搜索资源列表
ClosedloopControlledThreePhaseIGBTBridgeConverter
- Closed loop Control of Three Phase IGBT Bridge Converter have been given. in this the IGBT pulses are controlled by Synchronized 6 pulse generator.
svpwm
- 本实例主要是MATLAB搭建的spwm模块 通过仿真 我们可以很清晰的看到该模块能将输入的正弦波和固定频率的三角载波进行比较 输出spwm波 结构简单 易于理解-this model mainly about the spwm generation.we can clearly see the spwm wave from the output and drive the IGBT.
sanxiangspwm
- 三相电压型spwm逆变器仿真 IGBT模型已修改 电流跟踪型逆变器仿真-three v spwm inventor
VtE
- wind power plant with PMSG and IGBT inverter
PMSM_SMO22
- Self-Sensing Control of a Direct-Drive PMSG Wind Turbine System Fed by IGBT Converters.
spwm
- 利用Matlab软件中Simulink和Power System为一个三相电压源SPWM逆变器建立系统仿真模型,并对其输出特性进行仿真分析。 它的主要功能是将直流电压变换成交流电压,采用SPWM控制策略,实时地调节逆变输出电压的幅值,以满足实际的要求。系统的主回路选用IGBT作为开关器件,为了减少输出电压的谐波,逆变电源输出接有串联谐振滤波电路。 -simulation of a spwm Inverter
signal1
- PWM层叠载波信号,适用于基于IGBT的5电平模块化多电平换能器-PWM stacked carrier signal, suitable for IGBT based 5 level modular multilevel transducer
IGBTapplyModel-(2)
- Simulink中的仿真模块IGBT应用举例-IGBT block apply example in Simulink
power_active_filter
- The circuit models a standard shunt AHF with IGBT inverter and series inductor on the AC side and DC capacitor energization. The load consists of two diode rectifiers which are phase-shifted by 30 degrees. The Delta-Y connected rectifier is connected
Inverter1
- single phase H bridge inverter using IGBT
zongheshiyan
- 电力电子,相控整流电路,基于igbt的直流输电(Power electronics, phase controlled rectifier circuit, DC transmission based on IGBT)
SPWM
- 用MATLAB编程产生SPWM波,可以用于控制IGBT来调制波形控制电机(output the spwm wave)
doublesource
- 双侧电源高压直流输电方正模型,采用IGBT(Bilateral power supply HVDC Founder model, using IGB)
power_1phPWM_IGBT
- 用于全桥DC/AC变换器和半桥DC/AC变换器的控制部分(DC/AC Half-Bridge Inverter DC/AC Full-Bridge Inverter)
rainflow
- 雨流计数法的MATLAB程序,本文件中应用雨流计数法对IGBT结温曲线进行处理(Rainflow counting method MATLAB program, the rainflow counting method is used in this document to process the IGBT junction temperature curve)
power_3level
- 该模型是对50kW、380V、50Hz三相三电平逆变器的两个相同电路进行建模。IGBT逆变器采用SPWM技术,(8kHz载频)将直流电源从a +/-200Vdc源转换为220V AC, 50Hz。逆变器通过75kVA 220/380V变压器输入50kW电阻负载。变频器输出采用L-C滤波器滤除主要产生于8kHz开关频率倍数(Fh=n*8000 +/-k*50Hz)附近的谐波频率Fh。逆变器所需的12个逆变脉冲由PWM发生器块产生。该系统以恒定的调制指标在开环中工作。 电路1使用三电平桥块对逆变器
matlab 仿真单相逆变
- 采用单极倍频SPWM调制,输入600V,IGBT组成,LC滤波