TWM333607U - Electronic device - Google Patents

Abstract

An electronic device that has a sensing function with hinderless touching is provided. The electronic device includes housing, a touch display and a processor. The housing has an opening, and the touch display is disposed inside the opening for receiving an operation of an input tool. The touch display has a sensing surface which allows the input tool to slide smoothly over the sensing surface and the housing. The processor is coupled to the touch display, and the user interface displayed by the touch display is determined by the processor. As a result, the convenience of operating the electronic device is increased.

Description

M333607 96-11-29 八、新型說明： 【新型所屬之技術領域】 、本創作是有關於一種電子裝置，且特別是有服於能夠 辨識輸入工具種類的電子裝置。 【先前技術】 昨在現代人繁忙緊湊的生活當中，凡事講求便利與效率 慑然已經成為-種十分普遍的生活習慣。以手機或個人數 • 位助理等手持裝置為例，除了必須同時兼具功能強大及體 型輕巧等特點之外，使用者多半還會希望能在極短的時間 内開啟並執行所需要的功能。對於使用者較常使用的功能 (例如編寫簡訊或查詢通話記錄）來說則更是如此。使用 ，在操作手持裝置時若能快速地開啟某些常用功能，勢必 能提高手持裝置在使用上的便利性。 為了符合上述需求，手持裝置的製造廠商在設計之初 均、、、/7岛在手執裝置的鍵盤或外殼上設置對應特定常用功能 =熱鍵。據此，當使用者按下熱鍵時便能迅速開啟對應的 常用功能，進而縮短搜尋及開啟功能所需要的時間。好比 _ ，，某些手機製造廠商會在手機侧邊設置一個開啟照相功 能的按鍵，當使用者按下此按鍵時，便能夠立即啟動手機 的照相功能。 然而，在手持裝置之體積日愈輕巧的趨勢之下，製造 薇商能用以設置熱鍵的空間十分有限。除此之外，使用者 對手持裝置外型的要求更不容忽視，為了確保手持裝置的 外型付合簡潔美觀等要求，製造廠商在設計時更必須控制 5 M333607 96-11-29 ,、、、鍵的數目，故僅能透過為數不多的熱鍵來達到快速 常用功能的需求。 正因如此，在手持裝置中僅有極少部分的功能具有對 應的熱鍵可供使用者快速開啟。但當使用者欲執行沒有對 應之熱鍵的功能時’則必須透過操作選單的方式來進行開 啟動作。由於手持褒置的選單多半為樹狀結構，因此使用 點選進入多個子選單後，方能找到需要的功 崎項。對於某些較常使用的功能來說，若每次都必須透 便勢必會耗f許多操作時間’據此 【新型内容】 電子，供一種具有平滑觸控感應平面之 增力二:;生有麵礙觸控感應平面之電子裝置，以 卿無障礙觸控感應之電子裝置，其包括 開口。觸控式顯示器設置_^%;中，殼體具有一 具的操作。此外，觸控式^哭；;用以接收—輸入卫 ί入;具能不受阻擔的滑過“感應平 :顯’其中處理器決定此觸控 顯示可觸控式顯示器所 類，並«工具種類來轉換工具的種 M333607 96-Π-29 的邊 在本創作一實施例中，觸控 緣之殼體之間的高度差在-預定範圍^广立於開 公厘 (麵)在本創作-實施例中，預定範圍可以是小於 的邊 緣之中’觸控感應平面與位於開 在本創作-實施例中，觸控式顯示 與一觸控感應裝置，其令顯 匕括顯示器 裝置配置於顯示器上方，並位：開口二忒體内。觸趣感應 具有此觸控感應平面。且觸控感應裝置 器。 十面―減觸控感縣置_至處理 在本創作一實施例中，觸控感應 _、-第-導電膜、至少-間隔：:一第=明 護層與。保護層具有—遮光物與觸控感應==電膜與保 在本創作-實施例中，觸控感應^更包括 與-軟性電路板，其巾電極 夕電極 接至第一導電膜或 二遗月基板，亚分別電性連 板之-下表面上，並;性連接至==板配置於透明基 置於電極下方之軟 裝置更包括一墊片’其配 在本創作—t 板與咸體之間。 地端子’其中金自有—金屬片與多個接 ::;於金屬片與顯示器之間，並電=屬:= 7 96-11-29 M333607 在本創作一實施例中，觸控感應裝置包括一電阻式感 測器。 在本創作一實施例中，觸控感應裝置包括一電容式感 測器。 在本創作一實施例中，觸控感應裝置包括一溫度感測 器。M333607 96-11-29 VIII. New description: [New technical field] This creation relates to an electronic device, and in particular to an electronic device capable of recognizing the type of input tool. [Prior Art] Yesterday, in the busy and compact life of modern people, everything is about convenience and efficiency. It has become a very common habit. In the case of handheld devices such as mobile phones or personal assistants, in addition to being both powerful and lightweight, users will most likely want to turn on and perform the required functions in a very short time. This is especially true for features that users use more often, such as writing a newsletter or querying a call log. Use, if you can quickly turn on some common functions when operating the handheld device, it will certainly improve the convenience of the handheld device. In order to meet the above requirements, the manufacturer of the handheld device is designed to have a corresponding common function = hotkey on the keyboard or casing of the hand-held device at the beginning of design. According to this, when the user presses the hot key, the corresponding common function can be quickly turned on, thereby shortening the time required for searching and opening the function. For example, some mobile phone manufacturers will set a button to turn on the camera function on the side of the phone. When the user presses the button, the camera function of the phone can be activated immediately. However, under the trend of lighter and lighter handheld devices, there is very limited space for manufacturing Weishang to set hotkeys. In addition, the user's requirements for the appearance of the handheld device should not be neglected. In order to ensure the simple and beautiful appearance of the handheld device, the manufacturer must control 5 M333607 96-11-29 during design, The number of keys, so only a small number of hot keys can be used to achieve the needs of fast common functions. Because of this, only a small portion of the functions in the handheld device have corresponding hot keys for the user to quickly turn on. However, when the user wants to perform the function of the corresponding hotkey, the user must start the operation by operating the menu. Since most of the menus for handheld devices are tree-like, you can use the click to enter multiple sub-menus to find the required items. For some of the more commonly used functions, it will take a lot of operation time if you have to pass through each time. An electronic device that interferes with the touch-sensing plane, and includes an open-access touch-sensitive