/** * \file * * \brief ADC functionality implementation. * * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries. * * \asf_license_start * * \page License * * Subject to your compliance with these terms, you may use Microchip * software and any derivatives exclusively with Microchip products. * It is your responsibility to comply with third party license terms applicable * to your use of third party software (including open source software) that * may accompany Microchip software. * * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES, * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE, * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY, * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE. TO THE FULLEST EXTENT * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY, * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE. * * \asf_license_stop * */ /** * \brief Indicates HAL being compiled. Must be defined before including. */ #define _COMPILING_HAL #include "hal_adc_sync.h" #include /** * \brief Driver version */ #define DRIVER_VERSION 0x00000001u /** * \brief Maximum amount of ADC interface instances */ #define MAX_ADC_AMOUNT ADC_INST_NUM /** * \brief Initialize ADC */ int32_t adc_sync_init(struct adc_sync_descriptor *const descr, void *const hw, void *const func) { ASSERT(descr && hw); return _adc_sync_init(&descr->device, hw); } /** * \brief Deinitialize ADC */ int32_t adc_sync_deinit(struct adc_sync_descriptor *const descr) { ASSERT(descr); _adc_sync_deinit(&descr->device); return ERR_NONE; } /** * \brief Enable ADC */ int32_t adc_sync_enable_channel(struct adc_sync_descriptor *const descr, const uint8_t channel) { ASSERT(descr); _adc_sync_enable_channel(&descr->device, channel); return ERR_NONE; } /** * \brief Disable ADC */ int32_t adc_sync_disable_channel(struct adc_sync_descriptor *const descr, const uint8_t channel) { ASSERT(descr); _adc_sync_disable_channel(&descr->device, channel); return ERR_NONE; } /* * \brief Read data from ADC */ int32_t adc_sync_read_channel(struct adc_sync_descriptor *const descr, const uint8_t channel, uint8_t *const buffer, const uint16_t length) { uint8_t data_size; uint16_t offset = 0; ASSERT(descr && buffer && length); data_size = _adc_sync_get_data_size(&descr->device); ASSERT(!(length % data_size)); do { uint16_t result; _adc_sync_convert(&descr->device); while (!_adc_sync_is_channel_conversion_done(&descr->device, channel)) ; result = _adc_sync_read_channel_data(&descr->device, channel); buffer[offset] = result; if (1 < data_size) { buffer[offset + 1] = result >> 8; } offset += data_size; } while (offset < length); return offset; } /** * \brief Set ADC reference source */ int32_t adc_sync_set_reference(struct adc_sync_descriptor *const descr, const adc_reference_t reference) { ASSERT(descr); _adc_sync_set_reference_source(&descr->device, reference); return ERR_NONE; } /** * \brief Set ADC resolution */ int32_t adc_sync_set_resolution(struct adc_sync_descriptor *const descr, const adc_resolution_t resolution) { ASSERT(descr); _adc_sync_set_resolution(&descr->device, resolution); return ERR_NONE; } /** * \brief Set ADC input source of a channel */ int32_t adc_sync_set_inputs(struct adc_sync_descriptor *const descr, const adc_pos_input_t pos_input, const adc_neg_input_t neg_input, const uint8_t channel) { ASSERT(descr); _adc_sync_set_inputs(&descr->device, pos_input, neg_input, channel); return ERR_NONE; } /** * \brief Set ADC thresholds */ int32_t adc_sync_set_thresholds(struct adc_sync_descriptor *const descr, const adc_threshold_t low_threshold, const adc_threshold_t up_threshold) { ASSERT(descr); _adc_sync_set_thresholds(&descr->device, low_threshold, up_threshold); return ERR_NONE; } /** * \brief Set ADC gain */ int32_t adc_sync_set_channel_gain(struct adc_sync_descriptor *const descr, const uint8_t channel, const adc_gain_t gain) { ASSERT(descr); _adc_sync_set_channel_gain(&descr->device, channel, gain); return ERR_NONE; } /** * \brief Set ADC conversion mode */ int32_t adc_sync_set_conversion_mode(struct adc_sync_descriptor *const descr, const enum adc_conversion_mode mode) { ASSERT(descr); _adc_sync_set_conversion_mode(&descr->device, mode); return ERR_NONE; } /** * \brief Set ADC differential mode */ int32_t adc_sync_set_channel_differential_mode(struct adc_sync_descriptor *const descr, const uint8_t channel, const enum adc_differential_mode mode) { ASSERT(descr); _adc_sync_set_channel_differential_mode(&descr->device, channel, mode); return ERR_NONE; } /** * \brief Set ADC window mode */ int32_t adc_sync_set_window_mode(struct adc_sync_descriptor *const descr, const adc_window_mode_t mode) { ASSERT(descr); _adc_sync_set_window_mode(&descr->device, mode); return ERR_NONE; } /** * \brief Retrieve threshold state */ int32_t adc_sync_get_threshold_state(const struct adc_sync_descriptor *const descr, adc_threshold_status_t *const state) { ASSERT(descr && state); _adc_sync_get_threshold_state(&descr->device, state); return ERR_NONE; } /** * \brief Check if conversion is complete */ int32_t adc_sync_is_channel_conversion_complete(const struct adc_sync_descriptor *const descr, const uint8_t channel) { ASSERT(descr); return _adc_sync_is_channel_conversion_done(&descr->device, channel); } /** * \brief Retrieve the current driver version */ uint32_t adc_sync_get_version(void) { return DRIVER_VERSION; } //@}