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- /**
- * Copyright (c) 2015 - 2019, Nordic Semiconductor ASA
- *
- * All rights reserved.
- *
- * Redistribution and use in source and binary forms, with or without modification,
- * are permitted provided that the following conditions are met:
- *
- * 1. Redistributions of source code must retain the above copyright notice, this
- * list of conditions and the following disclaimer.
- *
- * 2. Redistributions in binary form, except as embedded into a Nordic
- * Semiconductor ASA integrated circuit in a product or a software update for
- * such product, must reproduce the above copyright notice, this list of
- * conditions and the following disclaimer in the documentation and/or other
- * materials provided with the distribution.
- *
- * 3. Neither the name of Nordic Semiconductor ASA nor the names of its
- * contributors may be used to endorse or promote products derived from this
- * software without specific prior written permission.
- *
- * 4. This software, with or without modification, must only be used with a
- * Nordic Semiconductor ASA integrated circuit.
- *
- * 5. Any software provided in binary form under this license must not be reverse
- * engineered, decompiled, modified and/or disassembled.
- *
- * THIS SOFTWARE IS PROVIDED BY NORDIC SEMICONDUCTOR ASA "AS IS" AND ANY EXPRESS
- * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
- * OF MERCHANTABILITY, NONINFRINGEMENT, AND FITNESS FOR A PARTICULAR PURPOSE ARE
- * DISCLAIMED. IN NO EVENT SHALL NORDIC SEMICONDUCTOR ASA OR CONTRIBUTORS BE
- * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
- * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
- * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
- * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
- * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
- * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
- *
- */
- #ifndef NRFX_SAADC_H__
- #define NRFX_SAADC_H__
- #include <nrfx.h>
- #include <hal/nrf_saadc.h>
- #ifdef __cplusplus
- extern "C" {
- #endif
- /**
- * @defgroup nrfx_saadc SAADC driver
- * @{
- * @ingroup nrf_saadc
- * @brief Successive Approximation Analog-to-Digital Converter (SAADC) peripheral driver.
- */
- /**
- * @brief Value that should be set as high limit to disable limit detection.
- */
- #define NRFX_SAADC_LIMITH_DISABLED (2047)
- /**
- * @brief Value that should be set as low limit to disable limit detection.
- */
- #define NRFX_SAADC_LIMITL_DISABLED (-2048)
- /**
- * @brief Macro for setting @ref nrfx_saadc_config_t to default settings.
- */
- #define NRFX_SAADC_DEFAULT_CONFIG \
- { \
- .resolution = (nrf_saadc_resolution_t)NRFX_SAADC_CONFIG_RESOLUTION, \
- .oversample = (nrf_saadc_oversample_t)NRFX_SAADC_CONFIG_OVERSAMPLE, \
- .interrupt_priority = NRFX_SAADC_CONFIG_IRQ_PRIORITY, \
- .low_power_mode = NRFX_SAADC_CONFIG_LP_MODE \
- }
- /**
- * @brief Macro for setting @ref nrf_saadc_channel_config_t to default settings
- * in single ended mode.
- *
- * @param PIN_P Analog input.
- */
- #define NRFX_SAADC_DEFAULT_CHANNEL_CONFIG_SE(PIN_P) \
- { \
- .resistor_p = NRF_SAADC_RESISTOR_DISABLED, \
- .resistor_n = NRF_SAADC_RESISTOR_DISABLED, \
- .gain = NRF_SAADC_GAIN1_6, \
- .reference = NRF_SAADC_REFERENCE_INTERNAL, \
- .acq_time = NRF_SAADC_ACQTIME_10US, \
- .mode = NRF_SAADC_MODE_SINGLE_ENDED, \
- .burst = NRF_SAADC_BURST_DISABLED, \
- .pin_p = (nrf_saadc_input_t)(PIN_P), \
- .pin_n = NRF_SAADC_INPUT_DISABLED \
- }
- /**
- * @brief Macro for setting @ref nrf_saadc_channel_config_t to default settings
- * in differential mode.
- *
- * @param PIN_P Positive analog input.
- * @param PIN_N Negative analog input.
