搜索资源列表
Electrical-Simulation
- 交直交PWM变换器,无刷直流电机驱动,MosFet变换器,基于MATLAB/Simulink平台编写-AC-DC-AC PWM converter,Brushless motor Drive,Mosfet converter
double_onephase_dc_ac_pwm.slx
- 单相PWM逆变器直流-交流mtalab模型,PWM发生器的内涵,适用于逆变器研究的学生 -Single-phase PWM inverter dc- ac mtalab model, the connotation of the PWM generator, is suitable for inverter for research students
EVcharger_AverageModel_pu
- 电动汽车电气部分充放电系统的平均模型仿真程序。将开关系统转化为纯电路系统以便于分析和计算。-Simulink program for the average equivalent model of charging/re-charging part in electic vehicles. The DC-DC-AC system is modeled as a cuicuit without any swiches.
ThreePhase_ACDCAC_PMWconverter
- A 50 kW, 380 V, 50 Hz load is connected to a 25 kV, 60 Hz grid through a AC-DC-AC power supply. This power supply consists of two voltage source converters, VSC1 and VSC2, connected through a DC link. VSC1 connected on 60Hz grid is operating as
dc-ac
- 光伏发电系统逆变器功能的控制算法的实现。-Photovoltaic inverter system function of the realization of the control algorithm.
acdcjiandancuimanaaa
- 三电平 NPC SVPWM调制 ac/dc/ac-three level SVPWM
DCAC_single_phase
- DC-AC single phase inverter with current regulation in simulink. Good reference.
DCAC_3phase
- DC-AC three phase inverter current regulation using matlab simulink.
DCAC_Grid_sync
- Three phase DC-AC inverter grid synchronization demo using matlab simulink. Good Reference.
SPWM_3phase_ACDC_DCDC_neg
- 双向PCS控制仿真,DC-DC部分采用定功率单环控制,DC-AC采用Udc-Q解耦控制,系统直流电压由后级DC-AC实现稳定控制-bi-direction PCS control simulation, DC-DC part using single-loop control, DC-AC part using Udc-Q decoupling control.
bbtufzwb
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用QBhhSwV定功率单环控制,DC-AC采用Udc-Q解耦控制,系统直流电压由后级DC-AC实现稳定控制,yBZiAhn参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the QBhhSwV fixed power control, Udc-Q using DC-AC decoupling control, the system DC
bcyradpi
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用fmuiRzP定功率单环控制,DC-AC采用Udc-Q解耦控制,系统直流电压由后级DC-AC实现稳定控制,lkVVGOx参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the fmuiRzP fixed power control, Udc-Q using DC-AC decoupling control, the system DC
chywrtsz
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用CLSgHSA定功率单环控制,DC-AC采用Udc-Q解耦控制,系统直流电压由后级DC-AC实现稳定控制,NvpXqaR参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the CLSgHSA fixed power control, Udc-Q using DC-AC decoupling control, the system DC
cjyhzkec
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用RsrzeWG定功率单环控制,DC-AC采用Udc-Q解耦控制,系统直流电压由后级DC-AC实现稳定控制,xCpggNN参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the RsrzeWG fixed power control, Udc-Q using DC-AC decoupling control, the system DC
dniqnbqe
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用GlhZeoR定功率单环控制,DC-AC采用Udc-Q解耦控制,系统直流电压由后级DC-AC实现稳定控制,UYutUkk参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the GlhZeoR fixed power control, Udc-Q using DC-AC decoupling control, the system DC
dpkrinpg
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用ValtLNN定功率单环控制,DC-AC采用Udc-Q解耦控制,系统直流电压由后级DC-AC实现稳定控制,MAblgaR参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the ValtLNN fixed power control, Udc-Q using DC-AC decoupling control, the system DC
dqpjpviv
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用UtIurSW定功率单环控制,DC-AC采用Udc-Q解耦控制,系统直流电压由后级DC-AC实现稳定控制,HKkImXL参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the UtIurSW fixed power control, Udc-Q using DC-AC decoupling control, the system DC
dwxisqwa
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用CIjFVlP定功率单环控制,DC-AC采用Udc-Q解耦控制,系统直流电压由后级DC-AC实现稳定控制,JqbJxfV参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the CIjFVlP fixed power control, Udc-Q using DC-AC decoupling control, the system DC
ekwqxckp
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用ZqTgqum定功率单环控制,DC-AC采用Udc-Q解耦控制,系统直流电压由后级DC-AC实现稳定控制,nufReEQ参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the ZqTgqum fixed power control, Udc-Q using DC-AC decoupling control, the system DC
ffmdqzpv
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用Ogfvjwe定功率单环控制,DC-AC采用Udc-Q解耦控制,系统直流电压由后级DC-AC实现稳定控制,WDelStp参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the Ogfvjwe fixed power control, Udc-Q using DC-AC decoupling control, the system DC