M297502 八、新型說明: 【新型所屬之技術領域】 本創作-種具印刷天線之感應卡片㈠,係於卡片内植入一顆e 片及具收發功能之印刷天線線圈,可應用於—般刷卡終端機或接= 1C讀卡機,也可應用在非接觸式讀卡機的遠端感應。 【先前技術】 目前我們生对常接_許多卡片,有侧卡、電話卡、攸遊十 等’現在流行的卡片多為接觸式或非接觸式,接觸式卡片為磁條感應 光學式感應、職鱗_方法,非綱式卡W在卡片Inlay層佈局 印刷天線線圈及採用晶片,達到資料無線傳輸功能及發揮所要機制; 接觸式卡片及非接觸式卡片的運用,已經是世界的趨勢和潮流,但為 了曰力使用者的便概在獨的雜觸卡上加_時具備接觸及非接 觸晶片功能之晶片或磁條,即可擴大卡片的編及_的便利性,適 諸:棚卡、社區居民卡、門禁卡、公共運輸卡、金融卡、信用卡 等’ Inlay之天線細是影響料能否發揮非綱正確舰之首要重 ‘,、、占此认卡片已在國外普遍流行使用,也有滿多廠家製造、供應本款 卡片,但其天線線圈之製程不外如侧或埋人漆包線等方式製作, 敍刻易危害生活環境,造成環保_,埋人式天線線路銑孔作業時天 線易被銑刀拉起,造成品質不良;本公司在同仁共同努力的結晶下, 著手於材料、雖、濟辩技姻題,暖出吻,m錄作之感應 線圈,也IU此在卡片領域創造重大技術突破、作業簡便及降低生產成 M297502 本寻優點,任-何解非接觸卡都可以加植各類具雙重魏晶片和高低 人兹仏之卡片,使仔在―張卡的運用不只是單—的接觸或非接觸卡複 σ卡’利用雙介面達到—卡多崎,使用途更廣泛及便利性,足為一 般消f者大眾所歡迎,實是-不可多得的好產品。 【新型内容】 鲁 本創作一種具印刷天線之感應卡片㈠,係於卡片内植入一顆晶 片及具似h力能之印刷天線線圈,故可個於—般刷卡終端機或接觸 =、C⑼卡;f#’同日德可制在雜觸式讀卡機的遠端及近距離感應, 當感應卡片接觸不同型態之讀卡機時,感應卡片内在之晶片模組會自 τ判斷區刀S揮接觸或非接觸功能,使兩者間可互相通訊傳輸資料, 執行所要的功能。 本創作-種具印刷天線之感應卡片㈠,組合後形成感應卡片具 _ ’其工作頻率在G〜5· 8GHz之間、天線電阻值介於〇· (^ ΒΟΩ、私感值介於⑽〜⑺邮、電容值介於n顺及品質因 素⑺值)”於1〜1000等特性,具備更精癌讀取數據,以應用於非接 胃貝取使兩者間可互相通訊傳輸資料,執行所要的功能。 本創作優點取代傳統以侧或埋人方式做成之天線絲、印刷為 =心製程可提升時效性、作設備可㈣—般卡片之印織備,減少 、本支出具備了多功能的使用目的,也提供了使用者的方便性。 6 M297502 【實施方式】 •r先請麥閱第―圖、第二圖、第三圖及第四圖所示,本創作一種 具印刷天線之感應卡片(一),包括: 本創作感應卡片1係由一上覆膜2、一上中材3、一圖紋層4、一塑 膠層5、-墊厚片層6、框孔7、_天線線圈層8、印刷天線線圈9、一框 口ίο、塑膠層1卜-下中材12、—圖紋層13、—下覆膜14及一晶片15 上下宜a所構成,其中该一上覆膜2、一上中材3、一塑膠層5、一墊 厚片層6、一天線線圈層8、一塑膠層11 '一下中材12、一下覆膜μ, 係採用塑膠基材製造,包括·· 一上覆膜2係佈設於上中材3上方。 一上中材3係設置於上覆膜2與塑膠層5之間,該上中材3任一表面 或二面塗印有一圖紋層4,其上並塗佈花色。 -塑膠層5係設置於上中材3與墊厚片層6之間,係為提高強度而 設,當然也可不設。 -墊厚片層6係設置於塑膠層5與印刷天線線圈9之間,該墊厚片層 6於-適位設-框孔7 ’其位置對應晶片15之相對位置,且其深度相當 於位於天線線圈層晶片15本體之高度。 -天線線圈係設置於塾厚片層6與歸層丨丨之間,該天線線圈 層8上設置印刷天線線圈9’且印刷天線線圈9係以印刷天線線路由内向 外框設複數線圈且間隔圈繞呈接收天線,另印刷天線線圈9頭尾兩端設 兩對應晶片接點16、17,並於對應晶片接點16、17之間設—框口忉; 另天線線圈層8設-晶片15,恰由晶片15底面之凸塊嵌人框口 1〇中,且 M297502 由晶以5本體所具導體特性與印刷天線顧9之對應晶片接㈣、η 接觸(爹閱第—圖)呈電性連結,另外有—對應晶片接點Π延伸-内接 點18與:刷天線線圈9之外細9連結作為一跳線機制,其跳線連結的 方式有貫孔式連結或設置—絕緣區塊跳線方式連結,貫孔式的連結係 於内接點18及外接測兩點皆設有貫⑽、21穿透天線線哪,並在 内接點18與外接點19間經過兩貫孔2〇、21到背面材料之兩貫孔2〇、21 門距間(參閱第—圖),執行導電漿料區塊印刷,可藉助兩貫孔 及背面材料之導賴樞塊印刷,使正、反兩輯路相通,形成一感 應之接收線圈功能,用以將晶片15内之數碼資料透過印刷天線線圈9 傳送出’形成無線感應之收發機制;另外,内接點18與印刷天線線圈9 之外接點19連結若為設置一絕緣區塊跳線方式連結,係於内、外接點 18、19間佈設一絕緣膠層22將印刷天線線圈9部份覆蓋作絕緣處理後 (參閱第四圖),於絕緣膠層22上執行導電漿料區塊印刷,使内、外接 點18、19線路相通,形成一感應之接收線圈功能,用以將晶片15内之 數碼資料透過印刷天線線圈9傳送出,形成無線感應之收發機制。 一塑膠層11係疊設於天線線圈層8與下中材層12間,係為提高強度 而設,當然也可不設。 一下中材12係疊設於塑膠層11與下覆膜14之間,該下中材12任一 面或二面塗印有一圖紋層13,其上並塗佈花色。 一下覆膜14係疊設於下中材12下方,該下覆膜14設有磁帶23(依需 求可有可無)貼覆,以該下覆膜14形成保護膜層。 上述組合後形成感應卡片1具備下述電性特性(參閱第二圖),其工 M297502 作=0〜鳴之間、天線電阻值介糊〜咖、電感值介於 0, (Π〜_、電容值伽.G1〜擊及品質因素_介於1〜麵等 特性,當感應卡片1接觸不同型態之讀卡機時,感應卡片i内在之曰片 關組會自行判斷區分,發揮接觸或非接觸功能;如讀取介面為非曰接 式之讀卡機時,當感應卡片丨接近讀卡機時,可藉由—轉 頻信號源’以達感應卡片lit入該讀取器發射天線工作區域產生感應電 源時,該感應卡片i内之晶片模組可獲得能量而被啟動,因而將自身編 碼等資訊透過其内建天線發送出去,令該讀取器接收此等信號,並對 接收之信號進行解調和解碼後,再傳送至該系統之後端主系統進行相 關之處理,以令主系統根據處理之資料,邏輯運算判斷該編碼之合法 f生’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,俾使本創作之印刷天線之感應卡片J,具有通訊之收發 及運算機制;如讀取介面為接觸式之讀卡機時,此時感應卡片i上封裝 晶片15模組或(磁帶23) ’並提供外接的金屬接點,使讀寫裝置可對它 提供電源和訊號’使兩者間可互相通訊傳輸龍,執行所要的功能。 知上所述,本創作在突破先前之技術結構下,確實已翻所欲增 進之功效’且也非熟悉該項技藝者則於思及;再者,本創作申請前 未冒公開,其所具之進步性、實用性,顯已符合新型專利之申請要件, 爰依法提出新型申請。 惟以上所述僅為本創作之一較佳可行實施例,非因此即拘限本創 作之專利範圍,故舉凡職本創作制#及圖动容所為之等效結構 M297502 ,直接或間接運用於其它相關技術領域者,均同理皆理應包含於本創 作之精神範®壽的範圍内,合予陳明。 【圖式簡單說明】 I 第一圖本創作感應卡片分解圖。 ~ 第二圖本創作感應卡片組合圖。 第三圖本創作線圈接點貫孔電性連結圖。 • 第四圖本創作跳線製程線圈接點佈設絕緣膠層圖。 【主要元件符號說明】 感應卡片1 上覆膜2 上中材3 圖紋層4 塑膠層5 墊厚片層6 框孔7 天線線圈層8 印刷天線線圈9 框口 10 塑膠層11 下中材12 圖紋層13 下覆膜14 晶片15 對應晶片接點16、17 内接點18 外接點19 貫孔20、21 絕緣膠層22 磁帶23M297502 VIII. New description: [New technical field] This creation-induction card with printed antenna (1) is embedded in the card with an e-chip and a printed antenna coil with transceiving function, which can be applied to the card. The terminal or the 1C reader can also be used for remote sensing of contactless readers. [Prior Art] At present, we have a lot of cards. There are many cards, such as side cards, phone