rt-thread/bsp/synwit/swm341/libraries/SWM341_StdPeriph_Driver/SWM341_adc.h

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#ifndef __SWM341_ADC_H__
#define __SWM341_ADC_H__
typedef struct {
uint8_t clk_src; //ADC转换时钟源ADC_CLKSRC_HRC、ADC_CLKSRC_XTAL、...
uint8_t samplAvg; //采样取平均触发启动ADC转换后ADC在一个通道上连续采样、转换多次并将它们的平均值作为该通道转换结果
uint8_t EOC_IEn; //EOC中断使能 可针对每个序列设置其有效值为ADC_SEQ0、ADC_SEQ1、ADC_SEQ2、ADC_SEQ3及其组合即“按位或”运算
uint8_t HalfIEn; //FIFO半满中断使能可针对每个序列设置其有效值为ADC_SEQ0、ADC_SEQ1、ADC_SEQ2、ADC_SEQ3及其组合即“按位或”运算
} ADC_InitStructure;
typedef struct {
uint16_t channels; //ADC序列转换通道选中ADC_CH0、ADC_CH1、... ... 、ADC_CH7及其组合即“按位或”运算
uint8_t trig_src; //ADC序列触发方式ADC_TRIGGER_SW、ADC_TRIGGER_TIMER2、ADC_TRIGGER_TIMER3、... ...
uint16_t conv_cnt; //ADC序列转换次数可取值1--256
uint8_t samp_tim; //ADC序列采样时间可取值ADC_SAMPLE_1CLOCK、ADC_SAMPLE_2CLOCK、ADC_SAMPLE_4CLOCK、ADC_SAMPLE_8CLOCK
} ADC_SEQ_InitStructure;
typedef struct {
uint16_t UpperLimit; //比较上限值
uint16_t UpperLimitIEn; //ADC转换结果大于UpperLimit中断使能
uint16_t LowerLimit; //比较下限值
uint16_t LowerLimitIEn; //ADC转换结果小于LowerLimit中断使能
} ADC_CMP_InitStructure;
#define ADC_CH0 0x001
#define ADC_CH1 0x002
#define ADC_CH2 0x004
#define ADC_CH3 0x008
#define ADC_CH4 0x010
#define ADC_CH5 0x020
#define ADC_CH6 0x040
#define ADC_CH7 0x080
#define ADC_CH8 0x100
#define ADC_CH9 0x200
#define ADC_CH10 0x400
#define ADC_CH11 0x800
#define ADC_SEQ0 0x1
#define ADC_SEQ1 0x2
#define ADC_SEQ2 0x4
#define ADC_SEQ3 0x8
#define ADC_CLKSRC_HRC ((0 << 2) | 0)
#define ADC_CLKSRC_XTAL ((0 << 2) | 1)
#define ADC_CLKSRC_PLL ((0 << 2) | 2)
#define ADC_CLKSRC_HRC_DIV4 ((2 << 2) | 0)
#define ADC_CLKSRC_XTAL_DIV4 ((2 << 2) | 1)
#define ADC_CLKSRC_PLL_DIV4 ((2 << 2) | 2)
#define ADC_CLKSRC_HRC_DIV8 ((3 << 2) | 0)
#define ADC_CLKSRC_XTAL_DIV8 ((3 << 2) | 1)
#define ADC_CLKSRC_PLL_DIV8 ((3 << 2) | 2)
#define ADC_AVG_SAMPLE1 0
#define ADC_AVG_SAMPLE2 1 //一次启动连续采样、转换2次并计算两次结果的平均值作为转换结果
#define ADC_AVG_SAMPLE4 2
#define ADC_AVG_SAMPLE8 3
#define ADC_TRIGGER_NO 0
#define ADC_TRIGGER_SW 1 //软件启动
#define ADC_TRIGGER_TIMER2 2
#define ADC_TRIGGER_TIMER3 3
#define ADC_TRIGGER_EXTRIG0 4
#define ADC_TRIGGER_EXTRIG1 5
#define ADC_TRIGGER_PWM0 0x10
#define ADC_TRIGGER_PWM1 0x11
#define ADC_TRIGGER_PWM2 0x12
#define ADC_TRIGGER_PWM3 0x13
#define ADC_TRIGGER_PWM4 0x14
#define ADC_SAMPLE_1CLOCK 0
#define ADC_SAMPLE_2CLOCK 1
#define ADC_SAMPLE_4CLOCK 2
#define ADC_SAMPLE_8CLOCK 3
#define ADC_SAMPLE_16CLOCK 4
#define ADC_SAMPLE_32CLOCK 5
#define ADC_SAMPLE_64CLOCK 6
#define ADC_SAMPLE_128CLOCK 7
/* Interrupt Type */
#define ADC_IT_EOC (1 << 0) //End Of Conversion
#define ADC_IT_FIFO_OVF (1 << 1) //FIFO Overflow
#define ADC_IT_FIFO_HALF (1 << 2) //FIFO Half Full
#define ADC_IT_FIFO_FULL (1 << 3) //FIFO Full
#define ADC_IT_CMP_MAX (1 << 4) //转换结果大于COMP.MAX
#define ADC_IT_CMP_MIN (1 << 5) //转换结果小于COMP.MIN
void ADC_Init(ADC_TypeDef * ADCx, ADC_InitStructure * initStruct); //ADC模数转换器初始化
void ADC_SEQ_Init(ADC_TypeDef * ADCx, uint32_t seq, ADC_SEQ_InitStructure * initStruct); //ADC序列初始化
void ADC_CMP_Init(ADC_TypeDef * ADCx, uint32_t seq, ADC_CMP_InitStructure * initStruct); //ADC比较功能初始化
void ADC_Open(ADC_TypeDef * ADCx); //ADC开启可以软件启动、或硬件触发ADC转换
void ADC_Calibrate(ADC_TypeDef * ADCx); //ADC校准
void ADC_Close(ADC_TypeDef * ADCx); //ADC关闭无法软件启动、或硬件触发ADC转换
void ADC_Start(ADC_TypeDef * ADCx, uint32_t seq); //启动指定ADC开始模数转换
void ADC_Stop(ADC_TypeDef * ADCx, uint32_t seq); //关闭指定ADC停止模数转换
uint32_t ADC_Read(ADC_TypeDef * ADCx, uint32_t seq, uint32_t *chn); //从指定通道读取转换结果
uint32_t ADC_DataAvailable(ADC_TypeDef * ADCx, uint32_t seq); //指定序列是否有数据可读取
void ADC_INTEn(ADC_TypeDef * ADCx, uint32_t seq, uint32_t it);
void ADC_INTEn(ADC_TypeDef * ADCx, uint32_t seq, uint32_t it);
void ADC_INTClr(ADC_TypeDef * ADCx, uint32_t seq, uint32_t it);
uint32_t ADC_INTStat(ADC_TypeDef * ADCx, uint32_t seq, uint32_t it);
#endif //__SWM341_ADC_H__