- */
- #define NRFX_SAADC_DEFAULT_CHANNEL_CONFIG_DIFFERENTIAL(PIN_P, PIN_N) \
- { \
- .resistor_p = NRF_SAADC_RESISTOR_DISABLED, \
- .resistor_n = NRF_SAADC_RESISTOR_DISABLED, \
- .gain = NRF_SAADC_GAIN1_6, \
- .reference = NRF_SAADC_REFERENCE_INTERNAL, \
- .acq_time = NRF_SAADC_ACQTIME_10US, \
- .mode = NRF_SAADC_MODE_DIFFERENTIAL, \
- .pin_p = (nrf_saadc_input_t)(PIN_P), \
- .pin_n = (nrf_saadc_input_t)(PIN_N) \
- }
- /**
- * @brief Analog-to-digital converter driver configuration structure.
- */
- typedef struct
- {
- nrf_saadc_resolution_t resolution; ///< Resolution configuration.
- nrf_saadc_oversample_t oversample; ///< Oversampling configuration.
- uint8_t interrupt_priority; ///< Interrupt priority.
- bool low_power_mode; ///< Indicates if low power mode is active.
- } nrfx_saadc_config_t;
- /**
- * @brief Driver event types.
- */
- typedef enum
- {
- NRFX_SAADC_EVT_DONE, ///< Event generated when the buffer is filled with samples.
- NRFX_SAADC_EVT_LIMIT, ///< Event generated after one of the limits is reached.
- NRFX_SAADC_EVT_CALIBRATEDONE ///< Event generated when the calibration is complete.
- } nrfx_saadc_evt_type_t;
- /**
- * @brief Analog-to-digital converter driver done event data.
- */
- typedef struct
- {
- nrf_saadc_value_t * p_buffer; ///< Pointer to buffer with converted samples.
- uint16_t size; ///< Number of samples in the buffer.
- } nrfx_saadc_done_evt_t;
- /**
- * @brief Analog-to-digital converter driver limit event data.
- */
- typedef struct
- {
- uint8_t channel; ///< Channel on which the limit was detected.
- nrf_saadc_limit_t limit_type; ///< Type of limit detected.
- } nrfx_saadc_limit_evt_t;
- /**
- * @brief Analog-to-digital converter driver event structure.
- */
- typedef struct
- {
- nrfx_saadc_evt_type_t type; ///< Event type.
- union
- {
- nrfx_saadc_done_evt_t done; ///< Data for @ref NRFX_SAADC_EVT_DONE event.
- nrfx_saadc_limit_evt_t limit; ///< Data for @ref NRFX_SAADC_EVT_LIMIT event.
- } data;
- } nrfx_saadc_evt_t;
- /**
- * @brief ADC event handler.
- *
- * @param[in] p_event Pointer to an ADC event. The event structure is allocated on
- * the stack, so it is valid only within the context of
- * the event handler.
- */
- typedef void (* nrfx_saadc_event_handler_t)(nrfx_saadc_evt_t const * p_event);
- /**
- * @brief Function for initializing the SAADC.
- *
- * @param[in] p_config Pointer to the structure with initial configuration.
- * @param[in] event_handler Event handler provided by the user.
- * Must not be NULL.
- *
- * @retval NRFX_SUCCESS If initialization was successful.
- * @retval NRFX_ERROR_INVALID_STATE If the driver is already initialized.
- */
- nrfx_err_t nrfx_saadc_init(nrfx_saadc_config_t const * p_config,
- nrfx_saadc_event_handler_t event_handler);
- /**
- * @brief Function for uninitializing the SAADC.
- *
- * This function stops all ongoing conversions and disables all channels.
- */
- void nrfx_saadc_uninit(void);
- /**
- * @brief Function for getting the address of a SAMPLE SAADC task.
- *
- * @return Task address.
- */
- uint32_t nrfx_saadc_sample_task_get(void);
- /**
- * @brief Function for initializing an SAADC channel.
- *
- * This function configures and enables the channel.
- *
- * @retval NRFX_SUCCESS If initialization was successful.
- * @retval NRFX_ERROR_INVALID_STATE If the ADC was not initialized.
- * @retval NRFX_ERROR_NO_MEM If the specified channel was already allocated.
- */
- nrfx_err_t nrfx_saadc_channel_init(uint8_t channel,
- nrf_saadc_channel_config_t const * const p_config);
- /**
- * @brief Function for uninitializing an SAADC channel.
- *
- * @retval NRFX_SUCCESS If uninitialization was successful.
