200912763 九、發明說明: 【發明所屬之技術領域】 本發明係提供-種具印刷無線射頻識別之卡片結構,特別是導電浆 料印刷所製成之天線__於Integrated Gireuit晶片卡(π晶片卡)、200912763 IX. Description of the Invention: [Technical Field] The present invention provides a card structure for printing radio frequency identification, in particular, an antenna made by conductive paste printing __Integrated Gireuit wafer card (π wafer card) ,
Smart卡(智慧卡)、辨識卡、磁條卡、貴賓卡及捷運卡上,可有效提高讀取器感 應天線線圈性能。 【先前技術】 目前,在我們生活之巾職酬運贿線麵鋼(RFlD;RadiQF_崎Smart card (smart card), identification card, magnetic stripe card, VIP card and MRT card can effectively improve the performance of the reader sensing antenna coil. [Prior Art] At present, we are paying for bribes in our life. (RF1D; RadiQF_Saki
Identify)系統之無線射頻識別(娜)標藏,如運用於信用卡、電話卡、悠遊卡、 物流管理之供親物流及存脸管、辦公大樓門雜控、身分賴或航空運輸 的行李識別上·.....等等;是利用-具天線線圈之無線射頻標籤結合—晶月模組 貼附於非接觸式卡或觸式卡内,則;模_所贿之—數碼資料藉由具天 線線圈之無線射頻識別(_)標籤經無線傳輸方式至一讀取器(Reader)而發揮 斤要之接收機制’以作為辨識、追蹤、統計、查核、結帳、存貨控制等用.途, 已經是世界之趨勢及潮流。 然,天線線圈是影響無線麵識別⑽D)標籤是否能發揮非接觸正確功能 之首要重點,國外將無線射賴別(趣)標籤結合卡片或物鮮品之控管、辦 a大樓Η禁監控或是彡分觸、縣朗管理如顏鮮...料已在國外普遍 流订使用’也有許乡家廠商觀供應,秘天祕圈之餘不外是_刻或埋 入漆包線等方式製作;其巾,祕刻方式形成天線線㈣維害生活環境,造成 環保問題,又埋入式天、線線圈銳孔作業時天線易被銑刀拉起,造成品質不良、 200912763 或埋入深度不前造成品f不良;有鑑於此本明人著手於材料、封装、 測試等技綱題,賴叫職峨的天縣隨天線《蝴印刷於 任何之卡體上(如:紙板、娜板或電路板上),同時本發明之製品兼具有習用 產品之優點’其品f更敎、__及更具高效能之感應功效。 為滿足上述所提出的具_無線射頻識別之卡片結構的需求,本發明人基 於多年從事研究觸乡實務經驗’經乡转究設計鱗聽討,雜本發明提 出一種具印抛線賴_之封結構_為前職望—實财式與依據;且 應用設置於卡 >;内或物流管理之供應鏈物流及存脸管、辦公大樓門禁監控、 身分辨識或航空運輸的行李識別之領域創造重大技術突破、作額便及降低生 產成本等優點,使用途更廣泛及便雛,足為—般消#者大眾所歡迎,實是一 不可多得的好產品。 【發明内容】 有鑑於上述課題’本發明之目的為提供一種具印刷無線射頻識別之 卡片結構,包含:-卡體、至少—感應層、—晶片模組以及—跳線線路所組成。 其中’卡體由複數個疊層所構成。接著,於至少一感應層上印刷—天線線圈, 且感應層夾層於卡體之複數個疊層内,且天線線圈包含兩晶片接點、一迴路内 接點及一迴路外接點。再來,一晶片模組貼附於感應層之天線線圈之兩晶片接 點上。最後,一跳線線路由一絕緣層及一搭接導電電材所構成;其中,絕緣層 δ支置介於感應層之天線線圈之迴路内接點與迴路外接點之間且覆蓋部份天線線 圈。則,搭接導電電材疊於絕緣層上,並介於天線線圈之迴路内接點與迴路外 接點之間形成一感應接收天線線圈功能,用以將晶片模組内之一數碼資料透過 200912763 天線線圈傳輸出,來形成-無線親之收發機制。 緣是,為達上述之主要目的之第-結構變化,於上述之具印刷無線射頻識 別之卡片結構中之至少-感應層更近—步包括—框孔,用以嵌入—晶片模組, 以作為晶片模組之放置位置之變化。 續為達上述之主要目的之第二結構變化,於上述之具印刷無線射頻識別 之卡片結構中’卡體的複數個疊層中之任一疊層的—側面帶更進一步包括一磁 帶’即為一接觸式結構之卡。 緣疋為再達上述之另-主要目的,依本發明之具印刷無線射頻識別之卡 片結構,包含:-卡體、至少一感應層、一晶片模組以及一導電電制喊。 其中’卡體由複數個叠層所構成。接著,至少一感應層夾層於卡體之複數個叠 層内且於感應層上開⑦數個貫孔並印刷_天線線圈於感應層上,且天線線圈 包含兩晶片接點、-迴路内接點及—迴路外接點。再來,晶諸組貼附於感應 層之天線線圈之兩晶片接點上。最後,—導電電材貼附於感應層之_背面上。 其中’導電電材之-兩端點填祕錢卡之數個貫础將讀天、雜圈之迴路 内接點及迴料接闕成—感應天雜圈功能,制將“模朗之—數碼資 料透過天線線圈輸出,俾以形成一無線感應之收發機制。 續,為達上述之另一主要目的之第一結構變化,於上述之具印刷無線射頻 識別之卡片結構中之至少一感應層更近一步包括一框孔,用以嵌入一晶片模 組,以作為晶片模組之放置位置之變化。 接續,為達上述之另一主要目的之第二結構變化,於上述之具印刷無線射 頻識別之卡片結構,於卡體之複數個疊層中的任一疊層之一側面帶更進—步包 括一磁帶,即為一接觸式結構之卡。 200912763 緣是’為再達上述之再一主要目的,依本發明之具印刷無線射頻識別之卡 片、、°構’包含卡體、至少—感應層、以及-晶片模組所組成。其中,卡體 複數個疊層所構成。接著,於至少一感應層上印刷一天線線圈,且感應層夹 層於卡體之複數個疊勒。最後,—晶片模__感應狀天絲圈之兩末 梢端上’且晶片模組之一背面為一絕緣材;其中,^曰曰片模組貼附於感應層上 之天線線圈之兩末梢端時,則晶片模組内之一數碼資料透過天線線圈輸出,來 形成一無線感應之收發機制。 續,為達上述之再一主要目的之第一結構變化,於上述之具印刷無線射頻 識別之卡㈣構’於卡體之複數_層巾在任—疊狀—麻較進一步包括 一磁帶,即為—接觸式結構之卡。 緣疋為再達上述之最後一目的,依本發明之具印刷無線射頻識別之卡片 結構,包含.一卡體、一感應層、一天線線圏以及一晶片模組。其中,卡體由 複數個疊層所構成。接著,感應層具一正面及-背面,且夾層於卡體之複數個 叠層内’並於歧層貫穿數個貫孔。接著,天線線_印刷—祕形成於感應 層的正面上與一背面上。最後,一晶片模組附著於感應層一正面上天線線圈 之末稍端點處。其中,漿料藉由印刷填滿於感應層之數個貫孔内,且又數個貫 孔與天線_之糊義減通,將與晶賴_成—感應天線細功能進而 將晶片模組内之一數碼資料透過天線線圈輸出,來形成一無線感應之收發機制。 縱上所述’因依本發明之具印刷無線射頻識別之卡片結構,將印刷天線線 圈搭接一導電電材從迴路外接點連接至迴路内接點來完成跳線線路用以形成一 感應之接收天線線圈之電子迴路,可將一晶片模組内之一數碼資料透過天線線 圈感應來產生一電子迴路,俾以形成一無線感應之收發機制;或將一導電電材 200912763 貼附於卡體之感應_層之—背面,卿分的導電電材之—兩端點藉由塗佈印 刷過程時會穿透且賴至少魏㈣孔於—㈣制,絲複油貫滿導電電 材之貫孔貫料卡體之感應層之迴路哺點及迴料獅,藉由親此導電電 材來形成-感應接收天線線圈之—電子迴路,可將—晶賴組内—數瑪資料透 過天線線圈之感應來產生之—電子迴路,而形成—無線錢之收發機制,藉以 擴大本發明之具_無_賴別之封賴的應用躺,並提供物流、倉健 管理、交it憑證、儲值、停車付費、消f購物、金融交易、防偽辨識識別功能 結合應用之目地者。 茲為使貴審查委員對本發明之技術特徵及所達成之功效有更進一步之瞭 解與韻’下文謹提供較佳之實施例及相咖式以為齡之用 ’並以詳細之說 明文字配合說明如後。 【實施方式】 為讓本發明之上述目的、特徵、和伽能更鴨祕,下文依本發明之具 ;印刷無線射頻識別之卡片結構特舉—較佳實施例,並配合所附相關圖式,作詳 、’說月如下其巾補的元件將以相同的元件符號加以說明。 凊參閱第-圖,係為本發明_較佳實施例之平面示意圖。圖中,係顯示本 發月之具印刷無線射頻識別之卡片結構】,包括:一卡體^、至少一感應層u、 曰曰片模組13以及-跳線線路14所組成。其中,卡體“由複數個叠層⑴所 構成接著,於至少一感應層12上印刷一天線線圈⑵,且感應層η爽層於卡 體η之複數個叠層in内,且天線線圈121包含兩晶片接點心、一迴路内接 點㈣及-迴路外接點121c。再來,—晶片模組13貼附於感應層12之天線線 200912763 圈121之兩晶片接點ma上。最後,一跳線線路14由一絕緣層i4i及一搭接 導電電材142所構成;其中,絕緣層141設置介於感應層12之天線線圈⑵之 迴路内接點與迴路外接點121e之間且覆蓋部份天線線圈m,則,搭接導 電電材142疊於絕緣層141上’並介於天線線圈121之迴路内接點㈣與迴路 外接點之間’形成-感應減天線_21之—電子祕轉晶片模㈣ 内之-數碼資料透過天線121傳輸出形成—無線錢之收發機制。 續為達上述之主要目的之第—結構變化。請繼續參閱第二圖且並配合第 -圖’係為本發明之較佳實施例之第—結構變化平面示意圖。第二圖中,於上 述之具印刷無線射頻識別之卡片結構i中之至少—感應層ι2中更近—步包括一 框孔122 ’用讀人-晶片模組13,以作為晶片模組13之放置位置之變化。 續,為達上述之主要目的之第二結構變化。請接續參閱第三圖且並配合第 -圖,係為本發明之較佳實施例之第二結構變化平面示意圖。第三圖中,係顯 示本發明之具印刷無線射頻識別之卡片結構丨中,更可再於卡㈣内之複數個 疊層m巾之任—疊層U1之一側面帶更進一步包括一磁帶仙,即為一接觸 式卡之結構。 “上所述’轉閱第—圖中之當晶片模組13與天線線圈ΐ2ι感應時,一無 線射頻識別(RFID ; Radio Frequency ldentificati〇n)系統之讀取器(圖中未顯 丁)提供穩定之射頻信號源,以達感應之卡體n内之天線線圈⑵之可獲 得能量而被啟動,因而將晶片模組13内之一數碼資料編碼料訊透過其天線線 圈121發送出去’令此讀取器接收此等訊號,並對接收之等訊號進行調和解碼 後,再傳送至一系統之後端之主系統進行相關之處裡,以令主系統根處理之資 料’邏輯運算觸綠碼資料編歇合法性,並針料同的設定做丨相應之處 200912763 理及控制,,私㈣測執__作,娜本Μ之具_無線射頻 制之卡片結構1,具有通訊之收發及運算機制;當此印刷無線射頻識別之卡片 結構丨上之晶物Μ3搭概糊ΐ2ι會與綱產生—棚訊號,使得 讀卡機(财未顯示)與卡體u上之晶片模組13兩者間可互相通訊傳輸資料, 執行所要之功能。 