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|
/**
******************************************************************************
* @file stm32h7xx_ll_adc.c
* @author MCD Application Team
* @brief ADC LL module driver
******************************************************************************
* @attention
*
* Copyright (c) 2017 STMicroelectronics.
* All rights reserved.
*
* This software is licensed under terms that can be found in the LICENSE file
* in the root directory of this software component.
* If no LICENSE file comes with this software, it is provided AS-IS.
*
******************************************************************************
*/
#if defined(USE_FULL_LL_DRIVER)
/* Includes ------------------------------------------------------------------*/
#include "stm32h7xx_ll_adc.h"
#include "stm32h7xx_ll_bus.h"
#ifdef USE_FULL_ASSERT
#include "stm32_assert.h"
#else
#define assert_param(expr) ((void)0U)
#endif
/** @addtogroup STM32H7xx_LL_Driver
* @{
*/
#if defined (ADC1) || defined (ADC2) || defined (ADC3)
/** @addtogroup ADC_LL ADC
* @{
*/
/* Private types -------------------------------------------------------------*/
/* Private variables ---------------------------------------------------------*/
/* Private constants ---------------------------------------------------------*/
/** @addtogroup ADC_LL_Private_Constants
* @{
*/
/* Definitions of ADC hardware constraints delays */
/* Note: Only ADC peripheral HW delays are defined in ADC LL driver driver, */
/* not timeout values: */
/* Timeout values for ADC operations are dependent to device clock */
/* configuration (system clock versus ADC clock), */
/* and therefore must be defined in user application. */
/* Refer to @ref ADC_LL_EC_HW_DELAYS for description of ADC timeout */
/* values definition. */
/* Note: ADC timeout values are defined here in CPU cycles to be independent */
/* of device clock setting. */
/* In user application, ADC timeout values should be defined with */
/* temporal values, in function of device clock settings. */
/* Highest ratio CPU clock frequency vs ADC clock frequency: */
/* - ADC clock from synchronous clock with AHB prescaler 512, */
/* APB prescaler 16, ADC prescaler 4. */
/* - ADC clock from asynchronous clock (PLL) with prescaler 1, */
/* with highest ratio CPU clock frequency vs HSI clock frequency */
/* Unit: CPU cycles. */
#define ADC_CLOCK_RATIO_VS_CPU_HIGHEST (512UL * 16UL * 4UL)
#define ADC_TIMEOUT_DISABLE_CPU_CYCLES (ADC_CLOCK_RATIO_VS_CPU_HIGHEST * 1UL)
#define ADC_TIMEOUT_STOP_CONVERSION_CPU_CYCLES (ADC_CLOCK_RATIO_VS_CPU_HIGHEST * 1UL)
/**
* @}
*/
/* Private macros ------------------------------------------------------------*/
/** @addtogroup ADC_LL_Private_Macros
* @{
*/
/* Check of parameters for configuration of ADC hierarchical scope: */
/* common to several ADC instances. */
#define IS_LL_ADC_COMMON_CLOCK(__CLOCK__) \
( ((__CLOCK__) == LL_ADC_CLOCK_SYNC_PCLK_DIV1) \
|| ((__CLOCK__) == LL_ADC_CLOCK_SYNC_PCLK_DIV2) \
|| ((__CLOCK__) == LL_ADC_CLOCK_SYNC_PCLK_DIV4) \
|| ((__CLOCK__) == LL_ADC_CLOCK_ASYNC_DIV1) \
|| ((__CLOCK__) == LL_ADC_CLOCK_ASYNC_DIV2) \
|| ((__CLOCK__) == LL_ADC_CLOCK_ASYNC_DIV4) \
|| ((__CLOCK__) == LL_ADC_CLOCK_ASYNC_DIV6) \
|| ((__CLOCK__) == LL_ADC_CLOCK_ASYNC_DIV8) \
|| ((__CLOCK__) == LL_ADC_CLOCK_ASYNC_DIV10) \
|| ((__CLOCK__) == LL_ADC_CLOCK_ASYNC_DIV12) \
|| ((__CLOCK__) == LL_ADC_CLOCK_ASYNC_DIV16) \
|| ((__CLOCK__) == LL_ADC_CLOCK_ASYNC_DIV32) \
|| ((__CLOCK__) == LL_ADC_CLOCK_ASYNC_DIV64) \
|| ((__CLOCK__) == LL_ADC_CLOCK_ASYNC_DIV128) \
|| ((__CLOCK__) == LL_ADC_CLOCK_ASYNC_DIV256) \
)
/* Check of parameters for configuration of ADC hierarchical scope: */
/* ADC instance. */
#define IS_LL_ADC_RESOLUTION(__RESOLUTION__) \
( ((__RESOLUTION__) == LL_ADC_RESOLUTION_16B) \
|| ((__RESOLUTION__) == LL_ADC_RESOLUTION_14B) \
|| ((__RESOLUTION__) == LL_ADC_RESOLUTION_12B) \
|| ((__RESOLUTION__) == LL_ADC_RESOLUTION_10B) \
|| ((__RESOLUTION__) == LL_ADC_RESOLUTION_8B) \
)
#define IS_LL_ADC_LEFT_BIT_SHIFT(__LEFT_BIT_SHIFT__) \
( ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_NONE) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_1) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_2) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_3) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_4) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_5) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_6) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_7) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_8) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_9) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_10) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_11) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_12) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_13) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_14) \
|| ((__LEFT_BIT_SHIFT__) == LL_ADC_LEFT_BIT_SHIFT_15) \
)
#define IS_LL_ADC_LOW_POWER(__LOW_POWER__) \
( ((__LOW_POWER__) == LL_ADC_LP_MODE_NONE) \
|| ((__LOW_POWER__) == LL_ADC_LP_AUTOWAIT) \
)
/* Check of parameters for configuration of ADC hierarchical scope: */
/* ADC group regular */
#define IS_LL_ADC_REG_TRIG_SOURCE(__REG_TRIG_SOURCE__) \
( ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_SOFTWARE) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM1_CH1) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM1_CH2) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM1_CH3) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM2_CH2) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM3_TRGO) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM4_CH4) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_EXTI_LINE11) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM8_TRGO) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM8_TRGO2) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM1_TRGO) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM1_TRGO2) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM2_TRGO) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM4_TRGO) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM6_TRGO) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM15_TRGO) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_TIM3_CH4) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_HRTIM_TRG1) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_HRTIM_TRG3) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_LPTIM1_OUT) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_LPTIM2_OUT) \
|| ((__REG_TRIG_SOURCE__) == LL_ADC_REG_TRIG_EXT_LPTIM3_OUT) \
)
#define IS_LL_ADC_REG_CONTINUOUS_MODE(__REG_CONTINUOUS_MODE__) \
( ((__REG_CONTINUOUS_MODE__) == LL_ADC_REG_CONV_SINGLE) \
|| ((__REG_CONTINUOUS_MODE__) == LL_ADC_REG_CONV_CONTINUOUS) \
)
#define IS_LL_ADC_REG_DATA_TRANSFER_MODE(__REG_DATA_TRANSFER_MODE__) \
( ((__REG_DATA_TRANSFER_MODE__) == LL_ADC_REG_DR_TRANSFER) \
|| ((__REG_DATA_TRANSFER_MODE__) == LL_ADC_REG_DMA_TRANSFER_LIMITED) \
|| ((__REG_DATA_TRANSFER_MODE__) == LL_ADC_REG_DMA_TRANSFER_UNLIMITED) \
|| ((__REG_DATA_TRANSFER_MODE__) == LL_ADC_REG_DFSDM_TRANSFER) \
)
#define IS_LL_ADC_REG_OVR_DATA_BEHAVIOR(__REG_OVR_DATA_BEHAVIOR__) \
( ((__REG_OVR_DATA_BEHAVIOR__) == LL_ADC_REG_OVR_DATA_PRESERVED) \
|| ((__REG_OVR_DATA_BEHAVIOR__) == LL_ADC_REG_OVR_DATA_OVERWRITTEN) \
)
#define IS_LL_ADC_REG_SEQ_SCAN_LENGTH(__REG_SEQ_SCAN_LENGTH__) \
( ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_DISABLE) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_2RANKS) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_3RANKS) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_4RANKS) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_5RANKS) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_6RANKS) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_7RANKS) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_8RANKS) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_9RANKS) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_10RANKS) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_11RANKS) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_12RANKS) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_13RANKS) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_14RANKS) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_15RANKS) \
|| ((__REG_SEQ_SCAN_LENGTH__) == LL_ADC_REG_SEQ_SCAN_ENABLE_16RANKS) \
)
#define IS_LL_ADC_REG_SEQ_SCAN_DISCONT_MODE(__REG_SEQ_DISCONT_MODE__) \
( ((__REG_SEQ_DISCONT_MODE__) == LL_ADC_REG_SEQ_DISCONT_DISABLE) \
|| ((__REG_SEQ_DISCONT_MODE__) == LL_ADC_REG_SEQ_DISCONT_1RANK) \
|| ((__REG_SEQ_DISCONT_MODE__) == LL_ADC_REG_SEQ_DISCONT_2RANKS) \
|| ((__REG_SEQ_DISCONT_MODE__) == LL_ADC_REG_SEQ_DISCONT_3RANKS) \
|| ((__REG_SEQ_DISCONT_MODE__) == LL_ADC_REG_SEQ_DISCONT_4RANKS) \
|| ((__REG_SEQ_DISCONT_MODE__) == LL_ADC_REG_SEQ_DISCONT_5RANKS) \
|| ((__REG_SEQ_DISCONT_MODE__) == LL_ADC_REG_SEQ_DISCONT_6RANKS) \
|| ((__REG_SEQ_DISCONT_MODE__) == LL_ADC_REG_SEQ_DISCONT_7RANKS) \
|| ((__REG_SEQ_DISCONT_MODE__) == LL_ADC_REG_SEQ_DISCONT_8RANKS) \
)
/* Check of parameters for configuration of ADC hierarchical scope: */
/* ADC group injected */
#if defined(STM32H745xx) || defined(STM32H745xG) || defined(STM32H742xx) || defined(STM32H743xx) || defined(STM32H747xG) || defined(STM32H747xx) || defined(STM32H750xx) || defined(STM32H753xx) || defined(STM32H755xx) || defined(STM32H757xx)
#define IS_LL_ADC_INJ_TRIG_SOURCE(__INJ_TRIG_SOURCE__) \
( ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_SOFTWARE) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM1_TRGO) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM1_CH4) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM2_TRGO) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM2_CH1) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM3_CH4) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM4_TRGO) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_EXTI_LINE15) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM8_CH4) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM1_TRGO2) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM8_TRGO) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM8_TRGO2) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM3_CH3) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM3_TRGO) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM3_CH1) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM6_TRGO) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM15_TRGO) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_HRTIM_TRG2) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_HRTIM_TRG4) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_LPTIM1_OUT) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_LPTIM2_OUT) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_LPTIM3_OUT) \
)
#else
#define IS_LL_ADC_INJ_TRIG_SOURCE(__INJ_TRIG_SOURCE__) \
( ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_SOFTWARE) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM1_TRGO) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM1_CH4) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM2_TRGO) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM2_CH1) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM3_CH4) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM4_TRGO) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_EXTI_LINE15) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM8_CH4) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM1_TRGO2) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM8_TRGO) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM8_TRGO2) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM3_CH3) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM3_TRGO) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM3_CH1) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM6_TRGO) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_TIM15_TRGO) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_LPTIM1_OUT) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_LPTIM2_OUT) \
|| ((__INJ_TRIG_SOURCE__) == LL_ADC_INJ_TRIG_EXT_LPTIM3_OUT) \
)
#endif
#define IS_LL_ADC_INJ_TRIG_EXT_EDGE(__INJ_TRIG_EXT_EDGE__) \
( ((__INJ_TRIG_EXT_EDGE__) == LL_ADC_INJ_TRIG_EXT_RISING) \
|| ((__INJ_TRIG_EXT_EDGE__) == LL_ADC_INJ_TRIG_EXT_FALLING) \
|| ((__INJ_TRIG_EXT_EDGE__) == LL_ADC_INJ_TRIG_EXT_RISINGFALLING) \
)
#define IS_LL_ADC_INJ_TRIG_AUTO(__INJ_TRIG_AUTO__) \
( ((__INJ_TRIG_AUTO__) == LL_ADC_INJ_TRIG_INDEPENDENT) \
|| ((__INJ_TRIG_AUTO__) == LL_ADC_INJ_TRIG_FROM_GRP_REGULAR) \
)
#define IS_LL_ADC_INJ_SEQ_SCAN_LENGTH(__INJ_SEQ_SCAN_LENGTH__) \
( ((__INJ_SEQ_SCAN_LENGTH__) == LL_ADC_INJ_SEQ_SCAN_DISABLE) \
|| ((__INJ_SEQ_SCAN_LENGTH__) == LL_ADC_INJ_SEQ_SCAN_ENABLE_2RANKS) \
|| ((__INJ_SEQ_SCAN_LENGTH__) == LL_ADC_INJ_SEQ_SCAN_ENABLE_3RANKS) \
|| ((__INJ_SEQ_SCAN_LENGTH__) == LL_ADC_INJ_SEQ_SCAN_ENABLE_4RANKS) \
)
#define IS_LL_ADC_INJ_SEQ_SCAN_DISCONT_MODE(__INJ_SEQ_DISCONT_MODE__) \
( ((__INJ_SEQ_DISCONT_MODE__) == LL_ADC_INJ_SEQ_DISCONT_DISABLE) \
|| ((__INJ_SEQ_DISCONT_MODE__) == LL_ADC_INJ_SEQ_DISCONT_1RANK) \
)
/* Check of parameters for configuration of ADC hierarchical scope: */
/* multimode. */
#define IS_LL_ADC_MULTI_MODE(__MULTI_MODE__) \
( ((__MULTI_MODE__) == LL_ADC_MULTI_INDEPENDENT) \
|| ((__MULTI_MODE__) == LL_ADC_MULTI_DUAL_REG_SIMULT) \
|| ((__MULTI_MODE__) == LL_ADC_MULTI_DUAL_REG_INTERL) \
|| ((__MULTI_MODE__) == LL_ADC_MULTI_DUAL_INJ_SIMULT) \
|| ((__MULTI_MODE__) == LL_ADC_MULTI_DUAL_INJ_ALTERN) \
|| ((__MULTI_MODE__) == LL_ADC_MULTI_DUAL_REG_SIM_INJ_SIM) \
|| ((__MULTI_MODE__) == LL_ADC_MULTI_DUAL_REG_SIM_INJ_ALT) \
|| ((__MULTI_MODE__) == LL_ADC_MULTI_DUAL_REG_INT_INJ_SIM) \
)
#define IS_LL_ADC_MULTI_DMA_TRANSFER(__MULTI_DMA_TRANSFER__) \
( ((__MULTI_DMA_TRANSFER__) == LL_ADC_MULTI_REG_DMA_EACH_ADC) \
|| ((__MULTI_DMA_TRANSFER__) == LL_ADC_MULTI_REG_DMA_RES_32_10B) \
|| ((__MULTI_DMA_TRANSFER__) == LL_ADC_MULTI_REG_DMA_RES_8B) \
)
#define IS_LL_ADC_MULTI_TWOSMP_DELAY(__MULTI_TWOSMP_DELAY__) \
( ((__MULTI_TWOSMP_DELAY__) == LL_ADC_MULTI_TWOSMP_DELAY_1CYCLE_5) \
|| ((__MULTI_TWOSMP_DELAY__) == LL_ADC_MULTI_TWOSMP_DELAY_2CYCLES_5) \
|| ((__MULTI_TWOSMP_DELAY__) == LL_ADC_MULTI_TWOSMP_DELAY_3CYCLES_5) \
|| ((__MULTI_TWOSMP_DELAY__) == LL_ADC_MULTI_TWOSMP_DELAY_4CYCLES_5) \
|| ((__MULTI_TWOSMP_DELAY__) == LL_ADC_MULTI_TWOSMP_DELAY_4CYCLES_5_8_BITS) \
|| ((__MULTI_TWOSMP_DELAY__) == LL_ADC_MULTI_TWOSMP_DELAY_5CYCLES_5) \
|| ((__MULTI_TWOSMP_DELAY__) == LL_ADC_MULTI_TWOSMP_DELAY_5CYCLES_5_10_BITS) \
|| ((__MULTI_TWOSMP_DELAY__) == LL_ADC_MULTI_TWOSMP_DELAY_6CYCLES) \
|| ((__MULTI_TWOSMP_DELAY__) == LL_ADC_MULTI_TWOSMP_DELAY_6CYCLES_5) \
|| ((__MULTI_TWOSMP_DELAY__) == LL_ADC_MULTI_TWOSMP_DELAY_6CYCLES_5_12_BITS) \
|| ((__MULTI_TWOSMP_DELAY__) == LL_ADC_MULTI_TWOSMP_DELAY_7CYCLES_5) \
|| ((__MULTI_TWOSMP_DELAY__) == LL_ADC_MULTI_TWOSMP_DELAY_8CYCLES) \
|| ((__MULTI_TWOSMP_DELAY__) == LL_ADC_MULTI_TWOSMP_DELAY_9CYCLES) \
)
#define IS_LL_ADC_MULTI_MASTER_SLAVE(__MULTI_MASTER_SLAVE__) \
( ((__MULTI_MASTER_SLAVE__) == LL_ADC_MULTI_MASTER) \
|| ((__MULTI_MASTER_SLAVE__) == LL_ADC_MULTI_SLAVE) \
|| ((__MULTI_MASTER_SLAVE__) == LL_ADC_MULTI_MASTER_SLAVE) \
)
/**
* @}
*/
/* Private function prototypes -----------------------------------------------*/
/* Exported functions --------------------------------------------------------*/
/** @addtogroup ADC_LL_Exported_Functions
* @{
*/
/** @addtogroup ADC_LL_EF_Init
* @{
*/
/**
* @brief De-initialize registers of all ADC instances belonging to
* the same ADC common instance to their default reset values.
* @note This function is performing a hard reset, using high level
* clock source RCC ADC reset.
* Caution: On this STM32 series, if several ADC instances are available
* on the selected device, RCC ADC reset will reset
* all ADC instances belonging to the common ADC instance.
* To de-initialize only 1 ADC instance, use
* function @ref LL_ADC_DeInit().
* @param ADCxy_COMMON ADC common instance
* (can be set directly from CMSIS definition or by using helper macro @ref __LL_ADC_COMMON_INSTANCE() )
* @retval An ErrorStatus enumeration value:
* - SUCCESS: ADC common registers are de-initialized
* - ERROR: not applicable
*/
ErrorStatus LL_ADC_CommonDeInit(ADC_Common_TypeDef *ADCxy_COMMON)
{
/* Check the parameters */
assert_param(IS_ADC_COMMON_INSTANCE(ADCxy_COMMON));
if (ADCxy_COMMON == ADC12_COMMON)
{
/* Force reset of ADC clock (core clock) */
LL_AHB1_GRP1_ForceReset(LL_AHB1_GRP1_PERIPH_ADC12);
/* Release reset of ADC clock (core clock) */
LL_AHB1_GRP1_ReleaseReset(LL_AHB1_GRP1_PERIPH_ADC12);
}
else
{
#if defined (ADC3)
/* Force reset of ADC clock (core clock) */
LL_AHB4_GRP1_ForceReset(LL_AHB4_GRP1_PERIPH_ADC3);
/* Release reset of ADC clock (core clock) */
LL_AHB4_GRP1_ReleaseReset(LL_AHB4_GRP1_PERIPH_ADC3);
#endif
}
return SUCCESS;
}
/**
* @brief Initialize some features of ADC common parameters
* (all ADC instances belonging to the same ADC common instance)
* and multimode (for devices with several ADC instances available).
* @note The setting of ADC common parameters is conditioned to
* ADC instances state:
* All ADC instances belonging to the same ADC common instance
* must be disabled.
