Bending Limit Tests for Ultra-Thin Liquid Crystal Polymer Substrate Based on Flexible Microwave Components

Bending Limit Tests for Ultra-Thin Liquid Crystal Polymer Substrate Based on Flexible Microwave Components

In this paper, bending limit tests for one ultra-thin liquid crystal polymer (LCP) substrate (Rogers 3850) based on the mechanical properties of flexible microwave microstrip components are presented. First, a set of 50 Ω microstrip lines, a band-pass filter, and a stepped impedance filter...

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Main Authors: Yu Lan, Yuehang Xu
Format: Article
Language:English
Published: MDPI AG 2018-10-01
Series:Micromachines
Subjects:
bending limit test
flexible filters
microwave components
LCP substrate
bending effect
Online Access:http://www.mdpi.com/2072-666X/9/10/531
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spelling doaj-39c9469082094a12bbb43f6f80d12d822020-11-24T23:08:34ZengMDPI AGMicromachines2072-666X2018-10-0191053110.3390/mi9100531mi9100531Bending Limit Tests for Ultra-Thin Liquid Crystal Polymer Substrate Based on Flexible Microwave ComponentsYu Lan0Yuehang Xu1School of Electronic Science and Engineering (National Exemplary School of Microelectronics), University of Electronic Science and Technology of China, Chengdu 611731, ChinaSchool of Electronic Science and Engineering (National Exemplary School of Microelectronics), University of Electronic Science and Technology of China, Chengdu 611731, ChinaIn this paper, bending limit tests for one ultra-thin liquid crystal polymer (LCP) substrate (Rogers 3850) based on the mechanical properties of flexible microwave microstrip components are presented. First, a set of 50 Ω microstrip lines, a band-pass filter, and a stepped impedance filter in X-band, are designed by using double clapped LCPs with 50 μm thickness of substrate and 18 μm thickness of copper, which is fabricated by conventional photolithography. Then, the limit tests of the flexibility of the LCP microwave microstrip components are presented, and the range of the bending limit radius, from 1 mm to 0.75 mm, is demonstrated from the testing results. It is found that the cause for component failure is fracture of the copper (18 μm thickness) laminate, according to the bending limit test experiments. Finally, the analysis of the reasons for the collapse of the microwave components, under bending situations, is explored. The results from this work would be useful for further designs of the flexible microwave devices and systems on LCP substrates, with compact sizes and good performance.http://www.mdpi.com/2072-666X/9/10/531bending limit testflexible filtersmicrowave componentsLCP substratebending effect
collection DOAJ
language English
format Article
sources DOAJ
author Yu Lan
Yuehang Xu
spellingShingle Yu Lan
Yuehang Xu
Bending Limit Tests for Ultra-Thin Liquid Crystal Polymer Substrate Based on Flexible Microwave Components
Micromachines
bending limit test
flexible filters
microwave components
LCP substrate
bending effect
author_facet Yu Lan
Yuehang Xu
author_sort Yu Lan
title Bending Limit Tests for Ultra-Thin Liquid Crystal Polymer Substrate Based on Flexible Microwave Components
title_short Bending Limit Tests for Ultra-Thin Liquid Crystal Polymer Substrate Based on Flexible Microwave Components
title_full Bending Limit Tests for Ultra-Thin Liquid Crystal Polymer Substrate Based on Flexible Microwave Components
title_fullStr Bending Limit Tests for Ultra-Thin Liquid Crystal Polymer Substrate Based on Flexible Microwave Components
title_full_unstemmed Bending Limit Tests for Ultra-Thin Liquid Crystal Polymer Substrate Based on Flexible Microwave Components
title_sort bending limit tests for ultra-thin liquid crystal polymer substrate based on flexible microwave components
publisher MDPI AG
series Micromachines
issn 2072-666X
publishDate 2018-10-01
description In this paper, bending limit tests for one ultra-thin liquid crystal polymer (LCP) substrate (Rogers 3850) based on the mechanical properties of flexible microwave microstrip components are presented. First, a set of 50 Ω microstrip lines, a band-pass filter, and a stepped impedance filter in X-band, are designed by using double clapped LCPs with 50 μm thickness of substrate and 18 μm thickness of copper, which is fabricated by conventional photolithography. Then, the limit tests of the flexibility of the LCP microwave microstrip components are presented, and the range of the bending limit radius, from 1 mm to 0.75 mm, is demonstrated from the testing results. It is found that the cause for component failure is fracture of the copper (18 μm thickness) laminate, according to the bending limit test experiments. Finally, the analysis of the reasons for the collapse of the microwave components, under bending situations, is explored. The results from this work would be useful for further designs of the flexible microwave devices and systems on LCP substrates, with compact sizes and good performance.
topic bending limit test
flexible filters
microwave components
LCP substrate
bending effect
url http://www.mdpi.com/2072-666X/9/10/531
work_keys_str_mv AT yulan bendinglimittestsforultrathinliquidcrystalpolymersubstratebasedonflexiblemicrowavecomponents
AT yuehangxu bendinglimittestsforultrathinliquidcrystalpolymersubstratebasedonflexiblemicrowavecomponents
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