496 lines
16 KiB
C
496 lines
16 KiB
C
/**
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******************************************************************************
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* @file stm32f7xx_hal_dac_ex.c
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* @author MCD Application Team
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* @brief Extended DAC HAL module driver.
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* This file provides firmware functions to manage the extended
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* functionalities of the DAC peripheral.
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*
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*
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******************************************************************************
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* @attention
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*
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* Copyright (c) 2017 STMicroelectronics.
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* All rights reserved.
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*
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* This software is licensed under terms that can be found in the LICENSE file
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* in the root directory of this software component.
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* If no LICENSE file comes with this software, it is provided AS-IS.
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*
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******************************************************************************
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@verbatim
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==============================================================================
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##### How to use this driver #####
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==============================================================================
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[..]
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*** Dual mode IO operation ***
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==============================
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[..]
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(+) When Dual mode is enabled (i.e. DAC Channel1 and Channel2 are used simultaneously) :
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Use HAL_DACEx_DualGetValue() to get digital data to be converted and use
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HAL_DACEx_DualSetValue() to set digital value to converted simultaneously in
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Channel 1 and Channel 2.
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*** Signal generation operation ***
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===================================
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[..]
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(+) Use HAL_DACEx_TriangleWaveGenerate() to generate Triangle signal.
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(+) Use HAL_DACEx_NoiseWaveGenerate() to generate Noise signal.
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@endverbatim
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******************************************************************************
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*/
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/* Includes ------------------------------------------------------------------*/
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#include "stm32f7xx_hal.h"
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/** @addtogroup STM32F7xx_HAL_Driver
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* @{
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*/
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#ifdef HAL_DAC_MODULE_ENABLED
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#if defined(DAC)
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/** @defgroup DACEx DACEx
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* @brief DAC Extended HAL module driver
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* @{
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*/
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/* Private typedef -----------------------------------------------------------*/
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/* Private define ------------------------------------------------------------*/
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/* Private macro -------------------------------------------------------------*/
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/* Private variables ---------------------------------------------------------*/
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/* Private function prototypes -----------------------------------------------*/
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/* Exported functions --------------------------------------------------------*/
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/** @defgroup DACEx_Exported_Functions DACEx Exported Functions
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* @{
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*/
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/** @defgroup DACEx_Exported_Functions_Group2 IO operation functions
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* @brief Extended IO operation functions
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*
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@verbatim
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==============================================================================
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##### Extended features functions #####
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==============================================================================
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[..] This section provides functions allowing to:
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(+) Start conversion.
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(+) Stop conversion.
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(+) Start conversion and enable DMA transfer.
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(+) Stop conversion and disable DMA transfer.
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(+) Get result of conversion.
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(+) Get result of dual mode conversion.
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@endverbatim
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* @{
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*/
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/**
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* @brief Enables DAC and starts conversion of both channels.
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* @param hdac pointer to a DAC_HandleTypeDef structure that contains
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* the configuration information for the specified DAC.
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* @retval HAL status
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*/
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HAL_StatusTypeDef HAL_DACEx_DualStart(DAC_HandleTypeDef *hdac)
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{
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uint32_t tmp_swtrig = 0UL;
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/* Process locked */
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__HAL_LOCK(hdac);
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/* Change DAC state */
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hdac->State = HAL_DAC_STATE_BUSY;
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/* Enable the Peripheral */
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__HAL_DAC_ENABLE(hdac, DAC_CHANNEL_1);
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__HAL_DAC_ENABLE(hdac, DAC_CHANNEL_2);
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/* Check if software trigger enabled */
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if ((hdac->Instance->CR & (DAC_CR_TEN1 | DAC_CR_TSEL1)) == DAC_TRIGGER_SOFTWARE)
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{
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tmp_swtrig |= DAC_SWTRIGR_SWTRIG1;
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}
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if ((hdac->Instance->CR & (DAC_CR_TEN2 | DAC_CR_TSEL2)) == (DAC_TRIGGER_SOFTWARE << (DAC_CHANNEL_2 & 0x10UL)))
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{
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tmp_swtrig |= DAC_SWTRIGR_SWTRIG2;
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}
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/* Enable the selected DAC software conversion*/
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SET_BIT(hdac->Instance->SWTRIGR, tmp_swtrig);
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/* Change DAC state */
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hdac->State = HAL_DAC_STATE_READY;
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/* Process unlocked */
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__HAL_UNLOCK(hdac);
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/* Return function status */
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return HAL_OK;
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}
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/**
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* @brief Disables DAC and stop conversion of both channels.
