基于ADS的微带天线微波模块设计

2015 International Conference on Trends in Automation, Communications and Computing Technology (I-TACT-15) Pub Date : 2015-12-01 DOI:10.1109/ITACT.2015.7492663

Arpitha Beerala, Fathima Jabeen

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引用次数: 1

摘要

收发器是一种由发射器和接收器组成的设备，它们组合在一起并共享公共电路。因此，为了执行这种方法，我们获得了5种设计。它们是:1;2.功率放大器驱动放大器。分形滤波器设计。改进的分形滤波器设计。双工器的设计。设计1和设计2构成了发射段所需功率放大器的链式设计。设计3和4构成接收机的一部分。为了将这个发射和接收部分连接到单个天线，使用了设计5的双工器。这些放大器是用GaN HEMT晶体管设计和制造的。这两种滤波器和双工器的设计都是用指定的衬底制作的。所有这些设计都使用所需的测试装置进行了测试。采用先进设计系统(Advanced Design System, ADS)软件进行设计。这些设计在2.2 GHz到2.3 GHz的频率范围内实现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Design of microwave modules for microstrip antenna using Advanced Design System (ADS)

A transceiver is a device consisting of both a transmitter and a receiver that are combined and share common circuitry. Thus, to perform this approach we obtain 5 designs. They are: 1. Power Amplifier 2. Driver Amplifier. 3. Fractal Filter Design. 4. Modified Fractal Filter Design. 5. Duplexer Design. The design 1 and 2 form the chain design of power amplifier required at the transmitter section. The design 3 and 4 form a part of receiver. To connect this transmit and receive section to a single antenna, a duplexer that is design 5 is used. These amplifiers are designed using GaN HEMT transistors and fabricated. These two designs of filters and the duplexer are fabricated using the specified substrate. All these designs were tested using the required test set-up. The proposed designs have been designed using the software Advanced Design System (ADS). These designs are implemented in the frequency range of 2.2 GHz to 2.3 GHz.

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2015 International Conference on Trends in Automation, Communications and Computing Technology (I-TACT-15)

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