The substructure inter-connected net aided design based on measured database for microwave amplitude equalizer combines the advantage of precise data measured in experiment with bulky memory and high speed calculation of computer.
基于微波幅度均衡器测量数据库的互联子结构网络计算机辅助设计的方法结合了数据实验测量的精确性和计算机大容量、高速运算的优点,它包括子结构设计、测量数据库的建立、子结构互联网络理论和优化算法设计等多步骤。
The microwave amplitude equalizer is composed of several interconnected substructures,every one of which is the λ/4 absorptive coaxial cavity resonator.
微波幅度均衡器由吸收型λ/4同轴谐振腔作为其基本结构单元,多级子结构级联构成,谐振频率和功率衰减主要通过改变腔长、探针插入深度和微调螺钉来调节。
The results can guide us to tune the microwave amplitude equalizer.
微波幅度均衡器探针插入越深,负载电容会越大,使得谐振频率降低。
Their stress distributions of some modes,where micro-crack are formed easily to make microwave equalizer invalidation,were analyzed also.
从振动模态分析理论入手,采用ANSYS有限元分析软件计算了微波幅度均衡器的前8阶振动频率和振型,分析了均衡器产生机械失效损伤的应力分布。
The microwave equalizer is interconnected by several single substructures,which is the absorptive coaxial transmission line coaxial cavity resonator.
微波幅度均衡器是由吸收型同轴谐振腔作为其基本结构单元多级级联实现,谐振频率主要通过改变腔长和探针插入深度来调节,同时改变微调螺钉也能影响谐振频率。
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