cards, and travels. The cards that are popular nowadays are mostly contact or non-contact. Contact cards are magnetic stripe sensing optical sensors. Scale _ method, non-class card W in the card Inlay layer layout printing antenna coil and the use of wafers, to achieve data wireless transmission function and play the required mechanism; contact card and contactless card use, has been the world trend and trend, However, in order to add a wavy or non-contact wafer function to the chip or magnetic strip on the unique miscellaneous card, the user can expand the card's convenience and convenience. Community resident cards, access cards, public transport cards, financial cards, credit cards, etc. 'Inlay's antenna is the most important factor influencing whether the material can be used as a non-class correct ship, and the card has been widely used abroad. There are also many manufacturers that manufacture and supply this card, but the process of the antenna coil is not just like the side or buried in the enameled wire. It is easy to harm the living environment and cause environmental protection. When the wire line is being drilled, the antenna is easily pulled up by the milling cutter, resulting in poor quality. Under the crystallization of the joint efforts of the company, the company started the induction coil of the material, though, the tactical, the warm kiss, the m recorded. IU, this has created major technological breakthroughs in the field of cards, easy to operate and reduced the advantages of production into M297502. Any-de-contact card can be added to all kinds of cards with double Wei wafers and high and low people. In the use of "card" is not only a single contact or non-contact card complex σ card 'utilizes double interface to reach - Kaduzaki, the use of a wider range and convenience, enough for the general public to welcome the public, it is - A good product that is rare. [New content] Ruben created a sensor card with a printed antenna (1), which is embedded in a card and has a printed antenna coil with a force like h, so it can be used in a card-like terminal or contact =, C (9) Card; f#' can be made at the far end and close proximity of the miscellaneous card reader. When the inductive card contacts different types of card readers, the intrinsic chip module of the card will judge the zone knife from the τ. The touch or non-contact function enables the two to communicate with each other to transmit data and perform desired functions. This creation - the induction card (1) of the printed antenna, combined to form the induction card _ 'the working frequency is between G ~ 5 · 8GHz, the antenna resistance value is between 〇 · (^ ΒΟ Ω, the private value is between (10) ~ (7) The value of mail and capacitance is between n and quality factor (7)). It has more features such as 1~1000, and it has more refined cancer reading data, so that it can be used to communicate with each other. The function of this creation replaces the traditional antenna wire made by side or buried method, the printing is = the heart process can improve the timeliness, the equipment can be (4) the card printing and weaving, reduce, the expenditure has a multi-function The purpose of use also provides user convenience. 