200939097 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種有關指標輸入裝置的技術領域,尤其指一種 能具有電磁筆式及觸控式兩種輸入方式的單一指標輸入裝置。 【先前技術】 近年來觸控感應面板技術不斷提昇,使製造成本降低,因此 Ο 被廣泛應用於各項電子產品上。例如公共場所的資訊導覽系統、 - 銀行自動櫃員機螢幕、薄型化筆記型電腦、平板電腦、個人數位 助理(PDA)、電子字典、手機、MP3播放器、以及衛星導航螢幕(GPS) 等。 就觸控面板的技術目前運用方式主要有兩種,一種為電阻 式,另一種為電容式。電阻式原理主要是靠外物觸碰觸控面板時 〇 的壓力’使在上層導電膜與下層導電膜接觸產生壓降,並因壓力 碰觸後計算觸碰點的位置,因而得到Y軸與Χ軸,為目前最廣泛 使用的方式。優點為結構簡單、元件少、產品良效率高,缺點為 怕刮、透光率低。而電容式觸控面板又分為表面電容式感應與投 射電谷式感應,該表面電容式感應主要原理則是在玻璃表面建立 一均勻電場’每當手指接觸到玻璃’就會與外侧導電層上的電場 產生電容麵合’而吸去微小的電流,再計算電流流失比例而由控 制器定出手指的座標。優點是防水、防刮、透光度高與適用溫度 200939097 範圍大等。缺點是製程步雜多、驅動ic與電路複雜、製造成本 局、使用_以手或其他帶導體讀操作。而投射電容㈤_ C—)輕應,俗稱矩陣電容式或數位電容式,原理是利用感 應網格上的靜電電場的變化來確定接觸點的位置。當手指碰觸到 面板時,手指和網格之間職—電容,控繼·網格電氣參數 的變化量來計算接觸點的座標位置,優點不須重新校對位置,且 透過較厚的覆蓋層仍能感應到接觸點動作。但整體而言,觸控式 面板雖然使用者能以手指觸控方式進行快速游標操控但僅適用 於進行簡易的繪圖或單純的介面操作。 綠使用者需要精確繪圖時,數位板則為—種非常不錯的選 擇。數位板為-種具備電磁感應柄手寫輸人裝置,使用者必須 使用專用的電磁筆式輸入裝置定位游標。當數位板上感應到電磁 筆式輸入裝置訊餅,經由紐板上χ軸天_請及Y轴掃 〇描迴路而被測知,並計算出游標的位置與壓力。 在現今的市場之中,觸控式面板與數位板為兩種個別獨立的產 品’使用者在單-產品中僅能细單—雜人方式,例如以觸控 方式或是電磁筆輸入方式。因此本發明人即思考設計另一種裝 置’該裝置能接受前述兩輸人方式,如此使用者就有多樣及便捷 的使用型態。 200939097 【發明内容】 本發明之主要目的是提供_種具有雙錄人模式的指標輸入 裝置,雙重輸入模式分別為觸控方式及電磁筆輸入方式實現使 用者在單-指撕人㈣缺便雜使科_輸人模式。另外 此指標輸入裝置中能根據使用者使用的輸入方式自動選擇合適的 訊號處理程序’讓使用者不用以手動方式進行切換的動作,在使 用時更為方便容易。 ❹ 本_之:欠要目的錢供—種縣效雜的指織人裝置,該 指標輸入裝置雖具有雙重輸入模式’生產成本卻不會因增加一 倍,本發明之鋪輸人裝置與單純數位板的成本相互比較,幾乎 相差不多。就成本效益上非常具有實用價值,喊品也更具市場 ©本發明之再-目岐提供—種運職泛且實用制的指標輸 入裝置’該指標輸人裝置可搭配軟體與勒體的整合,發揮最佳的 ^用效果。例如在-個假設案例中,當使用者突财些靈感時, ,、馳方式以手^快速、簡便的游標操控而賴出簡易草圖, 复再X電磁筆輸人方式’賴繪製出更精確_職將圖形加 以修飾。或者設計者利用觸控方式或電磁筆輸入方式的個別優 =’在產品中分別界定出獨使·態,提供使用者更適當的操 工輸模式例如運用在電腦之中時,在網頁劉覽搜尋型態中, 200939097 « 是提供觸控式輸入的操作;而在精細的美工♦圖或手寫辨識型態 時,則改為電磁筆式輸入模式。 *為達上述之目的,本發明主要包括有—控制運算模組、一座 標感應模組、—第—類比多工模組、—第_訊號處理模組、一第 二類比多工模組、以及—第二峨處理模組。射,該座標感應 ❹模_具有―觸域應迴路單元及—電磁感應迴路單元。該控制 運算模組具有至少—微處理器。該控制運算模組透過第一類比多 -工触及第—峨處賴域歧電磁錢迴料it進行掃描及 訊號處理’及透過第二類比多工模組及第二訊號處理模組使觸控 感應迴路單iti%行掃描及訊號處理;如此—來使帛者在本發明之 才曰標輸入裝置中就能自由以電磁筆輸入方式或觸控方式,配合系 統本身之軟進行各項指令的操控。200939097 IX. Description of the Invention: [Technical Field] The present invention relates to a technical field related to an index input device, and more particularly to a single index input device capable of having both an electromagnetic pen type and a touch type input mode. [Prior Art] In recent years, the touch sensing panel technology has been continuously improved, and the manufacturing cost has been lowered, so that Ο is widely used in various electronic products. For example, information navigation systems in public places, - bank ATM screens, thin notebooks, tablets, personal digital assistants (PDAs), electronic dictionaries, mobile phones, MP3 players, and satellite navigation screens (GPS). There are two main methods for using touch panel technology, one is resistance type and the other is capacitance type. The principle of resistance is mainly based on the pressure of the 〇 when the foreign object touches the touch panel, so that the pressure difference between the upper conductive film and the lower conductive film is generated, and the position of the touch point is calculated after the pressure is touched, thereby obtaining the Y-axis and The Χ axis is the most widely used method at present. The advantages are simple structure, few components, high product efficiency, and the disadvantages are fear of scratching and low light transmittance. The