/**************************************************************************//** * @file nu_dac.h * @version V1.00 * @brief DAC driver header file * * SPDX-License-Identifier: Apache-2.0 * @copyright (C) 2021 Nuvoton Technology Corp. All rights reserved. *****************************************************************************/ #ifndef __NU_DAC_H__ #define __NU_DAC_H__ #ifdef __cplusplus extern "C" { #endif /** @addtogroup Standard_Driver Standard Driver @{ */ /** @addtogroup DAC_Driver DAC Driver @{ */ /** @addtogroup DAC_EXPORTED_CONSTANTS DAC Exported Constants @{ */ /*---------------------------------------------------------------------------------------------------------*/ /* DAC_CTL Constant Definitions */ /*---------------------------------------------------------------------------------------------------------*/ #define DAC_CTL_LALIGN_RIGHT_ALIGN (0UL<SWTRG = DAC_SWTRG_SWTRG_Msk) /** * @brief Enable DAC data left-aligned. * @param[in] dac The pointer of the specified DAC module. * @return None * @details User has to load data into DAC_DAT[15:4] bits. DAC_DAT[31:16] and DAC_DAT[3:0] are ignored in DAC conversion. * \hideinitializer */ #define DAC_ENABLE_LEFT_ALIGN(dac) ((dac)->CTL |= DAC_CTL_LALIGN_Msk) /** * @brief Enable DAC data right-aligned. * @param[in] dac The pointer of the specified DAC module. * @return None * @details User has to load data into DAC_DAT[11:0] bits, DAC_DAT[31:12] are ignored in DAC conversion. * \hideinitializer */ #define DAC_ENABLE_RIGHT_ALIGN(dac) ((dac)->CTL &= ~DAC_CTL_LALIGN_Msk) /** * @brief Enable output voltage buffer. * @param[in] dac The pointer of the specified DAC module. * @return None * @details The DAC integrates a voltage output buffer that can be used to reduce output impedance and * drive external loads directly without having to add an external operational amplifier. * \hideinitializer */ #define DAC_ENABLE_BYPASS_BUFFER(dac) ((dac)->CTL |= DAC_CTL_BYPASS_Msk) /** * @brief Disable output voltage buffer. * @param[in] dac The pointer of the specified DAC module. * @return None * @details This macro is used to disable output voltage buffer. * \hideinitializer */ #define DAC_DISABLE_BYPASS_BUFFER(dac) ((dac)->CTL &= ~DAC_CTL_BYPASS_Msk) /** * @brief Enable the interrupt. * @param[in] dac The pointer of the specified DAC module. * @param[in] u32Ch Not used. * @return None * @details This macro is used to enable DAC interrupt. * \hideinitializer */ #define DAC_ENABLE_INT(dac, u32Ch) ((dac)->CTL |= DAC_CTL_DACIEN_Msk) /** * @brief Disable the interrupt. * @param[in] dac The pointer of the specified DAC module. * @param[in] u32Ch Not used. * @return None * @details This macro is used to disable DAC interrupt. * \hideinitializer */ #define DAC_DISABLE_INT(dac, u32Ch) ((dac)->CTL &= ~DAC_CTL_DACIEN_Msk) /** * @brief Enable DMA under-run interrupt. * @param[in] dac The pointer of the specified DAC module. * @return None * @details This macro is used to enable DMA under-run interrupt. * \hideinitializer */ #define DAC_ENABLE_DMAUDR_INT(dac) ((dac)->CTL |= DAC_CTL_DMAURIEN_Msk) /** * @brief Disable DMA under-run interrupt. * @param[in] dac The pointer of the specified DAC module. * @return None * @details This macro is used to disable DMA under-run interrupt. * \hideinitializer */ #define DAC_DISABLE_DMAUDR_INT(dac) ((dac)->CTL &= ~DAC_CTL_DMAURIEN_Msk) /** * @brief Enable PDMA mode. * @param[in] dac The pointer of the specified DAC module. * @return None * @details DAC DMA request is generated when a hardware trigger event occurs while DMAEN (DAC_CTL[2]) is set. * \hideinitializer */ #define DAC_ENABLE_PDMA(dac) ((dac)->CTL |= DAC_CTL_DMAEN_Msk) /** * @brief Disable