electronic device that includes an opening. In the touch display setting _^%; the housing has an operation. In addition, the touch type ^ crying;; for receiving - input wei jin; with unimpeded sliding over "induction flat: display" where the processor determines the touch display can be a touch-sensitive display, and « The type of the tool to convert the edge of the tool M333607 96-Π-29 In the embodiment of the present invention, the height difference between the shells of the touch edge is in the predetermined range ^ is wide open in the open (face) in this In the authoring-embodiment, the predetermined range may be less than the edge of the touch-sensing plane and the touch-sensitive display and the touch-sensing device, which enable the display device configuration At the top of the display, the position is: the opening of the body. The touch sensing has the touch sensing plane. The touch sensing device. The ten-face-reducing touch sensing county_to the processing in an embodiment of the present invention, Touch sensing _, - first conductive film, at least - spacer:: a = protective layer and protective layer has - shade and touch sensing = = electric film and security in the present embodiment - touch The induction module further includes a flexible circuit board, and the towel electrode is connected to the first conductive film The second moon substrate, the sub-electrical connecting plate on the lower surface, and the sexual connection to the == plate is disposed on the transparent base and the soft device placed under the electrode further includes a spacer, which is matched with the creation-t board Between the salt and the salt. The ground terminal 'where the gold is owned—the metal piece and the multiple connection::; between the metal piece and the display, and the electricity = genus: = 7 96-11-29 M333607 In this creation an embodiment The touch sensing device includes a resistive sensor. In an embodiment of the present invention, the touch sensing device includes a capacitive sensor. In an embodiment of the present invention, the touch sensing device includes a temperature sense. Detector.

在本創作一實施例中，觸控感應裝置包括一影像擷取 裝置，用以擷取包括該輸入工具之一影像。 在本創作一實施例中，輸入工具可以是觸控筆或使用 者的手指。 本創作提供一種與殼體共平面的觸控感應之電子裝 置，其包括一殼體、一觸控式顯示器與一處理器。其中， 殼體具有一開口。觸控式顯示器設置於開口内，並用以接 收一輸入工具的操作。此外，觸控式顯示器具有一觸控感 應平面，且觸控感應平面與位於開口的邊緣之殼體實質上 為共平面。處理器耦接至觸控式顯示器，其中處理器決定 此觸控式顯示器所顯示的使用者介面。 在本創作一實施例中，處理器決定此觸控式顯示器所 顯示的使用者介面之方法可以是處理器判斷輸入工具的種 類，並根據工具種類的不同來轉換對應的使用者介面。 在本創作一實施例中，觸控式顯示器更包括一顯示器 與一觸控感應裝置，其中顯示器配置於殼體内。觸控感應 裝置配置於顯示器上方，並位於開口内，且觸控感應裝置 具有此觸控感應平面。顯示器及觸控感應裝置耦接至處理 8 M333607 96-11-29 器。 在本創作一實施例中，觸控感應裝置依序包括一透明 ^ 第一導電膜、至少一間隔物、一第二導電膜與一 呆6層。保護層具有一遮光物與觸控感應平面。一、In an embodiment of the present invention, the touch sensing device includes an image capturing device for capturing an image including the input tool. In an embodiment of the present creation, the input tool can be a stylus or a user's finger. The present invention provides a touch sensitive electronic device coplanar with a housing, comprising a housing, a touch display and a processor. Wherein the housing has an opening. The touch display is disposed in the opening and is used to receive an input tool. In addition, the touch sensitive display has a touch sensing plane, and the touch sensing plane is substantially coplanar with the housing at the edge of the opening. The processor is coupled to the touch display, wherein the processor determines a user interface displayed by the touch display. In an embodiment of the present invention, the method for the processor to determine the user interface displayed by the touch display device may be that the processor determines the type of the input tool and converts the corresponding user interface according to the type of the tool. In an embodiment of the present invention, the touch display further includes a display and a touch sensing device, wherein the display is disposed in the housing. The touch sensing device is disposed above the display and located in the opening, and the touch sensing device has the touch sensing plane. The display and touch sensing device are coupled to the processing 8 M333607 96-11-29. In an embodiment of the present invention, the touch sensing device sequentially includes a transparent first conductive film, at least one spacer, a second conductive film, and a sixth layer. The protective layer has a light shield and a touch sensing plane. One,