capacitive touch panel is further divided into surface capacitive sensing and projected electric valley sensing. The main principle of the surface capacitive sensing is to establish a uniform electric field on the glass surface 'when the finger touches the glass' and the outer conductive layer The electric field on the upper surface generates a capacitance surface and absorbs a small current, and then calculates the current loss ratio and the controller determines the coordinates of the finger. The advantages are waterproof, scratch-resistant, high transparency and suitable temperature 200939097 range. Disadvantages are a lot of process steps, driving ic and circuit complexity, manufacturing cost, using _ by hand or other with conductor read operations. The projection capacitance (5) _ C-) is light, commonly known as matrix capacitance or digital capacitance. The principle is to determine the position of the contact point by using the change of the electrostatic electric field on the inductive grid. When the finger touches the panel, the position between the finger and the grid-capacitor, control, and grid electrical parameters is used to calculate the coordinate position of the contact point. The advantage is that the position does not need to be re-calibrated, and the thicker cover layer is transmitted. The touch point action can still be sensed. On the whole, the touch panel can be used for quick cursor control with finger touch, but it is only suitable for simple drawing or simple interface operation. When the green user needs accurate drawing, the tablet is a very good choice. The tablet is a hand-held input device with an electromagnetic sensor handle. The user must use a dedicated electromagnetic pen input device to position the cursor. When the electromagnetic pen type input device is sensed on the tablet, it is detected through the χ axis _ and the Y-axis scan circuit on the board, and the position and pressure of the cursor are calculated. In today's market, the touch panel and the tablet are two separate products. The user can only use the single-product mode, such as touch or electromagnetic pen input. Therefore, the inventors have thought about designing another device' which can accept the above two modes of input, so that the user has a variety and convenient use form. 200939097 SUMMARY OF THE INVENTION The main object of the present invention is to provide an index input device with a dual-record mode, and the dual input mode is a touch mode and an electromagnetic pen input mode, respectively, and the user is in a single-finger tearing (four) lack of miscellaneous Make the section _ input mode. In addition, the indicator input device can automatically select an appropriate signal processing program according to the input mode used by the user, so that the user does not need to manually switch the action, and is more convenient and easy to use. ❹ _ _ —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— The cost of the tablet is similar to each other, almost the same. It is very practical in terms of cost-effectiveness, and the shouting is also more market. © the present invention - the target is provided as a kind of index input device for the general and practical