1·As an application, the transport limitation of power divider is discussed.
作为应用,讨论了功分器的传输极限。
2·Good performances of the optimized power divider at both frequencies are obtained.
经优化设计后的功率分配器在两个频率上都具有良好的性能。
3·The size of the power divider network is 50 percent smaller than the conventional hybrids.
由于利用半集总参数设计思想,功分网络的尺寸减小了一半。
4·Through repeated improvements, design of microwave power divider meet basic performance requirements.
通过反复改进,设计出的微波功率分配器基本符合性能指标要求。
5·A study has been made of the power divider which is a lossless even symmetric and reciprocal network.
本文研究的一分为二功率分配元件是无耗偶对称互易网络。
6·A matching source method is presented for analysing microstrip hybrid ring power divider in this paper.
介绍了一种分析微带混合环功率分配器用的匹配源法。
7·The power divider for ensuring two AO Q-switch synchronization and effective power driving is designed.
采用功率分配器保证两声光q开关的同步和有效功率驱动。
8·Considering the systems special requirement, a Phase changed network with switch is designed with power divider and microwave switch.
根据系统特殊的需要,利用微波开关和功率分配器、功率合成器,设计出了开关和差网络。
9·This paper improves the characteristics of lumped element impedance transformers and proposes new type power divider circuit and its design method.
本文改进了集总参数元件阻抗变换器的特性,提出了新型集总元件功率分配器电路及其设计方法。
10·In Chapter Three, the basic theory of power divider is introduced firstly. Then the present situation of coplanar waveguide power dividers is introduced briefly.
在第三章中,首先介绍了功率分配器的基本原理,然后对共面波导功率分配器的研究现状进行了简要介绍。