The LNA USES a series inductor output match.
同时使用串联电感输出匹配方法。
An optimal design method of Cascode LNA is presented in detail.
文章详细分析了共源共栅级联型低噪声放大器的优化设计方法。
An S-band broadband low noise amplifier (LNA) design is introduced.
设计了一个S频段宽带低噪声放大器。
In this paper, we present a detailed analysis of the LNA Architecture.
本文中,我们将对该结构低噪声放大器进行具体的分析。
A design approach of low noise amplifiers (LNA) based on s parameter is studied.
探讨了使用s参数设计低噪声放大器(LNA)的方法。
The scheme of Noise Figure measurement best matched for this balanced LNA is proposed.
并且提出了平衡低噪声放大器噪声系数的测试方案。
The inductor and capacitor in CMOS process is an important issue in designing LNA and VCO.
CMOS工艺的电容和电感是设计lna、VCO等射频电路需要考虑的重要问题。
Power amplifier (PA) and low noise amplifier (LNA) modules are important components of RF hybrid IC's.
功率放大器(PA)和低噪声放大器(LNA)模块是射频(RF)混合集成电路的重要组成部分。
The RF5521 FEM combines a low noise amplifier (LNA) with bypass and a single pole three throw (SP3T) switch.
有限元法的RF 5521结合低噪声旁路放大器(LNA)和一个单极三掷(SP3T)开关。
The contents of LNA in hepatopancreas and muscle were all increased with the dietary LNA content increasing.
LNA的含量在肝胰腺和肌肉中都随饲料LNA含量的增加而增加。
In this paper, author introduces the basic theory of LNA, and studys the theory and technology of balance LNA.
本文介绍了低噪声平衡放大器技术的基础理论,对平衡式放大器及其实现技术进行了研究。
A low noise amplifier (LNA) and a mixer realized in standard digital CMOS technology are presented in this thesis.
本文设计了基于标准的数字CMOS工艺的低噪声放大器和混频器。
The LNA design method which absorbs the parasitic capacitance of ESD is introduced and compared with the traditional design method.
同时提出了将ESD的寄生电容吸收到LNA输入匹配网络中的设计方式,并与传统的计算方式做了对比。
On the base of theory analysis, a LNA and a mixer of a receiver chip used in compass navigation satellite system have been designed.
在理论分析的基础上,本文设计了一个应用于北斗卫星导航系统接收机芯片中的低噪声放大器和下变频混频器。
A design approach for low power CMOS low noise amplifier (LNA) is presented and it is compared with the traditional LNA design method.
针对低功耗电路设计的需求,提出了一种低功耗约束下CMOS低噪声放大器的设计方法,并与传统的设计方法进行了对比。
We designed the LNA according to the performance index of its forward power gain, noise figure, linearity, power consumption and so on.
对低噪声放大器设计时,主要围绕正向功率增益、噪声系数、线性度、功耗等主要性能指标进行设计。
The low noise amplifier (LNA) can reduce the system noise and improve the receiver's sensitivity, it is the key-part in the receive system.
低噪声放大器在接收系统中能降低系统的噪声和提高接收机灵敏度,是接收系统的关键部件。
A systematic approach is used to analyze the noise in CMOS low noise amplifier (LNA), including channel noise and induced gate noise in MOS devices.
采用系统研究方法来分析包括MOS器件的沟道噪声和感应栅噪声在内的CMOS低噪声放大器中的噪声,并提出了一个新的噪声系数解析式。
Based on this, the article draws a conclusion that the optimizing channel width of common-source MOSFET is necessary by analyzing Miller effect of LNA.
在此基础上,通过分析整个级联型低噪声放大器的密勒效应对优化设计的影响,进一步提出了对共栅级MOSFET的沟道宽度优化的必要性。
The basic requirements of the LNA include: low noise figure, enough power gain, reliable work stability, sufficient bandwidth and the wide dynamic range.
对低噪声放大器的基本要求是:噪声系数低、足够的功率增益、工作稳定性可靠、足够的带宽和大的动态范围等。
A wideband low noise amplifier (LNA) topology for ultra-wideband (UWB) system is proposed by combining PCSNIM de-sign flow with a resistive shunt-feedback.
结合电阻并联反馈,利用PCSNIM流程设计了一个用于超宽带(UWB)系统的宽带LNA电路。
Due to semiconductor process we must trade off between input voltage standing wave ratio (VSWR) and Noise Figure. In this paper, a balanced LNA is adopted.
由于半导体工艺制程的关系,一般来说低噪声放大器噪声匹配和输入端驻波比匹配是矛盾的。
In this paper, the traditional cascode structure of CMOS LNA is considered as a two-stage amplifier and inter-stage matching network is introduced accordingly.
本文也对CMOS低噪声放大器进行了分析,将传统共源共栅结构看作二级放大器级联形式,并由此引入级间匹配网络。
On the basis of the noise linearity of low noise amplifier(LNA), the variable load temperature method is introduced to measure noise properties of cryogenic LNAs.
在低噪声放大器噪声线性的基础上,介绍了负载温度可变法,用于测量低温低噪声放大器的噪声。
LNA, orthogonal network, microwave phase discriminator, video amplifier are designed for broadband application. Reliability, circuit process, and structure are de-signed.
对低噪声放大、正交网络、微波鉴相及视频放大进行了宽带设计,对微波乘法器进行了可靠性设计、工艺设计和结构设计。
The practical active circuits for the polarization-agile and amplification are presented. The phase shifter and LNA are optimized systematically by the TOUCHSTONE package.
提出了一种切实可行的极化捷变和LNA有源电路,有源电路的移相器和LNA都用TOUCHSTONE软件进行系统优化设计。
The practical active circuits for the polarization-agile and amplification are presented. The phase shifter and LNA are optimized systematically by the TOUCHSTONE package.
提出了一种切实可行的极化捷变和LNA有源电路,有源电路的移相器和LNA都用TOUCHSTONE软件进行系统优化设计。
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