system. The input device can be integrated with the software and the body. , to play the best ^ effect. For example, in a hypothetical case, when the user makes some inspirations, the method uses the hand ^ fast and simple cursor control to rely on the simple sketch, and the X-electromagnetic pen input method is more accurate. _ job to modify the graphics. Or the designer can use the touch mode or the electromagnetic pen input mode to select the unique mode in the product to provide the user with a more appropriate mode of operation, such as when used in a computer. In the search mode, 200939097 « is to provide touch input operation; when it is fine art ♦ map or handwriting recognition mode, it is changed to electromagnetic pen input mode. * For the above purposes, the present invention mainly includes a control computing module, a standard sensing module, a - analogy multiplex module, a _ signal processing module, a second analog multiplex module, And - the second processing module. Shot, the coordinate sensing mode _ has a touch-domain loop unit and an electromagnetic induction loop unit. The control computing module has at least a microprocessor. The control computing module performs scanning and signal processing through the first analogy and the multi-worker and the second analogy module and the second signal processing module. Inductive loop single iti% line scanning and signal processing; so that the latter can freely use the electromagnetic pen input mode or the touch mode in the singular input device of the present invention, and cooperate with the softness of the system itself to perform various commands. Control.
D 為使熟悉該項技藝人士瞭解本發明之目的、特徵及功效,茲藉 由下述具體實施例,並配合所附之圖式,對本發明詳加說明如後。 【實施方式】 如第一圖所示,為本發明具有雙重輸入模式之指標輸入裝置 主要架構的方塊圖,本發明之指標輸入裝置A主要包括有一控制 運算模組1、一座標感應模組2、一第一類比多工模組3、一第一 訊號處理模組4、一第二類比多工模組5、以及一第二訊號處理模 8 200939097 物蝴入输筆·, 而_運异觀〗糊贿比多工模崎描触錢磁筆輸入之 訊被’再由喊處賴__峨處理後由控綱算做i内 之微處理器11進行_的運算再輸出。觀本發料―指桿輸入 裝置A就能接受兩種不同的輸入模式。 以τ就各構作-詳_·:贿標錢歡2⑽且有一 Ο觸控感應迴路單元21以及一電磁感應迴路單元22。該觸控感應迴 路單及電磁感應迴路單元22係財層絲構,賴控感應 迴路單元21與電磁感應迴路單元22的線路能個別分層設置或交 錯分層排列。該觸控感應迴路單元21在本實施例中為一電容式觸 控架構,具體而言為一種投射電容式觸控架構。 該第一類比多工模組3連接於控制運算模組1與座標感應模組 Ο 2之間’該第一類比多工模組3是與電磁感應迴路單元四相配合。 運作模式是該控制運算模組1是透過第一類比多工模組3使電磁 感應迴路單元22相對之迴路進行掃描。該第一訊號處理模組4連 接於控制運算模組1與第一類比多工模組3之間。該第一訊號處 理模組4内具有訊號放大電路、自動增益控制電路、濾波電路··· 等’能將電磁感應迴路單元22之感應訊號經處理後傳送至控制運 算模組卜 200939097 =第-·多工模組5連接於控制運算模組上與座標感顧組 之*該第—類比多卫模組5是細域應迴路單元21相配合。 ==找控制運算模組1是透過第二類比多工模組5使觸控 早7" 21相對之迴路進行掃描,二訊號處理模組6連 ❹ ❹ 組1與第二類比多工模組5之間,用以將觸控感 ▲早凡21之感應訊號經處理後傳送至控制運算模組卜 丨莫組1内具有至少一微處理器11。該控制運算模組 第一、第二類比多工模組3、5外,並會將第一、第二 ::4、6傳回的峨純運算輕,最後處理後之 =1 Γ例如輪出至一系統主機(例如電腦主機),利用系 算模組i體及硬體的整合而發揮最佳的使用效果。該控制運 、、H社麵傳輸介面可為树或鱗的傳輸模式。 整體而言,本發明之指標輸入裝置A在運作時,如果電磁筆式 :=:2?同時!行時’將優先持續處理電磁筆式輸人的 號處理® μ理㈣林電轉職才會進·控式輸入之訊 此同—時間不會接收兩種感應訊號而相互干擾的情 Π:Γ者手拿電磁筆在指標輸入裝置Α進行電= 時,雖手掌_輸入裝置時,仍不會啟動觸控式感應,使電 200939097 磁筆式輸入能正常運作。 以下就本發明運作方式及流程作一說明。如第二圖 發明運作的流程圖。也請合參不π 元進行掃圹動你,甘、® ^電磁感應迴路單 m 、運作模式操作為該控制運算模組1驅動第一 ❹ 描^ 嶋輸漁2之電彻迴路⑽進行掃 ::2:欺是否有~ 算模έ丨又有,則進行步驟205。此步驟運作模式是該控制運 回=Γ㈣—職理做4 4理輸_路單元22 雜、的感應訊號後,由控制運算模組】根據結果進行後續相對的 步驟203,進行電磁感應訊號的資料運算處理。該控制運算模 ,、且1 __磁筆輸人訊驗,仍會透過第-類比多工模组3 使電磁感應鱗私22賴__,如断顧天線右左各 二條天線的雜,娜各天__、計算電磁筆輸人的壓力值、 以及筆的按鍵峨···等。之後該_運算她丨透制部微處理 器11的運算處理及修正賴出所_座標及壓力等相 對資料。 接著進行步驟204 ’該控制運算模組將處理過的訊號資料輸 200939097 出,之後回返至步驟201狀態。 在没有電磁筆輸入時,進行步驟205,觸感應迴路單元22進〜 掃描動作。