GD32VF103_环境配置_GPIO_外部中断 GD32VF103_定时器中断 GD32VF103_串口发送_printf_接收中断_DMA 我们前三节写了GPIO, EXTI, TIMER, USART的用例, 本节写DAC的用例, 默认 PA4-DAC0, PA5-DAC1, 我们程序里面默认DAC0输出3.3V的1/2, DAC1输出为3.3V的1/4.
打开NucleiStudio:
File -> New -> C/C++ Project, 选择C Managed Build选择GigaDevice RISC-V Project, 填入工程名MCU默认暂时只有GD32VF103, 然后Demo也没法选, 只有Running_LED, 不变下一步, 完成.main.c代码如下:
#include "gd32vf103.h" //PA4 -- DAC0 //PA5 -- DAC1 #define DAC0_OUT_VAL (0x7FF0) //3.3 * 1/2 #define DAC1_OUT_VAL (0x3FF0) //3.3 * 1/4 int main(void) { rcu_periph_clock_enable(RCU_GPIOA); rcu_periph_clock_enable(RCU_DAC); /* once enabled the DAC, the corresponding GPIO pin is connected to the DAC converter automatically */ gpio_init(GPIOA, GPIO_MODE_AIN, GPIO_OSPEED_50MHZ, GPIO_PIN_4); gpio_init(GPIOA, GPIO_MODE_AIN, GPIO_OSPEED_50MHZ, GPIO_PIN_5); dac_deinit(); dac_trigger_disable(DAC0); dac_wave_mode_config(DAC0, DAC_WAVE_DISABLE); dac_output_buffer_enable(DAC0); dac_trigger_disable(DAC1); dac_wave_mode_config(DAC1, DAC_WAVE_DISABLE); dac_output_buffer_enable(DAC1); dac_enable(DAC0); dac_data_set(DAC0, DAC_ALIGN_12B_L, DAC0_OUT_VAL); dac_enable(DAC1); dac_data_set(DAC1, DAC_ALIGN_12B_L, DAC1_OUT_VAL); while(1) { } return 0; }代码中 DAC_ALIGN_12B_L 靠左12bit对齐, 所以#define DAC0_OUT_VAL (0x7FF0) 就代表了一半输出. 调试运行, 拿出万用表, 测量AVDD电压3.31V, PA4电压为1.65V, PA5电压为0.82V, 符合预期.
https://download.csdn.net/download/weifengdq/11947183