* @param ADCxy_COMMON ADC common instance
* (can be set directly from CMSIS definition or by using helper macro @ref __LL_ADC_COMMON_INSTANCE() )
* @param ADC_CommonInitStruct Pointer to a @ref LL_ADC_CommonInitTypeDef structure
* @retval An ErrorStatus enumeration value:
* - SUCCESS: ADC common registers are initialized
* - ERROR: ADC common registers are not initialized
*/
ErrorStatus LL_ADC_CommonInit(ADC_Common_TypeDef *ADCxy_COMMON, LL_ADC_CommonInitTypeDef *ADC_CommonInitStruct)
{
ErrorStatus status = SUCCESS;
/* Check the parameters */
assert_param(IS_ADC_COMMON_INSTANCE(ADCxy_COMMON));
assert_param(IS_LL_ADC_COMMON_CLOCK(ADC_CommonInitStruct->CommonClock));
assert_param(IS_LL_ADC_MULTI_MODE(ADC_CommonInitStruct->Multimode));
if (ADC_CommonInitStruct->Multimode != LL_ADC_MULTI_INDEPENDENT)
{
assert_param(IS_LL_ADC_MULTI_DMA_TRANSFER(ADC_CommonInitStruct->MultiDMATransfer));
assert_param(IS_LL_ADC_MULTI_TWOSMP_DELAY(ADC_CommonInitStruct->MultiTwoSamplingDelay));
}
/* Note: Hardware constraint (refer to description of functions */
/* "LL_ADC_SetCommonXXX()" and "LL_ADC_SetMultiXXX()"): */
/* On this STM32 series, setting of these features is conditioned to */
/* ADC state: */
/* All ADC instances of the ADC common group must be disabled. */
if (__LL_ADC_IS_ENABLED_ALL_COMMON_INSTANCE(ADCxy_COMMON) == 0UL)
{
/* Configuration of ADC hierarchical scope: */
/* - common to several ADC */
/* (all ADC instances belonging to the same ADC common instance) */
/* - Set ADC clock (conversion clock) */
/* - multimode (if several ADC instances available on the */
/* selected device) */
/* - Set ADC multimode configuration */
/* - Set ADC multimode DMA transfer */
/* - Set ADC multimode: delay between 2 sampling phases */
if (ADC_CommonInitStruct->Multimode != LL_ADC_MULTI_INDEPENDENT)
{
MODIFY_REG(ADCxy_COMMON->CCR,
ADC_CCR_CKMODE
| ADC_CCR_PRESC
| ADC_CCR_DUAL
| ADC_CCR_DAMDF
| ADC_CCR_DELAY
,
ADC_CommonInitStruct->CommonClock
| ADC_CommonInitStruct->Multimode
| ADC_CommonInitStruct->MultiDMATransfer
| ADC_CommonInitStruct->MultiTwoSamplingDelay
);
}
else
{
MODIFY_REG(ADCxy_COMMON->CCR,
ADC_CCR_CKMODE
| ADC_CCR_PRESC
| ADC_CCR_DUAL
| ADC_CCR_DAMDF
| ADC_CCR_DELAY
,
ADC_CommonInitStruct->CommonClock
| LL_ADC_MULTI_INDEPENDENT
);
}
}
else
{
/* Initialization error: One or several ADC instances belonging to */
/* the same ADC common instance are not disabled. */
status = ERROR;
}
return status;
}
/**
* @brief Set each @ref LL_ADC_CommonInitTypeDef field to default value.
* @param ADC_CommonInitStruct Pointer to a @ref LL_ADC_CommonInitTypeDef structure
* whose fields will be set to default values.
* @retval None
*/
void LL_ADC_CommonStructInit(LL_ADC_CommonInitTypeDef *ADC_CommonInitStruct)
{
/* Set ADC_CommonInitStruct fields to default values */
/* Set fields of ADC common */
/* (all ADC instances belonging to the same ADC common instance) */
ADC_CommonInitStruct->CommonClock = LL_ADC_CLOCK_SYNC_PCLK_DIV2;
/* Set fields of ADC multimode */
ADC_CommonInitStruct->Multimode = LL_ADC_MULTI_INDEPENDENT;
ADC_CommonInitStruct->MultiDMATransfer = LL_ADC_MULTI_REG_DMA_EACH_ADC;
ADC_CommonInitStruct->MultiTwoSamplingDelay = LL_ADC_MULTI_TWOSMP_DELAY_1CYCLE_5;
}
/**
* @brief De-initialize registers of the selected ADC instance
* to their default reset values.
* @note To reset all ADC instances quickly (perform a hard reset),
* use function @ref LL_ADC_CommonDeInit().
* @note If this functions returns error status, it means that ADC instance
* is in an unknown state.
* In this case, perform a hard reset using high level
* clock source RCC ADC reset.
* Caution: On this STM32 series, if several ADC instances are available
* on the selected device, RCC ADC reset will reset
* all ADC instances belonging to the common ADC instance.
* Refer to function @ref LL_ADC_CommonDeInit().
* @param ADCx ADC instance
* @retval An ErrorStatus enumeration value:
* - SUCCESS: ADC registers are de-initialized
* - ERROR: ADC registers are not de-initialized
*/
ErrorStatus LL_ADC_DeInit(ADC_TypeDef *ADCx)
{
ErrorStatus status = SUCCESS;
__IO uint32_t timeout_cpu_cycles = 0UL;
/* Check the parameters */
assert_param(IS_ADC_ALL_INSTANCE(ADCx));
/* Disable ADC instance if not already disabled. */
if (LL_ADC_IsEnabled(ADCx) == 1UL)
{
/* Set ADC group regular trigger source to SW start to ensure to not */
/* have an external trigger event occurring during the conversion stop */
/* ADC disable process. */
LL_ADC_REG_SetTriggerSource(ADCx, LL_ADC_REG_TRIG_SOFTWARE);
/* Stop potential ADC conversion on going on ADC group regular. */
if (LL_ADC_REG_IsConversionOngoing(ADCx) != 0UL)
{
if (LL_ADC_REG_IsStopConversionOngoing(ADCx) == 0UL)
{
LL_ADC_REG_StopConversion(ADCx);
}
}
/* Set ADC group injected trigger source to SW start to ensure to not */
/* have an external trigger event occurring during the conversion stop */
/* ADC disable process. */
LL_ADC_INJ_SetTriggerSource(ADCx, LL_ADC_INJ_TRIG_SOFTWARE);
/* Stop potential ADC conversion on going on ADC group injected. */