此運倾式是她親算模組1驅㈣二類比多工^ 組5使座賊應歡2之魅祕迴路私21進雜描動作。 步驟2G6 ’欺是否有觸控式輸人滅。如果有,將進行步驟 207。如果没有,則進行步驟2(n,回返至最初電磁感應的掃描狀 態、。此步驟運作模式是該控制運算模組1在接收第二訊號處理模 組6處理由觸控感應迴路單元21回躺錢訊號後,由控制運算 模組1根據結果而進行後續相對的流程。 -步驟207 ’進行觸控感應訊號的資料處理。該觸控感應迴路單 疋21將獲制感應喊經第二訊號處理模組4處理後傳送至控制 運算模組1 ’該控制運算模組丨再根據天線訊號值帶入公式中取得 正確的座標資料。最後再進行步驟2Q4騎作,該控制運算模組 將處理過的觸控座標訊號資料輸出,之後回返至步驟2〇1狀態。 如此一來,本發明指標輸入裝置雖可接受兩種不同的輸入模式, 但在同時間中僅處理一種輸入模式的訊號處理。 本發明之座標感應模組2可採用許多種方式製成,在本案中僅 提供四種結構以供參考,以茲證明本發明確實可行,但並不因此 限制僅迠使用此四種方式。如第三圖所示,該座標感應模組以是 由印刷電路板所構成。在本實施例中在一電路板23上下面分別 12 200939097 » 各形成著-贼祕層24、25 ’觀麟路層24、&代表著觸^ 感應迴路及電磁感應迴路單元交錯排列眺路。電1 ^ 設有貫感數個,該貫孔26而貫穿電路板23及各訊號線層,内 壁具有導線層,用以聯結各層的線路。 如第四圖_ ’為本發明之座縣應歓之第二種實施例的放 大·示意圖。在本實關巾該座標感應模組沈是由—軟性的薄 〇膜電路板(例如麵麵)所形成。其結構是在中間具有一軟性電 路板紐71,該軟性電職紐71上、下面分卿财數層訊號 ,線路層72及訊號線路層73,但位於上層的訊號線路層72中間及 頂面是以數層線路隔離層Μ隔離倾。該訊麟路層?2是作為 觸控感應迴料元。驗於雌電路· 71下層的峨線路層73 中間與底Φ也;scix數層線路隔離層74隔離保該訊號線路層73 ❾是作為電_應單元。另外設有貫孔75 _,該貫孔75貫 穿各各峨線路層朗壁具有導線層,各層的線路。 如第五、六圖所示,為本發明座標感應模組之第三、四種實施 例的平面® ’在此^種實施射,該座賊應歡%與該座標感 應模組2D的差異為線路佈局圖形的不同而已,線路的形成方式及 製程皆相同。應模組2C、2D主要是將線路形成於基材8 表面處,該基材8可為電路板、玻璃板…等。該線路是由數層線 13 200939097 路交錯排列,並同時形成觸控感應迴路單元與電磁感應迴路單 兀。因此本發明之座標感應模組2並非僅限單一種架構。 綜合以上所述,本發曰月之指雜入裝置是在單一的装置上,能 提供使用者_電磁筆式輸人_控式輸人等兩種不同的輸入^ 式。當採用電磁筆式輸入時,可精準控制游標,並具有壓力感應1 可進行精確的專業圖模式。如果使用觸控式輸入,則能以手指或 〇«易的筆作游標的控制’以進行簡易的繪圖或簡單的介面操作模 式。因此本發具實贿似觸性,符合之中請要件。、 惟,以上所述者,僅為本發明之列舉實施例而已,當不能以 此限定本發明實施之範圍。即大凡依本發明申請專利範圍所作之 均等變化與修飾,皆應仍屬本發明專利涵蓋之範圍内。 〇 【圖式簡單說明】 第一圖為本發明主要架構之方塊圖; 第二圖為本發明之流程圖; 第二圖為本發明座標感應模組之第一種實施例的剖面圖; 第四圖為本發明座標感應模組之第二種實施例的放大剖面圖。 第五圖為本發明座標感應模組之第三種實施例的平面圖。 第✓、圖為本發明座標感應模組之第四種實施例的平面圖。 200939097 【主要元件符號說明】 1控制運算模組 11微處理器 2座標感應模組 2A、2B、2C、2D座標感應模組 21觸控感應迴路單元 22電磁感應迴路单元The present invention will be described in detail by the following detailed description of the embodiments of the invention and the accompanying drawings. [Embodiment] As shown in the first figure, a block diagram of a main structure of an index input device having a dual input mode according to the present invention, the index input device A of the present invention mainly includes a control computing module 1 and a standard sensing module 2 a first analog multiplex module 3, a first signal processing module 4, a second analog multiplex module 5, and a second signal processing module 8 200939097 The view of the bribe is more than the input of the multiplexed model of the magnetic pen input. Viewing the material - the finger input device A can accept two different input modes. Each of the τ is constructed as follows - detail _: bribe money 2 (10) and has a touch sensing loop unit 21 and an electromagnetic induction loop unit 22. The touch sensing circuit unit and the electromagnetic induction circuit unit 22 are arranged in a financial layer, and the lines of the sensing circuit unit 21 and the electromagnetic induction circuit unit 22 can be individually layered or arranged in an interleaved manner. In this embodiment, the touch sensing loop unit 21 is a capacitive touch control architecture, specifically a projected capacitive touch architecture. The first analog multiplex module 3 is connected between the control computing module 1 and the coordinate sensing module Ο 2. The first analog multiplex module 3 is coupled to the electromagnetic induction circuit unit. In the operation mode, the control computing module 1 scans the circuit of the electromagnetic induction circuit unit 22 through the first analog multiplex module 3. The first signal processing module 4 is connected between the control computing module 1 and the first analog multiplexing module 3. The first signal processing module 4 has a signal amplifying circuit, an automatic gain control circuit, a filtering circuit, etc., and can transmit the sensing signal of the electromagnetic induction circuit unit 22 to the control computing module. 