|本期目录/Table of Contents|

[1]林 斌*,黄云鹰.用于第四代移动通信的复合分形天线设计[J].厦门大学学报(自然科学版),2017,56(04):600-605.[doi:10.6043/j.issn.0438-0479.201608008]
 LIN Bin*,HUANG Yunying.Design of the Composite Fractal Antenna Used for the Fourth Generation Mobile Communication[J].Journal of Xiamen University(Natural Science),2017,56(04):600-605.[doi:10.6043/j.issn.0438-0479.201608008]
点击复制

用于第四代移动通信的复合分形天线设计(PDF/HTML)
分享到:

《厦门大学学报(自然科学版)》[ISSN:0438-0479/CN:35-1070/N]

卷:
56卷
期数:
2017年04期
页码:
600-605
栏目:
研究论文
出版日期:
2017-07-26

文章信息/Info

Title:
Design of the Composite Fractal Antenna Used for the Fourth Generation Mobile Communication
文章编号:
0438-0479(2017)04-0600-06
作者:
林 斌*黄云鹰
厦门大学嘉庚学院信息科学与技术学院,福建 漳州 363105
Author(s):
LIN Bin*HUANG Yunying
School of Information Science and Technology,Xiamen University Tan Kah Kee College,Zhangzhou 363105,China
关键词:
移动通信 康托尔分形结构 希尔伯特分形结构 复合分形
Keywords:
mobile communication Cantor fractal structure Hilbert fractal structure composite fractal
分类号:
TN 828.6
DOI:
10.6043/j.issn.0438-0479.201608008
文献标志码:
A
摘要:
针对第四代移动通信的TD-LTE标准的要求,将康托尔分形结构和希尔伯特分形结构相结合,设计了一款康托尔-希尔伯特复合分形微带贴片天线.对天线性能进行仿真分析,详细讨论介质基板参数变化对天线性能的影响,并制作天线样品对其进行测试.仿真和测试结果表明,该款天线回波损耗最小值为-28.26 dB,绝对工作带宽达0.438 GHz,相对工作带宽达17.09%,能够完全覆盖第四代移动通信的TD-LTE标准通信频段,并具有小尺寸和全向辐射特性.
Abstract:
Based on the requirement of the TD-LTE standard of the fourth generation mobile communication,a new Cantor-Hilbert composite fractal antenna which combines Cantor fractal structure and Hilbert fractal structure in a creative way is designed.A sample of this antenna has been tested after simulation analyses,and the influence of the performance of this antenna has been tested by changing the dielectric substrate parameter in detail.Results of simulation and test indicate that the antenna’s return loss minimum value is -28.26 dB,the antenna’s absolute working bandwidth is 0.438 GHz,the antenna’s relative working bandwidth is 17.09% and the antenna exhibit omni directional radiation characteristics.This antenna can completely cover the TD-LTE standard communication frequency band of the fourth generation mobile communication,and can enjoy advantages of small size,low return losses and wide working bandwidths.Finally,this antenna faces a broad application prospect.

参考文献/References:

[1] ELSHEAKH D M,SAFWAT A M E.Compact 3D USB dongle monopole antenna for mobile wireless communication bands [J].International Journal of Microwave and Wireless Technologies,2014,6(6):639-644.
[2] BEKALI Y K,ESSAAIDI M.Compact reconfigurable dual frequency microstrip patch antenna for 3G and 4G mobile communication technologies [J].Microwave and Optical Technology Letters,2013,55(7):1622-1626.
[3] 杨骅,周正兰.TD-LTE标准的深度分析[J].移动通信,2015,39(1):7-11.
[4] CHEN S J,DONG D C,LIAO ZY,et al.Compact wideband and dual-band antenna for TD-LTE and WLAN applicationss [J].Electronics Letters,2014,50(16):1111-1112.
[5] CHEN K.MIMO beamforming and its impact on testing TD-LTE [J].Microwave Journal,2012,55(2):96-102.
[6] 杨利霞,石斌,毛士玲,等.一种开槽的双频段宽带科赫分形天线[J].电波科学学报,2014,29(3):492-497.
[7] 樊磊,骆延,黄卡玛,等.一种基于分形结构的树生长微带天线设计[J].太赫兹科学与电子信息学报,2014,12(2):229-232.
[8] ESKANDARI Z,KESHTKAR A,AHMADI-SHOKOH J,et al.A novel fractal for improving efficiency and its application in LTE mobile antennas [J].Microwave and Optical Technology Letters,2015,57(10):2429-2434.
[9] KABOLI O,ASHTASBI A,MONAJATI A.Design,simulation,fabrication and measurement of 900 MHz new hybrid fractal dipole antenna[J].International Journal of Electronics Communication and Computer Engineering,2015,6(1):20-22.
[10] ABRAHAM M,JOHN K K A,FIJO J K,et al.UHF RFID dipole tag with modified multi-fractal cantor arms for enhanced read range [J].Microwave and Optical Technology Letters,2016,58(5):1173-1175.
[11] ALI J,ABDULKAREEM S,HAMMOODI A,et al.Cantor fractal-based printed slot antenna for dual-band wireless applications [J].International Journal of Microwave and Wireless Technologies,2016,8(2):263-270.
[12] MONDAL T,ROY T,GHATAK R,et al.Novel adaptive blind spot detector using square modified cantor fractal microstrip antenna array [J].Microwave and Optical Technology Letters,2015,57(5):1067-1072.
[13] HAMMOODI A I,ABDULKAREEM S F,ALI J K,et al.A circular cantor fractal based printed slot antenna for triple and dual-band wireless applications[J].International Journal of Electronics Communication and Computer Engineering,2013,4(6):1707-1712.
[14] KUMAR Y,SINGH S.Microstrip fed multiband hybrid fractal antenna for wireless applications [J].Applied Computational Electromagnetics Society Journal,2016,31(3):327-332.
[15] KUMAR Y,SINGH S.A compact multiband hybrid fractal antenna for multistandard mobile wireless applications [J].Wireless Personal Communications,2015,84(1):57-67.
[16] RANI S,SINGH A P.A novel design of hybrid fractal antenna using BFO [J].Journal of Intelligent & Fuzzy Systems,2014,27(3):1233-1241.
[17] SALUJA N,KHANNA R.Design analysis and fabrication of novel coplanar waveguide-fed hybrid fractal-based broadband antenna [J].International Journal of Microwave and Wireless Technologies,2013,5(6):749-752.
[18] 宋铮,张建华,黄冶.天线与电波传播[M].西安:西安电子科技大学出版社,2011:140-153.
[19] 吴诚君.基于Hilbert曲线的无线网络天线小型化[D].苏州:苏州大学,2011:24-30.

备注/Memo

备注/Memo:
收稿日期:2016-08-26 录用日期:2016-12-09
基金项目:福建省自然科学基金(2016J01318)
*通信作者:linbin@xujc.com
更新日期/Last Update: 1900-01-01