Bending and Washing Reliabilities of Screen-Printed UHF RFID Tags Based on Woven Water-Mark Fabric

Compared with bar code and quick response( QR) code in the storage and retailing management of textiles, the ultra-high frequency( UHF) radio frequency identification( RFID) tags have high information capacity as well as reliability in complex environmental conditions. In this study,the UHF RFID tag...

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Bibliographic Details
Published in东华大学学报(英文版) Vol. 33; no. 4; pp. 524 - 527
Main Author 胡吉永 李国豪 江红艳 洪虹 涂华婷 杨旭东 晏雄
Format Journal Article
LanguageEnglish
Published Key Lab of Textile Science &Technology, Ministry of Education, Donghua University, Shanghai201620, China 31.08.2016
College of Textiles, Donghua University, Shanghai 201620, China%College of Textiles, Donghua University, Shanghai 201620, China%Key Lab of Textile Science &Technology, Ministry of Education, Donghua University, Shanghai201620, China
Subjects
RFID标签
丝网印刷技术
可靠性
复杂环境条件
尼龙织物
弯曲
洗水
编织
antenna
reading distance
ultra-high frequency (UHF) raido frequency identificatinon (RFID)
flexible
tags
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ISSN1672-5220

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Summary:Compared with bar code and quick response( QR) code in the storage and retailing management of textiles, the ultra-high frequency( UHF) radio frequency identification( RFID) tags have high information capacity as well as reliability in complex environmental conditions. In this study,the UHF RFID tags with perfect integration with textiles are assembled with screen-printed antenna on woven water-mark nylon fabric and Alien UHF integrated circuit( IC), and their reading performance under various washing and bending conditions is evaluated by an RFID reader. The results show that the tags after fifty bending( both arch and sink) cycles of screen-printed antenna still have reading distance more than 5.5 m,and an average reading distance is over 4.0 m after five washing cycles. The experimental results demonstrate that the tag antenna on the water-mark fabric can be manufactured by the screen-printing technology,and a coating process on this fabric facilitates the reading performance and the resistance against complex mechanical impact.
Bibliography:31-1920/N
fabric textiles nylon manufactured printing washing Screen antenna printed bending
Compared with bar code and quick response( QR) code in the storage and retailing management of textiles, the ultra-high frequency( UHF) radio frequency identification( RFID) tags have high information capacity as well as reliability in complex environmental conditions. In this study,the UHF RFID tags with perfect integration with textiles are assembled with screen-printed antenna on woven water-mark nylon fabric and Alien UHF integrated circuit( IC), and their reading performance under various washing and bending conditions is evaluated by an RFID reader. The results show that the tags after fifty bending( both arch and sink) cycles of screen-printed antenna still have reading distance more than 5.5 m,and an average reading distance is over 4.0 m after five washing cycles. The experimental results demonstrate that the tag antenna on the water-mark fabric can be manufactured by the screen-printing technology,and a coating process on this fabric facilitates the reading performance and the resistance against complex mechanical impact.
ISSN:1672-5220