UART.rar_STM8S003F3IAR_between_uartinstm8s003f3资源-CSDN文库

共95个文件

h：28个

c：26个

cout：9个

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180 浏览量 2022-09-21 00:51:06 上传评论 1 收藏 878KB RAR 举报

STM8S003F3是一款微控制器，属于STMicroelectronics的STM8S系列，它在许多嵌入式系统设计中被广泛使用。IAR是一个知名的集成开发环境（IDE），专为微控制器编程提供高效、可靠的编译工具链。在这个项目中，"UART.rar_STM8S003F3_IAR_between_uart_in_stm8s003f3"显然涉及到STM8S003F3微控制器与PC之间的串行通信，通过USB转TTL模块实现。 UART，全称通用异步收发传输器（Universal Asynchronous Receiver/Transmitter），是微控制器与外部设备进行串行通信的一种常见接口。在STM8S003F3中，UART允许设备以较低的数据速率进行双向通信，通常用于调试、日志记录或与其他设备交互。在IAR环境中开发STM8S003F3的UART应用，需要掌握以下几个关键知识点： 1. **STM8S003F3硬件配置**：理解微控制器的内部资源，包括UART的时钟源设置、波特率发生器、数据位、停止位和奇偶校验的配置。 2. **IAR集成开发环境**：熟悉IAR的界面，包括工程创建、代码编写、编译、链接和调试步骤。了解如何在IAR中配置和调用STM8S的HAL库或LL库，以便访问和控制UART。 3. **UART初始化**：在程序中初始化UART接口，包括选择合适的波特率（例如9600、115200等），设置数据格式（如8位数据位、1位停止位、无校验）以及中断处理。 4. **USB转TTL模块**：理解USB转TTL模块的工作原理，它通常使用如CH340或FTDI等芯片将USB信号转换为TTL电平的串行信号，以便与微控制器的UART接口连接。 5. **串行通信协议**：掌握UART的起始位、数据位、停止位和可能的校验位，理解它们如何影响数据的正确传输。 6. **中断驱动通信**：在STM8S003F3中，通过中断服务程序来处理接收和发送事件，可以提高实时性和系统效率。 7. **错误检测和处理**：在通信过程中，可能出现的数据错误如帧错误、溢出错误等需要进行检测并妥善处理。 8. **C语言编程**：编写有效的C代码来实现UART功能，包括发送和接收函数，以及可能的缓冲区管理。 9. **调试技巧**：使用IAR的调试工具，如断点、变量观察窗口、步进执行等，来定位和解决问题。 10. **实际应用**：可能涉及如何将这个通信接口应用到实际项目中，例如通过UART与PC端的软件进行数据交换，或者与其他支持UART的设备（如传感器、显示器）通信。 "UART.rar"可能包含的文件有源代码、配置文件、编译输出等，这些文件将帮助我们理解上述知识点的具体实现。通过解压并分析这些文件，我们可以深入学习STM8S003F3在IAR环境下如何实现与PC的UART通信。在实际操作中，还需要根据具体的电路设计和需求对代码进行适当的修改和优化。