200939097=第- The multiplex module 5 is connected to the control computing module and the coordinate sensing group. The first analogy multi-module module 5 is matched with the fine-domain loop unit 21. ==The control computing module 1 is used to scan the circuit of the touch 7" 21 relative to the multiplex module 5, and the second signal processing module 6 is connected to the group 1 and the second analog multiplex module. Between the five, the sensing signal of the touch sensor ▲ is transmitted to the control computing module, and the at least one microprocessor 11 is disposed. The first and second analog multiplex modules 3 and 5 of the control computing module, and the 峨 pure operation returned by the first and second:: 4, 6 is light, and finally processed = 1 Γ for example Out to a system host (such as a computer host), using the integration of the system module and hardware to achieve the best use. The control transport, and the H-plane transmission interface can be a tree or scale transmission mode. In general, when the indicator input device A of the present invention is in operation, if the electromagnetic pen type:=:2? At the same time, the line will be prioritized to continuously process the electromagnetic pen type input number processing. Will enter and control the input of this same - the time will not receive two kinds of sensing signals and interfere with each other: the latter hand holding the electromagnetic pen in the indicator input device Α power =, although the palm _ input device, still The touch sensing will not be activated, so that the 200939097 magnetic pen input can work normally. The following describes the operation mode and process of the present invention. A flow chart of the operation of the invention as shown in the second figure. Please also join the 不 元 yuan to sweep you, Gan, ® ^ electromagnetic induction circuit single m, operation mode operation for the control computing module 1 to drive the first ^ 嶋 嶋 嶋 渔 2 2 之 ( ( ( ( ( ::2: If there is any bullying, then go to step 205. The operation mode of this step is that the control is sent back = Γ (4) - the occupation is done 4 4 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Data operation processing. The control operation mode, and 1 __ magnetic pen input test, will still make the electromagnetic induction scales __ through the first analogy multiplex module 3, such as the antennas of the right and left antennas of the antenna, Na Each day __, calculate the pressure value of the electromagnetic pen input, and the button 峨··· of the pen. Then, the _ operation 丨 passes through the arithmetic processing of the micro-processor 11 and corrects the relative data such as coordinates and pressure. Then, in step 204, the control