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DC_DC_Converter
- PSCAD环境下DC----DC变换器的仿真,可以作为光伏及蓄电池并网运行前端直流电压的变换 -PSCAD environment simulation DC---- DC converter can be used as PV and battery and network operation front of the DC voltage conversion
buckboost
- 一个简单的直流变换器,通过buck-boost变换电路,得到期望的电压。该模型能够正常运行,绝对正确。-A simple dc converter, through the buck- boost conversion circuit, achieve the desired voltage. This model can run normally, absolutely right.
CHBPWM4
- 这是一个运用电流滞环PWM控制的逆变器模型。通过改变直流侧的电压,以及滞环宽度观察变换效果。-This is a use of current hysteresis PWM control model of the inverter. By changing the voltage of the dc side, and to observe the effect transformation hysteresis width.
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
liuwenming
- 燃料电池间接型混合合动力系统模型,包括燃料电池、辅助储能设备以及直流变换器。-Fuel cell indirect hybrid power system model, including fuel cell, auxiliary energy storage equipment and DC converter.
VSC
- 电压型换流器VSC,直流微网与交流配网的接口电路(the interface circuit of DC microgrid with AC distribution)
PV_Battery_Vf_Model
- 微电源为光伏发电单元,储能设备是蓄电池作,当光伏电池工作在最大功率点,满足蓄电池和负荷供电的情况下,系统能量仍有剩余时,经过变换器向大电网输送能量;当光伏电池工作在最大功率点、蓄电池工作在最大放电模式仍不能满足负荷需求时,应由交流大电网向直流微电网补充能量。(Micro power supply for the photovoltaic power generation unit, a storage device is a storage battery, when the photovolt
Fig5x39
- 直流降压变换器设计,仿真时间0.05s,算法ode15(DC step-down converter design, simulation time 0.05s, algorithm ode15)
直流变换器控制方法的研究_刘永晓
- 很好的一篇直流变换器的文章,值得看,很好的学习材料(A good article in a DC converter)
Battery
- 用于微电网(直流交流)中蓄电池和电网的连接,蓄电池可充可放(Two way DC/DC converter, can be used in micro-grid to connect battery)
12
- 一篇关于大功率低谐波高频隔离的交流直流变换器,主要是应用与直流充电庄等设备(A 12Kw Three-phase low THD rectifier with high-frequency isolation and regulated DCoutput1)
2
- 根据对Boost电路工作原理和有源功率因数校正(APFC)控制方案的研究分析,设计了一款采用Boost电路的APFC变换器。输入电压为220V±10% (198VAC~242VAC),输入频率为50Hz,输出的直流电压为400V,输出功率为500W。(According to the research and analysis of the working principle of Boost circuit and the active power factor correction (APF
dcdc
- 光伏发电DC-DC 仿真,利用H 桥型双向 DC/DC 变换器的原理 其电压极性不变,但电流的极性却不同,因此能够实现能量的双向流动,功率可以向两个方向流动,而能量流动的方向可由负载大小以及光伏电池的发电特性而决定。对于储能装置的电路拓扑结构,本文采用 H 桥型 Buck/Boost 直流变换器来完成对蓄电池充电放电的控制。(DC-DC simulation of photovoltaic power generation)
直流升压斩波变换电路
- 该资料为boost变换器的Multisim仿真文件,经过验证可以正常使用(This information is the design data of half bridge transformer, and the selection and design method of half bridge transformer are introduced in detail.)
DCDC
- 增量型PID控制DCDC降压直流变换器仿真文件(matlab simulink DCDC)
115157688Microgrid-inverter-control
- 直流微电网:分布式电源、储能装置、负荷等均连接至直流母线,直流网络再通过电力电子逆变装置连接至外部交流电网。直流微电网通过电力电子变换装置可以向不同电压等级的交流、直流负荷提供电能,分布式电源和负荷的波动可由储能装置在直流侧调节。(DC microgrid: Distributed generators, energy storage devices and loads are connected to DC bus, and DC network is connected to externa
221852100727986
- DFIG网侧控制,采用矢量控制的方法,电压定向控制(Control of the the DFIG network side, using the method of vector control, voltage oriented contro)
buck_boost
- 直流升压降压变换器,可以自由设置参数,运行稳定,可以供研究变换器的使用。(DC step-up and step-down converters can set parameters freely and operate stably, which can be used for research converters.)
直流微电网储能系统双向DCDC变换器控制策略研究
- 该文件为半桥式双向dc-dc充放电的仿真,仿真中含有蓄电池,并模拟了电压阶跃(This paper is the simulation of half bridge bi-directional DC charging and discharging, in which the battery is included and the voltage step is simulated)