drivers/include: fix typos
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@ -386,7 +386,7 @@ typedef struct {
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* See page 76 in the data sheet.
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*
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* Assuming a 26 MHz crystal the symbol rate of the transceiver is calculated
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* as fallows (in kBaud):
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* as follows (in kBaud):
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* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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* uint8_t exponent = mdmcfg4 & 0x0f;
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* int32_t mantissa = mdmcfg3;
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@ -104,7 +104,7 @@ int ds18_trigger(const ds18_t *dev);
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int ds18_read(const ds18_t *dev, int16_t *temperature);
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/**
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* @brief convenience fuction for triggering a conversion and reading the
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* @brief convenience function for triggering a conversion and reading the
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* value
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*
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* @note This function will block for the conversion time. The current
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@ -40,7 +40,7 @@ typedef struct {
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spi_t spi; /**< SPI device the enc is connected to*/
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gpio_t cs; /**< SPI chip select pin */
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gpio_t int_pin; /**< SPI interrupt pin */
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uint16_t rx_next_ptr; /**< ptr to next packet whithin devices memory */
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uint16_t rx_next_ptr; /**< ptr to next packet within devices memory */
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} encx24j600_t;
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/**
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@ -88,7 +88,7 @@ extern "C" {
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#define KW2XRF_OPT_RAWDUMP (NETDEV_IEEE802154_RAW) /**< legacy define */
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#define KW2XRF_OPT_ACK_REQ (NETDEV_IEEE802154_ACK_REQ) /**< legacy define */
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#define KW2XRF_OPT_AUTOCCA (0x0100) /**< CCA befor TX active */
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#define KW2XRF_OPT_AUTOCCA (0x0100) /**< CCA before TX active */
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#define KW2XRF_OPT_PROMISCUOUS (0x0200) /**< promiscuous mode
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* active */
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#define KW2XRF_OPT_PRELOADING (0x0400) /**< preloading enabled */
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@ -115,7 +115,7 @@ typedef struct {
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/**
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* @brief Register Addresses
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* @details For more information on the registers and its funtions see the datasheet
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* @details For more information on the registers and its functions see the datasheet
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* @{
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*/
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#define LC709203F_REG_CELL_VOLTAGE 0x09 /**< Register Cell Voltage */
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@ -13,7 +13,7 @@
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* @ingroup drivers_saul
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* @brief Driver for the Freescale MAG3110 magnetometer.
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*
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* After initialization and set activ the magnetometer will make measurements
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* After initialization and set active the magnetometer will make measurements
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* at periodic times.
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* The output rate and over sample ratio can be determined by magnetometer
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* initialization.
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@ -59,14 +59,14 @@ enum {
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* @brief Available sampling rates
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*/
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enum {
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MMA8X5X_RATE_800HZ = (0 << 3), /**< 800 Hz Ouput Data Rate in WAKE mode */
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MMA8X5X_RATE_400HZ = (1 << 3), /**< 400 Hz Ouput Data Rate in WAKE mode */
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MMA8X5X_RATE_200HZ = (2 << 3), /**< 200 Hz Ouput Data Rate in WAKE mode */
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MMA8X5X_RATE_100HZ = (3 << 3), /**< 100 Hz Ouput Data Rate in WAKE mode */
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MMA8X5X_RATE_50HZ = (4 << 3), /**< 50 Hz Ouput Data Rate in WAKE mode */
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MMA8X5X_RATE_1HZ25 = (5 << 3), /**< 12.5 Hz Ouput Data Rate in WAKE mode */
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MMA8X5X_RATE_6HZ25 = (6 << 3), /**< 6.25 Hz Ouput Data Rate in WAKE mode */
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MMA8X5X_RATE_1HZ56 = (7 << 3) /**< 1.56 Hz Ouput Data Rate in WAKE mode */
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MMA8X5X_RATE_800HZ = (0 << 3), /**< 800 Hz Output Data Rate in WAKE mode */
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MMA8X5X_RATE_400HZ = (1 << 3), /**< 400 Hz Output Data Rate in WAKE mode */
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MMA8X5X_RATE_200HZ = (2 << 3), /**< 200 Hz Output Data Rate in WAKE mode */
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MMA8X5X_RATE_100HZ = (3 << 3), /**< 100 Hz Output Data Rate in WAKE mode */
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MMA8X5X_RATE_50HZ = (4 << 3), /**< 50 Hz Output Data Rate in WAKE mode */
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MMA8X5X_RATE_1HZ25 = (5 << 3), /**< 12.5 Hz Output Data Rate in WAKE mode */
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MMA8X5X_RATE_6HZ25 = (6 << 3), /**< 6.25 Hz Output Data Rate in WAKE mode */
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MMA8X5X_RATE_1HZ56 = (7 << 3) /**< 1.56 Hz Output Data Rate in WAKE mode */
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};
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/**
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@ -69,7 +69,7 @@
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* - CCW (Counter ClockWise)
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* and a brake capability
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*
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* BRAKE LOW is functionnaly the same than BRAKE HIGH but some H-bridge only
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* BRAKE LOW is functionally the same than BRAKE HIGH but some H-bridge only
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* brake on BRAKE HIGH due to hardware.
