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pwm
- STM32的PWM输出模式,STM32的TIM1模块是增强型的定时器模块,天生就是为电机控制而生,可以产生3组6路PWM,同时每组2路PWM为互补,并可以带有死区,可以用来驱动H桥。-STM32' s PWM output mode, STM32' s TIM1 module is enhanced timer module, is inherently for the motor control, it can produ
pwm
- freescale DSP56f807环境下 PE模式输出六路互补PWM波,可用于驱动逆变器-freescale DSP56f807 environment PE mode complementary PWM wave output 6 Road can be used to drive inverter
STM8-PWM
- STM单片机控制全桥逆变源程序,频率在20K左右,主要是得到容易控制的互补对称PWM波形-failed to translate
STM32-TIM1-PWM
- 通过对 TIM1 定时器进行控制,使之各通道输出插入死区的互补PWM 输出, 各通道输出频率均为17.57KHz。 其中,通道1 输出的占空比为50 ,通道2 输出的占空比为25 ,通道3 输 出的占空比为12.5 。各通道互补输出为反相输出。 TIM1 定时器的通道1 到3 的输出分别对应PA.08、PA.09、PA.10 引脚,而通 道1 到3 的互补输出分别对应PB.13、PB.14 和PB.15 引脚,将这些
define-PWM
- stm32单片机产生4路占空比、频率可调的互补PWM,可以用来控制电机和逆变器-stm32 microcontroller to produce the 4-way duty cycle, frequency adjustable complementary PWM can be used to control the motor and inverter
AVR-pwm
- 使用AVR单片机产生频率可调的PWM脉冲输出,两路脉冲互补,一路高电平,另一路低电平。可用于控制可变频率的驱动电机-AVR microcontroller to generate the PWM pulse output frequency is adjustable, two-way pulse complementary, all the way to high and low the other way. Can be used
PWM-VHDL-Dual-complementary-outputs
- 基于单片机的双路互补PWM波输出设置,仅供参考,希望对需要的人有帮助。-Based on single-chip dual complementary PWM wave.
PWM
- 在Keil环境使用stm32F407写的带死区控制的互补PWM驱动,很适合做双路电机控制,这是一个完整的工程,可以直接编译使用-In complementary PWM Keil environment stm32F407 write with dead-time control of the drive, it is suitable for dual motor control, which is a complete projec
PWM-half-bridge-output-
- 半桥互补PWM输出,带频率,占空比可调并且掉电保存频率,占空比值点.-Complementary PWM half-bridge output with frequency, duty cycle and power-down save adjustable frequency, duty cycle value points.
1load-PWM
- MSP430F149单片机输出1路互补PWM波形-MSP430F149 MCU complementary PWM output
Keil_XMC1300_CCU8_PWM_互补PWM生成
- Keil_XMC1300_CCU8_PWM_互补PWM生成,基于XMC1300,在Keil平台生成互补PWM(Generating complementary PWM on the Keil platform based on XMC1300)
高级定时器输出1路互补 PWM实验---含详细注释
- 基于STM32单片机设计的高级定时器TIM1的6路互补带死区的PWM输出实验,代码中含有详细的注释,对学习PWM很有帮助(STM32 microcontroller based design of advanced timer, TIM1 6 complementary band, dead zone PWM output experiment, the code contains detailed notes, helpful for
STM32-M0-PWM互补输出和死区插入
- 利用STM32F031单片机产生六路相同频率具有死区时间的PWM,本程序可以用来做BLDC的参考(The use of STM32F031 microcontroller produces six same frequency, with dead time PWM, this procedure can be used to do BLDC reference)
互补PWM输出-完整版
- 蓝桥杯模拟互补PWM输出-完整版,完成题设所有要求(Blue Bridge Cup simulation complementary PWM output - Full Version, complete all the requirements of the problem set)
STM8S103F3P6产生两路互补PWM波配置
- 搞了两天,总算使用STM8S103F3P6最小化系统板的TIM1产生两路互补的PWM波,现拿出来分享一下。工程为IAR环境,寄存器配置。(For two days, we used the STM8S103F3P6 to minimize the TIM1 of the system board to produce two complementary PWM waves, and now to share it. The projec
STM32 的4路互补pwm
- 使用keil5编写的STM32输出四路互补的PWM,适配正点原子的mini版,同样是为电赛逆变系统做的准备。通过定时器的输出比较模式,在PC6~PC9,输出4路PWM,每路PWM频率为500Hz,占空比为50%,每一路PWM相位差为45°(The STM32 output four complementary PWM, which is written in keil5, is suitable for the mini version
正点原子PWM
- stm32f4输出互补pwm波,用于电机,变频器的驱动。(Stm32f4 output complementary PWM wave.)
stm32_三路互补PWM
- 实现带死区的三鹿互补pwm灵活实现对h桥的控制(Implementation of Sanlu complementary PWM with dead zone to control H bridge flexibly)
三路互补pwm
- 三路互补输出,stm32f407三路互补输出(Three way complementary output,stm32f407)
死区互补pwm
- 基于stm32f403gz的互补带死区pwm程序,可以调用函数来实现自己pwm波形优化(The complementary dead band PWM program based on stm32f403gz can call functions to optimize its PWM waveform)