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* @param hdac pointer to a DAC_HandleTypeDef structure that contains
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* the configuration information for the specified DAC.
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* @retval HAL status
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*/
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HAL_StatusTypeDef HAL_DACEx_DualStop(DAC_HandleTypeDef *hdac)
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{
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/* Disable the Peripheral */
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__HAL_DAC_DISABLE(hdac, DAC_CHANNEL_1);
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__HAL_DAC_DISABLE(hdac, DAC_CHANNEL_2);
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/* Change DAC state */
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hdac->State = HAL_DAC_STATE_READY;
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/* Return function status */
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return HAL_OK;
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}
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/**
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* @brief Enable or disable the selected DAC channel wave generation.
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* @param hdac pointer to a DAC_HandleTypeDef structure that contains
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* the configuration information for the specified DAC.
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* @param Channel The selected DAC channel.
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* This parameter can be one of the following values:
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* @arg DAC_CHANNEL_1: DAC Channel1 selected
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* @arg DAC_CHANNEL_2: DAC Channel2 selected
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* @param Amplitude Select max triangle amplitude.
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* This parameter can be one of the following values:
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* @arg DAC_TRIANGLEAMPLITUDE_1: Select max triangle amplitude of 1
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* @arg DAC_TRIANGLEAMPLITUDE_3: Select max triangle amplitude of 3
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* @arg DAC_TRIANGLEAMPLITUDE_7: Select max triangle amplitude of 7
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* @arg DAC_TRIANGLEAMPLITUDE_15: Select max triangle amplitude of 15
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* @arg DAC_TRIANGLEAMPLITUDE_31: Select max triangle amplitude of 31
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* @arg DAC_TRIANGLEAMPLITUDE_63: Select max triangle amplitude of 63
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* @arg DAC_TRIANGLEAMPLITUDE_127: Select max triangle amplitude of 127
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* @arg DAC_TRIANGLEAMPLITUDE_255: Select max triangle amplitude of 255
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* @arg DAC_TRIANGLEAMPLITUDE_511: Select max triangle amplitude of 511
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* @arg DAC_TRIANGLEAMPLITUDE_1023: Select max triangle amplitude of 1023
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* @arg DAC_TRIANGLEAMPLITUDE_2047: Select max triangle amplitude of 2047
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* @arg DAC_TRIANGLEAMPLITUDE_4095: Select max triangle amplitude of 4095
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* @retval HAL status
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*/
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HAL_StatusTypeDef HAL_DACEx_TriangleWaveGenerate(DAC_HandleTypeDef *hdac, uint32_t Channel, uint32_t Amplitude)
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{
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/* Check the parameters */
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assert_param(IS_DAC_CHANNEL(Channel));
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assert_param(IS_DAC_LFSR_UNMASK_TRIANGLE_AMPLITUDE(Amplitude));
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/* Process locked */
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__HAL_LOCK(hdac);
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/* Change DAC state */
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hdac->State = HAL_DAC_STATE_BUSY;
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/* Enable the triangle wave generation for the selected DAC channel */
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MODIFY_REG(hdac->Instance->CR, ((DAC_CR_WAVE1) | (DAC_CR_MAMP1)) << (Channel & 0x10UL),
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(DAC_CR_WAVE1_1 | Amplitude) << (Channel & 0x10UL));
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/* Change DAC state */
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hdac->State = HAL_DAC_STATE_READY;
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/* Process unlocked */
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__HAL_UNLOCK(hdac);
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/* Return function status */
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return HAL_OK;
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}
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/**
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* @brief Enable or disable the selected DAC channel wave generation.
