/****************************************************************************** * Copyright (C) 2019, Huada Semiconductor Co.,Ltd All rights reserved. * * This software is owned and published by: * Huada Semiconductor Co.,Ltd ("HDSC"). * * BY DOWNLOADING, INSTALLING OR USING THIS SOFTWARE, YOU AGREE TO BE BOUND * BY ALL THE TERMS AND CONDITIONS OF THIS AGREEMENT. * * This software contains source code for use with HDSC * components. This software is licensed by HDSC to be adapted only * for use in systems utilizing HDSC components. HDSC shall not be * responsible for misuse or illegal use of this software for devices not * supported herein. HDSC is providing this software "AS IS" and will * not be responsible for issues arising from incorrect user implementation * of the software. * * Disclaimer: * HDSC MAKES NO WARRANTY, EXPRESS OR IMPLIED, ARISING BY LAW OR OTHERWISE, * REGARDING THE SOFTWARE (INCLUDING ANY ACOOMPANYING WRITTEN MATERIALS), * ITS PERFORMANCE OR SUITABILITY FOR YOUR INTENDED USE, INCLUDING, * WITHOUT LIMITATION, THE IMPLIED WARRANTY OF MERCHANTABILITY, THE IMPLIED * WARRANTY OF FITNESS FOR A PARTICULAR PURPOSE OR USE, AND THE IMPLIED * WARRANTY OF NONINFRINGEMENT. * HDSC SHALL HAVE NO LIABILITY (WHETHER IN CONTRACT, WARRANTY, TORT, * NEGLIGENCE OR OTHERWISE) FOR ANY DAMAGES WHATSOEVER (INCLUDING, WITHOUT * LIMITATION, DAMAGES FOR LOSS OF BUSINESS PROFITS, BUSINESS INTERRUPTION, * LOSS OF BUSINESS INFORMATION, OR OTHER PECUNIARY LOSS) ARISING FROM USE OR * INABILITY TO USE THE SOFTWARE, INCLUDING, WITHOUT LIMITATION, ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL OR CONSEQUENTIAL DAMAGES OR LOSS OF DATA, * SAVINGS OR PROFITS, * EVEN IF Disclaimer HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. * YOU ASSUME ALL RESPONSIBILITIES FOR SELECTION OF THE SOFTWARE TO ACHIEVE YOUR * INTENDED RESULTS, AND FOR THE INSTALLATION OF, USE OF, AND RESULTS OBTAINED * FROM, THE SOFTWARE. * * This software may be replicated in part or whole for the licensed use, * with the restriction that this Disclaimer and Copyright notice must be * included with each copy of this software, whether used in part or whole, * at all times. */ /******************************************************************************/ /** \file dac.c ** ** dac driver API. ** ** - 2019-04-10 First Version ** ******************************************************************************/ /****************************************************************************** * Include files ******************************************************************************/ #include "dac.h" /** ****************************************************************************** ** \addtogroup AdcGroup ******************************************************************************/ //@{ /****************************************************************************** * Local pre-processor symbols/macros ('#define') ******************************************************************************/ /****************************************************************************** * Global variable definitions (declared in header file with 'extern') ******************************************************************************/ /****************************************************************************** * Local type definitions ('typedef') ******************************************************************************/ /****************************************************************************** * Local function prototypes ('static') ******************************************************************************/ /****************************************************************************** * Local variable definitions ('static') ******************************************************************************/ /***************************************************************************** * Function implementation - global ('extern') and local ('static') *****************************************************************************/ /** ****************************************************************************** ** \brief 使能相关通道的DMA DMA_CR0中的DMAEN0 ** ** @param NewState : TRUE 或者 FALSE ** \retval 无 ** ******************************************************************************/ void Dac0_DmaCmd(boolean_t NewState) { SetBit((uint32_t)(&(M0P_DAC->CR0)), 12, NewState); } /** ****************************************************************************** ** \brief 使能相关通道的DMA DMA_CR0中的DMAEN1 ** ** @param NewState : TRUE 或者 FALSE ** \retval 无 ** ******************************************************************************/ void Dac1_DmaCmd(boolean_t NewState) { SetBit((uint32_t)(&(M0P_DAC->CR0)), 28, NewState); } /** ****************************************************************************** ** \brief 配置DAC的DMA下溢中断, DMA_CR0中的DMAUDRIE0 ** ** @param NewState : TRUE 或者 FALSE ** \retval 无 ** ******************************************************************************/ void Dac0_DmaITCfg(boolean_t NewState) { SetBit((uint32_t)(&(M0P_DAC->CR0)), 13, NewState); } /** ****************************************************************************** ** \brief 配置DAC的DMA下溢中断, DMA_CR0中的DMAUDRIE1 ** ** @param NewState : TRUE 或者 FALSE ** \retval 无 ** ******************************************************************************/ void Dac1_DmaITCfg(boolean_t NewState) { SetBit((uint32_t)(&(M0P_DAC->CR0)), 29, NewState); } /** ****************************************************************************** ** \brief 获取DAC的DMA下溢中断标志位状态, DMA_SR中的DMAUDR0 ** ** @param 无 ** \retval TRUE 或 FALSE ** ******************************************************************************/ boolean_t Dac0_GetITStatus(void) { return GetBit((uint32_t)(&(M0P_DAC->SR)), 13); } /** ****************************************************************************** ** \brief 获取DAC的DMA下溢中断标志位状态, DMA_SR中的DMAUDR1 ** ** @param 无 ** \retval TRUE 或 FALSE ** ******************************************************************************/ boolean_t Dac1_GetITStatus(void) { return GetBit((uint32_t)(&(M0P_DAC->SR)), 29); } /** ****************************************************************************** ** \brief 配置DAC的使能与禁止, DMA_CR0中的EN0 ** ** @param NewState : TRUE 或者 FALSE ** \retval 无 ** ******************************************************************************/ void Dac0_Cmd(boolean_t NewState) { SetBit((uint32_t)(&(M0P_DAC->CR0)), 0, NewState); } /** ****************************************************************************** ** \brief 配置DAC的使能与禁止, DMA_CR0中的EN1 ** ** @param NewState : TRUE 或者 FALSE ** \retval 无 ** ******************************************************************************/ void Dac1_Cmd(boolean_t NewState) { SetBit((uint32_t)(&(M0P_DAC->CR0)), 16, NewState); } /** ****************************************************************************** ** \brief 软件触发寄存器,触发DAC转换 DMA_SWTRIGR中的SWTRIG0 ** ** @param 无 ** \retval 无 ** ******************************************************************************/ void Dac0_SoftwareTriggerCmd(void) { SetBit((uint32_t)(&(M0P_DAC->SWTRIGR)), 0, TRUE); } /** ****************************************************************************** ** \brief 软件触发寄存器,触发DAC转换 DMA_SWTRIGR中的SWTRIG1 ** ** @param 无 ** \retval 无 ** ******************************************************************************/ void Dac1_SoftwareTriggerCmd(void) { SetBit((uint32_t)(&(M0P_DAC->SWTRIGR)), 1, TRUE); } /** ****************************************************************************** ** \brief 初始化DAC0 ** ** @param DAC_InitStruct : 用于初始化DAC0的结构体 ** \retval 无 ** ******************************************************************************/ void Dac0_Init(stc_dac_cfg_t* DAC_InitStruct) { M0P_DAC->CR0_f.BOFF0 = DAC_InitStruct->boff_t; M0P_DAC->CR0_f.TEN0 = DAC_InitStruct->ten_t; M0P_DAC->CR0_f.TSEL0 = DAC_InitStruct->tsel_t; M0P_DAC->CR0_f.WAVE0 = DAC_InitStruct->wave_t; M0P_DAC->CR0_f.MAMP0 = DAC_InitStruct->mamp_t; M0P_DAC->CR0_f.SREF0 = DAC_InitStruct->sref_t; if(DAC_InitStruct->align == DacLeftAlign) { M0P_DAC->DHR12L0_f.DHR0 = DAC_InitStruct->dhr12; } else if(DAC_InitStruct->align == DacRightAlign) { M0P_DAC->DHR12R0_f.DHR0 = DAC_InitStruct->dhr12; } else { M0P_DAC->DHR8R0_f.DHR0 = DAC_InitStruct->dhr8; } } /** ****************************************************************************** ** \brief 初始化DAC1 ** ** @param DAC_InitStruct : 用于初始化DAC1的结构体 ** \retval 无 ** ******************************************************************************/ void Dac1_Init(stc_dac_cfg_t* DAC_InitStruct) { M0P_DAC->CR0_f.BOFF1 = DAC_InitStruct->boff_t; M0P_DAC->CR0_f.TEN1 = DAC_InitStruct->ten_t; M0P_DAC->CR0_f.TSEL1 = DAC_InitStruct->tsel_t; M0P_DAC->CR0_f.WAVE1 = DAC_InitStruct->wave_t; M0P_DAC->CR0_f.MAMP1 = DAC_InitStruct->mamp_t; M0P_DAC->CR0_f.SREF1 = DAC_InitStruct->sref_t; if(DAC_InitStruct->align == DacLeftAlign) { M0P_DAC->DHR12L1_f.DHR1 = DAC_InitStruct->dhr12; } else if(DAC_InitStruct->align == DacRightAlign) { M0P_DAC->DHR12R1_f.DHR1 = DAC_InitStruct->dhr12; } else { M0P_DAC->DHR8R1_f.DHR1 = DAC_InitStruct->dhr8; } } /** ****************************************************************************** ** \brief 向DAC0的数据保持寄存器写数据 ** ** @param DAC_Channel: Dac_0 ** @param DAC_Align : Right_Align 与Left_Align ** @param DAC_Bit : Bit8 与Bit12 ** @param Data : 所要发送的数据 ** \retval 无 ** ******************************************************************************/ void Dac0_SetChannelData(en_align_t DAC_Align, en_bitno_t DAC_Bit, uint16_t Data) { if(DAC_Align == DacRightAlign) { if(DAC_Bit == DacBit8) { M0P_DAC->DHR8R0_f.DHR0 = (uint8_t)Data; } else if(DAC_Bit == DacBit12) { M0P_DAC->DHR12R0_f.DHR0 = Data; } else { return; } } else if(DAC_Align == DacLeftAlign) { if(DAC_Bit == DacBit8) { return; } else if(DAC_Bit == DacBit12) { M0P_DAC->DHR12L0_f.DHR0 = Data; } else { return; } } else { return; } } /** ****************************************************************************** ** \brief 向DAC1的数据保持寄存器写数据 ** ** @param DAC_Channel: Dac_1 ** @param DAC_Align : Right_Align 与Left_Align ** @param DAC_Bit : Bit8 与Bit12 ** @param Data : 所要发送的数据 ** \retval 无 ** ******************************************************************************/ void Dac1_SetChannelData(en_align_t DAC_Align, en_bitno_t DAC_Bit, uint16_t Data) { if(DAC_Align == DacRightAlign) { if(DAC_Bit == DacBit8) { M0P_DAC->DHR8R1_f.DHR1 = (uint8_t)Data; } else if(DAC_Bit == DacBit12) { M0P_DAC->DHR12R1_f.DHR1 = Data; } else { return; } } else if(DAC_Align == DacLeftAlign) { if(DAC_Bit == DacBit8) { return; } else if(DAC_Bit == DacBit12) { M0P_DAC->DHR12L1_f.DHR1 = Data; } else { return; } } else { return; } } /** ****************************************************************************** ** \brief 获取DAC数据输出寄存器DAC_DOR0 ** ** @param 无 ** \retval DAC_DOR0的值 ** ******************************************************************************/ uint16_t Dac0_GetDataOutputValue(void) { uint16_t tmp; tmp = M0P_DAC->DOR0_f.DOR0; return tmp&0x0fff; } /** ****************************************************************************** ** \brief 获取DAC数据输出寄存器DAC_DOR1 ** ** @param 无 ** \retval DAC_DOR1的值 ** ******************************************************************************/ uint16_t Dac1_GetDataOutputValue(void) { uint16_t tmp; tmp = M0P_DAC->DOR1_f.DOR1; return tmp&0x0fff; } /****************************************************************************** * EOF (not truncated) ******************************************************************************/