computing module outputs the processed signal data to 200939097, and then returns to the state of step 201. When there is no electromagnetic pen input, step 205 is performed, and the touch sensing circuit unit 22 advances to the scanning operation. This movement is her parental module 1 drive (four) second class than multi-work ^ group 5 to make the thief should Huan 2 the charm of the loop private 21 into the miscellaneous action. Step 2G6 'Do you have a touch-type loser? If so, step 207 will be performed. If not, proceed to step 2 (n, return to the original electromagnetic induction scanning state. The operation mode of the step is that the control computing module 1 is responsive to the second signal processing module 6 to be lie back by the touch sensing circuit unit 21 After the money signal, the control computing module 1 performs the subsequent relative process according to the result. - Step 207 'The data processing of the touch sensing signal is performed. The touch sensing circuit unit 21 will be processed by the second signal processing. The module 4 is processed and sent to the control computing module 1 'The control computing module 带 then enters the formula according to the antenna signal value to obtain the correct coordinate data. Finally, the step 2Q4 is performed, and the control computing module will process The touch coordinate signal data is output, and then returns to the step 2〇1 state. Thus, the index input device of the present invention can accept two different input modes, but only processes one input mode signal processing at the same time. The coordinate sensing module 2 of the present invention can be made in a variety of ways. In the present case, only four structures are provided for reference, so as to prove that the present invention is feasible, but Therefore, the four types of methods are not limited. As shown in the third figure, the coordinate sensing module is composed of a printed circuit board. In this embodiment, a circuit board 23 is respectively formed on the lower side of the board 12 200939097 » - thief secret layer 24, 25 'Wanlin Road layer 24, & represents the touch circuit and the electromagnetic induction circuit unit staggered the circuit. The electric 1 ^ is provided with a plurality of permeations, the through hole 26 and the circuit The plate 23 and each signal line layer have a wire layer on the inner wall for connecting the lines of the layers. For example, the fourth figure _ 'is an enlarged and schematic view of the second embodiment of the county of the present invention. The coordinate sensing module sink is formed by a soft thin film circuit board (for example, a surface). The structure has a flexible circuit board 71 in the middle, and the soft electric power button 71 has a clear number of money. The layer signal, the circuit layer 72 and the signal line layer 73, but in the middle of the signal layer 72 of the upper layer and the top surface are separated by a plurality of layer isolation layers. The Xunlin layer 2 is used as a touch sensing return element. In the female circuit · 71 lower layer of the 峨 circuit layer 73 intermediate and bottom Φ The scix layer isolation layer 74 is isolated to protect the signal