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* @param hdac pointer to a DAC_HandleTypeDef structure that contains
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* the configuration information for the specified DAC.
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* @param Channel The selected DAC channel.
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* This parameter can be one of the following values:
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* @arg DAC_CHANNEL_1: DAC Channel1 selected
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* @arg DAC_CHANNEL_2: DAC Channel2 selected
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* @param Amplitude Unmask DAC channel LFSR for noise wave generation.
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* This parameter can be one of the following values:
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* @arg DAC_LFSRUNMASK_BIT0: Unmask DAC channel LFSR bit0 for noise wave generation
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* @arg DAC_LFSRUNMASK_BITS1_0: Unmask DAC channel LFSR bit[1:0] for noise wave generation
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* @arg DAC_LFSRUNMASK_BITS2_0: Unmask DAC channel LFSR bit[2:0] for noise wave generation
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* @arg DAC_LFSRUNMASK_BITS3_0: Unmask DAC channel LFSR bit[3:0] for noise wave generation
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* @arg DAC_LFSRUNMASK_BITS4_0: Unmask DAC channel LFSR bit[4:0] for noise wave generation
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* @arg DAC_LFSRUNMASK_BITS5_0: Unmask DAC channel LFSR bit[5:0] for noise wave generation
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* @arg DAC_LFSRUNMASK_BITS6_0: Unmask DAC channel LFSR bit[6:0] for noise wave generation
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* @arg DAC_LFSRUNMASK_BITS7_0: Unmask DAC channel LFSR bit[7:0] for noise wave generation
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* @arg DAC_LFSRUNMASK_BITS8_0: Unmask DAC channel LFSR bit[8:0] for noise wave generation
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* @arg DAC_LFSRUNMASK_BITS9_0: Unmask DAC channel LFSR bit[9:0] for noise wave generation
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* @arg DAC_LFSRUNMASK_BITS10_0: Unmask DAC channel LFSR bit[10:0] for noise wave generation
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* @arg DAC_LFSRUNMASK_BITS11_0: Unmask DAC channel LFSR bit[11:0] for noise wave generation
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* @retval HAL status
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*/
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HAL_StatusTypeDef HAL_DACEx_NoiseWaveGenerate(DAC_HandleTypeDef *hdac, uint32_t Channel, uint32_t Amplitude)
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{
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/* Check the parameters */
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assert_param(IS_DAC_CHANNEL(Channel));
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assert_param(IS_DAC_LFSR_UNMASK_TRIANGLE_AMPLITUDE(Amplitude));
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/* Process locked */
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__HAL_LOCK(hdac);
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/* Change DAC state */
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hdac->State = HAL_DAC_STATE_BUSY;
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/* Enable the noise wave generation for the selected DAC channel */
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MODIFY_REG(hdac->Instance->CR, ((DAC_CR_WAVE1) | (DAC_CR_MAMP1)) << (Channel & 0x10UL),
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(DAC_CR_WAVE1_0 | Amplitude) << (Channel & 0x10UL));
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/* Change DAC state */
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hdac->State = HAL_DAC_STATE_READY;
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/* Process unlocked */
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__HAL_UNLOCK(hdac);
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/* Return function status */
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return HAL_OK;
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}
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/**
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* @brief Set the specified data holding register value for dual DAC channel.
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* @param hdac pointer to a DAC_HandleTypeDef structure that contains
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* the configuration information for the specified DAC.
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* @param Alignment Specifies the data alignment for dual channel DAC.
