M343872 八、新型說明: 【新型所屬之技術領域】 本創作是有關於一種無線射頻識別(RFID)標籤,且特 別是有關於一種具有抗電磁波干擾特性的無線射頻識別標 , 籤。 【先前技術】M343872 VIII. New Description: [New Technology Field] This creation is about a radio frequency identification (RFID) tag, and in particular, a radio frequency identification tag with anti-electromagnetic interference characteristics. [Prior Art]
Radio Frequency Identification ( RFID ),中文稱為「無 • 線射頻識別」,此技術早已廣泛應用於日常生活環境中。出 門搭乘捷運會用到的『悠遊卡』,開車上高速公路不用停下 車來繳回數票所使用的『ETC』儲值卡,寵物身上的植入的『寵 物晶片』,商店或圖書館内的防盜晶片,這些都是RFID的實 際應用。RFID的特性特別適合用來作為人或物品在通路上的 管控追蹤及識別。所以RFID廣泛應用在門禁控制、流程管控 以及電子票券等方面。加上RFID已制定全球統一的IS〇規 _ 範,同時看好RFID所帶來的商機,已有不少廠商投入相關產 業的研發。 此技術通常是由感應器(Reader)和RFID電子標籤(Tag) 所組成的系統,其運作的原理是利用感應器發射無線電波, 觸動感應範圍⑽rFID電子減,#由電磁絲產生電流, ,應RFID電子標籤上的晶片運作並發出電磁波回應感應 器中華民國專利字號第1267788中有充分揭露。通常,感應 器天線發出的電磁波在碰到平整的金屬表面時,會因表面^ 力的鏡面反射作用出現嚴重的逆向電磁波干擾(反相位), 5 M343872 使其黏貼在金屬表面的電子標籤天線對感應器傳來的RF入 射波的感應强度大大減弱;同時,其逆向的反射波又嚴重干 擾了電子標籤的回傳信號(感應器反射波强度^標籤再調整 後的回傳電磁波信號),致使電子標籤很難應用在金屬體表 面。於電子標籤表面加強電磁波吸收功能為本創作之重心。 【新型内容】 本創作提出一種具有抗電磁波干擾之無線射頻識別 jRFID)標籤,包含一介電元件,一射頻識別模組,形成於 ^刀该介電元件上與一軟磁性膠合層,形成於該介電元件與 該射頻識別模組上。 、依照本創作所述之無線射頻識別標籤,其中該介電元件 為一紙張。 依&本創作所述之無線射頻朗標籤,其巾該射頻識別 (ιαΓ 3回路天線與内建通訊電路與記憶電路之積體電路 人ja &、、本創作所述之無線射頻識別標籤,其巾該軟磁性膠 口曰為-電磁波吸收材與—黏滞性連紐之混合物。Radio Frequency Identification (RFID), known in Chinese as "No Radio Frequency Identification", has been widely used in everyday life. Going out on the "Youyou Card" used by the MRT, driving on the expressway without stopping the car to pay back the "ETC" stored value card used for the ticket, the pet chip implanted in the pet, in the store or in the library Anti-theft chips, these are the practical applications of RFID. The characteristics of RFID are particularly suitable for use as a control tracking and identification of people or objects on the path. Therefore, RFID is widely used in access control, process control, and electronic ticket. In addition, RFID has developed a global unified IS regulations, while optimistic about the business opportunities brought by RFID, many manufacturers have invested in research and development of related industries. This technology is usually a system consisting of a reader (Reader) and an RFID tag. The principle of operation is to use the sensor to emit radio waves, to touch the sensing range (10) rFID electron reduction, # generate current from the electromagnetic wire, The wafer on the RFID electronic tag operates and emits an electromagnetic wave response sensor. The Republic of China Patent No. 1267788 is fully disclosed. Generally, when an electromagnetic wave emitted from a sensor antenna hits a flat metal surface, a serious reverse electromagnetic wave interference (inverse phase) occurs due to the specular reflection of the surface force, and 5 M343872 makes the electronic tag antenna adhered to the metal surface. The induced intensity of the RF incident wave from the sensor is greatly weakened; at the same time, the reverse reflected wave seriously interferes with the return signal of the electronic tag (the reflected wave intensity of the sensor, the re-adjusted electromagnetic wave signal after the tag is adjusted), This makes it difficult to apply electronic labels to the surface of metal bodies. Strengthening the electromagnetic wave absorption function on the surface of the electronic label is the focus of the creation. [New content] This creation proposes a radio frequency identification (JRFID) tag with electromagnetic interference resistance, comprising a dielectric component, a radio frequency identification module formed on the dielectric component and a soft magnetic bonding layer formed on The dielectric component is on the radio frequency identification module. A radio frequency identification tag according to the present invention, wherein the dielectric component is a sheet of paper. According to the wireless radio frequency tag described in the present application, the radio frequency identification of the radio frequency identification (the alpha-antenna antenna and the built-in communication circuit and the memory circuit integrated circuit ja &, the radio frequency identification tag described in the present creation The soft magnetic adhesive of the towel is a mixture of electromagnetic wave absorbing material and viscous contact.