上述之感應層12之天線線圈121以導電漿撤佈印刷方式形成於卡體^ 之感應層12上;跳線線路之絕緣層為_絕緣㈣;卡體n可應可應用於 ic晶片卡、讀卡、磁條卡、貴賓卡、識別卡及捷運卡;最後,卡體η之組 成厚度介於0· 6至〇. 9毫米之間,耻述所製作完狀卡體u具釘述之電氣 特性:如工作解介跡5. 8GHz、天線餘值介於Q. g卜⑽_⑼、電感值 介於0. 01〜1_、電容值介於〇. 01〜_以及品質因素介於Η晒等特性。 緣是,為再達上述之另-主要目的。請更再參閱第四圖,係為本發明另一 實施例之平面示賴。财,侧示本發明之具_無線射賴別之卡片結構 2 ’包含:-卡體i卜至少一感應層12、一晶片模組13以及一導電電材15所 組成。其中’卡體11由複數㈣層m所構成。接著,至少一感應層12夹層 於卡體11之複數個叠層ill内’且於至少-感應層12上開設數個貫孔123並 印刷-天線_ 121於感應層12上,且天線線圈121包含兩晶片接點ma、一 迴路内接點121b及一迴路外接點121c ’則數個貫孔123與迴路内接點12比及 迴路外接點121e相連通可形成-電子迴路。再來,—晶片模組13貼附於感應 層12之天線線圈121之兩晶片接點12ia上。最後,一導電電材15貼附於感應 層12之一背面上,其中,上述之導電電材15之一兩端點151填滿於感應層12 之數個貫孔123内,顧藉由貫孔123 «滿導電漿與天線義m之迴路内 200912763 接點121b及迴路外接點12ic形成感應天線線圈⑵之一電子迴路,進而將晶 片模組13内之-數碼資料透過天線線圈121輸出,俾以形成一無線感應之收發 機制。 續為達上述之另一主要目的之第一結構變化。請繼續參閱第五圖且並配 口第四圖’係為本發明之另—較佳實施例之第—結構變化平面示意圖。第五圖 中’則於上述之具印刷無線射頻識別之卡片結構2 +,於至少―感應層12中更 近步包括-框孔122,用以嵌入一晶片模组13,以作為晶片模組13之放置位 置之變化。 續’為達上述之另-主要目的之第二結構變化。請接續參閱第六圖且並配 0第四圖’係為本發明之另_較佳實施例之第二結構變化平面示意圖。於第六 圖中係顯示本發明之具印刷無線射頻識別之卡片結構2中,更可再於卡體U 内之複數個叠層111中之任一疊層ηι之—側面帶更進—步包括—磁帶丄⑴, 即為一接觸式卡之結構。 表丁、上所述’請參閱第四圖中之晶片模組13與天線線圈i2i感應時,一無線 射頻識別⑽ID ; RadiQ F卿ency版咐細㈣系統之讀取则中未顯 示)提供穩疋之射頻信號源,以達感應之卡體η内之天線線圈⑵之可獲 •里而破啟動,因而將晶片模組l3 ^之一數碼資料編碼等資訊透過其天線線 圈121發送出去’令此讀取器接收此等訊號,並對接收之等訊號進行調和解碼 後再傳送至-系統之後端之主系統進行相關之處裡,以令主系統根處理之資 料邏輯運算判斷此數碼資料編碼之合法性,並針對不同的設定做出相應之處 理及控以發出&令^號控制執行機構動作,使得本發明之科卩刷無線射頻 識!卡片、、,σ構2,具有通sfL之收發及運算機制;當此印刷無線射賴別之卡片 200912763 結構2上之晶賴㈣搭接於天線關121會與讀取器產生—射賴號,使得 讀卡機(圖中未顯示)與卡體U上之晶片模組ls兩者間可互相通訊傳輸資料, 執行所要之功能。 上述之感應層12之天線線圈121以導電漿科塗佈印刷方式形成於卡體n 之感應層12上;導電着以導電祕塗佈_方式戦於感顧之—背面上; 卡體U可應用於可應用於IC晶片卡、麵卡、磁條卡、貴賓卡、識別卡及捷 運卡最後傾11之組成厚度介於〇. 6至〇· 9毫米之間,則上述所製作完成 之卡體11具備下述之魏特性:如工作頻率介於Q〜5.驗、天線電阻值介於 0. 0H5G歐姆⑼、電祕介於請、電容值介於G· GLF以及品質 因素介於1-1000等特性。 ,緣是’為再達上述之再一主要目的。請更再參閱第七圖,為本發明另一實 •施例之平面示意圖。圖中,係顯示本發明之具印刷無線射躺別之卡片結構3 包含:-卡龍、至少-感應層12、以及一晶片模組13所組成。其中,卡韻 11由複數個⑽m所構成。接著,至少—感應層12印刷—天線線圈⑵於感 應層12上,且感應層12失層於卡體n之複數個疊層⑴内。最後,一晶片賴 組難附於感應層U之天線線圈m之兩末梢端md上,且晶片模㈣之 背為、邑緣材’其中’當晶片模組13貼附於感應層^之天線線圈⑵之 兩末梢端㈣時,則晶片模組13内之一數竭資料透過天線線圈121輸出,身 形成一無線感應之收發機制。Identify) the system's radio frequency identification (Na) standard, such as credit card, telephone card, leisure card, logistics management for the pro-logistics and face management, office building door control, identity or air transport baggage identification ..... etc.; is to use the combination of the radio frequency tag with the antenna coil - the crystal moon module is attached to the contactless card or the touch card, then the model - the bribe - digital data by means The radio frequency identification (_) tag of the antenna coil is wirelessly transmitted to a reader (Reader) and functions as a receiving mechanism for identification, tracking, statistics, checking, checkout, inventory control, etc. It is already the trend and trend of the world. However, the antenna coil is the primary focus of the wireless surface recognition (10) D) label can play the role of non-contact correct function, foreign countries will be linked to the card or the fresh product control, a building forbidden monitoring Or the smashing of the county, the management of the county lang, such as Yan Xian... It has been widely used in foreign countries. 'There are also the supply of Xuxiang’s manufacturers. The secret of the secret world is nothing more than _ engraved or buried in the enameled wire. Production; its towel, secret engraving forms the antenna line (4) to protect the living environment, causing environmental problems, and buried antennas, wire coils, sharp hole operation, the antenna is easily pulled up by the milling cutter, resulting in poor quality, 200912763 or buried depth However, in view of the fact that this person has started to work on materials, packaging, testing and other technical issues, the Tianxian County, which is called the job, is printed on any card body (such as cardboard and Naban). Or on the circuit board), at the same time, the product of the invention has the advantages of the conventional product, which is more versatile, __ and more efficient inductive effect. In order to meet the above-mentioned demand for the card structure with radio frequency identification, the inventor has been engaged in the research and practice of the experience of the hometown for many years, and the invention has proposed a printing and throwing line. The structure of the seal _ is the predecessor---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- The creation of major technological breakthroughs, the convenience of the amount of money and the reduction of production costs, the use of a wider range and easy to use, enough for the general public, welcomed by the public, is a rare good product. SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to provide a card structure having a printed radio frequency identification, comprising: a card body, at least a