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An efficient wideband low noise amplifier (WLNA) using advanced design system based industrial micro strip antenna
Microprocessors and Microsystems ( IF 1.9 ) Pub Date : 2020-10-02 , DOI: 10.1016/j.micpro.2020.103302
A. Yogeshwaran , K. Umadevi

An efficient architecture to design low noise amplifier methods aimed at reducing the radar cross-section (RCS) under the X - and Y-polarizations with incident waves, the characteristics of radiation has been analyzed. The goal is to carry out the Polarization Conversion Meta Material (PCM) implementation and passive cancelation policy. The Low-Noise Amplifier (LNA) supports the use of multi-stable applications being the front end of any micro strip antenna with the need for a multiband receiver is very high in technology development. This LNA design requires the synchronization of a single device frequency of a different device. So researchers work on developing a Wideband Low noise Amplifier (WLNA) with the wideband receiver. An LNA radio receiver from the mainstream is that the subsequent stages of the signal are lossless and the low noise rate has the highest gain. LNA design is an important task for the proper management of trade between all parameters of it, including gain, noise, stability, and power consumption. Advanced Design System (ADS) software is used to design and simulated the proposed micro strip antenna with LNA. The proposed micro strip antenna is to be fabricated using the Fr4 substrate and investigated by simulation and measurements like radiation patterns, S-parameters and return loss by using Advanced Design System software to improve the existing System.



中文翻译:

使用基于工业微带天线的先进设计系统的高效宽带低噪声放大器(WLNA)

设计了一种低噪声放大器方法的有效架构,旨在减少入射波在X和Y极化下的雷达横截面(RCS),分析了辐射的特性。目标是执行极化转换超材料(PCM)实施和被动取消策略。低噪声放大器(LNA)支持使用多稳定应用,因为它是任何微带天线的前端,在技术开发中对多频带接收器的需求非常高。这种LNA设计要求同步不同设备的单个设备频率。因此,研究人员致力于使用宽带接收器开发宽带低噪声放大器(WLNA)。来自主流的LNA无线电接收器认为,信号的后续阶段是无损的,并且低噪声速率具有最高增益。LNA设计是正确管理其所有参数(包括增益,噪声,稳定性和功耗)之间交易的一项重要任务。使用高级设计系统(ADS)软件来设计和仿真带有LNA的拟议微带天线。拟议的微带天线将使用Fr4基板制造,并通过仿真和测量(例如辐射方向图,S参数和回波损耗)进行仿真研究,并使用Advanced Design System软件改进现有系统。使用高级设计系统(ADS)软件来设计和仿真带有LNA的拟议微带天线。拟议的微带天线将使用Fr4基板制造,并通过仿真和测量(例如辐射方向图,S参数和回波损耗)进行仿真研究,并使用Advanced Design System软件改进现有系统。使用高级设计系统(ADS)软件来设计和仿真带有LNA的拟议微带天线。拟议的微带天线将使用Fr4基板制造,并通过仿真和测量(例如辐射方向图,S参数和回波损耗)进行仿真研究,并使用Advanced Design System软件改进现有系统。

更新日期:2020-10-06
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