射頻識別標籤,其中該電磁波吸 鐵為主要成分的複合物)與合金Radio frequency identification tag, in which the electromagnetic wave is a composite of a main component) and an alloy
錳鎂鋁鐵氧體、 頻識別標籤,其中該軟性鐵氧 鋅鐵氧體、鎳銅鋅鐵氧體、錳鎂辞鐵氧 孟銅鋅鐵氣體、銘鐵氧體或前述物品之 M343872 混合物。 依照本創作所述之無線射頻識別賴,其巾該合金系材 料為鐵鎳合金、鐵石夕合金或鐵石夕銘合金。 依照本創作所述之無線射_別標籤,其巾該黏滞性連 •、:材㈣賴脂、_樹脂、丙烯酸S旨樹脂、聚氨S旨樹脂、 • 版纖維素、乙稀基樹脂、天然橡膠、合成橡膠、聚甲基丙 烯酸酯或前述物品之混合物。 • 【實施方式】 本創作有二個實施例。參照圖示,第1圖與第2圖為第 實化例之說明圖,第3圖與第4圖為第二實施例之說明圖。 ^如圖1所示為本創作之一射頻識別標籤10之構造。一固 疋貼、、、氏100 ’其背對讀者之面塗布黏著膠,其面對讀者之面有 射頻識別齡1G2。觸賴職組撤的組成為—採導電油 墨印製之回路天線1〇2A與内建通訊電路與記憶電路之積體 _ 電路晶片102B。 車人磁性膠合層1〇4為一使用軟磁性膠合物,均勻塗布於 固疋貼紙100與部分附著於固定貼紙1〇〇之射賴別模組1〇2 ^之層狀結構,提供該_識別標籤1G抗電磁波干擾功能。 錄磁性膠合物為65%軟磁材料與35%合成橡膠(丁苯橡膠) 所組成’塗抹後於常溫下,漸失其黏滯性,保时好之吸波 寺[生於/、内圖2為該射頻識別標籤1〇黏結附著於一附著金 屬面1G6之剖面圖。此例可進—步使用—光滑背紙(未揭露 於圖示中)黏合於固定貼紙1〇〇塗布黏著膠之一側,便於產 7 —M343872 品運送。於需要使科將該背紙撕除,即可细黏著膠之黏 性,將射頻識別標籤10固著於任何平面上。 第二實施例如圖3所示,為摘作之另__識別標籤 〇之構造。-固定_ ’其輯讀者之財㈣識別模 -;且202。該射頻識別模組2〇2的組成為一銅質薄形回路天線 - 與内建通訊電路與記憶電路之積體電路晶片202B。 軟磁性膠合層204為一使用軟磁性膠合物,均勻塗布於 • t^200與部分附著於固定貼紙綱之射頻識別模組202 外提供該射頻識別標籤2〇抗電磁波干擾功能。 i性,ίΓ物為合金與祕細旨所組成。祕樹脂黏 U射辆麟籤20 ©定於任何平面上 頻識2籤20黏結附著於一附著金屬面寫之剖面圖7射 創作,ίΓ創作已以實施觸露如上,然其並_以限定本 作之精神^屬技_財具有財知财,衫脫離本創 之保内’當可作些許之絲_飾,因此本創作 • ¥視後附之申請專利範_界定者為準。 M343872 【圖式簡單說明】 第1圖說明本創作第一實施例之正面圖 第2圖說明本創作第一實施例之剖面圖 第3圖說明本創作第二實施例之正面圖 第4圖說明本創作第二實施例之剖面圖 【主要元件符號說明】 10 射頻識別標籤 • 100 固定貼紙 102 射頻識別核組 102 A 回路天線 102B 積體電路晶片 104 軟磁性膠合層 106 附著金屬面 20 射頻識別標戴 200 固定貼紙 _ 202 射頻識別模組 ~ 202A 回路天線 202B 積體電路晶片 204 軟磁性膠合層 206 附著金屬面Manganese-magnesium-aluminum ferrite, frequency identification label, wherein the soft ferrite zinc ferrite, nickel-copper-zinc ferrite, manganese-magnesium-iron-iron-copper-iron-zinc-iron gas, ferrite or a mixture of the above-mentioned articles M343872. According to the radio frequency identification of the present invention, the alloy material of the invention is iron-nickel alloy, iron-stone alloy or iron-stone alloy. According to the wireless radio label of the present invention, the towel has the viscous connection, the material (four) lyophile, the resin, the acrylic resin, the polyurethane resin, the cellulose, the vinyl resin. , natural rubber, synthetic rubber, polymethacrylate or a mixture of the foregoing. • [Embodiment] There are two embodiments of this creation. 1 and 2 are explanatory views of the first embodiment, and Figs. 3 and 4 are explanatory views of the second embodiment. ^ Figure 1 shows the construction of one of the RFID tags 10 of the present invention. A solid 疋 、 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The composition of the dismissal team is the integration of the loop antenna 1〇2A printed with conductive ink and the built-in communication circuit and memory circuit _ circuit wafer 102B. The vehicle magnetic bonding layer 1〇4 is a layered structure which is uniformly applied to the solid sticker 