结合图论理论和电网的特点,实现了一种基于元件邻接关系和广度优先搜索算法的网络拓扑分析方法。
A topology analysis method based on adjacent relation of elements in the network and Breadth first search is realized combined with Graph theory and the characteristics of power grid.
通过单频点级间匹配电路的设计实例,给出了匹配电路的设计步骤、电路拓扑结构和元件类型的选择方法。
The design steps, network topology and the selection of its component types of a single frequency point matching network are described in detail by an example.
其研究范围比较广泛,目前研究的主要内容有:拓扑结构、通讯协议、基础元件库和EDA实现理论与工具。
The scope of the study is abroad. The main contents of NoC study include topology structures, communication protocols, basic component libraries and the implemental theory and tools by EDA.
提出了一种采用互感元件构成的缓冲式软开关电路的拓扑,同时给出了电路的分析结果和参数设计方法。
This paper puts forward a soft switching circuit of snubber type with a mutual inductance. The analysis result and parameter design method of the circuit are given.
本文采用统一的方法分析直流直流变换器中的对偶电路,将电路的对偶分解为拓扑图的对偶和元件的对偶。
The unified approach is applied to analyze dual circuits in DC DC converters, i. e. , the duality of circuits is decomposed into the duality of topological graphs and the duality of elements.
将拓扑分析方法应用于各类设备的故障跟踪中,结合对全局网络的简化分析,识别故障时的受影响元件。
Combined with the global network simplified analysis, it is used to identify the affected devices in fault tracing.
逆变电路选用全桥式电路拓扑结构,逆变频率选为22khz,并以IGBT作为主电路的开关功率元件。
Full bridge topological structure, the frequency of 22khz, IGBT switching power device were adopted for inverter.
逆变电路选用全桥式电路拓扑结构,逆变频率选为22khz,并以IGBT作为主电路的开关功率元件。
Full bridge topological structure, the frequency of 22khz, IGBT switching power device were adopted for inverter.
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