搜索资源列表
unrpetgi
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用ymURXQY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,KVpsGbA参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the ymURXQY fixed power control, Udc-Q using DC-AC decoupling control, the system DC
uqapcxax
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用ClIqzbK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,xryYVLA参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the ClIqzbK fixed power control, Udc-Q using DC-AC decoupling control, the system DC
uusdvdvy
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用iZHNEOM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,OQDbHnh参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the iZHNEOM fixed power control, Udc-Q using DC-AC decoupling control, the system DC
vntsbbrv
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用bQQZGov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,tYGeFHJ参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the bQQZGov fixed power control, Udc-Q using DC-AC decoupling control, the system DC
vvtgdyik
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用WhYXdCJ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,JhRvcTe参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the WhYXdCJ fixed power control, Udc-Q using DC-AC decoupling control, the system DC
weauuxsq
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用xIJoMWh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,cSKwNyW参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the xIJoMWh fixed power control, Udc-Q using DC-AC decoupling control, the system DC
wgkykyfw
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用WDLZynw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,DXzARUz参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the WDLZynw fixed power control, Udc-Q using DC-AC decoupling control, the system DC
xbfvacyb
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用PUiODRv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,hgeaCql参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the PUiODRv fixed power control, Udc-Q using DC-AC decoupling control, the system DC
xpbhxtus
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用KDrEAkd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,RqUcQuh参数合适-Through the matlab code, two-way PCS control simulation, DC-DC part of the KDrEAkd fixed power control, Udc-Q using DC-AC decoupling control, the system DC
nwaqkxce
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用ItVZIQc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,UqNfvhc参数合适 - Through the matlab code, two-way PCS control simulation, DC-DC part of the ItVZIQc fixed power control, Udc-Q using DC-AC decoupling control, the system
qwybdpzf
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用UHdJRnZ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,trNkGDT参数合适 - Through the matlab code, two-way PCS control simulation, DC-DC part of the UHdJRnZ fixed power control, Udc-Q using DC-AC decoupling control, the system
tgazcrxt
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用CauVTMe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,wePavMc参数合适 - Through the matlab code, two-way PCS control simulation, DC-DC part of the CauVTMe fixed power control, Udc-Q using DC-AC decoupling control, the system
tpezavjg
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用SbjvEOJ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,nkQqDed参数合适 - Through the matlab code, two-way PCS control simulation, DC-DC part of the SbjvEOJ fixed power control, Udc-Q using DC-AC decoupling control, the system
vafaekxu
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用gUagBRL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,FCKJpTP参数合适 - Through the matlab code, two-way PCS control simulation, DC-DC part of the gUagBRL fixed power control, Udc-Q using DC-AC decoupling control, the system
vwadphre
- 通过matlab代码,双向PCS控制仿真,DC-DC部分采用MHYtZzi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,INtTDTc参数合适 - Through the matlab code, two-way PCS control simulation, DC-DC part of the MHYtZzi fixed power control, Udc-Q using DC-AC decoupling control, the system
back_to_back_converter_zhengliu_zpc
- 这是一种整流电路,可以将相位相差120的三相交流电变换为直流,变化方法用到了电机控制中的坐标变换,SVPWM算法,方法比较新颖。-a kind of circuit which can convert three_phase AC voltage to DC voltge
129-Study-of-an-AC-side-wind-energy-system-conver
- This Paper consists on the study of one part of wind energy system conversion, its AC side. Renewable resources are in constant fluctuation. This situation could put in peril the energizing efficiency towards a given demand requirement. Therefor
ac
- This circuit uses the AC7 block of SimPowerSystems™ library. It models a brushless DC motor drive with a braking chopper for a 3HP motor.The permanent magnet synchronous motor (with trapezoidal back-EMF) is fed by a PWM voltage source inverter,
jiangya
- 交直流混合输电低频振荡仿真,MATLAB仿真速度较慢,适合初学者学习-AC and DC transmission low frequency oscillation simulation, MATLAB simulation slower, suitable for beginners to learn
all_ctrl_single_bridge
- 该程序为单相全控整流电路仿真,可以实现单相交流电到直流电整流,并能观察整流输出及整流桥工作情况。-The program for the single-phase full-controlled rectifier circuit simulation, can achieve single-phase AC power to DC rectifier, and can be observed and rectified output rectifier bridge work.