搜索资源列表
ADC+USART
- STM32F103 ADC+USART
STM32f103-ADC-USART.rar
- STM32f103两路ADC数据采集用USART送出,STM32f103 two ADC data acquisition sent by USART
stm32f103_adc
- 可用于stm32f103 ARM芯片的AD转换程序,已经过验证-Stm32f103 ARM chips can be used for AD conversion process, has been verified
STM32f103-ADC-USART
- STMicroelectronics 32 用ADC模块采集两路信号并通过USART模块送出 * 设置ADC1的常规转换序列包含CH10和CH16(片内温度传感器) * 设置了连续转换模式,并使用DMA传输-STMicroelectronics 32 ADC module with the acquisition of two signals sent through the USART module* set ADC1 conventional conversion sequence
ADC
- stm32F103的库文件以及其范例,中文板,C语言描述adc-stm32F103 the library file, as well as its example, Chinese plate, C language descr iption
ADC
- 基于STM32F103平台的ADC模块控制程序-sourec code for ADC module base on STM32F103 CPU
STM32F103_ADC
- STM32F103 ADC example
ADC_test
- stm32F103 ADC 源码。实现AD转换。-stm32F103 ADC source. Achieve AD conversion.
STM32F103
- ET-STM32F103 is ARM Cortex-M3 Board Microcontroller that uses 32-Bit 64PIN (LQFP) Microcontroller No.STM32F103RBT6 from STMicroelectronics. Resource systems internal STM32F103RBT6 are quite perfect and suitable for learning or applying to man
ADC
- 基于STM32F103VET6的ADC程序
ADC1_DMA
- STM32F103 ADC without DMA
ALIENTEK_MINISTM32_ADC_test
- STM32F103 ADC测试驱动程序,可以实现4通道检测-STM32F103 ADC Driver
ADC
- Stm32f103 ADC demo example-Stm32f103 ADC demo example功能开发
DMA-USE-IN-STM32F103-ADC
- DMA方式实现STM32F103的ADC采集-DMA-USE IN STM32F103-ADC
试验台控制板ADC测试
- STM32F103 ADC 功能测试(STM32F103 ADC)
全部功能_核心板 - ADC连续转换
- 全部功能_核心板 - ADC连续转换 STM32F103 ADC+DMA 三路连续转换(All of the features of _ core board - ADC continuous conversion STM32F103 ADC+DMA three way continuous conversion)
1-ADC—单通道 PC1(中断读取)
- 应用于STM32F103VET6,进行ADC单通道的数据读取。(Applied to STM32F103VET6, read data from ADC single channel)
STM32内部外设ADC代码
- STM32F103 内部ADC使用,ADC驱动,测试没有问题,放心使用。(STM32F103 internal ADC use, ADC driver, test no problem, rest assured to use.)
ADC与PWM串口
- 基于STM32F103RC ,ADC检测,PWM输出,串口调试(Based on STM32F103RC, ADC detection, PWM output, serial debugging)
ADC
- stm32F103 adc采样程序,包括初始化和配置等(u16 ADC_Get_aveg(u8 ch,u8 n) { u32 ad_sum = 0; u8 i; for(i=0;i<n;i++) { ad_sum += Get_val(ch); delay_ms(5); } return (ad_sum / n))