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* This parameter can be one of the following values:
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* DAC_ALIGN_8B_R: 8bit right data alignment selected
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* DAC_ALIGN_12B_L: 12bit left data alignment selected
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* DAC_ALIGN_12B_R: 12bit right data alignment selected
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* @param Data1 Data for DAC Channel1 to be loaded in the selected data holding register.
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* @param Data2 Data for DAC Channel2 to be loaded in the selected data holding register.
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* @note In dual mode, a unique register access is required to write in both
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* DAC channels at the same time.
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* @retval HAL status
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*/
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HAL_StatusTypeDef HAL_DACEx_DualSetValue(DAC_HandleTypeDef *hdac, uint32_t Alignment, uint32_t Data1, uint32_t Data2)
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{
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uint32_t data;
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uint32_t tmp;
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/* Check the parameters */
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assert_param(IS_DAC_ALIGN(Alignment));
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assert_param(IS_DAC_DATA(Data1));
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assert_param(IS_DAC_DATA(Data2));
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/* Calculate and set dual DAC data holding register value */
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if (Alignment == DAC_ALIGN_8B_R)
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{
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data = ((uint32_t)Data2 << 8U) | Data1;
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}
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else
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{
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data = ((uint32_t)Data2 << 16U) | Data1;
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}
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tmp = (uint32_t)hdac->Instance;
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tmp += DAC_DHR12RD_ALIGNMENT(Alignment);
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/* Set the dual DAC selected data holding register */
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*(__IO uint32_t *)tmp = data;
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/* Return function status */
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return HAL_OK;
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}
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/**
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* @brief Conversion complete callback in non-blocking mode for Channel2.
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* @param hdac pointer to a DAC_HandleTypeDef structure that contains
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* the configuration information for the specified DAC.
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* @retval None
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*/
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__weak void HAL_DACEx_ConvCpltCallbackCh2(DAC_HandleTypeDef *hdac)
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{
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/* Prevent unused argument(s) compilation warning */
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UNUSED(hdac);
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/* NOTE : This function should not be modified, when the callback is needed,
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the HAL_DACEx_ConvCpltCallbackCh2 could be implemented in the user file
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*/
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}
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/**
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* @brief Conversion half DMA transfer callback in non-blocking mode for Channel2.
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* @param hdac pointer to a DAC_HandleTypeDef structure that contains
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* the configuration information for the specified DAC.
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* @retval None
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*/
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__weak void HAL_DACEx_ConvHalfCpltCallbackCh2(DAC_HandleTypeDef *hdac)
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{
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/* Prevent unused argument(s) compilation warning */
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UNUSED(hdac);
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/* NOTE : This function should not be modified, when the callback is needed,
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the HAL_DACEx_ConvHalfCpltCallbackCh2 could be implemented in the user file
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*/
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}
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/**
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* @brief Error DAC callback for Channel2.
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* @param hdac pointer to a DAC_HandleTypeDef structure that contains
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* the configuration information for the specified DAC.
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* @retval None
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*/
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__weak void HAL_DACEx_ErrorCallbackCh2(DAC_HandleTypeDef *hdac)
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{
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/* Prevent unused argument(s) compilation warning */
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UNUSED(hdac);
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/* NOTE : This function should not be modified, when the callback is needed,
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the HAL_DACEx_ErrorCallbackCh2 could be implemented in the user file
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*/
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}
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/**
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* @brief DMA underrun DAC callback for Channel2.
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* @param hdac pointer to a DAC_HandleTypeDef structure that contains
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* the configuration information for the specified DAC.
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* @retval None
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*/
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__weak void HAL_DACEx_DMAUnderrunCallbackCh2(DAC_HandleTypeDef *hdac)
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{
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/* Prevent unused argument(s) compilation warning */
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UNUSED(hdac);
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/* NOTE : This function should not be modified, when the callback is needed,
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the HAL_DACEx_DMAUnderrunCallbackCh2 could be implemented in the user file
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*/
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}
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/**
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* @}
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*/
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/** @defgroup DACEx_Exported_Functions_Group3 Peripheral Control functions
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* @brief Extended Peripheral Control functions
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*
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@verbatim
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==============================================================================
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##### Peripheral Control functions #####
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==============================================================================
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[..] This section provides functions allowing to:
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(+) Set the specified data holding register value for DAC channel.
