微波元件

  • 网络microwave components;microwave devices
微波元件微波元件
  1. 阶梯阻抗谐振器(SIR)因具有结构简单与电学特性可调的特点,被广泛的应用在微波元件的设计中。

    Due to its simple topology and tunable electrical property , the stepped impedance resonator ( SIR ) has been widely used in the design of microwave components .

  2. 应用SOI工艺制作的模拟、数字与微波元件性能明显优于同类体硅工艺制作的的元件。

    Analog , digital and microwave components built on SOI technology is with properties significantly superior to those obtained using bulk silicon technology .

  3. 在制备多层微波元件过程中,为使用Cu、Ni等低熔点导体,必须降低微波介质陶瓷的烧结温度。

    In the fabrication of multiplayer microwave devices , low temperature firing microwave dielectric materials are needed in order to use the low-melting point conductors such as Cu and Ni etc.

  4. 微波元件中调谐螺钉的防松与消隙

    Check and Dispelling Clearance of Tuning Screw in Microwave Elements

  5. 工业传感器功能部件的微波元件

    Microwave components as functional elements for industrial sensors

  6. 分析各类测量用微波元件,构建回潮率检测系统的硬件。

    Analyses related microwave components , and build hardware system of the testing system .

  7. 这一理论也适用于其它多端微波元件的分析。

    This theory is also suitable for the analysis of other multi-port microwave devices .

  8. 那些微波元件主要有:临界波导,开口谐振器,极性敏感电线谐振器等等。

    Among these microwave components ar-e : cut-off waveguides , open resonators , polarization-sensitive wire reflectors , etc.

  9. 旋转关节是把旋转的天线与固定的雷达发射机、接收机互相连接起来的微波元件。

    A rotating joint is a microwave element to link the rotating antenna with the fixed transmitter and receiver .

  10. 信号时域提取方法结合时域有限差分法分析传输线馈电的微波元件

    Analysis of microwave components fed by the transmission lines with a method of signal extraction in time domain in combination with FDTD

  11. 随着电子信息系统向多功能、小型化、低成本方向快速发展,人们对系统级封装(SystemonPackage,SoP)中各类高性能小型化微波无源元件的需求越来越强烈。

    With the rapid development of electronic information systems to multifunction , miniaturization , and low cost etc. , there are more and more urgent demands on high performance miniaturized microwave passive components for system on package ( SoP ) technology .

  12. 因而,寻找适应SoP中高集成度和兼容性要求,又具有低插损、高功率容量等优点的新型微波无源元件集成技术变得很有必要。

    Thus , it is necessary to develop new integration techniques for microwave passives in SoP with high performance , high integration density , good compatibility , low loss and high power handling capability .

  13. 微波波导元件的模式匹配分析法

    Mode - Matching Analysis of Microwave Waveguide Components

  14. 给出若干实例,说明时方法有助于实际微波电路元件的设计。

    It 's illustrated by some examples , that the time-domain method is helpful to the microwave circuit elements design .

  15. 由于此高电流推动能力及热稳定性,因此广泛地应用在微波功率元件及高速元件上。

    Due to its excellent current driving capability and thermal stability , it has been widely investigated for microwave power devices and high-speed devices .

  16. 本文介绍了使用低势垒肖特基二极管(LBSD)作为检测微波信号功率元件的微波毫微瓦功率传感器。

    Microwave nW power sensor uses low barrier schottky diode ( LBSD ) as a component for testing the power of microwave signals .

  17. 近年来,CVD金刚石膜作为一种新型的功能材料,在金属切削加工,超高速计算机芯片、半导体和微波器件的散热元件,以及光学窗口等领域已得到初步应用,并显示出无与伦比的优越性。

    In recent years , as one kind of new function material , CVD diamond thick film has been used in many field such as cutting tool , cooling device of super-high speed computer CMOS chip , cooling device of semiconductor and microwave parts , and shown unique superiorities .

  18. 该系统装置包括开关、继电器、电容器、电感器、滤波器及微波和毫米波元件。

    RF MEMS devices reviewed include switch and relays , capacitors , inductors , filters , microwave and millimiterwave components .

  19. 在微波系统中,定向耦合器是一种用途较广的微波元件,例如信号发生器中的功率监视装置和接收机中的混频器都要应用定向耦合器。

    Directional coupler is a widely applied microwave component in the microwave system . It can be applied in the signal generator to surveillance the power and in the receiver to be a mixer .

  20. 试图通过非线性测试提取高温超导薄膜微波材料非线性模型,根据材料非线性模型建立非线性传输线模型,由非线性传输线模型建立各种微波无源元件模型,最后实现非线微波器件综合设计。

    The material is modeled by nonlinear test , then transmission line is modeled by material model , and many of nonlinear network parameters of microwave passive components are founded , at last HTSC microwave nonlinear devices are synthesized by these network parameters .