搜索资源列表
Mini5D_fly_pom_1101
- 新唐Mini5D_fly无刷电机BLDC驱动程序!(New Tang Mini5D_fly brushless motor BLDC driver!)
BLDC-Part5
- reduction ripple 1390pwut
00857a
- Bldc motor driver datasheet
WRE-2016-05_BLDC_drive
- Bldc motor driver datasheet
blcd
- Bldc motor driver datasheet , matlab
ModelingandSpeedControlofPermanentMagnet
- Bldc motor driver datasheet
STM32 PID电机闭环控制参考代码
- stm32 BLDC闭环PID控制,非常好的资料(Stm32 BLDC closed loop PID control)
bldc
- 带滞环电流控制的无刷直流电机模型,对其性能进行仿真分析与研究(Simulation and analysis of Brushless DC motor model with hysteresis current control is carried out.)
BLDC_PI
- Speed control of BLDC motor
speed_control_BLDC (1)
- speed control of bldc matlab code
power_brushlessDCmotor
- BLDC simulink 仿真 能够实现六步换相的 matlab 例程 采用simulink库内自带无刷直流电机(BLDC six-step inverter)
BLDC无刷 霍尔 pid 例程
- 无刷直流电机实现启动功能的实例包括算法说明(Examples of starting functions of Brushless DC motor include algorithm.)
BLDC_HALL
- 带霍尔的无刷电机程序,BLDC,MDK环境下的stm32程序,此程序可用于借鉴编程。(Holzer brushless motor program, BLDC, MDK environment STM32 program, this program can be used for reference programming.)
BLDC_STM32
- 直流无刷电机六拍方波控制器程序,采用STM32进行控制,使用keil进行开发(BLDC driving controller based on STM32 in Keil)
STM32方波霍尔梯形加减速
- 基于FOC 2.0版本库的STM32程序,用于驱动带HALL传感器的PMSM或者BLDC电机,CPU:STM32F103,编译平台:Keil V5,程序功能:实现对带霍尔传感器的BLDC电机进行PWM方波的梯形加减速。(The STM32 program based on FOC 2.0 version library is used to drive PMSM or BLDC motors with HALL sensors, CPU: STM32F103, compiler platform
BLDC过零检测
- 源码实现了BLDC电机控制中的过零检测,是六步换向法控制电机的基础。(The source code achieved the cross zero detection in BLDC motor control , is the basis of six - step control.)
STM32+BLDC+2012.7.22+新版+资料
- 使用STM32进行BLDC开发的例程,包含BLDC的介绍资料,电机驱动例程等(Using STM32 for BLDC development routines, including the introduction of BLDC, motor driver routines, etc.)
BLDC-DTC
- 这是关于无刷直流电机的DTC算法MATLAB验证。通过仿真效果很不错。(This is the MATLAB algorithm for the DTC algorithm of Brushless DC motor. The simulation results are very good.)
STM32 BLDC 霍尔
- stm32无刷直流电机 霍尔pid参考程序(stm32f103 bldc pid code)
bldc
- 无刷直流电机闭环控制,pid需要调节,各位可以看看(Brushless DC motor closed loop control, PID needs to be adjusted, you can see.)