6 M297502 [Embodiment] • r first please see the first, second, third and fourth pictures of the wheat, this creation has a printed antenna Induction card (1), comprising: the creation sensor card 1 is composed of an upper film 2, an upper material 3, a pattern layer 4, a plastic layer 5, a thick layer 6, a frame hole 7, _ Antenna coil layer 8, printed antenna coil 9, a frame ίο, plastic layer 1 - lower middle 12, the pattern layer 13, the lower film 14 and a wafer 15 are formed up and down, wherein the upper film 2, the upper middle material 3, the plastic layer 5, a thick layer 6, a day The wire coil layer 8 and the plastic layer 11 'the lower material 12 and the lower film μ are made of a plastic substrate, and include an upper film 2 which is arranged above the upper middle material 3. Between the upper film 2 and the plastic layer 5, the upper surface of the upper material 3 is coated with a pattern layer 4 on which the color is applied. - The plastic layer 5 is disposed on the upper material 3 Between the thick layer 6 and the thick layer 6, it is not necessary to increase the strength. - The thick layer 6 is disposed between the plastic layer 5 and the printed antenna coil 9, and the thick layer 6 is suitable for The position-frame hole 7' corresponds to the relative position of the wafer 15, and its depth corresponds to the height of the body of the antenna coil layer chip 15. - The antenna coil is disposed between the thick layer 6 and the layered layer The antenna coil layer 8 is provided with a printed antenna coil 9', and the printed antenna coil 9 is provided with a plurality of coils from the inside to the outside with a printed antenna line and spaced around the receiving antenna. Another printed antenna coil 9 is provided with two corresponding wafer contacts 16 and 17 at both ends, and a frame port is provided between the corresponding wafer contacts 16 and 17; and the antenna coil layer 8 is provided with a wafer 15 just by the wafer. 15 The bump of the bottom surface is embedded in the frame, and the M297502 is electrically connected to the corresponding wafer connection (4) and η contact (see Figure 1) of the printed antenna. There is - corresponding wafer contact Π extension - internal contact 18 and: brush antenna coil 9 outside the thin 9 connection as a jumper mechanism, the jumper connection method has a through-hole connection or set - insulation block jumper The connection and the through-hole connection are provided between the inner contact point 18 and the external measurement point. (10), 21 penetrate the antenna line, and the inner contact point 18 and the outer contact point 19 pass through the two through holes 2〇, 21 To the two through holes of the back material, 2〇, 21 gate distance (refer to the first figure), the conductive paste block printing is performed, and the two through holes and the back material can be printed by the hinge block to make the positive and negative series The circuit is connected to form an inductive receiving coil function for transmitting digital data in the chip 15 through the printed antenna coil 9 In addition, the internal contact 18 is connected to the external contact 19 of the printed antenna coil 9. If an insulated block jumper is connected, an insulation is placed between the inner and outer contacts 18 and 19. After the rubber layer 22 partially covers the printed antenna coil 9 for insulation treatment (refer to the fourth figure), the conductive paste block printing is performed on the insulating adhesive layer 22, so that the inner and outer contacts 18 and 19 are connected to each other to form an induction. The receiving coil function is used to transmit the digital data in the chip 15 through the printed antenna coil 9 to form a wireless sensing transceiver mechanism. A plastic layer 11 is stacked between the antenna coil layer 8 and the lower intermediate layer 12, and is provided for improving strength. Of course, it may not be provided. The middle material 12 is superposed between the plastic layer 11 and the lower film 14, and a patterned layer 13 is coated on either or both sides of the lower material 12, and