5.3GHz 昇頻器與降頻器設計與製作; 5.3GHz upconverter and downconverter design

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Title:	5.3GHz 昇頻器與降頻器設計與製作;5.3GHz upconverter and downconverter design
Authors:	葉宇利;ueli ya
Contributors:	通訊工程研究所
Keywords:	降頻器;壓控振盪器;混頻器;濾波器;放大器;昇頻器;VCO;mixer;down-converter;filter;up-converter
Date:	2003-06-18
Issue Date:	2009-09-22 11:15:51 (UTC+8)
Publisher:	國立中央大學圖書館
Abstract:	本論文之主要內容在介紹昇頻器與降頻器之原理架構，並敘述架構中各個功能元件的原理與設計方法和流程，其中包括壓控振盪器(VCO)、混頻器(MIXER)、微波濾波器(Filter)與放大器(AMP)，並將介紹各個功能元件較重要的參數，並將之量測。在射頻收發架構上將介紹超外差架構 (Superheterodyne)與直接轉換架構(Direct Conversion)原理與差別，並介紹中頻選取的考量。在壓控振盪器(VCO)介紹中，我以負電阻為設計理念設計出375MHz頻帶之壓控振盪器，並把實際設計流程與相關考量做介紹，並將系統應用的壓控振盪器作其重要參數量測。在混頻器的介紹中，將以主動型單端混頻器架構(single-end active mixer)來設計製作65MHz升到375MHz的混頻器，並將系統應用的混頻器做其重要參數的量測。在微波濾波器方面，將以耦合微帶線架構設計5.3G帶通濾波器，且在設計上做些許改良以抑止諧波通帶，並將製作出的集種原件架構與購得的表面聲波架構之375帶通濾波器做其重要參數的量測。在放大器方面將介紹放大器的應用與分別，並以375MHz之增益放大器實際設計製作流程來做設計步驟的介紹，並將設計製作出之4.925GHz和5.3GHz增益放大器，作其重要參數量測。最後將昇頻器與降頻器其功能元件做一整合並做其結果量測。 The major contents of our thesis are to introduce the principles and architectures of up-converter and down-converter .To describe related theorems and to discuss the design rule and flow of each functional components of RF transceiver are our major purpose . The functional components are including VCO, Mixer, Filter, and Amplifier , we have already introduced and measured each important parameter of the functional components in our thesis. The introduction chapter of RF transceiver architecture is to introduce the theorems and difference between Super-heterodyne and Homodyne architecture. How choice the IF frequency well is an important topic in transceiver design and we have discussed about it in the chapter .In the chapter of VCO introduction, the VCO circuit applied in 375 MHz has been designed and implemented by using negative resistance theorem. In the portion, we introduce the actual design flow, related considerations, and important measurement for system applications of VCO sub-circuit. In the chapter of Mixer introduction, we have utilized the single-end active mixer to up-convert signal from 65 MHz to 375 MHz successfully. And all important parameters for system applications of mixer have been measured and discussed .In the portion of microwave filter, we design and implement the BPF applied in 5.3 GHz band by using couple transmission line and it have excellent rejection ability of harmonics after proper modification. The BPF designed by lump element have compared each important parameter with SAW filter applied in 375 MHz .In the portion of amplifier, we have introduced of varieties and applications of microwave amplifier. We have utilized an example, a high gain amplifier of 375 MHz, to introduce the design concepts and actual flow. And the high gain amplifiers of 4.925 GHz and 5.3 GHz have been designed and implemented. Each important parameter has been measured .Finally, we integrated each functional component to achieve up-converter and down-converter. We have measured each important parameter and discussed related issues in the chapter, too.
Appears in Collections:	[Graduate Institute of Communication Engineering] Electronic Thesis & Dissertation

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