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@endverbatim
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* @{
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*/
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/**
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* @brief Return the last data output value of the selected DAC channel.
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* @param hdac pointer to a DAC_HandleTypeDef structure that contains
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* the configuration information for the specified DAC.
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* @retval The selected DAC channel data output value.
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*/
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uint32_t HAL_DACEx_DualGetValue(DAC_HandleTypeDef *hdac)
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{
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uint32_t tmp = 0UL;
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tmp |= hdac->Instance->DOR1;
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tmp |= hdac->Instance->DOR2 << 16UL;
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/* Returns the DAC channel data output register value */
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return tmp;
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}
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/**
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* @}
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*/
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/**
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* @}
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*/
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/* Private functions ---------------------------------------------------------*/
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/** @defgroup DACEx_Private_Functions DACEx private functions
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* @brief Extended private functions
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* @{
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*/
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/**
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* @brief DMA conversion complete callback.
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* @param hdma pointer to a DMA_HandleTypeDef structure that contains
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* the configuration information for the specified DMA module.
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* @retval None
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*/
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void DAC_DMAConvCpltCh2(DMA_HandleTypeDef *hdma)
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{
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DAC_HandleTypeDef *hdac = (DAC_HandleTypeDef *)((DMA_HandleTypeDef *)hdma)->Parent;
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#if (USE_HAL_DAC_REGISTER_CALLBACKS == 1)
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hdac->ConvCpltCallbackCh2(hdac);
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#else
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HAL_DACEx_ConvCpltCallbackCh2(hdac);
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#endif /* USE_HAL_DAC_REGISTER_CALLBACKS */
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hdac->State = HAL_DAC_STATE_READY;
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}
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/**
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* @brief DMA half transfer complete callback.
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* @param hdma pointer to a DMA_HandleTypeDef structure that contains
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* the configuration information for the specified DMA module.
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* @retval None
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*/
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void DAC_DMAHalfConvCpltCh2(DMA_HandleTypeDef *hdma)
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{
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DAC_HandleTypeDef *hdac = (DAC_HandleTypeDef *)((DMA_HandleTypeDef *)hdma)->Parent;
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/* Conversion complete callback */
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#if (USE_HAL_DAC_REGISTER_CALLBACKS == 1)
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hdac->ConvHalfCpltCallbackCh2(hdac);
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#else
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HAL_DACEx_ConvHalfCpltCallbackCh2(hdac);
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#endif /* USE_HAL_DAC_REGISTER_CALLBACKS */
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}
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/**
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* @brief DMA error callback.
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* @param hdma pointer to a DMA_HandleTypeDef structure that contains
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* the configuration information for the specified DMA module.
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* @retval None
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*/
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void DAC_DMAErrorCh2(DMA_HandleTypeDef *hdma)
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{
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DAC_HandleTypeDef *hdac = (DAC_HandleTypeDef *)((DMA_HandleTypeDef *)hdma)->Parent;
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/* Set DAC error code to DMA error */
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hdac->ErrorCode |= HAL_DAC_ERROR_DMA;
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#if (USE_HAL_DAC_REGISTER_CALLBACKS == 1)
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hdac->ErrorCallbackCh2(hdac);
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#else
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HAL_DACEx_ErrorCallbackCh2(hdac);
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#endif /* USE_HAL_DAC_REGISTER_CALLBACKS */
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hdac->State = HAL_DAC_STATE_READY;
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}
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/**
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* @}
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*/
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/**
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* @}
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*/
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#endif /* DAC */
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#endif /* HAL_DAC_MODULE_ENABLED */
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/**
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* @}
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*/
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