，本創作-實施例中，觸㈣應裝置更包括多個電極 公生電路板’其中電極貫穿透明基板，並分別電性連 ，至電膜或第二導鶴。軟性電路板配置於透明基 反之下表面上，並電性連接至電極與處理器。 在本創作一實施例中，電子裝置更包括一墊片，其配 置於電極下方之軟性電路板與殼體之間。 /、 在本創作一實施例中，殼體更具有一金屬片與多個接 地端子，其中金屬片位於顯示器的周圍的上方，而接地端 子配置於金屬片與顯示器之間，並電性連接金屬片與顯示 器之間。 在本創作一實施例中，觸控感應裝置包括一電阻式感 測器。 心In the present creation-embodiment, the touch (four) device further includes a plurality of electrodes, a male circuit board, wherein the electrodes penetrate the transparent substrate and are electrically connected to the electric film or the second guide. The flexible circuit board is disposed on the surface of the transparent base and electrically connected to the electrode and the processor. In an embodiment of the present invention, the electronic device further includes a spacer disposed between the flexible circuit board under the electrode and the housing. In an embodiment of the present invention, the housing further has a metal piece and a plurality of grounding terminals, wherein the metal piece is located above the periphery of the display, and the grounding terminal is disposed between the metal piece and the display, and is electrically connected to the metal Between the film and the display. In an embodiment of the present invention, the touch sensing device includes a resistive sensor. heart

在本創作一實施例中，觸控感應装置包括一電容式感 測器。 心 在本創作一實施例中’觸控感應裝置包括一溫度感測 器。 〜 在本創作一實施例中，觸控感應裝置包括一影像擷取 裝置，用以擷取包括該輸入工具之一影像。 在本創作一實施例中，輸入工具可以是觸控筆或使用 者的手指。 9 M333607 96-11-29 本創作提供-種祕礙觸域 -殼體、-觸控式顯示器與 ：：裝置’其包括 _。觸控式顯示器設置於開=並==有- 具的操作。此外，觸控式顯呈w觸批代 I入工 鲶入丁曰A . 只不口口具有一觸控感應平面，且 處。處理感應平面與殼體之交界 種類。°觸拴式.、、、員不态，用以判斷該輸入工具的 決定實施例中，處理器更可以根據玉具種類來 决疋此觸控式顯示ϋ所顯示的使用者介面。 緣之!施例中’觸控感應平面與位於開口的邊 、、〃又體之間的尚度差在一預定範圍内。 (mm)在本創作—實施例中’預定範圍可以是小於1公厘 缘之作實&例中，觸控感應平面與位於開口的邊 緣之设體可以是共平面。 鱼作一實施例中’觸控式顯示器更包括-顯示器 共—觸控感應裝置，豆中顯+哭航要〜纽Μ 裝置配置㈣行哭。觸控感應 且:亚_開口内’且觸控感應裝置 器。b觸&絲平面。顯示器及難感絲置減至處理 基板在====丨，觸㈣縣置财包括―透明 護層與。娜：右一^ 一間隔物、一第二導電臈與保 …1 m，、有遮光物與觸控感應平面。 在本創作-實施例令，觸控感應裝置更包括多個電核 M333607 96-11-29 板，、ΐ中電極貫穿透明基板，並分別電性連 V電膜或第二導電膜。軟性電路板配置於透明基 反之下表面上，並電性連接至電極與處理器。 在本創作一實施例中，電子裝置更包括一墊片，立 於電極下方之軟性電路板與殼體之間。 /、- 地端ίϋ乍一實施例中’殼體更具有一金屬片與多個接 子配置於;=位，？的周圍的上方’而接地端 器之間。、，屬 之間’並電性連接金屬片與顯示 測器 測器 器 在本創作一實施例中，觸控感應裝置包括一電阻式感 在本創作一實施例中，觸控感應裝置包括一電容式感 在本創作一實施例中，觸控感應震置包括一溫度感測 裝置在觸錢鱗置㈣—影像摘取 4彌取包括该輸入工具之一影像。 者的手指作^财’輸人是觸控筆或使用 置，= 乍提:;種與殼體共平面的觸控感應之電子裳 殼體具以體觸;式顯示器與-處理器。其中 收-輸入工且的^式顯不益設置於開口内，並用以接 且觸控感應平面與位於開口的邊;=體 11 M333607 96-11-29 類處理器減至觸控式顯示器，用以判斷該輸入 決定 /飞、頁所絲員不的使用者介面。 與-實補中’觸控式顯示11更包括一顯示器 襄置配置於上5中顯示器配置於殼體内。觸控感應 具有此觸^Ιι 並位於開口内’且觸控感應裝置 器。平面。_示器及觸城絲置触至處理 基板在3二ΓΓΓ觸控感應裝置依序包括一透明 保護層。保謹^右i 間隔物、一第二導電膜與一 ’、a/、有遮光物與觸控感應平面。 與一軟性實感應裝置更包括多個電極 接至第-導電U;貫穿透明基板，並分別電性連 板之—下矣而μ、Ά電膜。軟性電路板配置於透明基 表面上，亚電性連接至電極與處理器。 在本創作一實施例中，電子麥 置於電極下款_路^=^^ ’其配 地端ΐ t ’殼體更具有—金屬片與多個接 子配置於;屬片虚ίί顯示器的周圍的上方，而接地端 器之間 盗之間，並電性連接金屬片與顯示 測器在本創作-實施例中，觸控感應裝置包括一電阻式感 12 M333607 96-11-29 在本創作一實施例中，觸控感應裝置包括一電容式感 蜊器 器 Ο 在本創作一實施例中，觸控感應裝置包括一幕复感測 在本創作一實施例中，觸控感應裝置包括一影像棟取 裝置，用以擷取包括該輸入工具之一影像。 在本創作一實施例中，輸入工具可以是觸控筆或使用 者的手指。 本創作在輸入工具接觸或接近電子裝置的觸控感應 骏置時，能根據輸入工具的接觸面積、接觸壓力、感應面 積、工具溫度、或影像等特性來判斷輸入工具的工具^重 亚且根據工具種類的不同，自動轉換及顯示對應的使用者 ，面。此外亦可根據卫具種類以自動開啟或關閉特定功 能。據此提高轉換使用者介面的效率，同時增加操作 而另外’此電子裝置的觸控感應平面與殼體 、、=I 0此輸^具在此f子裝置上能約自由 斤動而不被讀所限制，以增加操作的便利性。 本齡之上述特徵和優點能以雜，下文特 ^佳實補，並配合所關式，作詳細說明如下寸 L只施方式】 以目前的手持裝置來說，使 量 =^特定功能 M3 3 3 607 96-11-29 便利性。本創作便是基於上述觀點進而發展出的一種使用 者介面之操作方法以及使用此方法的手持裝置。為了使本 創作之内谷更為明瞭，以下特舉實施例做為本創作確實能 夠據以實施的範例。In an embodiment of the present invention, the touch sensing device includes a capacitive sensor. In one embodiment of the present invention, the touch sensing device includes a temperature sensor. In an embodiment of the present invention, the touch sensing device includes an image capturing device for capturing an image including the input tool. In an embodiment of the present creation, the input tool can be a stylus or a user's finger. 9 M333607 96-11-29 This creation provides a kind of barrier to the touch area - the case, the touch display and the :: device' which includes _. The touch display is set to open = and == have - operation. In addition, the touch-sensitive display w touches the batch generation I into the work into the Ding A. The mouth has a touch sensing plane, and everywhere. Handling the type of interface between the sensing plane and the housing. In the embodiment of determining the input tool, the processor can further determine the user interface displayed by the touch display according to the type of the jade. In the example, the difference between the touch sensing plane and the edge of the opening and the body is within a predetermined range. (mm) In the present creation-embodiment, the predetermined range may be less than 1 mm. In the example, the touch sensing plane and the edge located at the edge of the opening may be coplanar. In the embodiment of the fish, the touch-sensitive display further includes a display-common-touch sensing device, and the bean display + crying to the Μ Μ 装置 device configuration (four) line crying. Touch sensing and: sub-opening inside and touch sensing device. b touch & silk plane. The display and the hard-wired wire are reduced to the processing substrate at ====丨, and the touch (4) county wealth includes “transparent protective layer and. Na: Right one ^ a spacer, a second conductive 臈 and ... 