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* In case of single direction GPIO, there is no BRAKE, PWM duty cycle is set
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* to 0.
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@ -180,7 +180,7 @@ int mtd_read(mtd_dev_t *mtd, void *dest, uint32_t addr, uint32_t count);
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* @brief Write data to a MTD device
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*
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* @p addr + @p count must be inside a page boundary. @p addr can be anywhere
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* but the buffer cannot overlap two pages. Though some devices might enforce alignement
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* but the buffer cannot overlap two pages. Though some devices might enforce alignment
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* on both @p addr and @p buf.
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*
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* @param mtd the device to write to
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@ -335,7 +335,7 @@ int rn2xx3_mac_tx(rn2xx3_t *dev, uint8_t *payload, uint8_t payload_len);
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* @return RN2XX3_ERR_NO_FREE_CH if channels are busy
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* @return RN2XX3_ERR_SILENT if device is in Silent state
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* @return RN2XX3_ERR_BUSY if MAC layer is in idle state
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* @return RN2XX3_ERR_MAC_PAUSED if MAC laid is paused
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* @return RN2XX3_ERR_MAC_PAUSED if MAC layer is paused
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* @return RN2XX3_REPLY_JOIN_ACCEPTED when the join procedure succeeded
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* @return RN2XX3_REPLY_JOIN_DENIED when the join procedure failed
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*/
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@ -114,7 +114,7 @@ enum {
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* @brief Read a value (a set of values) from a device
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*
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* Simple sensors, as e.g. a temperature sensor, will return exactly one value
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* together with the values scale and unit. Some sensors might return a touple
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* together with the values scale and unit. Some sensors might return a tuple
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* or triple of data (e.g. a 3-axis accelerometer).
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*
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* Actuators can chose to either just return -ENOTSUP or to return their current
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@ -254,7 +254,7 @@ int sds011_get_working_period(sds011_t *dev, uint8_t *minutes);
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*
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* @param[in] dev device descriptor
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* @param[in] minutes 0 - 30 new working period of the sensor in minutes
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* 0 for coninuous reporting mode
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* 0 for continuous reporting mode
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* 1 - 30 for a period of @p minutes
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*
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* @note For values greater than 0, the active duration (fan, laser enabled)
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@ -68,7 +68,7 @@ typedef struct {
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int si70xx_init(si70xx_t *dev, const si70xx_params_t *params);
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/**
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* @brief Read the relative humidity from the sensor. Uses clock streching.
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* @brief Read the relative humidity from the sensor. Uses clock stretching.
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*
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* @param[in] dev device descriptor
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* @return relative humidity in centi-percent (times 100)
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@ -76,7 +76,7 @@ int si70xx_init(si70xx_t *dev, const si70xx_params_t *params);
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uint16_t si70xx_get_relative_humidity(const si70xx_t *dev);
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/**
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* @brief Read the current temperature from the sensor. Uses clock streching.
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* @brief Read the current temperature from the sensor. Uses clock stretching.
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*
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* @param[in] dev device descriptor
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* @return current temperature in centi-degrees Celsius
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@ -24,7 +24,7 @@
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* synchronous or asynchronous manner. For synchronous operation, the application
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* can call tsl4531x_simple_read, and the driver will block for the integration
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* time defined in the initialization parameters (plus a small margin, to encompass
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* the max times indicated in the datasheet). For asyncronous operation, the
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* the max times indicated in the datasheet). For asynchronous operation, the
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* application needs to use the functions tsl4531x_start_sample,
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* tsl4531x_time_until_sample_ready and tsl4531x_get_sample, as described in those
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* functions' descriptions.
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