(3.236.118.225) 您好!臺灣時間:2021/05/17 09:30
字體大小: 字級放大   字級縮小   預設字形  
回查詢結果

詳目顯示:::

我願授權國圖
: 
twitterline
研究生:陳彥甫
研究生(外文):Yen-Fu Chen
論文名稱:應用於射頻標籤系統之天線研發
論文名稱(外文):Design of Antennas for RFID systems
指導教授:王曙民
指導教授(外文):Shuming T.Wang
學位類別:碩士
校院名稱:義守大學
系所名稱:電機工程學系
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2016
畢業學年度:104
語文別:中文
論文頁數:85
中文關鍵詞:標籤天線偶極與迴路天線圓極化
外文關鍵詞:RFIDtag antennadipole and loop antennaCircular polarization antennaMetal tag
相關次數:
  • 被引用被引用:0
  • 點閱點閱:85
  • 評分評分:
  • 下載下載:0
  • 收藏至我的研究室書目清單書目收藏:0
本論文提出兩支標籤天線,其一是應用於2.45GHz圓極化標籤天線;其二是應用貼附在金屬物件之915MHz標籤天線。論文中所研究的天線皆為射頻標籤天線架構。第一支標籤天線設計是利用偏移饋入系統及開口,可控制整個標籤天線架構表面的電流流向,促使標籤天線擁有圓極化特性,另外採取迴路型架構作為2.45GHz圓極化標籤天線。第二支標籤天線設計添加了一個金屬面在標籤天線的背板作為反射器,當放置在金屬物件表面上,這個架構可以避免來自金屬物件上的訊號干擾,另外採用偶極架構作為915MHz的應用。
本論文所設計的第一支標籤天線,特點為具有構造簡單之圓極化特性,可以提高標籤天線接收能力,由於製造成本低可大量生產,同時縮小標籤天線整體面積。第二支標籤天線特點為放置在金屬物件上仍擁有良好接收特性,由於設計標籤架構簡單,亦可大量生產。之後將在各個章節逐一探討、詳細介紹標籤天線設計、特性分析以及量測。

The thesis proposes two tag antennas. The first antenna is applying in 2.45GHz circular polarization of tag antenna, another antenna is applying to mount on metal stuffs in 915MHz tag antenna. The proposed antennas have RFID tag antenna structures. The first antenna uses the offset of feed system and its’ gap, it can control the surface current direction on the antenna and generate circular polarization characteristic. Another antenna adds a metal flat on the back of tag antenna as a reflector. When it places on the surface of the metal stuffs, it can avoid the interference from the metal stuffs.
The characteristic of the first antenna can increase the receiving power of the tag antenna. Because of an inexpensive cost, it can produce enormous tag antennas and reduce the area of tag antenna. The characteristic of the second antenna have better receiving feature on the metal stuffs. Because of an inexpensive cost, it can also produce enormous tag antennas. The detail of the antenna design, simulation, and measurement are presented and discussed thoroughly in the following thesis.