1 m, with a shade and touch sensing plane. In the present invention, the touch sensing device further includes a plurality of electric cores M333607 96-11-29, and the electrodes in the crucible penetrate the transparent substrate and are electrically connected to the V film or the second conductive film, respectively. The flexible circuit board is disposed on the surface of the transparent base and electrically connected to the electrode and the processor. In an embodiment of the present invention, the electronic device further includes a spacer disposed between the flexible circuit board under the electrode and the housing. /, - Ground ϋ乍 In an embodiment, the housing has a metal piece and a plurality of connectors; The top of the circumference is around the grounder. In the embodiment of the present invention, the touch sensing device includes a resistive sense. In an embodiment of the present invention, the touch sensing device includes a Capacitive Sensing In an embodiment of the present invention, the touch sensing shock comprises a temperature sensing device in the touch money scale (4) - the image picking 4 draws an image including the input tool. The finger of the person makes a fortune. The input is a stylus or a use device. = 乍:: A type of touch-sensing electronic body that is coplanar with the housing. The housing has a body touch; a display and a processor. The type of the input-input is not provided in the opening, and is used to connect the touch sensing plane to the side located at the opening; = body 11 M333607 96-11-29 class processor is reduced to the touch display, It is used to judge the user interface of the input decision/fly and the page member. The touch-sensitive display 11 further includes a display device. The display device is disposed in the upper display device and is disposed in the housing. The touch sensing has this touch and is located inside the opening and the touch sensing device. flat. _ The display and the touchdown wire touch the processing substrate. The 3D touch sensing device sequentially includes a transparent protective layer. Bao Zheng ^ right i spacer, a second conductive film and a ', a /, with a shade and touch sensing plane. And a soft sensing device further comprises a plurality of electrodes connected to the first conductive U; the transparent substrate is penetrated, and the electric connecting plates are respectively connected to the lower and lower electrodes. The flexible circuit board is disposed on the transparent base surface and is electrically connected to the electrodes and the processor. In an embodiment of the present invention, the electronic wheat is placed on the electrode under the _ road ^=^^ 'the grounding end ΐ t 'the shell has more - the metal piece and the plurality of connectors are arranged; Between the upper and the ground, and the ground between the thieves, and the electrical connection between the metal sheet and the display detector. In this embodiment, the touch sensing device includes a resistive sense 12 M333607 96-11-29 in this In one embodiment, the touch sensing device includes a capacitive sensor. In an embodiment of the present invention, the touch sensing device includes a scene sensing. In an embodiment of the present invention, the touch sensing device includes a The image building device is configured to capture an image including the input tool. In an embodiment of the present creation, the input tool can be a stylus or a user's finger. The creation tool can determine the tool of the input tool according to the contact area of the input tool, the contact pressure, the sensing area, the tool temperature, or the image when the input tool contacts or approaches the touch sensing device of the electronic device. The types of tools are different, and the corresponding users are automatically converted and displayed. In addition, specific functions can be automatically turned on or off depending on the type of guard. According to this, the efficiency of switching the user interface is improved, and the operation is increased, and the touch sensing plane and the casing of the electronic device are further freely swayed by the device. Read restrictions to increase the convenience of the operation. The above characteristics and advantages of the age can be mixed, and the following is a good complement, and with the closed type, the detailed description is as follows: In the current handheld device, the amount = ^ specific function M3 3 3 607 96-11-29 Convenience. This creation is a user interface operation method based on the above viewpoint and a handheld device using the same. In order to make the context of this creation clearer, the following specific examples are examples of how this creation can indeed be implemented.

