Implementation of antenna for 4G(LTE 2100) applications

碩士 === 國立臺南大學 === 綠色能源科技學系碩士班 === 102 === For years personal wireless communication technology continues to development that people are becoming increasingly dependent on wireless communication, by the end of 2012 the global mobile users has reached 6.3 billion, and expected to 2018 the number will...

Full description

Bibliographic Details
Main Authors: Yi-an Chiang, 江益安
Other Authors: I-tseng Tang
Format: Others
Language:zh-TW
Published: 2013
Online Access:http://ndltd.ncl.edu.tw/handle/93909659932659942133
id ndltd-TW-102NTNT5159001
record_format oai_dc
spelling ndltd-TW-102NTNT51590012016-05-22T04:33:28Z http://ndltd.ncl.edu.tw/handle/93909659932659942133 Implementation of antenna for 4G(LTE 2100) applications 4G(LTE 2100)天線之研製 Yi-an Chiang 江益安 碩士 國立臺南大學 綠色能源科技學系碩士班 102 For years personal wireless communication technology continues to development that people are becoming increasingly dependent on wireless communication, by the end of 2012 the global mobile users has reached 6.3 billion, and expected to 2018 the number will reach 7 billion. Meanwhile, the user of personal communication technology also has a new requirement: personal communication device miniaturization, low-power, high-frequency band and multimedia. Although 3G networks compared to 2G network the wireless performance has been greatly improved, but there still have a lot of limitations of market challenges and to meet user''s needs, and impact by Wi-Fi, the price is cheaper and the technology is not complicated. By all these needs, we need 4G technologies to bring us faster transfer, wider band and lower operating cost. To this end, this thesis proposes adapted to receive LTE 4G mobile broadband signal of printed antennas. Use CPW type as antenna''s design structure, the antenna length of 1/2 wavelength of design criteria. Two frequencies close to the modal broadband performance can be achieved, the antenna at the Return Loss ≦ -6 dB covered under the definition of LTE frequency band is 1790MHz to 2250MHz. It’s covering the LTE of the south America、the mainstream broadband of Asia area(2100MHz) and Eastern Europe(2300MHz). The antenna is designed on FR4 substrate, the final antenna dimensions is 50×50×0.8 mm3, the radiation patterns E-plane part of the traditional type monopole antenna 8-shaped patterns, and the H-plane part is omni-directional. I-tseng Tang 湯譯增 2013 學位論文 ; thesis 41 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 國立臺南大學 === 綠色能源科技學系碩士班 === 102 === For years personal wireless communication technology continues to development that people are becoming increasingly dependent on wireless communication, by the end of 2012 the global mobile users has reached 6.3 billion, and expected to 2018 the number will reach 7 billion. Meanwhile, the user of personal communication technology also has a new requirement: personal communication device miniaturization, low-power, high-frequency band and multimedia. Although 3G networks compared to 2G network the wireless performance has been greatly improved, but there still have a lot of limitations of market challenges and to meet user''s needs, and impact by Wi-Fi, the price is cheaper and the technology is not complicated. By all these needs, we need 4G technologies to bring us faster transfer, wider band and lower operating cost. To this end, this thesis proposes adapted to receive LTE 4G mobile broadband signal of printed antennas. Use CPW type as antenna''s design structure, the antenna length of 1/2 wavelength of design criteria. Two frequencies close to the modal broadband performance can be achieved, the antenna at the Return Loss ≦ -6 dB covered under the definition of LTE frequency band is 1790MHz to 2250MHz. It’s covering the LTE of the south America、the mainstream broadband of Asia area(2100MHz) and Eastern Europe(2300MHz). The antenna is designed on FR4 substrate, the final antenna dimensions is 50×50×0.8 mm3, the radiation patterns E-plane part of the traditional type monopole antenna 8-shaped patterns, and the H-plane part is omni-directional.
author2 I-tseng Tang
author_facet I-tseng Tang
Yi-an Chiang
江益安
author Yi-an Chiang
江益安
spellingShingle Yi-an Chiang
江益安
Implementation of antenna for 4G(LTE 2100) applications
author_sort Yi-an Chiang
title Implementation of antenna for 4G(LTE 2100) applications
title_short Implementation of antenna for 4G(LTE 2100) applications
title_full Implementation of antenna for 4G(LTE 2100) applications
title_fullStr Implementation of antenna for 4G(LTE 2100) applications
title_full_unstemmed Implementation of antenna for 4G(LTE 2100) applications
title_sort implementation of antenna for 4g(lte 2100) applications
publishDate 2013
url http://ndltd.ncl.edu.tw/handle/93909659932659942133
work_keys_str_mv AT yianchiang implementationofantennafor4glte2100applications
AT jiāngyìān implementationofantennafor4glte2100applications
AT yianchiang 4glte2100tiānxiànzhīyánzhì
AT jiāngyìān 4glte2100tiānxiànzhīyánzhì
_version_ 1718274598564265984