if (LL_ADC_INJ_IsConversionOngoing(ADCx) != 0UL)
{
if (LL_ADC_INJ_IsStopConversionOngoing(ADCx) == 0UL)
{
LL_ADC_INJ_StopConversion(ADCx);
}
}
/* Wait for ADC conversions are effectively stopped */
timeout_cpu_cycles = ADC_TIMEOUT_STOP_CONVERSION_CPU_CYCLES;
while ((LL_ADC_REG_IsStopConversionOngoing(ADCx)
| LL_ADC_INJ_IsStopConversionOngoing(ADCx)) == 1UL)
{
timeout_cpu_cycles--;
if (timeout_cpu_cycles == 0UL)
{
/* Time-out error */
status = ERROR;
break;
}
}
/* Flush group injected contexts queue (register JSQR): */
/* Note: Bit JQM must be set to empty the contexts queue (otherwise */
/* contexts queue is maintained with the last active context). */
LL_ADC_INJ_SetQueueMode(ADCx, LL_ADC_INJ_QUEUE_2CONTEXTS_END_EMPTY);
/* Disable the ADC instance */
LL_ADC_Disable(ADCx);
/* Wait for ADC instance is effectively disabled */
timeout_cpu_cycles = ADC_TIMEOUT_DISABLE_CPU_CYCLES;
while (LL_ADC_IsDisableOngoing(ADCx) == 1UL)
{
timeout_cpu_cycles--;
if (timeout_cpu_cycles == 0UL)
{
/* Time-out error */
status = ERROR;
break;
}
}
}
/* Check whether ADC state is compliant with expected state */
if (READ_BIT(ADCx->CR,
(ADC_CR_JADSTP | ADC_CR_ADSTP | ADC_CR_JADSTART | ADC_CR_ADSTART
| ADC_CR_ADDIS | ADC_CR_ADEN)
)
== 0UL)
{
/* ========== Reset ADC registers ========== */
/* Reset register IER */
CLEAR_BIT(ADCx->IER,
(LL_ADC_IT_ADRDY
| LL_ADC_IT_EOC
| LL_ADC_IT_EOS
| LL_ADC_IT_OVR
| LL_ADC_IT_EOSMP
| LL_ADC_IT_JEOC
| LL_ADC_IT_JEOS
| LL_ADC_IT_JQOVF
| LL_ADC_IT_AWD1
| LL_ADC_IT_AWD2
| LL_ADC_IT_AWD3
)
);
/* Reset register ISR */
SET_BIT(ADCx->ISR,
(LL_ADC_FLAG_ADRDY
| LL_ADC_FLAG_EOC
| LL_ADC_FLAG_EOS
| LL_ADC_FLAG_OVR
| LL_ADC_FLAG_EOSMP
| LL_ADC_FLAG_JEOC
| LL_ADC_FLAG_JEOS
| LL_ADC_FLAG_JQOVF
| LL_ADC_FLAG_AWD1
| LL_ADC_FLAG_AWD2
| LL_ADC_FLAG_AWD3
)
);
/* Reset register CR */
/* - Bits ADC_CR_JADSTP, ADC_CR_ADSTP, ADC_CR_JADSTART, ADC_CR_ADSTART, */
/* ADC_CR_ADCAL, ADC_CR_ADDIS, ADC_CR_ADEN are in */
/* access mode "read-set": no direct reset applicable. */
/* - Reset Calibration mode to default setting (single ended). */
/* - Disable ADC internal voltage regulator. */
/* - Enable ADC deep power down. */
/* Note: ADC internal voltage regulator disable and ADC deep power */
/* down enable are conditioned to ADC state disabled: */
/* already done above. */
CLEAR_BIT(ADCx->CR, ADC_CR_ADVREGEN | ADC_CR_ADCALDIF);
SET_BIT(ADCx->CR, ADC_CR_DEEPPWD);
/* Reset register CFGR */
CLEAR_BIT(ADCx->CFGR,
(ADC_CFGR_AWD1CH | ADC_CFGR_JAUTO | ADC_CFGR_JAWD1EN
| ADC_CFGR_AWD1EN | ADC_CFGR_AWD1SGL | ADC_CFGR_JQM
| ADC_CFGR_JDISCEN | ADC_CFGR_DISCNUM | ADC_CFGR_DISCEN
| ADC_CFGR_AUTDLY | ADC_CFGR_CONT | ADC_CFGR_OVRMOD
| ADC_CFGR_EXTEN | ADC_CFGR_EXTSEL | ADC_CFGR_RES
| ADC_CFGR_DMNGT)
);
SET_BIT(ADCx->CFGR, ADC_CFGR_JQDIS);
/* Reset register CFGR2 */
CLEAR_BIT(ADCx->CFGR2,
(ADC_CFGR2_LSHIFT | ADC_CFGR2_OVSR | ADC_CFGR2_RSHIFT1
| ADC_CFGR2_RSHIFT4 | ADC_CFGR2_RSHIFT3 | ADC_CFGR2_RSHIFT2
| ADC_CFGR2_RSHIFT1 | ADC_CFGR2_ROVSM | ADC_CFGR2_TROVS
| ADC_CFGR2_OVSS | ADC_CFGR2_JOVSE | ADC_CFGR2_ROVSE)
);
/* Reset register SMPR1 */
CLEAR_BIT(ADCx->SMPR1,
(ADC_SMPR1_SMP9 | ADC_SMPR1_SMP8 | ADC_SMPR1_SMP7
| ADC_SMPR1_SMP6 | ADC_SMPR1_SMP5 | ADC_SMPR1_SMP4
| ADC_SMPR1_SMP3 | ADC_SMPR1_SMP2 | ADC_SMPR1_SMP1)
);
/* Reset register SMPR2 */
CLEAR_BIT(ADCx->SMPR2,
(ADC_SMPR2_SMP19 | ADC_SMPR2_SMP18 | ADC_SMPR2_SMP17
| ADC_SMPR2_SMP16 | ADC_SMPR2_SMP15 | ADC_SMPR2_SMP14
| ADC_SMPR2_SMP13 | ADC_SMPR2_SMP12 | ADC_SMPR2_SMP11
| ADC_SMPR2_SMP10)
);
/* Reset register TR1 */
#if defined(ADC_VER_V5_V90)
if (ADCx == ADC3)
{
/* Reset register TR1 */
MODIFY_REG(ADCx->LTR1_TR1, ADC3_TR1_AWDFILT | ADC3_TR1_HT1 | ADC3_TR1_LT1, ADC3_TR1_HT1);
/* Reset register TR2 */
MODIFY_REG(ADCx->HTR1_TR2, ADC3_TR2_HT2 | ADC3_TR2_LT2, ADC3_TR2_HT2);
/* Reset register TR3 */
MODIFY_REG(ADCx->RES1_TR3, ADC3_TR3_HT3 | ADC3_TR3_LT3, ADC3_TR3_HT3);
}
else
{
CLEAR_BIT(ADCx->LTR1_TR1, ADC_LTR_LT);
SET_BIT(ADCx->HTR1_TR2, ADC_HTR_HT);
CLEAR_BIT(ADCx->LTR2_DIFSEL, ADC_LTR_LT);
SET_BIT(ADCx->HTR2_CALFACT, ADC_HTR_HT);
CLEAR_BIT(ADCx->LTR3_RES10, ADC_LTR_LT);
SET_BIT(ADCx->HTR3_RES11, ADC_HTR_HT);
}
#else
CLEAR_BIT(ADCx->LTR1, ADC_LTR_LT);
SET_BIT(ADCx->HTR1, ADC_HTR_HT);
CLEAR_BIT(ADCx->LTR2, ADC_LTR_LT);
SET_BIT(ADCx->HTR2, ADC_HTR_HT);
CLEAR_BIT(ADCx->LTR3, ADC_LTR_LT);
SET_BIT(ADCx->HTR3, ADC_HTR_HT);
#endif
/* Reset register SQR1 */
CLEAR_BIT(ADCx->SQR1,
(ADC_SQR1_SQ4 | ADC_SQR1_SQ3 | ADC_SQR1_SQ2
| ADC_SQR1_SQ1 | ADC_SQR1_L)
);
/* Reset register SQR2 */
CLEAR_BIT(ADCx->SQR2,
(ADC_SQR2_SQ9 | ADC_SQR2_SQ8 | ADC_SQR2_SQ7
| ADC_SQR2_SQ6 | ADC_SQR2_SQ5)
);
/* Reset register SQR3 */
CLEAR_BIT(ADCx->SQR3,
(ADC_SQR3_SQ14 | ADC_SQR3_SQ13 | ADC_SQR3_SQ12
| ADC_SQR3_SQ11 | ADC_SQR3_SQ10)
);
/* Reset register SQR4 */
CLEAR_BIT(ADCx->SQR4, ADC_SQR4_SQ16 | ADC_SQR4_SQ15);
/* Reset register JSQR */
CLEAR_BIT(ADCx->JSQR,
(ADC_JSQR_JL
| ADC_JSQR_JEXTSEL | ADC_JSQR_JEXTEN
| ADC_JSQR_JSQ4 | ADC_JSQR_JSQ3
| ADC_JSQR_JSQ2 | ADC_JSQR_JSQ1)
);
/* Reset register DR */
/* Note: bits in access mode read only, no direct reset applicable */
/* Reset register OFR1 */