100 and a part of the fixed sticker 1〇2 ^ which is attached to the fixed sticker, and is provided with the soft magnetic adhesive. Identification tag 1G anti-electromagnetic interference function. The magnetic recording compound consists of 65% soft magnetic material and 35% synthetic rubber (styrene-butadiene rubber). After smearing, it gradually loses its viscosity at normal temperature. It is good for the absorbing wave temple [born in /, inside Figure 2) A cross-sectional view of the RFID tag 1 〇 bonded to an attached metal surface 1G6. In this case, the smooth backing paper (not disclosed in the figure) can be adhered to one side of the fixing sticker 1 to apply the adhesive to facilitate the delivery of the product. In order to remove the backing paper, the adhesive can be adhered to the adhesive, and the RFID tag 10 is fixed on any plane. The second embodiment, as shown in Fig. 3, is a construction of the identification tag 摘. - Fixed _ 'The reader's wealth (4) recognition mode - and 202. The RFID module 2〇2 is composed of a copper thin loop antenna - an integrated circuit chip 202B with a built-in communication circuit and a memory circuit. The soft magnetic bonding layer 204 is provided with a soft magnetic adhesive, uniformly coated on the t200 and partially attached to the radio frequency identification module 202 of the fixed sticker, and provides the radio frequency identification tag 2 to resist electromagnetic interference. i sex, Γ Γ 为 is composed of alloy and secret. Secret resin sticky U-shot Lin Lin 20 © fixed on any plane frequency 2 sign 20 bond attached to an attached metal surface to write a profile of 7 shot creation, Γ Γ creation has been implemented as exposed above, but its _ to limit The spirit of this work ^ is a skill _ wealth has a wealth of wealth, the shirt is out of the insurance of the original 'when it can be made a little silk _ decoration, so this creation • ¥ depends on the application patent _ defined as the standard. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view showing a first embodiment of the present invention. FIG. 2 is a cross-sectional view showing a first embodiment of the present invention. FIG. 3 is a front view showing a second embodiment of the present creation. Cross-sectional view of the second embodiment of the present invention [Description of main component symbols] 10 Radio frequency identification tag • 100 fixed sticker 102 Radio frequency identification core group 102 A Loop antenna 102B Integrated circuit chip 104 Soft magnetic bonding layer 106 Attached metal surface 20 Radio frequency identification mark Wear 200 fixed sticker _ 202 RFID module ~ 202A loop antenna 202B integrated circuit chip 204 soft magnetic glue layer 206 attached metal surface