sensing layer, a chip module, and a jumper line. Wherein the 'card body is composed of a plurality of laminates. Then, the antenna coil is printed on at least one sensing layer, and the sensing layer is sandwiched in a plurality of layers of the card body, and the antenna coil includes two wafer contacts, a circuit inner contact point and a circuit outer contact point. Then, a chip module is attached to the two wafer contacts of the antenna coil of the sensing layer. Finally, the jumper line is composed of an insulating layer and a lapped conductive material; wherein the insulating layer δ is supported between the inner contact point of the antenna coil of the sensing layer and the outer point of the loop and covers part of the antenna coil . Then, the lapped conductive material is stacked on the insulating layer, and an inductive receiving antenna coil is formed between the inner contact of the loop of the antenna coil and the external contact of the loop for transmitting a digital data in the chip module through the 200912763 antenna The coil is transmitted out to form a wireless proximity transceiver mechanism. The edge is that, in order to achieve the above-mentioned primary purpose of the structural change, at least the sensing layer in the card structure of the above-described printed radio frequency identification is closer - the step includes a frame hole for embedding the chip module to As a change in the placement position of the wafer module. Continuing to be a second structural change to achieve the above-described primary purpose, in the above-described printed radio frequency identification card structure, the 'side strip of any of the plurality of stacks of the card body further includes a tape' A card for a contact structure. The card is a printed radio frequency identification card structure according to the present invention, comprising: a card body, at least one sensing layer, a chip module, and a conductive electric shout. Wherein the 'card body is composed of a plurality of laminates. Then, at least one sensing layer is sandwiched in a plurality of layers of the card body, and seven through holes are formed in the sensing layer, and the antenna coil is printed on the sensing layer, and the antenna coil includes two wafer contacts, and the circuit is inscribed Point and - circuit external point. Then, the crystal groups are attached to the two wafer contacts of the antenna coil of the sensing layer. Finally, the conductive material is attached to the back side of the sensing layer. Among them, the conductive metal materials - the two points at the two ends of the secret money card will be read through the days, the loops inside the loops and the return of the material into the - the function of the day, the system will be "model Langzhi - digital The data is output through the antenna coil to form a wireless sensing transceiving mechanism. Continued, in order to achieve the first structural change of the other main purpose, at least one sensing layer in the above-mentioned printed radio frequency identification card structure is further A further step includes a frame hole for embedding a wafer module as a change in the placement position of the wafer module. Continuing, a second structural change for the other main purpose described above, in the above-described printed radio frequency identification The card structure is further provided on one side of any one of the plurality of stacks of the card body, including a magnetic tape, which is a contact structure card. 200912763 The edge is 'to achieve the above one again The main object is a card for printing radio frequency identification, a structure comprising a card body, at least a sensing layer, and a chip module, wherein the card body is composed of a plurality of layers. to An antenna coil is printed on one less sensing layer, and the sensing layer is sandwiched on a plurality of stacks of the card body. Finally, the wafer die is on the two distal ends of the inductive wire loop and one of the back sides of the wafer module is An insulating material; wherein, when the chip module is attached to the two distal ends of the antenna coil on the sensing layer, one of the digital data in the chip module is output through the antenna coil to form a wireless sensing transceiver mechanism. Continuing, in order to achieve the first structural change of the above-mentioned further main purpose, the above-mentioned card for printing radio frequency identification (four) is constructed in the plural of the card body, and the layered tape further includes a tape, that is, The card of the contact structure is the last object of the above, and