CLEAR_BIT(ADCx->OFR1, ADC_OFR1_OFFSET1 | ADC_OFR1_OFFSET1_CH | ADC_OFR1_SSATE);
/* Reset register OFR2 */
CLEAR_BIT(ADCx->OFR2, ADC_OFR2_OFFSET2 | ADC_OFR2_OFFSET2_CH | ADC_OFR2_SSATE);
/* Reset register OFR3 */
CLEAR_BIT(ADCx->OFR3, ADC_OFR3_OFFSET3 | ADC_OFR3_OFFSET3_CH | ADC_OFR3_SSATE);
/* Reset register OFR4 */
CLEAR_BIT(ADCx->OFR4, ADC_OFR4_OFFSET4 | ADC_OFR4_OFFSET4_CH | ADC_OFR4_SSATE);
/* Reset registers JDR1, JDR2, JDR3, JDR4 */
/* Note: bits in access mode read only, no direct reset applicable */
/* Reset register AWD2CR */
CLEAR_BIT(ADCx->AWD2CR, ADC_AWD2CR_AWD2CH);
/* Reset register AWD3CR */
CLEAR_BIT(ADCx->AWD3CR, ADC_AWD3CR_AWD3CH);
/* Reset register DIFSEL */
#if defined(ADC_VER_V5_V90)
if (ADCx == ADC3)
{
CLEAR_BIT(ADCx->LTR2_DIFSEL, ADC_DIFSEL_DIFSEL);
/* Reset register CALFACT */
CLEAR_BIT(ADCx->HTR2_CALFACT, ADC_CALFACT_CALFACT_D | ADC_CALFACT_CALFACT_S);
}
else
{
CLEAR_BIT(ADCx->DIFSEL_RES12, ADC_DIFSEL_DIFSEL);
/* Reset register CALFACT */
CLEAR_BIT(ADCx->CALFACT_RES13, ADC_CALFACT_CALFACT_D | ADC_CALFACT_CALFACT_S);
/* Reset register CALFACT2 */
CLEAR_BIT(ADCx->CALFACT2_RES14, ADC_CALFACT2_LINCALFACT);
}
#else
CLEAR_BIT(ADCx->DIFSEL, ADC_DIFSEL_DIFSEL);
/* Reset register CALFACT */
CLEAR_BIT(ADCx->CALFACT, ADC_CALFACT_CALFACT_D | ADC_CALFACT_CALFACT_S);
/* Reset register CALFACT2 */
CLEAR_BIT(ADCx->CALFACT2, ADC_CALFACT2_LINCALFACT);
#endif
}
else
{
/* ADC instance is in an unknown state */
/* Need to performing a hard reset of ADC instance, using high level */
/* clock source RCC ADC reset. */
/* Caution: On this STM32 series, if several ADC instances are available */
/* on the selected device, RCC ADC reset will reset */
/* all ADC instances belonging to the common ADC instance. */
/* Caution: On this STM32 series, if several ADC instances are available */
/* on the selected device, RCC ADC reset will reset */
/* all ADC instances belonging to the common ADC instance. */
status = ERROR;
}
return status;
}
/**
* @brief Initialize some features of ADC instance.
* @note These parameters have an impact on ADC scope: ADC instance.
* Affects both group regular and group injected (availability
* of ADC group injected depends on STM32 families).
* Refer to corresponding unitary functions into
* @ref ADC_LL_EF_Configuration_ADC_Instance .
* @note The setting of these parameters by function @ref LL_ADC_Init()
* is conditioned to ADC state:
* ADC instance must be disabled.
* This condition is applied to all ADC features, for efficiency
* and compatibility over all STM32 families. However, the different
* features can be set under different ADC state conditions
* (setting possible with ADC enabled without conversion on going,
* ADC enabled with conversion on going, ...)
* Each feature can be updated afterwards with a unitary function
* and potentially with ADC in a different state than disabled,
* refer to description of each function for setting
* conditioned to ADC state.
* @note After using this function, some other features must be configured
* using LL unitary functions.
* The minimum configuration remaining to be done is:
* - Set ADC group regular or group injected sequencer:
* map channel on the selected sequencer rank.
* Refer to function @ref LL_ADC_REG_SetSequencerRanks().
* - Set ADC channel sampling time
* Refer to function LL_ADC_SetChannelSamplingTime();
* @param ADCx ADC instance
* @param ADC_InitStruct Pointer to a @ref LL_ADC_REG_InitTypeDef structure
* @retval An ErrorStatus enumeration value:
* - SUCCESS: ADC registers are initialized
* - ERROR: ADC registers are not initialized
*/
ErrorStatus LL_ADC_Init(ADC_TypeDef *ADCx, LL_ADC_InitTypeDef *ADC_InitStruct)
{
ErrorStatus status = SUCCESS;
/* Check the parameters */
assert_param(IS_ADC_ALL_INSTANCE(ADCx));
assert_param(IS_LL_ADC_RESOLUTION(ADC_InitStruct->Resolution));
assert_param(IS_LL_ADC_LEFT_BIT_SHIFT(ADC_InitStruct->LeftBitShift));
assert_param(IS_LL_ADC_LOW_POWER(ADC_InitStruct->LowPowerMode));
/* Note: Hardware constraint (refer to description of this function): */
/* ADC instance must be disabled. */
if (LL_ADC_IsEnabled(ADCx) == 0UL)
{
/* Configuration of ADC hierarchical scope: */
/* - ADC instance */
/* - Set ADC data resolution */
/* - Set ADC conversion data alignment */
/* - Set ADC low power mode */
#if defined(ADC_VER_V5_V90)
if(ADCx==ADC3)
{
MODIFY_REG(ADCx->CFGR,
ADC3_CFGR_RES
| ADC_CFGR_AUTDLY
,
((__LL_ADC12_RESOLUTION_TO_ADC3(ADC_InitStruct->Resolution) & (ADC_CFGR_RES_1 | ADC_CFGR_RES_0)) << 1UL)
| ADC_InitStruct->LowPowerMode
);
}
else
{
MODIFY_REG(ADCx->CFGR,
ADC_CFGR_RES
| ADC_CFGR_AUTDLY
,
ADC_InitStruct->Resolution
| ADC_InitStruct->LowPowerMode
);
}
#else
MODIFY_REG(ADCx->CFGR,
ADC_CFGR_RES
| ADC_CFGR_AUTDLY
,
ADC_InitStruct->Resolution
| ADC_InitStruct->LowPowerMode
);
#endif
MODIFY_REG(ADCx->CFGR2, ADC_CFGR2_LSHIFT, ADC_InitStruct->LeftBitShift);
}
else
{
/* Initialization error: ADC instance is not disabled. */
status = ERROR;
}
return status;
}
/**
* @brief Set each @ref LL_ADC_InitTypeDef field to default value.
