搜索资源列表
PWM_IGBT
- pmsm电机仿真。非常有参考价值 ,欢迎参老-pmsm motor simulation. Very valuable, and welcome to participate old
svpwm
- 关于PMSM电机失量控制的MATLAB仿真程序-PMSM Motor Vector Control on the MATLAB simulation program
DTSM
- MATLAB下的PMSM建模仿真 系统仿真模型组件-DTC
xyy3cixiugai
- 永磁电机仿真-PMSM control!!!!
permanent
- 一个直接转矩控制的仿真程序。可以用来了解直接转矩控制-PMSM control
space_vector_pwm_generation
- 永磁同步电机PMSM空间矢量控制SVPWM 仿真模型-Permanent magnet synchronous motor PMSM space vector control SVPWM simulation model
PMSM_-1
- 矢量控制 用于pmsm的 仿真很实用的资料 -Simulation of vector control for pmsm very practical information
PMSM_Slidingmode
- 永磁同步电机基于滑模观测器的调速系统仿真研究-PMSM control system based on smo
vcofPMSM
- Vc of pmsm,非常工整,一目了然,很有参考价值的仿真模型。-Vc of PMSM, very neatly, be clear at a glance, it is reference value of the simulation model.
fujianpmsmdtc6
- pmsm的仿真模型,有一定的参考价值,可以运行通过的模型。-A simulation model of PMSM, and it have certain reference value, which can run through the model.
pmsm_vec_SVPWM
- 永磁同步电机矢量控制系统的matlab/simulink仿真模型,是一个同学做的-PMSM SVPWM control
FOC_PMSM
- PMSM的FOC算法驱动仿真模型,希望对大家有所帮助。-The PMSM s drive algorithm
svpwm
- 基于svpwm的永磁同步电机matlab/simulink仿真-the simulation of PMSM based on svpwm by matlab/simulink
PMSM_System
- 永磁同步电机PMSM的matlab/simulink 仿真电路,可以用于电动汽车的研究,有参考价值。-Of permanent magnet synchronous motor PMSM matlab/simulink simulation circuit can be used in electric vehicles, the reference value.
PISMO
- 在MATLAB中的SMULINK实现PMSM滑模矢量控制仿真-In the MATLAB SMULINK PMSM sliding mode vector control simulation
shiliangkongzhi_PMSM
- 在Matlab/Simulink环境下实现永磁同步电机的矢量控制仿真。-To simulate the vector control of PMSM in the aid of Simulink
SVPWMTHEVERY
- 这是一个永磁同步电机的驱动系统仿真模型,使用空间矢量控制方法,控制效果不错-this is a simulating model of pmsm svpwm under simulink
motor_svpwm
- 永磁同步电机的svpwm模型仿真,可实现转矩控制,效果不错。-Svpwm PMSM model simulation
pmsmzhihuanfangzhne
- 永磁同步点击(PMSM)的电流滞环仿真模型-Click on permanent magnet synchronous (PMSM) simulation model of current hysteresis
ADRC
- 仿真模型 基于自抗扰控制技术的永磁同步电机直接转矩控制。比普通PID、模糊神经网络等控制更先进-Speed regulator based on ADRC of PMSM DTC is designed. ADRC adopts nonlinear control method, and is composed of track-differentiator (TD), extended state observer (ESO), nonlinear state er