the card structure with the printed radio frequency identification according to the invention comprises a card body, a sensing layer, an antenna wire and a wafer die. The card body is composed of a plurality of layers. Then, the sensing layer has a front side and a back side, and is sandwiched in a plurality of layers of the card body and penetrates through the plurality of through holes in the layer. Then, the antenna Line_printing-secret The front side of the layer is on the back side. Finally, a wafer module is attached to the front end of the antenna layer at the end of the antenna layer. The paste is filled in the plurality of through holes of the sensing layer by printing. And a plurality of through holes and antennas _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ In the above-mentioned card structure with printed radio frequency identification according to the present invention, the printed antenna coil is connected with a conductive electric material from the external connection point of the circuit to the inner contact point of the circuit to complete the jumper line for forming a sensing The electronic circuit of the receiving antenna coil can sense a digital data in a chip module through an antenna coil to generate an electronic circuit to form a wireless sensing transceiver mechanism; or attach a conductive electrical material 200912763 to the card body. Inductive _ layer - back, the conductive material of the branch - the two ends of the point through the coating process will penetrate and rely on at least the Wei (four) hole in the - (four) system, the silk oil replenishes the through hole of the conductive material The circuit feeding point and the returning lion of the sensing layer of the material card body are formed by the conductive electric material to form an inductive receiving antenna coil-electronic circuit, which can be used to sense the data in the antenna layer through the antenna coil. Generated - the electronic circuit, and formed - the wireless money transmission and reception mechanism, in order to expand the application of the invention _ no _ depending on the application of the lie, and provide logistics, warehouse management, paying vouchers, stored value, parking payment , eliminate shopping, financial transactions, anti-counterfeiting identification and recognition functions combined with the purpose of the application. In order to give the reviewer a better understanding of the technical features and the efficacies of the present invention, 'the following is a better example and the same is used for the age of the person' and the detailed description is followed by a description. . [Embodiment] In order to make the above objects, features, and gamma energy of the present invention more inferior, the following is a device according to the present invention; a special structure for printing a radio frequency identification card structure - a preferred embodiment, and the accompanying related drawings For details, the components of the following month will be described with the same component symbols. Referring to Figures, there is shown a plan view of a preferred embodiment of the invention. In the figure, the card structure of the printed radio frequency identification is displayed, which comprises: a card body ^, at least one sensing layer u, a die module 13 and a jumper line 14. Wherein, the card body is composed of a plurality of layers (1), and then an antenna coil (2) is printed on at least one of the sensing layers 12, and the sensing layer η is layered in a plurality of layers in of the card body η, and the antenna coil 121 The two wafers are connected to the snack, the first loop inner joint (4) and the loop outer joint 121c. Then, the wafer module 13 is attached to the two wafer contacts ma of the antenna line 200912763 circle 121 of the sensing layer 12. Finally, one The jumper line 14 is composed of an insulating layer i4i and a lapped conductive material 142; wherein the insulating layer 141 is disposed between the loop inner contact point of the antenna coil (2) of the sensing layer 12 and the circuit external contact point 121e and covers the portion The antenna coil m, then the lapped conductive material 142 is stacked on the insulating layer 141' and is interposed between the inner contact point (4) of the antenna coil 121 and the external contact point of the loop. In the model (4) - the digital data is transmitted through the antenna 121 to form a transmitting and receiving mechanism for the wireless money. Continued to be the first structural change of the above main purpose. Please continue to refer to the second figure and cooperate with