圖1是依照本創作之一實施例所繪示之使用者介面之 操作方法的流程圖。請參閱圖1，本實施例是說明當使用 者在操作一手持裝置時，手持裝置如何根據輸入工具的不 同，進而自動轉換對應之使用者介面的詳細步驟。其中， 手持裝置包括手機、個人數位助理或智慧型手機等等，在 此並不限制其範圍。 當使用者利用輸入工具對手持裝置進行操作時，首先 如步驟110所示，手持裝置在一個使用者介面中接收輸入 訊號。接著在步驟120中，根據輸入工具接觸或接近觸控 感應裝置時，觸控感應裝置所感應的面積、壓力、溫度、 或影像，據以判斷輸入工具的工具種類。最後如步1 is a flow chart of a method of operating a user interface in accordance with an embodiment of the present invention. Referring to Figure 1, this embodiment illustrates the detailed steps of how the handheld device automatically switches the corresponding user interface when the user is operating a handheld device, depending on the input tool. Among them, the handheld device includes a mobile phone, a personal digital assistant or a smart phone, etc., and the scope is not limited herein. When the user operates the handheld device using the input tool, first as shown in step 110, the handheld device receives the input signal in a user interface. Then, in step 120, according to the area, pressure, temperature, or image sensed by the touch sensing device when the input tool contacts or approaches the touch sensing device, the type of the tool of the input tool is determined. Last step

所不，手持裝置根據工具種類的+同，轉換並顯示對應的 使用者介面。 〜 _在本貝加例中’手持裝置會根據不同的工具種類來顯 示對應的使用者介面。為了方便朗，在下述的實施例中 是以辨別兩種不_輸人卫具為例，例如觸控筆㈣㈣和 使用者的手指，並以根據_不_工具種類分別轉換對 應之使用者介面喊程來對本創作做更進—步的說明。在 本創作範圍中，則可包括任意數量的工具種類。° 在下述實施例中，對應觸控筆的使用者介面為包括手 14 M3 3 3 607 96-11-29 持裝置之入 二 王部功能的一般使用者介面，而對應手指的使用 則是顯示手持裝置之部分功能的常用功能介面。顯 =吊用功能介面上的功能可由使用者根攄其習償或需求 來預先設定之。 一 判a本實施例有多種方法可判斷輸入工具的種類，不同的 、斷方法需要不同的硬體設計，如圖2A至2D的手持裝置 方塊圖所示，以下依序說明。 • 圖2A的手持裝置包括顯示器210、觸控感應裝置 j2〇、以及處理器230。顯示器21〇用以顯示使用者介面， •控感應衣置220例如為觸控面板(t〇uch panei)，用以偵測 ^入工具的操作，並依據輸人工具的操作產生—輸入訊 k [處理器230耦接至顯示器21〇與觸控感應裝置22〇， ，以判斷輸入工具的工具種類，並且根據工具種類轉換對 應的使用者介面。 圖2A的觸控感應裝置22〇包括電阻式感測哭 —s_r 240。電阻式感測器可感應輸入工 •具操作時的接觸位置和壓力，因此觸控感應裝置22〇提供 、的輪入訊號包括輸入工具接觸的位置和壓力等資訊。值得 =思的是電阻式感測器在同—時間只能提供—個接觸點的 ^訊號，而接觸點會分布在輸人卫具和電阻式感測器的 ^觸面積内’如圖从和3B所示。圖3A緣示觸 ，至“’因為觸控筆的接觸面積較小，所以接觸： 較集中。圖3B繪示手指的接觸點Μ至M，因 = 接觸面積較大，所以接觸點較分散。由於電阻式感測^ M333607 96-11-29 同日守間/、能提供一個接觸點的輸入訊號，處理器230必 須^焱特定時間内持續記錄輸入訊號的資訊，計算其變 以圖3A及3B的四個接觸點為例，假設接觸點w產 的輸入訊號為(Xi，Yi，朽)，其中i可為1，2, 3, 4。Xi為Η =接觸位置的χ座標，Yi為t_i的接觸位置的Y座標，朽 ^的接觸壓力。處理器23G可分別計算位置與壓 均值如下： X 座標平均值：Xa==(xl +Χ2 + χ3 + χ4)/4 Y 座標平均值：Ya = (Y1 + Y2 +Y3 + Y4)/4 壓力平均值：Ρρ(Ρ1+Ρ2 + Ρ3 + ρ4)/4 然後可分別計算位置與壓力的變動範圍如下: X座標變動範圍：Xd = |Xa —X1 + |Xa 一 X3卜 |Xa 一 χ4| γ座標變動範圍：Yd = |Ya—Yl + |Ya —Y3| + |Ya —Y4| 壓力變動範圍：Pd = |Pa — pi| + |Pa + |Pa-P3| + |Pa~P4| 至於如何依據位置盥壓力的 類 έ Μ $ ^ 力的跫動範圍判斷工具種 細即如圖4Α至4C的流程所示， 圖4Α為圖2Α的處理哭23〇 下依序况月 °σ 30所執行的輸入工具種類 16 M333607 96-11-29 辨識方法流_，® 4A的流程是依據接觸位 圍判斷工具麵。首綠步驟·開始_輸人工且= Μ ^ Μ 420 ^ ^ - X、Y座標。接著在步驟43G檢查樣本數量是否足夠，= 已滿足處理器23G的預設數量，流程進人步驟44〇 回到步驟420繼續記錄。 &〜 接下來，在步驟440計算接觸位置的變動範圍划、 Yd’在步驟450檢查是否Xd<Vx而且Yd<Vy，直中％ 和Vy是處理II 230的預設範圍。若兩座標的變動範圍皆 小於對應的預設範圍，處理器23()在步驟偏判定輸入工 具種類為觸控筆，將仙者介面職為對應的制使 介面。否則處理器230在步驟47〇判定輸入工具麵 指’將使用者介面轉換為對應的相功能介面。 圖4B為處理器230所執行的另一種輸入工具種類辨 ，方法的流程圖，目4B的流程是依據接觸壓力的變動範 具種類。處理器23〇在步驟421每隔一段取‘ 輸人1具的接觸壓力，在步驟相計算接觸壓力的 為處理器顶的預設範Γ T Vp ’其中Vp 驟_判定輪入工具種類為VP，處理器謂在步 對應的共同使用者介面將使用者介面轉換為 耠則處理器230在步驟470判定 輸入工具種類為手指，將使用者介 能介面。_的其餘步驟和 二再^述。 圖扣為處理器现所執行的另-種^入工具種麵 96-11-29 M333607 識方法的流程圖，圖4C的流程是同時依據接觸位置與壓 力的變動範圍判斷工具種類。處理器230在步驟422每隔 一段取樣時間籃綠輸入工具的接觸位置皇壓立驟 442計算接觸位置的變動範圍Xd、Yd以及接觸壓力的變 動範圍Pd，然後在步驟452檢查是否Xd < Vx、Yd < Vy 而且Pd < Vp。