* @param ADC_InitStruct Pointer to a @ref LL_ADC_InitTypeDef structure
* whose fields will be set to default values.
* @retval None
*/
void LL_ADC_StructInit(LL_ADC_InitTypeDef *ADC_InitStruct)
{
/* Set ADC_InitStruct fields to default values */
/* Set fields of ADC instance */
ADC_InitStruct->Resolution = LL_ADC_RESOLUTION_16B;
ADC_InitStruct->LeftBitShift = LL_ADC_LEFT_BIT_SHIFT_NONE;
ADC_InitStruct->LowPowerMode = LL_ADC_LP_MODE_NONE;
}
/**
* @brief Initialize some features of ADC group regular.
* @note These parameters have an impact on ADC scope: ADC group regular.
* Refer to corresponding unitary functions into
* @ref ADC_LL_EF_Configuration_ADC_Group_Regular
* (functions with prefix "REG").
* @note The setting of these parameters by function @ref LL_ADC_Init()
* is conditioned to ADC state:
* ADC instance must be disabled.
* This condition is applied to all ADC features, for efficiency
* and compatibility over all STM32 families. However, the different
* features can be set under different ADC state conditions
* (setting possible with ADC enabled without conversion on going,
* ADC enabled with conversion on going, ...)
* Each feature can be updated afterwards with a unitary function
* and potentially with ADC in a different state than disabled,
* refer to description of each function for setting
* conditioned to ADC state.
* @note After using this function, other features must be configured
* using LL unitary functions.
* The minimum configuration remaining to be done is:
* - Set ADC group regular or group injected sequencer:
* map channel on the selected sequencer rank.
* Refer to function @ref LL_ADC_REG_SetSequencerRanks().
* - Set ADC channel sampling time
* Refer to function LL_ADC_SetChannelSamplingTime();
* @param ADCx ADC instance
* @param ADC_REG_InitStruct Pointer to a @ref LL_ADC_REG_InitTypeDef structure
* @retval An ErrorStatus enumeration value:
* - SUCCESS: ADC registers are initialized
* - ERROR: ADC registers are not initialized
*/
ErrorStatus LL_ADC_REG_Init(ADC_TypeDef *ADCx, LL_ADC_REG_InitTypeDef *ADC_REG_InitStruct)
{
ErrorStatus status = SUCCESS;
/* Check the parameters */
assert_param(IS_ADC_ALL_INSTANCE(ADCx));
assert_param(IS_LL_ADC_REG_TRIG_SOURCE(ADC_REG_InitStruct->TriggerSource));
assert_param(IS_LL_ADC_REG_SEQ_SCAN_LENGTH(ADC_REG_InitStruct->SequencerLength));
if (ADC_REG_InitStruct->SequencerLength != LL_ADC_REG_SEQ_SCAN_DISABLE)
{
assert_param(IS_LL_ADC_REG_SEQ_SCAN_DISCONT_MODE(ADC_REG_InitStruct->SequencerDiscont));
/* ADC group regular continuous mode and discontinuous mode */
/* can not be enabled simultenaeously */
assert_param((ADC_REG_InitStruct->ContinuousMode == LL_ADC_REG_CONV_SINGLE)
|| (ADC_REG_InitStruct->SequencerDiscont == LL_ADC_REG_SEQ_DISCONT_DISABLE));
}
assert_param(IS_LL_ADC_REG_CONTINUOUS_MODE(ADC_REG_InitStruct->ContinuousMode));
assert_param(IS_LL_ADC_REG_DATA_TRANSFER_MODE(ADC_REG_InitStruct->DataTransferMode));
assert_param(IS_LL_ADC_REG_OVR_DATA_BEHAVIOR(ADC_REG_InitStruct->Overrun));
/* Note: Hardware constraint (refer to description of this function): */
/* ADC instance must be disabled. */
if (LL_ADC_IsEnabled(ADCx) == 0UL)
{
/* Configuration of ADC hierarchical scope: */
/* - ADC group regular */
/* - Set ADC group regular trigger source */
/* - Set ADC group regular sequencer length */
/* - Set ADC group regular sequencer discontinuous mode */
/* - Set ADC group regular continuous mode */
/* - Set ADC group regular conversion data transfer: no transfer or */
/* transfer by DMA, and DMA requests mode */
/* - Set ADC group regular overrun behavior */
/* Note: On this STM32 series, ADC trigger edge is set to value 0x0 by */
/* setting of trigger source to SW start. */
if (ADC_REG_InitStruct->SequencerLength != LL_ADC_REG_SEQ_SCAN_DISABLE)
{
MODIFY_REG(ADCx->CFGR,
ADC_CFGR_EXTSEL
| ADC_CFGR_EXTEN
| ADC_CFGR_DISCEN
| ADC_CFGR_DISCNUM
| ADC_CFGR_CONT
| ADC_CFGR_DMNGT
| ADC_CFGR_OVRMOD
,
ADC_REG_InitStruct->TriggerSource
| ADC_REG_InitStruct->SequencerDiscont
| ADC_REG_InitStruct->ContinuousMode
| ADC_REG_InitStruct->DataTransferMode
| ADC_REG_InitStruct->Overrun
);
}
else
{
MODIFY_REG(ADCx->CFGR,
ADC_CFGR_EXTSEL
| ADC_CFGR_EXTEN
| ADC_CFGR_DISCEN
| ADC_CFGR_DISCNUM
| ADC_CFGR_CONT
| ADC_CFGR_DMNGT
| ADC_CFGR_OVRMOD
,
ADC_REG_InitStruct->TriggerSource
| LL_ADC_REG_SEQ_DISCONT_DISABLE
| ADC_REG_InitStruct->ContinuousMode
| ADC_REG_InitStruct->DataTransferMode
| ADC_REG_InitStruct->Overrun
);
}
/* Set ADC group regular sequencer length and scan direction */
LL_ADC_REG_SetSequencerLength(ADCx, ADC_REG_InitStruct->SequencerLength);
}
else
{
/* Initialization error: ADC instance is not disabled. */
status = ERROR;
}
return status;
}
/**
* @brief Set each @ref LL_ADC_REG_InitTypeDef field to default value.