- * @retval NRFX_ERROR_BUSY If the ADC is busy.
- */
- nrfx_err_t nrfx_saadc_channel_uninit(uint8_t channel);
- /**
- * @brief Function for starting SAADC sampling.
- *
- * @retval NRFX_SUCCESS If ADC sampling was triggered.
- * @retval NRFX_ERROR_INVALID_STATE If ADC is in idle state.
- */
- nrfx_err_t nrfx_saadc_sample(void);
- /**
- * @brief Blocking function for executing a single ADC conversion.
- *
- * This function selects the desired input, starts a single conversion,
- * waits for it to finish, and returns the result.
- *
- * The function will fail if ADC is busy.
- *
- * @param[in] channel Channel.
- * @param[out] p_value Pointer to the location where the result should be placed.
- *
- * @retval NRFX_SUCCESS If conversion was successful.
- * @retval NRFX_ERROR_BUSY If the ADC driver is busy.
- */
- nrfx_err_t nrfx_saadc_sample_convert(uint8_t channel, nrf_saadc_value_t * p_value);
- /**
- * @brief Function for issuing conversion of data to the buffer.
- *
- * This function is non-blocking. The application is notified about filling the buffer by the event
- * handler. Conversion will be done on all enabled channels. If the ADC is in idle state, the
- * function will set up Easy DMA for the conversion. The ADC will be ready for sampling and wait for
- * the SAMPLE task. It can be triggered manually by the @ref nrfx_saadc_sample function or by PPI
- * using the @ref NRF_SAADC_TASK_SAMPLE task. If one buffer is already set and the conversion is
- * ongoing, calling this function will result in queuing the given buffer. The driver will start
- * filling the issued buffer when the first one is completed. If the function is called again before
- * the first buffer is filled or calibration is in progress, it will return with error.
- *
- * @param[in] buffer Result buffer.
- * @param[in] size Buffer size in words.
- *
- * @retval NRFX_SUCCESS If conversion was successful.
- * @retval NRFX_ERROR_BUSY If the driver already has two buffers set or calibration is in progress.
- */
- nrfx_err_t nrfx_saadc_buffer_convert(nrf_saadc_value_t * buffer, uint16_t size);
- /**
- * @brief Function for triggering the ADC offset calibration.
- *
- * This function is non-blocking. The application is notified about completion by the event handler.
- * Calibration will also trigger DONE and RESULTDONE events.
- *
- * The function will fail if ADC is busy or calibration is already in progress.
- *
- * @retval NRFX_SUCCESS If calibration was started successfully.
- * @retval NRFX_ERROR_BUSY If the ADC driver is busy.
- */
- nrfx_err_t nrfx_saadc_calibrate_offset(void);
- /**
- * @brief Function for retrieving the SAADC state.
- *
- * @retval true If the ADC is busy.
- * @retval false If the ADC is ready.
- */
- bool nrfx_saadc_is_busy(void);
- /**
- * @brief Function for aborting ongoing and buffered conversions.
- * @note @ref NRFX_SAADC_EVT_DONE event will be generated if there is a conversion in progress.
- * Event will contain number of words in the sample buffer.
- */
- void nrfx_saadc_abort(void);
- /**
- * @brief Function for setting the SAADC channel limits.
- * When limits are enabled and the result exceeds the defined bounds, the limit handler
- * function is called.
- *
- * @param[in] channel SAADC channel number.
- * @param[in] limit_low Lower limit (valid values from @ref NRFX_SAADC_LIMITL_DISABLED to
- * @ref NRFX_SAADC_LIMITH_DISABLED). Conversion results below this value will
- * trigger the handler function. Set to @ref NRFX_SAADC_LIMITL_DISABLED
- * to disable this limit.
- * @param[in] limit_high Upper limit (valid values from @ref NRFX_SAADC_LIMITL_DISABLED to
- * @ref NRFX_SAADC_LIMITH_DISABLED). Conversion results above this value will
- * trigger the handler function. Set to @ref NRFX_SAADC_LIMITH_DISABLED
- * to disable this limit.
- */
- void nrfx_saadc_limits_set(uint8_t channel, int16_t limit_low, int16_t limit_high);
- void nrfx_saadc_irq_handler(void);
- /** @} */
- #ifdef __cplusplus
- }
- #endif
- #endif // NRFX_SAADC_H__
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