the color is applied thereon. The lower film 14 is laminated under the lower intermediate material 12, and the lower film 14 is provided with a magnetic tape 23 (optional or not), and the protective film layer is formed by the lower film 14. After the above combination, the inductive card 1 is formed to have the following electrical characteristics (refer to the second figure), and the M297502 is made between 0 and 鸣, the antenna resistance value is mediated, and the inductance value is between 0, (Π~_, Capacitance value gamma. G1 ~ hit and quality factor _ between 1 ~ surface and other characteristics, when the sensing card 1 contacts different types of card readers, the inner card group of the sensing card i will judge the difference, play the contact or Non-contact function; for example, when the reading interface is a non-splicing type card reader, when the sensing card is close to the card reader, the transponder signal source can be used to integrate the inductive card into the reader transmitting antenna. When the working area generates the inductive power supply, the chip module in the sensing card i can be activated and activated, so that information such as its own code is transmitted through its built-in antenna, so that the reader receives the signals and receives the signals. After the signal is demodulated and decoded, it is transmitted to the system and then the main system performs related processing, so that the main system can judge the legality of the code according to the processed data, and make corresponding settings for different settings. Processing and System, the command signal is used to control the action of the actuator, so that the sensing card J of the printed antenna of the present invention has a communication transmission and processing mechanism; for example, when the reading interface is a contact type card reader, the card i is sensed at this time. Package the chip 15 module or (tape 23) 'and provide an external metal contact so that the read/write device can provide power and signal to it' so that the two can communicate with each other to perform the desired function. Under the breakthrough of the previous technical structure, this creation has indeed turned its utmost to improve the effect's and is not familiar with the artist's thinking; in addition, this creation has not been disclosed before the application, its progressive The practicability has been met with the requirements for the application of the new patent, and the new application has been filed according to law. However, the above description is only one of the preferred and feasible examples of this creation, and therefore the scope of the patent is not limited. M297502, which is the equivalent structure of the creation system# and the image movement, is directly or indirectly applied to other related technical fields, and all of them should be included in the scope of the spirit of this creation. [Simple description of the diagram] I The first picture of the creative sensor card decomposition diagram. ~ The second picture of the creation of the sensor card combination diagram. The third picture of the creation of the coil contact hole electrical connection diagram. The jumper process coil contacts are arranged with an insulating layer. [Main component symbol description] Induction card 1 Upper film 2 Upper middle material 3 Pattern layer 4 Plastic layer 5 Pad thick layer 6 Frame hole 7 Antenna coil layer 8 Printed antenna Coil 9 Frame 10 Plastic layer 11 Lower material 12 Pattern layer 13 Lower film 14 Wafer 15 Corresponding wafer contact 16, 17 Internal contact 18 External contact 19 Through hole 20, 21 Insulating adhesive layer 22 Tape 23