line layer 73 as an electric_accommodation unit. Further, a through hole 75 _ is provided, and the through hole 75 has a wire layer and a line of each layer penetrating through each of the circuit layers. As shown in the fifth and sixth figures, the plane® of the third and fourth embodiments of the coordinate sensor module of the present invention is implemented in this type, and the thief should be acquainted with the coordinate sensor module 2D. The difference is the difference in the layout pattern of the circuit, and the formation method and the process of the circuit are the same. The modules 2C and 2D are mainly formed on the surface of the substrate 8, and the substrate 8 can be a circuit board, a glass plate, or the like. The line is staggered by a plurality of layers 13 200939097 roads, and simultaneously forms a touch sensing loop unit and an electromagnetic induction loop unit. Therefore, the coordinate sensing module 2 of the present invention is not limited to a single architecture. In summary, the hybrid device of the present invention is provided on a single device, and can provide two different input modes, such as a user-electromagnetic pen input type and a control type input. When using the electromagnetic pen input, the cursor can be precisely controlled, and the pressure sensor 1 can be used to perform accurate professional pattern mode. If you use touch-sensitive input, you can use your finger or 〇«easy pen cursor control to make simple drawing or simple interface operation mode. Therefore, this issue has a bribe-like touch, which is in line with the requirements. However, the above description is only for the enumerated embodiments of the present invention, and the scope of the present invention is not limited thereto. That is, the equivalent changes and modifications made by the invention in accordance with the scope of the invention are still within the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a block diagram of the main structure of the present invention; the second figure is a flow chart of the present invention; the second figure is a sectional view of the first embodiment of the coordinate sensor module of the present invention; The four figures are enlarged cross-sectional views of a second embodiment of the coordinate sensing module of the present invention. Figure 5 is a plan view showing a third embodiment of the coordinate sensing module of the present invention. The figure is a plan view of a fourth embodiment of the coordinate sensor module of the present invention. 200939097 [Main component symbol description] 1 control computing module 11 microprocessor 2 coordinate sensing module 2A, 2B, 2C, 2D coordinate sensing module 21 touch sensing loop unit 22 electromagnetic induction loop unit
23電路板 24訊號線路層 25訊號線路層 26貫孔 3第一類比多工模組 4 第一訊號處理模組 5第二類比多工模組 6第二訊號處理模組 71軟性電路板基材 72訊號線路層 73訊號線路層 74線路隔離層 75貫孔 8 基材 1523 circuit board 24 signal line layer 25 signal line layer 26 through hole 3 first analog multiplex module 4 first signal processing module 5 second analog multiplex module 6 second signal processing module 71 flexible circuit board substrate 72 signal line layer 73 signal line layer 74 line isolation layer 75 through hole 8 substrate 15