Some proposals for developing MMIC in China are also given.
提出了为开发我国MMIC技术的几点建议。
The research of this thesis can be a good reference of the MMIC design.
本论文的研究对设计MMIC有着很好的参考价值。
MMIC on-wafer probe is the key part of MMIC on-wafer measurement system.
MMIC在片测试探头是MMIC在片测试系统的关键部件。
MMIC amplifiers are very important in microwave communication and related fields.
MMIC放大器在微波通信等领域有着重要的应用。
The paper presents the operating principle of MMIC test system measurement method and test programmer.
阐述了单片微波集成电路测试系统的工作原理、测试方法和自动测试程序。
The design and the main technique specification of a five-bit MMIC digital attenuator were introduced.
介绍了五位数控衰减器单片电路的主要技术指标和设计方法。
The design technology and developed results for C band GaAs MMIC 6 bit digital phase shifter are described.
叙述了一种采用单片集成方式实现的C波段6位数字移相器的设计技术和研制结果。
An ultra low insertion loss GaAs MMIC RF SPDT switch based on full-ion-implantation technology is reported.
报道了利用离子注入技术研制出一种用于手机的超低插损砷化镓单片射频单刀双掷开关。
This paper discusses a switching model of GaAs MESFET. It is suitable for MMIC design with broad frequency characteristic.
提出了一种MESFET开关的模型——附加栅控开关模型,适用于MMIC电路的设计,具有很好的宽带微波特性。
This paper highlights MMIC technology and its application in satellite fields, and analyses its profit and prospects MMIC in satellite payloads.
简要介绍了MMIC技术及其在卫星领域的应用情况,分析了MMIC技术在卫星有效载荷上的应用效益与广阔前景。
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。
This paper introduces the CAD techniques for the power MMIC. The main factors are the power FET large signal modeling, power MMIC design methodology and process oriented CAD.
从功率FET大信号建模、功率MMIC设计方法以及CAD同工艺因素的结合等方面论述了功率单片电路的CAD应用技术。
MMIC, having advantages of small size, light mass, high reliability and excellent reproducibility, finds use in a variety of microwave system, especially in airborne radar and space applications.
具有尺寸小、重量轻、可靠性高、生产重复性好等优点,广泛应用于各种微波系统,特别是机载雷达和卫星通信等方面。
Two design examples, the matching networks for the load with a resistance and a capacitance in parallel and for a MMIC FET amplifier are presented to illustrate the applications of this technique.
文中给出了一个阻容并联负载匹配网络和一个微波单片集成电路FET放大器匹配网络的设计实例。
Two design examples, the matching networks for the load with a resistance and a capacitance in parallel and for a MMIC FET amplifier are presented to illustrate the applications of this technique.
文中给出了一个阻容并联负载匹配网络和一个微波单片集成电路FET放大器匹配网络的设计实例。
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