微波制造技术是微波电路设计的一个重要组成部分。
Manufacturing technologies are a important element of microwave circuits design.
对介质加载圆柱谐振腔进行严格分析是进行微波电路设计和微波介电测试的基础。
Rigorous analysis of dielectric-loaded cylindrical resonant cavity is the basis of microwave circuit design and microwave dielectric measurement.
微波有源模块因为腔体的原因造成自激和传输参数的恶化一直是微波电路设计的难点之一。
The problems of self-excitation and worsening of S-Parameter caused by structure of microwave active module always happen in the design of microwave circuits.
着重从可靠性和合成效率方面,利用电路设计手段和软件CAD仿真技术进行250w微波固态功放组件的研制。
From reliability and combination efficiency aspects, a 250w microwave solid-state PA module is designed and made by circuit design and CAD software simulation.
对于现有的微波毫米波集成电路的分析和设计能力可以有数量级的提高,全面真实地刻画微波毫米波集成电路的电磁模型,大幅度地缩短电路设计周期。
It can greatly improve the MMIC analysis and design ability as well as much more exactly found the MMIC EM model and prominently reduce the MMIC design cycle.
对于现有的微波毫米波集成电路的分析和设计能力可以有数量级的提高,全面真实地刻画微波毫米波集成电路的电磁模型,大幅度地缩短电路设计周期。
It can greatly improve the MMIC analysis and design ability as well as much more exactly found the MMIC EM model and prominently reduce the MMIC design cycle.
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