致謝.........................................................i
中文摘要.....................................................ii
英文摘要....................................................iii
目錄........................................................iv
圖目錄.....................................................vii
表目錄......................................................xi
第一章.......................................................1
1.1天線研究背景與動機.........................................1
1.1.1 研究背景...............................................1
1.1.2天線的分類..............................................3
1.1.3 研究動機...............................................4
1.1.4 文獻探討...............................................5
1.1.5 論文架構..............................................7
第二章.......................................................8
2.1 無線射頻辨識系統(RFID)的技術與簡介.........................8
2.2天線特性介紹..............................................11
2.2.1輸入阻抗...............................................11
2.2.2電壓駐波比(VSWR)........................................12
2.2.3天線的帶寬...............................................12
2.2.4 Smith Chart...........................................13
2.2.5 天線的指向性(Directivity)..............................14
2.2.6 天線的增益(Gain).......................................14
2.2.7 天線之場型圖...........................................15
2.2.8 天線極化...............................................16
2.2.9 線性極化波(LP).........................................17
2.2.10 右旋圓極化以及右旋橢圓極化波(RHCP和RHEP).................18
2.2.11 左旋圓極化以及左旋橢圓極化波(LHCP和LHEP).................20
2.2.12 圓極化軸比特性..........................................21
2.3天線圓極化設計技術..........................................22
第三章.......................................................25
應用於2.45GHZ圓極化標籤天線....................................25
3.1 前言 .....................................................25
3.2 直接饋入式之圓極化標籤天線架構與模擬特性......................26
3.2.1 圓極化標籤天線設計架構....................................26
3.2.2 圓極化標籤天線模擬實驗結果與討論...........................28
3.2.3 圓極化標籤天線最佳化之等效電路模擬圖.......................37
3.2.4 圓極化標籤天線最佳架構及模擬特性...........................40
3.3 圓極化標籤天線之量測結果....................................45
3.4 本章總結..................................................46
第四章........................................................47
應用貼附在金屬物件之915MH 標籤天線...............................47
4.1 前言 ......................................................47
4.2 應用貼附在金屬物件之標籤天線架構與模擬特性....................48
4.2.1 應用貼附在金屬物件之標籤天線架構...........................48
4.2.2應用貼附在金屬物件之標籤天線實驗結果與討論...................49
4.2.3應用貼附在金屬物件之標籤天線最佳化等效電路模擬圖 .............59
4.2.4應用貼附在金屬物件之標籤天線最佳架構與模擬特性...............61
4.3應用貼附在金屬物件之標籤天線量測結果..........................65
4.4 本章總結..................................................66
第五章........................................................67
結 論.........................................................67
參考文獻......................................................69