the first figure as the invention. The first embodiment of the preferred embodiment In the second figure, at least the sensing layer ι2 in the above-mentioned printed radio frequency identification card structure i is further arranged to include a frame hole 122' for reading the human-chip module 13 as The change in the placement position of the wafer module 13. Continued, the second structural change to achieve the above-mentioned main purpose. Please refer to the third figure and in conjunction with the first figure, which is the second structure of the preferred embodiment of the present invention. The schematic diagram of the change plane. In the third figure, the card structure of the printed radio frequency identification of the present invention is furthermore, and the plurality of laminated m-cloths in the card (4) can be further used. Further comprising a tape singer, which is a structure of a contact card. "The above mentioned" is referred to in the figure - when the chip module 13 and the antenna coil ΐ2ι are sensed, a radio frequency identification (RFID; Radio Frequency ldentificati〇) n) The reader of the system (not shown) provides a stable RF signal source that is activated by the available energy of the antenna coil (2) in the sensing card body n, thus one of the wafer modules 13 Digital data encoding material After the antenna coil 121 is sent out, 'the reader receives the signals, and the received signals are modulated and decoded, and then transmitted to the main system at the rear end of the system for correlation, so that the main system root The processing data 'logical operation touches the green code data to edit the legality, and the same setting of the needle material to do the corresponding place 200912763 control and control, private (four) test __, Na Ben Μ _ wireless RF system Card structure 1, with communication transceiver and operation mechanism; when the printed radio frequency identification card structure on the 晶 晶 搭 搭 搭 ι ι ι ι ι ι ι ι ι ι ι 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚 棚The wafer module 13 on the body u can communicate with each other to transmit data and perform desired functions. The antenna coil 121 of the sensing layer 12 is formed on the sensing layer 12 of the card body by conductive paste removal printing; the insulating layer of the jumper line is _insulating (four); the card body n can be applied to the ic chip card, Card reader, magnetic stripe card, VIP card, identification card and MRT card; finally, the thickness of the card body η is between 0·6 and 〇. 9 mm, and the finished card body is described by the shame Electrical characteristics: such as the working solution of the trace 5. 8GHz, the antenna residual value is between Q. g Bu (10) _ (9), the inductance value is between 0. 01~1_, the capacitance value is between 〇. 01~_ and the quality factor is between And other characteristics. The reason is, in order to achieve the above-mentioned other - the main purpose. Please refer to the fourth figure for further description of another embodiment of the present invention. The card structure 2 ′ of the present invention comprises: a card body i, at least one sensing layer 12, a chip module 13 and a conductive material 15 . Wherein the card body 11 is composed of a plurality of (four) layers m. Then, at least one sensing layer 12 is sandwiched in a plurality of laminates ill of the card body 11 and a plurality of through holes 123 are formed in at least the sensing layer 12 and printed on the sensing layer 12, and the antenna coil is 121 includes two wafer contacts ma, one circuit inner contact point 121b and one circuit outer contact point 121c'. Then, the plurality of through holes 123 communicate with the circuit inner contact point 12 and the circuit outer contact point 121e to form an electronic circuit. Further, the wafer module 13 is attached to the two wafer contacts 12ia of the antenna coil 121 of the sensing layer 12. Finally, a conductive material 15 is attached to the back surface of one of the sensing layers 12, wherein the two ends 151 of the conductive material 15 are filled in the plurality of through holes 123 of the sensing layer 12, and the through holes 123 are adopted. «The inner conductive circuit of the conductive paste and the antenna m. 200912763, the contact 121b and the external circuit 12ic of the circuit form an electronic circuit of the inductive antenna coil (2), and then the digital data in the chip module 13 is output through the antenna coil 121 to form A wireless sensing transceiver mechanism. Continued to be the first structural change to achieve the other primary purpose described above. Please