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2012moni
- 基于STM32的嵌入式开发板,利用systick、定时器、1602液晶显示屏来测量速度,平均速度,总量,arm综合应用。-STM32-based embedded development board, use systick, timers, 1602 LCD monitor to measure speed, average speed, total, arm integrated application.
STM32F746-BSP
- 这个是STM32F746源碼演示了如何使用不同的BSP驱动。 在主程序的hal_init()功能开始被称为重置 所有的外设,初始化Flash界面和SysTick。 然后systemclock_config()函数是用来配置系统时钟 (SYSCLK)运行在200 MHz,输出锁相环分为pll_q提供50 MHz。 此频率允许达到25兆赫的时钟需要的操作和在线路 与microSD规格。-This STM32F746 code provides a descr iption o
LPC1768_interrupt
- LPC1768 串口、定时器、系统滴答时钟定时器中断服务函数-UART、timer、Systick interrupt function for LPC1768
Stm32Systick
- STM32的Systick学习历程 STM32基础学习历程,帮助想学好STM32的网友!-The Systick STM32 learning process STM32 based learning process, helping users want to learn the STM32!
11.SysTick_VBT6
- VBT6系统时钟程序,测试正常-VBT6 the systick experiment, as I test
SysTick
- 控制开发板上的RGB彩灯,轮流显示“红绿蓝”颜色,每秒切换一次颜色-Control Development Board RGB lights, turn shows RGB colors, switching colors every second
My60S2Demo
- STC12C5A60S2的工程模板 用于stc的51系列单片机C51 - Struction descr iption 1.BSP Board s config header a).IOconfig.h define extern component s IO pin
k60_100_systick
- 使用CW中PE,基于TWR-K60D100M开发板, 做了一个使用systick产生1s钟延时,闪烁小灯D7(PTA11)。 希望能对大家有帮助。-Using PE in CW, based on the TWR-K60D100M development board, Do a systick 1s clock delay, flashing lights (D7 PTA11). Hope that we can help.
STM32_contiki2.7
- 基于MDK平台的contiki STM32移植源码,使用systick提供系统时钟,实现最简单的LED控制功能。-Based on MDK platform contiki STM32 transplant source, the use systick system clock to achieve the most simple LED control functions.
SysTick
- 定时器中断,实现的stm32f103x的定时器功能这在实验中得到了正确的答案-Timer interrupt, the realization of the timer function stm32f103x This has been the correct answer in the experiment
STM32_modbus
- STM32模板 V3.5固件库systick精确定时_TIM2轮询_modbus支持 特别适合初学者快速启动开发-STM32 Template V3.5 Firmware Library systick Precise Timing _TIM2 Polling _modbus Support Ideal for beginners Quick Start Development
1_2_led_systick
- lpc1788-1_2_led_systick 例程描述: 本例程使用 Systick 实现流水灯。 操作过程: 将代码运行即可,开发板上四个 LED 灯呈现流水灯模式闪烁。 -Lpc1788-1_2_led_systick Routine Descr iption: This routine uses Systick to realize the water lamp. Operation process: The code
InitPeripheral
- LPC1778外设初始化,包括GPIO、Systick、Timer0、CAN、UART、ADC,工程刚调试好,完全没有任何问题,初始化调用的是库函数-LPC1778 peripherals initialization, including GPIO, Systick, Timer0, CAN, UART, ADC, engineering just debugging good, there is no problem, the initial call is the library func
KL25-Systick
- 上电后,串口软件显示一次字符串‘请发送你要开始计数的数字’。然后PC端发出一个数字,根据这个数字,每隔2秒显示递增2的数字。(数字超过9就回0)(When the power is on, the serial software displays a string. "Please send the number you want to start counting.". Then the PC side issues a number, which, according t
Keil_XMC1300_UART_1302
- xmc1300串口程序,程序已经测试,可用。(DEscr iptION: This example toggles one on-board LED using a 200ms Systick interrupt base and sends UART messages to the PC. REQUIREMENTS: - J-Link Drivers installed on PC - J-Link v4.59 or above - XMC1300 Boot Kit (XMC1
4-SysTick—系统定时器
- 通过STM32F103 RCC RTC的配置,实现系统定时器功能(The system timer function is realized through the configuration of STM32F103 RCC RTC)
_1_STM32_Delay
- 32的延迟函数,包含两种,systick和普通的循环延迟(The 32 delay function contains two kinds, systick and common loop delay)
书例_野火M3-SysTick(1)
- 基于STM32103VG单片机,用定时器TIM3实现四路PWM输出。(Based on the STM32103VG microcontroller, with the timer TIM3 to achieve four PWM output.)
实验二:systick(库函数)
- 用于STM32F0X系列M0系列单片机的程序开发,主要讲解系统定时。(STM32F0X series for M0 series microcontroller program development, mainly on system timing.)
IR_RS232
- 红外遥控代码,需要重新配置SysTick的中断优先级为最高,要不然SysTick延时中断抢占不了IO EXTI中断,或者当你用其他定时器做延时的时候,要配置定时器的优先级高于IO EXTI中断的优先级.(Reconfiguration of SysTick interrupts the highest priority, otherwise SysTick delay interrupts cannot preempt IO EXTI interrupts * because the defa