如果是，處理器230在步驟460判定輸入 工具種類為觸控筆，將使用者介面轉換為對應的共同使用 鲁 者介面。否則處理器230在步驟470判定輸入工具種類為 手指，將使用者介面轉換為對應的常用功能介面。圖4C 的其餘步驟和圖4 A相同，不再贅述。 接下來是另一種硬體設計下的輸入工具種類辨識方 法，清參照圖2B以及圖5。圖2B是本創作另一實施例的 手持裝置方塊圖，圖2B和圖2A的主要差別是將圖2A的 觸控感應裝置220換成包括電容式感測器（capacitive sensor device) 250的觸控感應裝置221。電容式感測器在 構造上具有多個陣列排列的感應墊(sens〇rpad)。感應墊只 ⑩ t對足夠大的導體経電容效應而絲到導體的接觸或接 . 近。，手指是導體，可使感應墊產生感應。如果觸控筆用導 ，製作:尺寸夠大’也能讓感應墊產生感應。電容式感測 器一般是利用掃描方式進行感應，因此可以在同時或是在 很短的時間内有多數個感應墊產生感應。® 2B的處理器 230可根據發生感應的感絲的數量，計二 小，而分辨出輸入工具是手指或觸控筆。 、大 圖5為圖2B的處理器23()所執行的輸入工具義辨 18 M333607 96-11-29 識方法流程圖。首先在步驟5H)每隔_段取樣時間侧輸 入工具的接觸或接近，然後在步驟520檢查是否有感應墊 產生感應。如果逢有’回到步鄉510崴續偵測。灰果有， 進入步驟530,在預設的一段特定時間内計算輸入工且操 作觸控感應裝置221時，電容式感測器25〇之中產生^應 的感應塾數目。然後在步驟540檢查上述感應墊數目是^ 小於處理器230的預e又值。右感應塾數目小於預設值，處 理器230在步驟550判定輸入工具種類為觸控筆σ，將使用 者介面轉換為對應的共同使用者介面。否則處理器23〇在 步驟560判定輸入工具種類為手指，將使用者介面轉換為 對應的常用功能介面。上述的預設值可依據感應塾單位面 積的密度來設定。 圖2C是本創作另一實施例的手持裝置方塊圖，圖2c 和圖2Α的主要差別是將圖2Α的觸控感應裝置220換成包 括溫度感測器260的觸控感應裝置222。在本實施例中， 處理裔230是根據輸入工具接觸或接近觸控感應裝置222 時的工具溫度來判斷工具種類。請同時參閱圖1與圖2C， 當使用者利用輸入工具在觸控感應裝置222上進行操作 時’處理器230將接收到對應的輸入訊號（步驟ι10)。 此時’處理器230會透過溫度感測器260偵測輸入工具操 作時的工具溫度，並將工具溫度與預設溫度（例如室溫和 體溫的平均值）進行比較。倘若工具溫度小於預設溫度， 則處理器230判斷輸入工具為觸控筆，反之則判斷輸入工 具為手指（步驟120)。接下來，處理器230依照工具種 19 M333607 96-11-29 類在顯示器210上顯示對應的共同使用者介面或常用功能 介面，如前面的實施例所述（步驟130)。 除了利用面積、壓力與溫度的不同來判斷工具種類之 外，在圖2D的實施例中，處理器230還可利用景^像識別 技術來判斷工具種類。請同時參閱圖丨與圖2D，圖是 本創作另一實施例的手持裝置方塊圖，和圖2A的主要^ 別是將圖2A的觸控感應裝置220換成包括影像擷取裝置 270的觸控感應裝置223。當使用者利用輸入工具在觸控感 應裝置223上進行操作時，在步驟11〇中，處理器透 過觸控感應裝置223接收-輸入訊號。接著在步驟12〇， 處理器230控制影像擷取裝置27〇擷取包括了輸入工且的 影像，並根據輸入工具在影像中的特徵或尺寸㈣ 來判斷其工具種類。舉例來說，處理器23〇可透過影像識 別技術在影像巾取得輸人王具的邊緣輪料特徵，據以判 斷其工具麵。又或著是計算輸人工具在影像中的尺寸， 並f其與*考_尺寸進行味來觸玉具種類。倘若處 ，器230觸輸入工具是觸控筆’就在步驟13〇透過顯示 =210顯不共同使用者介面。若處理器;23〇判斷輸入工具 為手指^尤在步驟130透過顯示器210顯示常用功能介面、。 值得-提的是’手持裝置内的處理器可根據工具種類 頂不同在轉換及顯示使用者介面時調整使用者介面之選 、的尺寸。_舉例來說，當處理器判斷輸入工具為觸控筆時， 一圖6所示’使用者介面_上的選項是以—般尺寸來顯 不之。然而’當處理器判斷輸人工具為使用者的手指後， 20 M333607 96-11-29 會將使用者介面的選項全放大至手指可操作的尺寸，如圖 7之使用者介面700所示，據以方便使用者透過手指對使 用者介面進行操作。上述的選項包括可用輸入工具選取的 圖像(icon)或影像(image)等項目。 本創作之手持裝置除了根據輸入工具種類而轉換不 同的使用者介面，也可以根據輸入工具種類，以不同方式 執行各種預設功能，如圖8的流程所示。圖8為依照本創 φ 4乍一實施例之手持裝置所執行之使用者介面操作方法流程 圖。、流程詳細說明如下。首先，手持裝置的處理器透過觸 控感應裝置接收輸入訊號（步驟810)，判斷產生輸入訊 號的輸入工具的種類（步驟82〇)，然後根據工具種類執 行預设功能（步驟830)。舉例而言，這個預設功能可以 疋根據工具種類轉換對應的使用者介面（步驟840)，其 相關細節已包含於前面的實施例，不再贅述。步驟83〇的 預設功能也可以是根據工具種類而開啟或關閉特定功能 (步驟850)。處理器也可以根據工具種類執行其他預設 肇 功能’不限於以上範例。 步驟850的特定功能可以是使用者介面平移功能 (panning)、使用者介面捲動功能(scr〇ning)、或兩者兼且（步 驟860)。例如當輸入工具是觸控筆時關閉使用者介面;^ 移及捲動功能，而輸入工具是手指時開啟使用者介面平移 及捲動功能，讓使用者可藉由移動手指平移或捲動使用者 介面的顯示内容。 步驟860的詳細流程如圖8B所示。首先在步驟861 21 M3 3 3 607 96-11-29 判断輸入工具種類為手指，開啟使用者介面平移及捲動功 能。在步驟862檢查手指的接觸或接近狀態是否已經解 除，也就是說，手指是否已離開觸控感應裝置。若尚未離 開，在步驟863執行使用者介面平移功能，讓使用者介面 隨使用者的手指移動而平移。另一方面，若手指已經離開 觸控感應裝置，就在步驟864檢查手指離開的同時是否有 移動。若無移動，流程至此結束。若有移動，則進入步驟 φ 865，執行使用者介面捲動功能，讓使用者介面隨手指的移 動方向而捲動。 另一方面，步驟850的特定功能可以是多重選擇功能 (步驟870)。例如當輸入工具是觸控筆時開啟多重選擇 功能，讓使用者可用觸控筆同時選取使用者介面上的多個 寅料項目或功此項目’而輸入工具是手指時關閉多重選擇 功能，讓使用者一次只能選取單一項目。因為手指的精準 度不如觸控筆，容易誤選，如此可增進使用的精準與效率。 步驟870的詳細流程如圖8C所示。首先在步驟871 • 判斷輸入工具種類為觸控筆，開啟多重選擇功能。然後在 " 步驟872檢查觸控筆接觸或接近觸控感應裝置的區域是否 有覆蓋任何選項。如果沒有，流程至此結束。如果有，就 在步驟873選取被接觸區域覆蓋的所有選項。 又另一方面，步驟850的特定功能可包括繪圖筆刷功 能以及繪圖橡皮擦功能（步驟880)。例如當輸入工具是 觸控筆時開啟緣圖筆刷功能並關閉緣圖橡皮擦功能，讓使 用者可用觸控筆繪圖。另一方面，當輸入工具是手指時關 22 M333607 96-11-29 閉緣圖筆刷功能並開啟_橡皮擦功能，讓使用者用手指 做為橡皮擦，抹除之前的繪圖。 此外，處理器也可以根據工具種類而開啟或關閉其他 特定功能，不限於以上範例。 ^ 以上實施例的手持裝置可延伸為一般電子裝置，以上 實施例的各項方法流程亦可由手魏置或電子裝置的作業 系統或應祕錄行以整合好裝置等硬體之功能。上述 作業系統或應用程式可儲存在電腦可讀取之記錄媒體，可 由電子裝置的處理ϋ執行，其運作基本相同，不再資述。 在圖2Α至2D的實施例中，顯示器和觸控感應裝置 是獨立的兩個元件，其中顯示器用以顯示使用者介面，觸 控感應裝置用以接收輸人訊號。在本創作其他實施例中， 顯示器和觸控感應裝置可構成一觸控式顯示器、，如圖9α 及9Β所示。 圖9Α為依照本創作一實施例的一種電子裝置的 圖，圖妞為圖9Α的電子裝置的剖面圖^9C|會示圖9Α 的觸控感應裝置的剖面圖’圖9D綠示圖9A的部分殼體的 月面的立體圖。睛先參考圖9A與圖9B，此電子裝置包括 殼體910、觸控式顯示器、以及處理器、93〇。殼體⑽ 具有-開π 91Ga與外界連通。觸控式顯示器伽設置於開 口 910a内，並用以接收一輸入工具的操作，1中輸入工具 例^是觸控筆或使用者的手指。此外，觸控感應裝置_ =觸控絲平面92Ga，且輸人卫具能_利滑過觸控感 應平面920a與殼體91〇之交界處（如區域A所示）。舉 23 M333607 96-11-29 例而έ ’觸控感應平面920a與位於開口 910a的邊緣之殼 體910之間的高度差在一預定範圍内，以使輸入工具能夠 順利滑過觸控感應平面920a與殼體910之交界處，而此預 定範圍例如是小於1公厘。在本實施例中，觸控感應平面 920a與位於開口 91〇a的邊緣之殼體91〇大致上為共平 面。換言之’觸控感應平面920a與位於開口 910a的邊緣 之，體910之間大致形成一個平滑表面，以便於讓輸入工 ⑩ 具笔無阻礙地移動操作。因此，此種電子裝置也可以稱為 具有無P早礙觸控感應平面之電子裝置」或者「具有平滑 觸控感應平面之電子裝置」。 此外，處理器930耦接至觸控式顯示器92〇，並用以 判畊輸入工具的種類。如同前面的實施例，處理器可 根據輸入工具操作觸控感應裝置924時的面積 '壓力、溫 ，、或影像，以便於判斷輸入工具種類。同樣地，依照判 斷f式的不同，觸控感應裝置924可以是包括一電阻式感 、】或者，觸控感應裝置924可以是包括一電容式感測 • 1。或者，觸控式顯示器92。可以是包括一溫度感測器。、 或者觸控式顯示益920可以是包括—影像擷取裝置，其 用，取包括輸入工具之—影像。至於判斷流程以及“ 預設功能等細節已見於前面的内容，在此不再重複說明。 值得注意的是，雖然顯示不同的使用者介面的方法可以是 依據輸入工具的種類而有所不同，但顯示不同的使用者= 面，判斷方法卻不限定於上述所揭露的判斷方法。此外^ 判斷出輪入工具的種類的結果也不限定僅用於決定所顯示 24 M333607 96-11-29 的使用者介面，而處理器也可以依據此結果決定驅動其他 程式或執行其他動作。 在本實施例中，觸控式麗示 及觸控感應裝置924，其中顯示器922以及觸控感應裝置 924為獨立構件或模組。然而，在其他實施例中，顯示器 922以及觸控感應裝置924也可以整合成單一模組。此外， 顯示裔922及觸控感應裝置924分別|禺接至處理器93〇。 在本實施例中’顯示器922配置於殼體910内。觸控感應 裝置924配置殼體910上，並覆蓋開口 91〇a。此外，觸控 感應裝置924位於顯示器922上方，且觸控感應裝置924 具有觸控感應平面920a，其用以接收一輸入工具的操作。 在本實施例中，顯示器922及觸控感應裝置924分別位於 殼體910的兩侧，然而在其他實施例中，顯示器922及觸 控感應裝置924也可以位於殼體91〇之同一侧。以下將對 於部分構件進行詳細說明。 請參考圖9A與圖9C，觸控感應裝置924包括一透明 基板9242、一第一導電膜9244a、一第二導電膜9244b、 一保護層9246與至少一間隔物9248。第一導電膜9244a 配置於透明基板9242上，而第二導電膜9244b配置於第一 導電膜9244a上方。在本實施例中，第一導電膜9244a與 第二導電膜9244b的材質例如是銦錫氧化物（IT〇)或其 他透明導電材質。保護層9246配置於第二導電膜9244b 上，且保護層9246具有觸控感應平面920a。此外，為了 增加此電子裝置的美感，保護層9246也可以具有一遮光物 25 M333607 96-11-29 924b’而此遮光物924b用以遮蔽在此電子裝置中不想讓使 用者看到的部分，例如是線路、顯示器922邊緣或^他構 ^ ° ^ ^ ^ ^ 9248 電膜9244b之間，以分隔第一導電膜9244a與第二導電膜 9244b。 、 在本實施例中，觸控感應裝置924更包括多個電極 9242a貫穿與軟性電路板924a，其中這些電極9242a貫穿 透明基板9242，並分別電性連接至第一導電膜924如與第 二導電膜9244b。此外，軟性電路板924a配置於透明基板 9242之一下表面9242b上，並電性連接至這些電極9242a 與處理為930。換吕之，軟性電路板924a乃是由整個觸控 感應裝置924下方延伸出來。然而，在其他實施例中，軟 性電路板924a也可以不經由電極9242a，而由第一導電膜 9244a透明基板9242延伸出來。當軟性電路板924a由 第一導電膜9244a透明基板9242延伸出來，此種觸控感應 裝置924的透明基板9242便不具有電極9242a。由於軟性 電路板924a由觸控感應裝置924下方延伸出來，因此觸控 感應平面920a與位於開口 910a的邊緣之殼體910之間更 能形成平滑表面，以讓輸入工具毫無阻礙地移動操作。 請參考圖9A與圖9D，為了增加殼體910的結構強 度’殼體910更具有一金屬片912，其位於顯示器922的 周圍的上方。此外，金屬片912適於支撐觸控感應裝置 924。然而’在另一實施例中，殼體91〇也可以單純由塑膠 所構成，而不需要具有金屬片912。再者，為了避免金屬 26 M333607 96-11-29 旦/鄕士為〉予動金屬而對於觸控感應裝置924造成不良的 Η 4體MG也可以具有多個接地端子914 ,其配置於 :一 ：912奥龜1器922之1 ™ 22之間。換言之，接地端子914配置於殼體910 心且金屬# 912可以經由接地端子914接地至顯示 ™、-的接地端。然而，在其他實施例中，金屬片μ〕也 :以經由接地端子914接地至此電子裝置的其他構件的接 地端’例㈣此電子裝置的電路板的接地端（未緣示）。 由於金屬片912有可能會與顯示器922接觸，因此在金屬 片912上通常會貼附一層黑色緩衝層或緩衝膠帶（未繪 示）。 值知注意的是，由於此種觸控感應裝置924具有電極 9242a，而電極9242a略突出於透明基板9242之下表面 =42b，因此當此種觸控感應裝置924配置在殼體91〇上時 谷易出現不平衡的狀況而導致觸控感應裝置924的運作失 常二因此，在殼體910或金屬片912上可以形成開口 91〇卜 以谷置突出的電極9242a。此外，為了增加觸控感應裝置 924的可靠度，此電子裝置也可以包括一墊片94〇，其配置 於電極9242a下方之軟性電路板924a與殼體91〇之間。在 本實施例中，墊片940配置於在開口 91〇b内的黑色緩衝層 或緩衝膠帶上，而電極9242a下方之軟性電路板924a會與 此墊片940接觸。然而，墊片940也可以貼附於觸控感應 裝置924上或殼體910上。 