微波集成电路

  • 网络MMIC;MIC;MICs;Microwave Integrated Circuits
微波集成电路微波集成电路
  1. GaAs单片微波集成电路(MMIC)失效分析和评价技术

    The Failure Analysis and Evaluation Method of GaAs MMIC

  2. 本文介绍了一种快速实现单面单片微机微波集成电路(MMIC)布图的计算机辅助设计系统。

    An interactive CAD layout program for fast realization of the unilanar MMIC ( monolithic microwave integrated circuit ) mask is presented in this paper .

  3. 单片微波集成电路中集总参数元件模型及其CAD程序

    Models and CAD Program for Lumped Elements in MMICs

  4. 单片微波集成电路中的MIS共面带线特性分析

    Analysis of MIS Coplanar Stripline for Monolithic Microwave Integrated Circuits

  5. 一套大型微波集成电路与互连系统仿真软件&清华微波SPICE

    Simulation software for microwave integrated circuits and interconnections : Tsinghua microwave SPICE

  6. SiGe/SiHBT及其单片微波集成电路的研究

    Study of the SiGe / Si HBT and Its Monolithic Microwave IC

  7. 微波集成电路(MIC)中Au/NiCr/Ta多层金属膜粗糙化机理的AFM研究

    Atomic Force Microscopy Study of Surface Roughening of Au / NiCr / Ta Multilayers in Microwave Integrated Circuits

  8. 缺陷接地结构(DGS)模型分析及在微波集成电路中的应用研究

    Study on Defected Ground Structure Model and Applications of Microwave Integrated Circuits

  9. 近年来,在无线移动通信和相控阵雷达中应用的微带天线和单片微波集成电路(MMIC)正在成为一个研究和开发的热点课题。

    Micro strip antenna and MMIC which are used in wireless communication and phased array radar are becoming hotspot .

  10. 单根与耦合微带线的分析与综合是微波集成电路(MIC)设计的基础。

    Microwave Integrated Circuits ( MICs ) design is based on the analysis and synthesis of the single microstrip line and the coupled microstrip lines .

  11. SiGe/SiHBT作为单片微波集成电路中的有源元件,在截止频率、增益、噪声等方面相对于GaAs器件有很大的优势。

    Being the active component in the microwave IC , the SiGe / Si HBT has greater advantages in the cutoff frequency , current gain , and noise characteristics than the GaAs devices .

  12. 本文结合本单位在SiGe材料和器件、电路等方面做过的工作,对实现SiGe单片微波集成电路的一些理论和技术要点作了阐述。

    We have done many works in this field , and then put forward some theories and essential technologies in the fabrication of the SiGe monolithic microwave integrated circuits .

  13. 单片微波集成电路(MMIC)是将有源元件和无源元件都集成在同一个半导体衬底上的微波电路;

    A monolithic microwave integrated circuit ( MMIC ) is a microwave circuit in which the active and passive components are fabricated on the same semiconductor substrate .

  14. 文中介绍的组件使用了多层AlN基板、倒装单片微波集成电路芯片(MMIC)、共面波导传输线及无需焊接的用于互连的毛钮扣。

    The package uses multilayer aluminum nitride ( AIN ) substrates , flipped monolithic microwave integrated circuit ( MMIC ) chips , coplanar waveguide transmission lines , and solderless fuzz button interconnections .

  15. 随着以GaAs工艺为基础的单片微波集成电路(MMIC)技术的成熟,移相器广泛的采用MMIC技术,也因此正向尺寸小、重量轻、可靠性高的方向发展。

    Along with the matures of GaAs technology based on monolithic microwave integrated circuit ( MMIC ), therefore the development of phase shifter is in direction of small size , light weight and high reliability .

  16. 随着计算能力的提高和数值方法的发展,单片微波集成电路(MMIC)和微带天线的严格全波分析有了可能。

    The rigorous full-wave analysis of monolithic microwave integrated circuits ( MMIC ) and microstrip antennas has been made possible due to large increases in computing power and the development of a number of numerical techniques .

  17. 低温共烧陶瓷(LTCC)及三维微波集成电路技术,采用三维设计,具有体积小,重量轻,性能优越等特点,近年来吸引了广泛关注。

    The low-temperature co-fired ceramic ( LTCC ) and three dimensional ( 3D ) integration technology of microwave circuits are excellent methods for realizing miniature volume , light weight , high performance and reliability of wireless equipments and systems .

  18. 应用磁镜像法和快速傅立叶变换(FFT)法对单片微波集成电路(MMIC)的薄膜平面射频集成电感器进行了电磁学模拟,并把模拟结果和有限元法(FEM)模拟的结果[1]进行了比较。

    The magnetic field of thin film spiral radio frequency integrated inductors of Monolithic Microwave Integrated Chips ( MMIC ) was simulated using fast fourier transform ( FFT ) method and Magnetic Mirror Image method . And the fabrication process of thin film spiral radio frequency integrated inductors was introduced .

  19. 集成多通信系统中的微波集成电路(MICs)和单片微波集成电路(MMICs)要求滤波器具有小型化、多频带、超宽带和高性能。

    In mobile and integrated communication systems , miniature , multi-band , ultra-wideband , and high performance filters are required for microwave integrated circuits ( MICs ) and monolithic microwave integrated circuits ( MMICs ) .

  20. 因此这项检测技术对于单片微波集成电路(MMICs),以III-V族半导体材料为衬底的工作频率达到210GHz的超高速电路和硅基工作频率为93GHz的电路就不再适用了。

    Furthermore , Electron beam testing technique is not applicable to some devices , such as monolithic microwave integrated circuits ( MMICs ) , very high speed electronic circuits on III-V substrates or on silicon-substrates whose working rare up to 210 GHz or 93 GHz .

  21. 超大规模单片集成电路已经达到其集成或微型化的极限,要进一步提高其组装密度和扩展功能,唯一的途径就是发展三维微波集成电路(3DMIC)。

    The very large scale monolithic integrated circuits have already reached the limit of integration or miniaturization . If we want to raise its packaging density and expand its function further , developing the three dimensional microwave integrated circuits ( 3DMIC ) is the only way .

  22. 微波集成电路特定长度并联传输线的滤波特性

    Filtering Properties of Parallel Transmission Lines with Specified Length for MIC

  23. 开口波导法无损测量微波集成电路基片复介电常数

    Nondestructive Measurement on Complex Permittivity of Substrates by Using Open-Ended Waveguide Method

  24. 微带线作为单片微波集成电路中信号传输的主要载体,受到研究人员的广泛关注。

    As one of the main transmission lines of MMIC .

  25. 单面单片微波集成电路对偶矩量法电磁仿真

    The Electromagnetic Simulation of Uniplanar MMIC ′ s by Duality Moment Method

  26. 电路采用微波集成电路,制在双面敷铜聚四氟乙烯纤维板以及氧化铝陶瓷两种基片上。

    Teflon plates and alumina substrates are used for the microwave integrated circuits .

  27. 一种基于非参数统计的微波集成电路成品率优化算法

    A Method of Yield Optimization Based on Non-parametric Statistics

  28. 单片微波集成电路中的元件参数的提取

    A Method for Extracting the Parameters of the Elements in Monolithic Microwave Integrated

  29. 一种有效的微波集成电路设计优化方法

    An Effective Optimization Method for Microwave Integrated Circuit Design

  30. 多层集成天线的工艺与多层微波集成电路兼容。

    The craftwork of multiplayer integrated antenna and multiplayer microwave circuits is compatible .