#include #include "SWM221.h" #define ADC_LIMIT_MIN 400 #define ADC_LIMIT_MAX 3600 #define ADC_SIZE 16 uint16_t ADC_Result[ADC_SIZE] = {0}; void SerialInit(void); int main(void) { DMA_InitStructure DMA_initStruct; ADC_InitStructure ADC_initStruct; ADC_SEQ_InitStructure ADC_SEQ_initStruct; ADC_CMP_InitStructure ADC_CMP_initStruct; SystemInit(); SerialInit(); PORT_Init(PORTA, PIN14, PORTA_PIN14_ADC0_CH0, 0); //PA.14 => ADC0.CH0 PORT_Init(PORTA, PIN11, PORTA_PIN11_ADC0_CH1, 0); //PA.11 => ADC0.CH1,注意:此通道只在 ADC 参考源为 ADC_REF_VDD 时可用 PORT_Init(PORTA, PIN8, PORTA_PIN8_ADC0_CH2, 0); //PA.8 => ADC0.CH2 PORT_Init(PORTB, PIN6, PORTB_PIN6_ADC0_CH5, 0); //PB.6 => ADC0.CH5 PORT_Init(PORTB, PIN5, PORTB_PIN5_ADC0_CH6, 0); //PB.5 => ADC0.CH6 PORT_Init(PORTB, PIN4, PORTB_PIN4_ADC0_CH7, 0); //PB.4 => ADC0.CH7 PORT_Init(PORTB, PIN2, PORTB_PIN2_ADC0_CH8, 0); //PB.2 => ADC0.CH8 ADC_initStruct.clkdiv = 4; ADC_initStruct.refsrc = ADC_REF_VDD; ADC_initStruct.samplAvg = ADC_AVG_SAMPLE1; ADC_Init(ADC0, &ADC_initStruct); ADC_SEQ_initStruct.trig_src = ADC_TRIGGER_TIMER2; ADC_SEQ_initStruct.samp_tim = 6; ADC_SEQ_initStruct.conv_cnt = ADC_SIZE; ADC_SEQ_initStruct.EOCIntEn = 0; ADC_SEQ_initStruct.channels = (uint8_t []){ ADC_CH0, 0xF }; ADC_SEQ_Init(ADC0, ADC_SEQ1, &ADC_SEQ_initStruct); ADC_CMP_initStruct.LowerLimit = ADC_LIMIT_MIN; ADC_CMP_initStruct.LowerLimitIEn = 1; ADC_CMP_initStruct.UpperLimit = ADC_LIMIT_MAX; ADC_CMP_initStruct.UpperLimitIEn = 1; ADC_CMP_Init(ADC0, ADC_SEQ1, &ADC_CMP_initStruct); ADC0->CR |= (1 << ADC_CR_SEQ1DMAEN_Pos); ADC_Open(ADC0); DMA_initStruct.Mode = DMA_MODE_CIRCLE; DMA_initStruct.Unit = DMA_UNIT_HALFWORD; DMA_initStruct.Count = ADC_SIZE; DMA_initStruct.PeripheralAddr = (uint32_t)&ADC0->SEQ1DMA; DMA_initStruct.PeripheralAddrInc = 0; DMA_initStruct.MemoryAddr = (uint32_t)ADC_Result; DMA_initStruct.MemoryAddrInc = 1; DMA_initStruct.Handshake = DMA_CH0_ADC0SEQ1; DMA_initStruct.Priority = DMA_PRI_LOW; DMA_initStruct.INTEn = 0; DMA_CH_Init(DMA_CH0, &DMA_initStruct); DMA_CH_Open(DMA_CH0); TIMR_Init(TIMR2, TIMR_MODE_TIMER, CyclesPerUs, 1000, 0); TIMR_Start(TIMR2); while(1==1) { } } void ADC_Handler(void) { uint16_t adc_result[ADC_SIZE]; if(ADC_INTStat(ADC0, ADC_SEQ1, ADC_IT_CMP_MAX)) { ADC_INTClr(ADC0, ADC_SEQ1, ADC_IT_CMP_MAX); memcpy(adc_result, ADC_Result, sizeof(ADC_Result)); printf("ADC Value > %d found:\n", ADC_LIMIT_MAX); for(int i = 0; i < ADC_SIZE; i++) printf("%d, ", adc_result[i]); printf("\n\n"); } if(ADC_INTStat(ADC0, ADC_SEQ1, ADC_IT_CMP_MIN)) { ADC_INTClr(ADC0, ADC_SEQ1, ADC_IT_CMP_MIN); memcpy(adc_result, ADC_Result, sizeof(ADC_Result)); printf("ADC Value < %d found:\n", ADC_LIMIT_MIN); for(int i = 0; i < ADC_SIZE; i++) printf("%d, ", adc_result[i]); printf("\n\n"); } } void SerialInit(void) { UART_InitStructure UART_initStruct; PORT_Init(PORTA, PIN0, PORTA_PIN0_UART0_RX, 1); //GPIOA.0配置为UART0 RXD PORT_Init(PORTA, PIN1, PORTA_PIN1_UART0_TX, 0); //GPIOA.1配置为UART0 TXD UART_initStruct.Baudrate = 57600; UART_initStruct.DataBits = UART_DATA_8BIT; UART_initStruct.Parity = UART_PARITY_NONE; UART_initStruct.StopBits = UART_STOP_1BIT; UART_initStruct.RXThreshold = 3; UART_initStruct.RXThresholdIEn = 0; UART_initStruct.TXThreshold = 3; UART_initStruct.TXThresholdIEn = 0; UART_initStruct.TimeoutTime = 10; UART_initStruct.TimeoutIEn = 0; UART_Init(UART0, &UART_initStruct); UART_Open(UART0); } /****************************************************************************************************************************************** * 函数名称: fputc() * 功能说明: printf()使用此函数完成实际的串口打印动作 * 输 入: int ch 要打印的字符 * FILE *f 文件句柄 * 输 出: 无 * 注意事项: 无 ******************************************************************************************************************************************/ int fputc(int ch, FILE *f) { UART_WriteByte(UART0, ch); while(UART_IsTXBusy(UART0)); return ch; }