臺灣博碩士論文加值系統

本論文的研究主題為便利倉儲管理之無線射頻辨識標籤天線設計。本標籤天線包含了三種不同應用的設計，分別應用於圖書館管理、衣服標籤、金屬。由於標籤所貼附的商品材質都有其特性，其介電係數與厚度都不盡相同，這些因素造成標籤天線阻抗改變進而影響到天線與晶片的共軛匹配效果。本論文所提出的標籤天線設計則可以有效克服材質效應達到實際應用之目的。應用於圖書館管理之雙矩形諧調元件之偶極標籤天線設計，其實測最大讀取距離為8.6 m；應用於衣服標籤的方型環耦合之偶極標籤天線設計，其實測最大讀取距離為9.2 m；應用於金屬的矩形調節環之標籤天線設計，其實測最大讀取距離為3.1 m。對於所提出的標籤天線的量測與模擬數據在本論文中將會詳細的說明與討論。

In this thesis, the study mainly focuses on the RFID tag antenna for goods management. There are three kinds of tag antenna designed for library management, clothing tags and metal applications. The result of the tag antennas attached to the goods has their own characteristic because of the goods with different dielectric constant and thickness. These factors cause the impedance mismatching of the antenna and chip IC. In this thesis, the proposed of the tag antenna can be overcome these disadvantages. In “Design of a dual rectangular tuning element tag antenna for library management,” the measured maximum read range is about 8.6 m. In “Design of a square coupled ring tag antenna for clothing tag applications,” the measured maximum read range is about 9.2 m. In “Rectangular Tuning loop of the tag antenna for metal applications,” the measured maximum read range is about 3.1 m. Details of the measured and simulated results of the proposed tag antennas are presented and discussed.

中文摘要 I
英文摘要 II
致 謝 III
文字目錄 IV
圖形目錄 VI
表目錄 X
第一章 1
1.1研究背景 1
1.2射頻辨識系統 3
1.3研究目的 9
1.4研究內容簡介 10
第二章 12
2.1前言 12
2.2標籤天線設計原理 13
2.3結果與討論 21
2.4結論 31
第三章 32
3.1前言 32
3.2標籤天線設計原理 33
3.3結果與討論 38
3.4結論 45
第四章 46
4.1前言 46
4.2標籤天線設計原理 47
4.3結果與討論 53
4.4結論 65
第五章 66
參考文獻 68

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