[1]. 電磁場與電磁波 作者: 郭輝萍 劉學觀 出版社:西安電子科技 大學出版時間:2007年。
[2]. 無線通信之射頻被動電路設計 全華出版社 P6~11
[3]. A simple circularly polarized loop tag antenna for increased reading distance,Yi-Xiu Chen; Horng-Dean Chen; Ching-Han Tsai; Hua-Ming Chen Electrinmagnetics(iWEM),2014
IEEE international Workshop on Year:2014
[4]. Multi-standard mono-chip HF-UHF RFID tag antenna, Deleruyelle, T.; Pannier, P.; Alarcon, J.; Egels, M.; Bergeret, E. Microwave Conference (EuMC), 2010 European Year: 2010
[5]. Compact ultra high frequency (UHF) slotted array antenna,
Rahman,.; Jamlos, M.F. Telecommunication Technologies (ISTT),2014 IEEE 2nd International Symposium on Year: 2014
[6]. 天線理論與技術 (Antenna Theory and Techniques,Second Edition) (P 3~5)
[7]. A High Energy Efficient Localization Algorithm for Wireless Sensor Networks Using Directional Antenna Baoli Zhang;Frengqi;Yu;Zusheng
Zhang High Performance Computing and Communications, 2009. HPCC 11th IEEE International Conference on Year: 2009 Pages: 230 – 236.
[8]. A Novel Planar Slot Array Antenna With Omnidirectional PatternXing Chen; Kama Huang; Xiao-Bang Xu, Antennas and Propagation, IEEE
International Conference on Year: 2009 Pages: 230 – 236
[9]. Industrial grade wireless base station for Wireless sensor networks,Daniel J, J.; Panicker, S.T.; Thomas, L.; Mathew, J.T.; Mathew, A.
Electronics Computer Technology (ICECT), 2011 3rd International Conference on Year:2011,Volume:2 pages: 245-249.
[10]. Design of UHF synthesize aperture radar antenna Li Ping;Liang Chang-hong;Yuan Tao antennas,Propagation and EM Theory,
2003. Proceedings.2003 6th International Symposium on Year: Pages:86-88
[11]. 植入式陶瓷生醫天線之設計與製作 朱士豪 簡聰富 鄭建民
[12]. 天線理論與技術(第2版)- 電子工業出版社 緒論-7
[13]. K. V. S. Rao, P. V. Nikitin, and S. F. Lam, “Antenna design for UHF RFID tags: A Review and a Practical Application,” IEEE Trans.
Antennas Propagat., vol. 53, no. 12, pp. 3870–3876, 2005.
[14]. 近場通訊系統之天線耦合分析 Analysis of Antenna Coupling in Near-Field Communication Systems 陳晏笙 Yen-Sheng Chen.
[15]. A Planar Wideband Microstrip Patch Antenna for UHF RFID Tag M. S. R. Bashri1, M. I. Ibrahimy2, S. M. A. Motakabber3
Department of Electrical and Computer Engineering, International Islamic University Malaysia (IIUM)53100 Kuala Lumpur, Malaysia.
[16]. A SLIM WIDEBAND AND CONFORMAL UHF RFID TAG ANTENNA BASED ON U-SHAPED SLOTS FOR METALLIC OBJECTS Tao Tang1, 2, * and Guo Hong Du1
[18]. Compact Metallic RFID Tag Antennas With a Loop-Fed Method Peng H. Yang, Yan Li, Lijun Jiang, Member, IEEE, W. C. Chew, Fellow, IEEE, and Terry Tao Ye.
[19]. Small and Flexible Metal Mountable Passive UHF RFID Tag on High-Dielectric Polymer-Ceramic Composite Substrate A. Ali Babar, StudentMember, IEEE, T. Björninen,Member, IEEE,
V.A. Bhagavati, L. Sydänheimo,Member, IEEE,P. Kallio, Member, IEEE, and L. Ukkonen, Member, IEEE
[20]. UHF RFID Antennas,” in RFID System: Research,Trends and Challenges, Wiley, 2010
[21]. 一維微帶光子能隙和缺陷性接地於結構微帶天線的應用研究 國立台北科技大學 碩士論文
[22]. 可貼附於金屬物體超高頻RFID標籤天線 國立高雄師範大學 碩士論文
[23]. Y. Suzuki, N. Miyano, and T. Chiba, “Circularly polarized radiation from singly fed equilateral-triangular microstrip antenna,” IEE Proc. Microw. Antennas Propagat. 134,
194-198, April 1984.
[24]. K. L. Wong and J. Y. Wu, “Single-feed small circularly polarized square microstrip antenna,” Electron.
[25]. Y.X. Guo, K.W. Khoo, and L.C. Ong, “Wideband circularly polarized patch antenna using broadband baluns,” IEEE Trans. Antennas Propagat.
[26]. S. Gao, Y. Qin, and A. Sambell, “Low-cost broadband circularly polarized printed antennas and array,” IEEE Antennas Propagat. Magazine, vol. 49, no. 4, pp. 57-64
[27]. 射頻辨別(RFID)系統設計系統設計、仿真與應用,作者周曉光,王曉華,王傳編,出版社-人民郵電出版社
[28]. 天線工程導論(Antenna Engineering)寰波科技 講師:林作華
[29]. 近場通訊系統支天線耦合分析Analysis of Antenna Coupling in Near-Field Communication Systems 陳晏笙 Yen-Sheng Chen
[30]. 天線設計與應用,使用Ansoft HFSS 模擬器 P108頁
[31]. UHF RFID Antennas,” in RFID System: Research,Trends and Challenges, Wiley, 2010
[32]. 天線理論與技術(第2版)-電子工業出版社P 47頁
[33]. 天線理論與技術(第2版)-電子工業出版社P43頁
[34]. 適用於2.4GHz無線區域網路系統可重置圓極化陣列天線之研究 Study of reconfigurable circular polarized array antenna for 2.4GHz WiFi
system 研究生:顏崇育 指導教授:王曙民 博士義守大學 電機工程學系碩士班碩士論文
[35]. 適用於2.4GHz無線區網路系統可重置圓極化陣列天線之研究 義守大學電機工程學系 顏崇育撰
[36]. 天線理論與技術(第2版)-電子工業出版社 P 300頁
[37]. 天線理論與技術(第2版)-電子工業出版社 P 305頁
[38]. Design of Circularly Polarized Loop Tag Antenna for UHF Band RFID Application, Department of Optoelectronics and Communication Engineering, National Kaohsiung Normal
University, Kaohsiung, Taiwan.

QRCODE
 
 
 
 
 
                                                                                                                                                                                                                                                                                                                                                                                                               
第一頁 上一頁 下一頁 最後一頁 top