PDMA mode. * @param[in] dac The pointer of the specified DAC module. * @return None * @details This macro is used to disable DMA mode. * \hideinitializer */ #define DAC_DISABLE_PDMA(dac) ((dac)->CTL &= ~DAC_CTL_DMAEN_Msk) /** * @brief Write data for conversion. * @param[in] dac The pointer of the specified DAC module. * @param[in] u32Ch Not used. * @param[in] u32Data Decides the data for conversion, valid range are between 0~0xFFF. * @return None * @details 12 bit left alignment: user has to load data into DAC_DAT[15:4] bits. * 12 bit right alignment: user has to load data into DAC_DAT[11:0] bits. * \hideinitializer */ #define DAC_WRITE_DATA(dac, u32Ch, u32Data) ((dac)->DAT = (u32Data)) /** * @brief Read DAC 12-bit holding data. * @param[in] dac The pointer of the specified DAC module. * @param[in] u32Ch Not used. * @return Return DAC 12-bit holding data. * @details This macro is used to read DAC_DAT register. * \hideinitializer */ #define DAC_READ_DATA(dac, u32Ch) ((dac)->DAT) /** * @brief Get the busy state of DAC. * @param[in] dac The pointer of the specified DAC module. * @param[in] u32Ch Not used. * @retval 0 Idle state. * @retval 1 Busy state. * @details This macro is used to read BUSY bit (DAC_STATUS[8]) to get busy state. * \hideinitializer */ #define DAC_IS_BUSY(dac, u32Ch) (((dac)->STATUS & DAC_STATUS_BUSY_Msk) >> DAC_STATUS_BUSY_Pos) /** * @brief Get the interrupt flag. * @param[in] dac The pointer of the specified DAC module. * @param[in] u32Ch Not used. * @retval 0 DAC is in conversion state. * @retval 1 DAC conversion finish. * @details This macro is used to read FINISH bit (DAC_STATUS[0]) to get DAC conversion complete finish flag. * \hideinitializer */ #define DAC_GET_INT_FLAG(dac, u32Ch) ((dac)->STATUS & DAC_STATUS_FINISH_Msk) /** * @brief Get the DMA under-run flag. * @param[in] dac The pointer of the specified DAC module. * @retval 0 No DMA under-run error condition occurred. * @retval 1 DMA under-run error condition occurred. * @details This macro is used to read DMAUDR bit (DAC_STATUS[1]) to get DMA under-run state. * \hideinitializer */ #define DAC_GET_DMAUDR_FLAG(dac) (((dac)->STATUS & DAC_STATUS_DMAUDR_Msk) >> DAC_STATUS_DMAUDR_Pos) /** * @brief This macro clear the interrupt status bit. * @param[in] dac The pointer of the specified DAC module. * @param[in] u32Ch Not used. * @return None * @details User writes FINISH bit (DAC_STATUS[0]) to clear DAC conversion complete finish flag. * \hideinitializer */ #define DAC_CLR_INT_FLAG(dac, u32Ch) ((dac)->STATUS = DAC_STATUS_FINISH_Msk) /** * @brief This macro clear the DMA under-run flag. * @param[in] dac The pointer of the specified DAC module. * @return None * @details User writes DMAUDR bit (DAC_STATUS[1]) to clear DMA under-run flag. * \hideinitializer */ #define DAC_CLR_DMAUDR_FLAG(dac) ((dac)->STATUS = DAC_STATUS_DMAUDR_Msk) /** * @brief Enable DAC group mode * @param[in] dac The pointer of the specified DAC module. * @return None * @note Only DAC0 has this control bit. * \hideinitializer */ #define DAC_ENABLE_GROUP_MODE(dac) ((dac)->CTL |= DAC_CTL_GRPEN_Msk) /** * @brief Disable DAC group mode * @param[in] dac The pointer of the specified DAC module. * @return None * @note Only DAC0 has this control bit. * \hideinitializer */ #define DAC_DISABLE_GROUP_MODE(dac) ((dac)->CTL &= ~DAC_CTL_GRPEN_Msk) void DAC_Open(DAC_T *dac, uint32_t u32Ch, uint32_t u32TrgSrc); void DAC_Close(DAC_T *dac, uint32_t u32Ch); uint32_t DAC_SetDelayTime(DAC_T *dac, uint32_t u32Delay); /*@}*/ /* end of group DAC_EXPORTED_FUNCTIONS */ /*@}*/ /* end of group DAC_Driver */ /*@}*/ /* end of group Standard_Driver */ #ifdef __cplusplus } #endif #endif /* __NU_DAC_H__ */