refer to the fifth figure and the fourth port of the present invention is a plan view of the structure change of the other preferred embodiment of the present invention. In the fifth figure, the card structure 2 + of the printed radio frequency identification is further included in the at least the sensing layer 12 to include a frame hole 122 for embedding a chip module 13 as a chip module. The change in the placement position of 13. Continued as a second structural change to achieve the above-mentioned main purpose. Please refer to the sixth figure and the fourth figure is a schematic plan view of the second structural change of the other preferred embodiment of the present invention. In the sixth figure, the card structure 2 with the printed radio frequency identification of the present invention is furthermore, and the stack of ηι in any of the plurality of laminations 111 in the card body U can be further advanced. Including - tape cassette (1), which is the structure of a contact card. In the case of the above description, please refer to the wafer module 13 and the antenna coil i2i in the fourth figure, a radio frequency identification (10) ID; RadiQ F qing version 咐 fine (four) system read is not shown) provide stability The RF signal source of the , is activated by the antenna coil (2) in the sensing card body η, so that the information such as the digital data encoding of the chip module 133 is transmitted through the antenna coil 121. The reader receives the signals, and then modulates and decodes the received signals, and then transmits them to the main system at the rear end of the system for correlation, so that the data processing of the data processed by the main system root determines the digital data encoding. Legality, and corresponding processing and control for different settings to issue & control number to control the action of the actuator, so that the invention of the invention brush radio frequency identification! card,, σ structure 2, with sfL Transceiver and operation mechanism; when the printed wireless camera is on the card 200912763, the structure on the structure 2 (4) is connected to the antenna off 121 and the reader generates a ray-shooting number, so that the card reader (not shown) With the card body U The chip module ls can communicate with each other to transmit data and perform desired functions. The antenna coil 121 of the sensing layer 12 is formed on the sensing layer 12 of the card body n by conductive paste coating printing; the conductive layer is coated on the back surface by the conductive secret coating method; the card body U can be Applied to IC chip cards, face cards, magnetic stripe cards, VIP cards, identification cards, and the final thickness of the MRT card, the thickness of the final tilt 11 is between 6. 6 to 〇·9 mm, and the above-mentioned production is completed. The card body 11 has the following characteristics: if the operating frequency is between Q and 5. The antenna resistance value is between 0. 0H5G ohms (9), the electric frequency is between, the capacitance value is between G·GLF, and the quality factor is between Features such as 1-1000. , the edge is 'to achieve the above main purpose. Please refer to the seventh figure for further illustration of a plan view of another embodiment of the present invention. In the figure, it is shown that the card structure 3 of the present invention has a card structure, which comprises: - a cardoon, at least a sensing layer 12, and a wafer module 13. Among them, the card rhyme 11 is composed of a plurality of (10) m. Next, at least the sensing layer 12 is printed - the antenna coil (2) is on the sensing layer 12, and the sensing layer 12 is lost in a plurality of layers (1) of the card body n. Finally, it is difficult for a wafer to be attached to the two terminal ends md of the antenna coil m of the sensing layer U, and the back of the wafer mold (4) is the edge material of the wafer module 13 attached to the antenna of the sensing layer. When the two ends (four) of the coil (2) are exhausted, one of the data in the chip module 13 is output through the antenna coil 121, and a wireless sensing transmission mechanism is formed.
