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    請使用永久網址來引用或連結此文件: http://ir.lib.ncu.edu.tw/handle/987654321/92930


    題名: 以織物基板上製造超高頻 (UHF) 天線;Fabrication of ultrahigh frequency (UHF) antennas on fabric substrate
    作者: 林德森;Lin, De-Sen
    貢獻者: 照明與顯示科技研究所
    關鍵詞: 天線;射頻;織物;物聯網;智慧型衣物
    日期: 2023-02-02
    上傳時間: 2024-09-19 16:31:36 (UTC+8)
    出版者: 國立中央大學
    摘要: 本研究將有機銀油墨塗佈在聚酯纖維織物上,透過加熱使銀離子還原在織物上形成導電線路。首先,對織布進行粗化處理以增加還原後銀粒子之附著度,其次將織布浸泡於防潑水劑中防止墨水側擴散,再以波長450nm的半導體雷射雕刻機在耐熱膠帶上雕刻出天線的圖案作為遮罩,最後將有機銀油墨塗佈其上並加熱燒結於聚酯纖維織物上。
    模擬部分,以Sonnet軟體對天線圖案進行設計優化,使響應頻率落於超高頻段,並探討聚酯纖維織物的拉伸對於天線響應頻率之影響。實驗量測的結果顯示拉伸織物會造成頻率的偏移,其量值為-13.33MHz/mm,定性上符合模擬結果。在天線的指向性測試中發現在方位角20度時有最大的讀取距離(d_max=32.8 cm),然而各方向上的讀取距離差異不大且無偏振相依。本研究結果展示了在織物上製作應力感測器及物聯網天線的潛力。
    ;The reduction and patterning of silver-based organo-metallic ink on polyester fabrics using laser direct writing and in-situ heating is reported.
    Essentially, the fabric was roughened to enhance the adhesion of Ag nanoparticles. Next, the fabric was soaked in water-repellent to prevent lateral diffusion. Subsequently the antenna pattern was direct-write created in a thermal-resistant tape using laser engraving machine operated at λ=450nm. Finally, the ink was drop coated and thermally-assisted reduction was conducted, yielding the antenna pattern on textiles.
    Theoretically, Sonnet software was used to design the antenna structures aiming at operating at ultra-high frequency (UHF) range. Experimentally, the drift of resonant frequency as a function of the applied strain (elongation) was measured yielding a value of -13.33MHz/mm which is in close agreement with the simulated result. It is also found that the radiation pattern is insensitive to polarizations and the directivity is almost uniform with a maximum detection range of 32.8 cm. This result promises potential applications in smart textiles, strain sensing, and internet of things (IoTs).
    顯示於類別:[照明與顯示科技研究所 ] 博碩士論文

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