* @param ADC_REG_InitStruct Pointer to a @ref LL_ADC_REG_InitTypeDef structure
* whose fields will be set to default values.
* @retval None
*/
void LL_ADC_REG_StructInit(LL_ADC_REG_InitTypeDef *ADC_REG_InitStruct)
{
/* Set ADC_REG_InitStruct fields to default values */
/* Set fields of ADC group regular */
/* Note: On this STM32 series, ADC trigger edge is set to value 0x0 by */
/* setting of trigger source to SW start. */
ADC_REG_InitStruct->TriggerSource = LL_ADC_REG_TRIG_SOFTWARE;
ADC_REG_InitStruct->SequencerLength = LL_ADC_REG_SEQ_SCAN_DISABLE;
ADC_REG_InitStruct->SequencerDiscont = LL_ADC_REG_SEQ_DISCONT_DISABLE;
ADC_REG_InitStruct->ContinuousMode = LL_ADC_REG_CONV_SINGLE;
ADC_REG_InitStruct->DataTransferMode = LL_ADC_REG_DR_TRANSFER;
ADC_REG_InitStruct->Overrun = LL_ADC_REG_OVR_DATA_OVERWRITTEN;
}
/**
* @brief Initialize some features of ADC group injected.
* @note These parameters have an impact on ADC scope: ADC group injected.
* Refer to corresponding unitary functions into
* @ref ADC_LL_EF_Configuration_ADC_Group_Regular
* (functions with prefix "INJ").
* @note The setting of these parameters by function @ref LL_ADC_Init()
* is conditioned to ADC state:
* ADC instance must be disabled.
* This condition is applied to all ADC features, for efficiency
* and compatibility over all STM32 families. However, the different
* features can be set under different ADC state conditions
* (setting possible with ADC enabled without conversion on going,
* ADC enabled with conversion on going, ...)
* Each feature can be updated afterwards with a unitary function
* and potentially with ADC in a different state than disabled,
* refer to description of each function for setting
* conditioned to ADC state.
* @note After using this function, other features must be configured
* using LL unitary functions.
* The minimum configuration remaining to be done is:
* - Set ADC group injected sequencer:
* map channel on the selected sequencer rank.
* Refer to function @ref LL_ADC_INJ_SetSequencerRanks().
* - Set ADC channel sampling time
* Refer to function LL_ADC_SetChannelSamplingTime();
* @param ADCx ADC instance
* @param ADC_INJ_InitStruct Pointer to a @ref LL_ADC_INJ_InitTypeDef structure
* @retval An ErrorStatus enumeration value:
* - SUCCESS: ADC registers are initialized
* - ERROR: ADC registers are not initialized
*/
ErrorStatus LL_ADC_INJ_Init(ADC_TypeDef *ADCx, LL_ADC_INJ_InitTypeDef *ADC_INJ_InitStruct)
{
ErrorStatus status = SUCCESS;
/* Check the parameters */
assert_param(IS_ADC_ALL_INSTANCE(ADCx));
assert_param(IS_LL_ADC_INJ_TRIG_SOURCE(ADC_INJ_InitStruct->TriggerSource));
assert_param(IS_LL_ADC_INJ_SEQ_SCAN_LENGTH(ADC_INJ_InitStruct->SequencerLength));
if (ADC_INJ_InitStruct->SequencerLength != LL_ADC_INJ_SEQ_SCAN_DISABLE)
{
assert_param(IS_LL_ADC_INJ_SEQ_SCAN_DISCONT_MODE(ADC_INJ_InitStruct->SequencerDiscont));
}
assert_param(IS_LL_ADC_INJ_TRIG_AUTO(ADC_INJ_InitStruct->TrigAuto));
/* Note: Hardware constraint (refer to description of this function): */
/* ADC instance must be disabled. */
if (LL_ADC_IsEnabled(ADCx) == 0UL)
{
/* Configuration of ADC hierarchical scope: */
/* - ADC group injected */
/* - Set ADC group injected trigger source */
/* - Set ADC group injected sequencer length */
/* - Set ADC group injected sequencer discontinuous mode */
/* - Set ADC group injected conversion trigger: independent or */
/* from ADC group regular */
/* Note: On this STM32 series, ADC trigger edge is set to value 0x0 by */
/* setting of trigger source to SW start. */
if (ADC_INJ_InitStruct->SequencerLength != LL_ADC_REG_SEQ_SCAN_DISABLE)
{
MODIFY_REG(ADCx->CFGR,
ADC_CFGR_JDISCEN
| ADC_CFGR_JAUTO
,
ADC_INJ_InitStruct->SequencerDiscont
| ADC_INJ_InitStruct->TrigAuto
);
}
else
{
MODIFY_REG(ADCx->CFGR,
ADC_CFGR_JDISCEN
| ADC_CFGR_JAUTO
,
LL_ADC_REG_SEQ_DISCONT_DISABLE
| ADC_INJ_InitStruct->TrigAuto
);
}
MODIFY_REG(ADCx->JSQR,
ADC_JSQR_JEXTSEL
| ADC_JSQR_JEXTEN
| ADC_JSQR_JL
,
ADC_INJ_InitStruct->TriggerSource
| ADC_INJ_InitStruct->SequencerLength
);
}
else
{
/* Initialization error: ADC instance is not disabled. */
status = ERROR;
}
return status;
}
/**
* @brief Set each @ref LL_ADC_INJ_InitTypeDef field to default value.
* @param ADC_INJ_InitStruct Pointer to a @ref LL_ADC_INJ_InitTypeDef structure
* whose fields will be set to default values.
* @retval None
*/
void LL_ADC_INJ_StructInit(LL_ADC_INJ_InitTypeDef *ADC_INJ_InitStruct)
{
/* Set ADC_INJ_InitStruct fields to default values */
/* Set fields of ADC group injected */
ADC_INJ_InitStruct->TriggerSource = LL_ADC_INJ_TRIG_SOFTWARE;
ADC_INJ_InitStruct->SequencerLength = LL_ADC_INJ_SEQ_SCAN_DISABLE;
ADC_INJ_InitStruct->SequencerDiscont = LL_ADC_INJ_SEQ_DISCONT_DISABLE;
ADC_INJ_InitStruct->TrigAuto = LL_ADC_INJ_TRIG_INDEPENDENT;
}
/**
* @}
*/
/**
* @}
*/
/**
* @}
*/
#endif /* ADC1 || ADC2 || ADC3 */
/**
* @}
*/
#endif /* USE_FULL_LL_DRIVER */
|