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收起资源包目录

UART.rar （95个子文件）

UART

Uart_L_P

sample.ewd 12KB

stm8s_it.c 13KB

sample.dep 7KB

main.c 4KB

sample.ewp 44KB

sample.eww 160B

stm8s_conf.h 5KB

main.c_cbf 167B

Backup of sample.ewd 11KB

sample.ewt 110KB

Backup of sample.ewp 43KB

stm8s_it.h 5KB

settings

sample.dni 1KB

sample.wspos 51B

sample.dbgdt 5KB

sample.wsdt 4KB

sample.cspy.bat 1KB

sample.Debug.cspy.bat 2KB

sample.Debug.general.xcl 320B

sample.Debug.driver.xcl 161B

STM8S_StdPeriph_Driver

inc

stm8s_tim2.h 14KB

stm8s_tim5.h 19KB

stm8s_clk.h 17KB

stm8s_tim3.h 13KB

stm8s_i2c.h 27KB

stm8s_adc2.h 11KB

stm8s_rst.h 3KB

stm8s_awu.h 5KB

stm8s_delay.h 576B

stm8s.h 113KB

stm8s_spi.h 13KB

stm8s_uart3.h 15KB

stm8s_tim1.h 26KB

stm8s_itc.h 7KB

stm8s_tim4.h 5KB

stm8s_gpio.h 6KB

stm8s_exti.h 5KB

stm8s_flash.h 13KB

stm8s_beep.h 3KB

stm8s_uart2.h 19KB

stm8s_uart1.h 16KB

stm8s_adc1.h 15KB

stm8s_wwdg.h 2KB

stm8s_can.h 25KB

stm8s_tim6.h 9KB

stm8s_iwdg.h 4KB

src

stm8s_tim4.c 12KB

stm8s_uart2.c 29KB

stm8s_tim5.c 50KB

stm8s_can.c 48KB

stm8s_tim3.c 37KB

stm8s_spi.c 14KB

stm8s_tim6.c 15KB

stm8s_iwdg.c 3KB

stm8s_wwdg.c 4KB

stm8s_i2c.c 32KB

stm8s_clk.c 22KB

stm8s_flash.c 25KB

stm8s_adc2.c 13KB

stm8s_adc1.c 23KB

stm8s_tim1.c 84KB

stm8s_uart1.c 26KB

stm8s_exti.c 6KB

stm8s_tim2.c 46KB

stm8s_uart3.c 24KB

stm8s_gpio.c 8KB

stm8s_awu.c 6KB

stm8s_itc.c 10KB

stm8s_rst.c 3KB

stm8s_beep.c 5KB

Debug

List

Exe

sample.hex 7KB

templproj.out 53KB

Obj

sample.pbd.browse 395KB

main.pbi 193KB

stm8s_adc1.pbi.cout 11KB

stm8s_tim2.o 99KB

stm8s_adc1.pbi 172KB

main.pbi.cout 11KB

stm8s_adc1.o 54KB

stm8s_tim2.pbi 201KB

stm8s_clk.pbi.cout 11KB

stm8s_clk.pbi 155KB

stm8s_uart1.pbi 170KB

stm8s_uart1.pbi.cout 11KB

stm8s_clk.o 54KB

stm8s_spi.pbi.cout 10KB

stm8s_gpio.pbi.cout 11KB

stm8s_gpio.o 23KB

stm8s_it.pbi.cout 11KB

sample.pbd 395KB

stm8s_uart1.o 54KB

main.o 18KB

stm8s_tim1.pbi.cout 10KB

stm8s_tim2.pbi.cout 11KB

stm8s_gpio.pbi 140KB

/** ****************************************************************************** * @file stm8s_tim1.c * @author MCD Application Team * @version V2.1.0 * @date 18-November-2011 * @brief This file contains all the functions for the TIM1 peripheral. ****************************************************************************** * @attention * * THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS * WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE * TIME. AS A RESULT, STMICROELECTRONICS SHALL NOT BE HELD LIABLE FOR ANY * DIRECT, INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING * FROM THE CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE * CODING INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS. * * <h2><center>© COPYRIGHT 2011 STMicroelectronics</center></h2> ****************************************************************************** */ /* Includes ------------------------------------------------------------------*/ #include "stm8s_tim1.h" /** @addtogroup STM8S_StdPeriph_Driver * @{ */ /* Private typedef -----------------------------------------------------------*/ /* Private define ------------------------------------------------------------*/ /* Private macro -------------------------------------------------------------*/ /* Private variables ---------------------------------------------------------*/ /* Private function prototypes -----------------------------------------------*/ static void TI1_Config(uint8_t TIM1_ICPolarity, uint8_t TIM1_ICSelection, uint8_t TIM1_ICFilter); static void TI2_Config(uint8_t TIM1_ICPolarity, uint8_t TIM1_ICSelection, uint8_t TIM1_ICFilter); static void TI3_Config(uint8_t TIM1_ICPolarity, uint8_t TIM1_ICSelection, uint8_t TIM1_ICFilter); static void TI4_Config(uint8_t TIM1_ICPolarity, uint8_t TIM1_ICSelection, uint8_t TIM1_ICFilter); /** * @addtogroup TIM1_Public_Functions * @{ */ /** * @brief Deinitializes the TIM1 peripheral registers to their default reset values. * @param None * @retval None */ void TIM1_DeInit(void) { TIM1->CR1 = TIM1_CR1_RESET_VALUE; TIM1->CR2 = TIM1_CR2_RESET_VALUE; TIM1->SMCR = TIM1_SMCR_RESET_VALUE; TIM1->ETR = TIM1_ETR_RESET_VALUE; TIM1->IER = TIM1_IER_RESET_VALUE; TIM1->SR2 = TIM1_SR2_RESET_VALUE; /* Disable channels */ TIM1->CCER1 = TIM1_CCER1_RESET_VALUE; TIM1->CCER2 = TIM1_CCER2_RESET_VALUE; /* Configure channels as inputs: it is necessary if lock level is equal to 2 or 3 */ TIM1->CCMR1 = 0x01; TIM1->CCMR2 = 0x01; TIM1->CCMR3 = 0x01; TIM1->CCMR4 = 0x01; /* Then reset channel registers: it also works if lock level is equal to 2 or 3 */ TIM1->CCER1 = TIM1_CCER1_RESET_VALUE; TIM1->CCER2 = TIM1_CCER2_RESET_VALUE; TIM1->CCMR1 = TIM1_CCMR1_RESET_VALUE; TIM1->CCMR2 = TIM1_CCMR2_RESET_VALUE; TIM1->CCMR3 = TIM1_CCMR3_RESET_VALUE; TIM1->CCMR4 = TIM1_CCMR4_RESET_VALUE; TIM1->CNTRH = TIM1_CNTRH_RESET_VALUE; TIM1->CNTRL = TIM1_CNTRL_RESET_VALUE; TIM1->PSCRH = TIM1_PSCRH_RESET_VALUE; TIM1->PSCRL = TIM1_PSCRL_RESET_VALUE; TIM1->ARRH = TIM1_ARRH_RESET_VALUE; TIM1->ARRL = TIM1_ARRL_RESET_VALUE; TIM1->CCR1H = TIM1_CCR1H_RESET_VALUE; TIM1->CCR1L = TIM1_CCR1L_RESET_VALUE; TIM1->CCR2H = TIM1_CCR2H_RESET_VALUE; TIM1->CCR2L = TIM1_CCR2L_RESET_VALUE; TIM1->CCR3H = TIM1_CCR3H_RESET_VALUE; TIM1->CCR3L = TIM1_CCR3L_RESET_VALUE; TIM1->CCR4H = TIM1_CCR4H_RESET_VALUE; TIM1->CCR4L = TIM1_CCR4L_RESET_VALUE; TIM1->OISR = TIM1_OISR_RESET_VALUE; TIM1->EGR = 0x01; /* TIM1_EGR_UG */ TIM1->DTR = TIM1_DTR_RESET_VALUE; TIM1->BKR = TIM1_BKR_RESET_VALUE; TIM1->RCR = TIM1_RCR_RESET_VALUE; TIM1->SR1 = TIM1_SR1_RESET_VALUE; } /** * @brief Initializes the TIM1 Time Base Unit according to the specified parameters. * @param TIM1_Prescaler specifies the Prescaler value. * @param TIM1_CounterMode specifies the counter mode from @ref TIM1_CounterMode_TypeDef . * @param TIM1_Period specifies the Period value. * @param TIM1_RepetitionCounter specifies the Repetition counter value * @retval None */ void TIM1_TimeBaseInit(uint16_t TIM1_Prescaler, TIM1_CounterMode_TypeDef TIM1_CounterMode, uint16_t TIM1_Period, uint8_t TIM1_RepetitionCounter) { /* Check parameters */ assert_param(IS_TIM1_COUNTER_MODE_OK(TIM1_CounterMode)); /* Set the Autoreload value */ TIM1->ARRH = (uint8_t)(TIM1_Period >> 8); TIM1->ARRL = (uint8_t)(TIM1_Period); /* Set the Prescaler value */ TIM1->PSCRH = (uint8_t)(TIM1_Prescaler >> 8); TIM1->PSCRL = (uint8_t)(TIM1_Prescaler); /* Select the Counter Mode */ TIM1->CR1 = (uint8_t)((uint8_t)(TIM1->CR1 & (uint8_t)(~(TIM1_CR1_CMS | TIM1_CR1_DIR))) | (uint8_t)(TIM1_CounterMode)); /* Set the Repetition Counter value */ TIM1->RCR = TIM1_RepetitionCounter; } /** * @brief Initializes the TIM1 Channel1 according to the specified parameters. * @param TIM1_OCMode specifies the Output Compare mode from * @ref TIM1_OCMode_TypeDef. * @param TIM1_OutputState specifies the Output State from * @ref TIM1_OutputState_TypeDef. * @param TIM1_OutputNState specifies the Complementary Output State * from @ref TIM1_OutputNState_TypeDef. * @param TIM1_Pulse specifies the Pulse width value. * @param TIM1_OCPolarity specifies the Output Compare Polarity from * @ref TIM1_OCPolarity_TypeDef. * @param TIM1_OCNPolarity specifies the Complementary Output Compare Polarity * from @ref TIM1_OCNPolarity_TypeDef. * @param TIM1_OCIdleState specifies the Output Compare Idle State from * @ref TIM1_OCIdleState_TypeDef. * @param TIM1_OCNIdleState specifies the Complementary Output Compare Idle * State from @ref TIM1_OCIdleState_TypeDef. * @retval None */ void TIM1_OC1Init(TIM1_OCMode_TypeDef TIM1_OCMode, TIM1_OutputState_TypeDef TIM1_OutputState, TIM1_OutputNState_TypeDef TIM1_OutputNState, uint16_t TIM1_Pulse, TIM1_OCPolarity_TypeDef TIM1_OCPolarity, TIM1_OCNPolarity_TypeDef TIM1_OCNPolarity, TIM1_OCIdleState_TypeDef TIM1_OCIdleState, TIM1_OCNIdleState_TypeDef TIM1_OCNIdleState) { /* Check the parameters */ assert_param(IS_TIM1_OC_MODE_OK(TIM1_OCMode)); assert_param(IS_TIM1_OUTPUT_STATE_OK(TIM1_OutputState)); assert_param(IS_TIM1_OUTPUTN_STATE_OK(TIM1_OutputNState)); assert_param(IS_TIM1_OC_POLARITY_OK(TIM1_OCPolarity)); assert_param(IS_TIM1_OCN_POLARITY_OK(TIM1_OCNPolarity)); assert_param(IS_TIM1_OCIDLE_STATE_OK(TIM1_OCIdleState)); assert_param(IS_TIM1_OCNIDLE_STATE_OK(TIM1_OCNIdleState)); /* Disable the Channel 1: Reset the CCE Bit, Set the Output State , the Output N State, the Output Polarity & the Output N Polarity*/ TIM1->CCER1 &= (uint8_t)(~( TIM1_CCER1_CC1E | TIM1_CCER1_CC1NE | TIM1_CCER1_CC1P | TIM1_CCER1_CC1NP)); /* Set the Output State & Set the Output N State & Set the Output Polarity & Set the Output N Polarity */ TIM1->CCER1 |= (uint8_t)((uint8_t)((uint8_t)(TIM1_OutputState & TIM1_CCER1_CC1E) | (uint8_t)(TIM1_OutputNState & TIM1_CCER1_CC1NE)) | (uint8_t)( (uint8_t)(TIM1_OCPolarity & TIM1_CCER1_CC1P) | (uint8_t)(TIM1_OCNPolarity & TIM1_CCER1_CC1NP))

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