_Read(&tmpReg, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ /* Set the power down bit */
+ tmpReg |= HTS221_MODE_ACTIVE;
+
+ /* Write register */
+ if(HTS221_IO_Write(&tmpReg, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ return HUM_TEMP_OK;
}
/**
* @brief Enter the shutdown mode for HTS221
- * @param None
* @retval HUM_TEMP_OK in case of success, an error code otherwise
*/
HUM_TEMP_StatusTypeDef HTS221::HTS221_Power_OFF(void)
{
- uint8_t tmpReg;
-
- /* Read the register content */
- if(HTS221_IO_Read(&tmpReg, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
+ uint8_t tmpReg;
+
+ /* Read the register content */
+ if(HTS221_IO_Read(&tmpReg, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ /* Reset the power down bit */
+ tmpReg &= ~(HTS221_MODE_ACTIVE);
+
+ /* Write register */
+ if(HTS221_IO_Write(&tmpReg, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
+ {
+ return HUM_TEMP_ERROR;
+ }
+
+ return HUM_TEMP_OK;
+}
- /* Reset the power down bit */
- tmpReg &= ~(HTS221_MODE_ACTIVE);
-
- /* Write register */
- if(HTS221_IO_Write(&tmpReg, HTS221_CTRL_REG1_ADDR, 1) != HUM_TEMP_OK)
- {
- return HUM_TEMP_ERROR;
- }
-
- return HUM_TEMP_OK;
-}
+/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/