、、、、述之再主要目的之第—結構變化。請_參閱第人圖並配; 第七圖’鱗本_再—難實_之第—結難化平面示意圖。於第八圖中 係顯不本發明之具印刷無線射頻識別之卡片結構3中,卡體U之複數個叠層U 200912763 中之任一疊層之一侧面帶更進一步包括一磁帶11U,即為—接觸式卡之結構。 承上所述,請參閱第七圖之晶片模組13與天線線圈121感應時,一無線射 頻識別(RFID ; Radio Frequency Identification)系統之讀取器(圖中未顯示), 提供一穩定之射頻信號源,以達感應之卡體U内之天線線圈丨21之可獲得能量 而被啟動’因而將晶片模組13内之一數碼資料編碼等資訊透過其天線線圈κι 發送出去,令此讀取器接收此等訊號,並對接收之等訊號進行調和解碼後,再 傳送至一系統之後端之主系統進行相關之處裡,以令主系統根處理之資料,邏 輯運算判斷此數碼資料編碼之合法性,並針對不同的設定做出相應之處理及控 制以發出指令信號控制執行機構動作,使得本發明之具印刷無線射頻識別之 卡片結構3 ’具有通訊之收發及運算機制;當此印刷無線射頻識別之卡片結構3 上之晶片模組13搭接於天線線圈121會與讀取器產生一射頻訊號,使得讀卡機 (圖中未顯示)與卡體η上之晶片模組13兩者間可互相通訊傳輸資料,執行所 要之功能。 上述之感應層12之天線線圈121以導電毅料塗佈印刷方式形成於卡體I】 之感應層12上;卡體11可應用於可應用於IC晶片卡、SMART卡、磁條卡、貴 賓卡、識別卡及捷運卡;最後,卡體11之組成厚度介於〇. 6至〇. 9毫米之間, 則上述所製作完成之卡體11具備下述之電氣特性:如工作頻率介於0〜5.8GHz、 天線電阻值介於O.OPUO歐姆(Ω)、電感值介於〇.01〜10μΗ、電容值介於 〇·〇1〜10pF以及品質因素介於卜100〇等特性^ 緣是,為再達上述之最後一主要目的。請更再參閱第九圖,係為本發明最 後一實施例之分解透視圖。圖中,係顯示本發明之具印刷無線射頻識別之卡片 結構4。包含:一卡體11、一感應層I2、一天線線圈121以及一晶片模組13。 200912763 其中’卡體π由複數個疊層lu所構成。上述之感應層12具一正面i2a及一 背面12b’且夾層於卡體u之複數個叠層U1内,並於感應層12貫穿數個貫孔 123。再來’天線線圏121卩印刷一祕形成於卡體n之感應層12的一正面既 及-背面12b上’且天線線圈121之一末猶端點md與感應層12之數個貫孔 123相連通最後,晶片模組13附著於感應層12之正面似上的天線線圈⑵ 之末稍端點121d處。其中’祕經由印刷製程時填滿於感應層12之數個貫孔 123内又數個貫孔123與天線121之末梢端點相連通,將會與晶片模 組13形成-感應天線線圈121之一電子迴路進而將晶片模組13内之一數碼資 料透過天線線圈121輸丨形成—無、_應之錄機制。 承上所述,請參閱第九圖之晶片模組13與天線線圈i2i感應時,一無線射 ^^JCRFID ; Radio Frequency Identification)^^^1(K t ^ }, 提供-穩定之射頻信號源,赠感應之卡體n内之天線線圈i2i之可獲得能量 動因而將曰日片模組13内之一數碼資料編碼等資訊透過其天線線圈⑵ 發送出去’令此讀取器接收此等訊號,並對接收之等訊號進行調和解碼後,再 傳送^系統之後端之主系統進行相關之處裡,以令主系統根處理之資料,邏 _判斷_資料編碼之合法性’並針對不同的蚊做_之處理及控 ^以糾齡錢控職行觸_,娜树私糾難_賴別之 卡片結構4,具有通訊之收發及運算機制;當此印刷無線射頻識別之卡片社構* f組麵於天線線圈121會與讀取器產生一射頻訊號,使得讀卡機 要之力未能顯讀卡體η上之晶片模組13兩者間可互相通訊傳輸資料,執行所 上述之天線線圈121 以導電轉_印刷方式 形成於卡體11之感應層12 200912763 上;晶片模組13亦可附著於感應層之一背磁上的天線線隨之末梢端點 121處(第九圖中未顯示);卡體u可應用於可應用於ic晶片卡、繼卡、磁 條卡、貴賓卡、識別卡錢運卡;驗,卡體11之_厚度介於0. 6至〇. 9毫 米之間,肚述所製作完成之卡體n具舒述之電氣特性:Μ作頻率介於 〇〜5.8GHz、天線電阻值介於G. G1〜15G歐姆⑼、電感值介於·軸、電容 值介於Q. Gl〜lGpF以及品質崎介於卜酬等特性。 以上所述僅為舉例性,而非為限制性者。任何未脫離本發明之精神與範嘴, 而對其進行之等效修改錢更,均應包含於後附之㈣專概圍中。 【圖式簡單說明】 第一圖係顯示本發明較佳實施例之平面示意圖。 第二圖係顯示本發雜佳實施例之第—結構變化平面示意圖。 第三圖係顯示本發明較佳實施例之第二結構變化平面示意圖。 第四圖係顯示本發明另一主要目的之平面示意圖。 第五圖係顯示本發明另一主要目的之第一結構變化平面示意圖。 第六圖係顯示本發明另-主要目的之第二結構變化平面示意圖。 第七圖係顯示本發明再一主要目的之平面示意圖。 第八圖係顯示本發明再一主要目的第一結構變化之平面示意圖。 第九圖係顯示本發明最後一主要目的之分解透視圖。 【主要元件符號說明】 卜2'3、4印刷無線射頻識別之卡片結構 200912763 11卡體 111疊層 1111磁帶 12感應層 12a正面 12b背面 121天線線圈 121a兩晶片接點 121b迴路内接點 121c迴路外接點 121d末梢端點 122框孔 123貫孔 13晶片模組 14跳線線路 141絕緣層 142搭接導電電材 15導電電材 151兩端點The first, the main purpose of the structure, the structural change. Please refer to the figure of the person and match it; the seventh picture of the scales _ re-difficult _ the first - the difficult diagram of the plane. In the card structure 3 of the printed radio frequency identification (not shown) of the present invention, one of the plurality of layers U 200912763 of the card body U further includes a magnetic tape 11U, that is, It is the structure of the contact card. As described above, when referring to the chip module 13 and the antenna coil 121 of the seventh figure, a reader of a radio frequency identification (RFID) system (not shown) provides a stable radio frequency. The signal source is activated by the available energy of the antenna coil 丨21 in the sensing card body U. Thus, information such as digital data encoding in the chip module 13 is transmitted through the antenna coil κι, so that the reading is performed. The device receives the signals, and then reconciles and decodes the received signals, and then transmits them to the main system at the rear end of the system for correlation, so that the data processed by the main system root, logical operation determines the digital data encoding. Legitimate, and corresponding processing and control for different settings to issue command signals to control the action of the actuator, so that the card structure 3' of the printed radio frequency identification of the present invention has a communication transceiver and operation mechanism; The chip module 13 on the radio frequency identification card structure 3 is overlapped with the antenna coil 121 to generate an RF signal with the reader, so that the card reader ( Therebetween, not shown on the chip module) card body η 13 may communicate with each other to transfer data, to perform the function. The antenna coil 121 of the sensing layer 12 is formed on the sensing layer 12 of the card body I by electroless coating; the card body 11 can be applied to IC chip cards, SMART cards, magnetic strip cards, VIPs. Card, identification card and MRT card; finally, the card body 11 has a composition thickness of between 〇. 6 and 〇. 9 mm, and the card body 11 manufactured as described above has the following electrical characteristics: At 0~5.8GHz, the antenna resistance value is between O.OPUO ohms (Ω), the inductance value is between 〇.01~10μΗ, the capacitance value is between 〇·〇1~10pF, and the quality factor is between 〇100〇 and other characteristics^ The reason is to achieve the last major purpose of the above. Referring to the ninth drawing, it is an exploded perspective view of the last embodiment of the present invention. In the figure, a card structure 4 having a printed radio frequency identification of the present invention is shown. The invention comprises: a card body 11, a sensing layer I2, an antenna coil 121 and a wafer module 13. 200912763 where 'the card body π is composed of a plurality of laminations lu. The sensing layer 12 has a front surface i2a and a back surface 12b' and is sandwiched between the plurality of layers U1 of the card body u, and penetrates through the plurality of through holes 123 in the sensing layer 12. Then, the 'antenna wire 圏 121 卩 printing secret is formed on one front surface of the sensing layer 12 of the card body n and the back surface 12b' and one of the antenna coils 121 has a plurality of through holes md and the sensing layer 12 123. Finally, the wafer module 13 is attached to the end point 121d of the antenna coil (2) on the front side of the sensing layer 12. The plurality of through holes 123 which are filled in the plurality of through holes 123 of the sensing layer 12 through the printing process are connected to the distal end of the antenna 121, and form a sensing antenna coil 121 with the wafer module 13. An electronic circuit further transmits a digital data in the chip module 13 through the antenna coil 121 to form a recording mechanism. As described above, please refer to the chip module 13 and the antenna coil i2i in the ninth figure, a wireless radio frequency identification, ^^^1 (K t ^ }, providing a stable RF signal source The energy of the antenna coil i2i in the card body n of the sensor is transmitted, so that information such as digital data encoding in the chip module 13 is sent through the antenna coil (2) to enable the reader to receive the signals. And after the received signals are tuned and decoded, and then transmitted to the main system at the rear end of the system to carry out the relevant information, so that the main system root processing data, logic_judgment_data encoding legality' and for different Mosquito do _ treatment and control ^ to control the age of money control job touch _, Na Shu private correction _ Lai Bie card structure 4, with communication transceiver and computing mechanism; when the printing radio frequency identification card community * The f group surface of the antenna coil 121 generates an RF signal with the reader, so that the power of the card reader 13 cannot be read and the chip module 13 on the card body n can communicate with each other to transmit data, and the above-mentioned The antenna coil 121 is formed by a conductive turn-printing method Formed on the sensing layer 12 of the card body 11 200912763; the wafer module 13 can also be attached to the antenna line on one of the sensing layers, followed by the distal end point 121 (not shown in the ninth figure); the card body u can The application can be applied to an ic chip card, a relay card, a magnetic stripe card, a VIP card, an identification card, and a card. The thickness of the card body 11 is between 0.6 and 〇. 9 mm. The finished card body has the electrical characteristics of Shu Shu: the frequency of the operation is between 〇~5.8GHz, the antenna resistance value is between G. G1~15G ohms (9), the inductance value is between · axis, and the capacitance value is between Q. Gl~ lGpF and the characteristics of the quality of the singularity. The above is only an example, not a limitation. Anything that does not deviate from the spirit and the scope of the invention, and the equivalent modification of the BRIEF DESCRIPTION OF THE DRAWINGS The following is a schematic diagram showing a preferred embodiment of the present invention. The second drawing shows a schematic view of the first embodiment of the present invention. The third figure shows a schematic plan view of a second structural change of a preferred embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 5 is a plan view showing a first structural change of another main object of the present invention. Fig. 6 is a plan view showing a second structural change of another main purpose of the present invention. The figure shows a plan view of a further main object of the present invention. The eighth figure shows a plan view showing the first structural change of the main object of the present invention. The ninth figure shows an exploded perspective view of the last main object of the present invention. Component symbol description] 2 2, 4 printed radio frequency identification card structure 200912763 11 card body 111 laminated 1111 magnetic tape 12 sensing layer 12a front surface 12b back surface 121 antenna coil 121a two wafer contacts 121b circuit inner point 121c circuit external point 121d terminal end 122 frame hole 123 through hole 13 wafer module 14 jumper line 141 insulating layer 142 overlap conductive material 15 conductive material 151 end points