综上所述，本創作能判斷輸入工具的工具種類，並根 27 M333607 96-11-29No, the handheld device converts and displays the corresponding user interface according to the same type of tool. ~ _ In the case of Benbega, the handheld device will display the corresponding user interface according to different tool types. For convenience, in the following embodiments, two types of non-inputters are distinguished, such as a stylus (4) (four) and a user's finger, and the corresponding user interface is separately converted according to the _not_tool type. Call Cheng to make a more in-depth explanation of this creation. In the scope of this creation, any number of tool types can be included. ° In the following embodiments, the user interface of the corresponding stylus is a general user interface including the hand 14 M3 3 3 607 96-11-29 holding device, and the corresponding finger is displayed. A common function interface for some functions of a handheld device. The function of the function interface can be preset by the user based on his or her compensation or needs. In the present embodiment, there are various methods for judging the types of input tools. Different methods for breaking and requiring different hardware designs are shown in the block diagrams of the handheld devices of Figs. 2A to 2D, which are described below. • The handheld device of FIG. 2A includes a display 210, a touch sensing device j2, and a processor 230. The display 21 is used to display a user interface, and the control device 220 is, for example, a touch panel (t〇uch panei) for detecting the operation of the tool and generating an input signal according to the operation of the input tool. The processor 230 is coupled to the display 21 and the touch sensing device 22 to determine the type of the tool of the input tool, and convert the corresponding user interface according to the type of the tool. The touch sensing device 22A of FIG. 2A includes a resistive sensing crying_s_r 240. The resistive sensor senses the contact position and pressure of the input tool during operation, so the wheel-in signal provided by the touch sensing device 22 includes information such as the position and pressure of the input tool contact. It is worthwhile to think that the resistive sensor can only provide the contact signal of the contact point at the same time, and the contact point will be distributed within the contact area of the input and the resistive sensor. And 3B. Figure 3A shows the touch, until "because the contact area of the stylus is small, the contact: is more concentrated. Figure 3B shows the contact point of the finger to M, because the contact area is larger, so the contact point is more dispersed. Since the resistive sensing ^ M333607 96-11-29 can provide a touch point input signal for the same day, the processor 230 must continuously record the information of the input signal for a certain period of time, and calculate the change to FIG. 3A and 3B. For example, the four contact points are assumed to be (Xi, Yi, annihilation), where i can be 1, 2, 3, 4. Xi is Η = χ coordinates of the contact position, and Yi is t_i The Y coordinate of the contact position, the contact pressure of the decay ^. The processor 23G can calculate the position and pressure average respectively as follows: X coordinate average: Xa == (xl + Χ 2 + χ 3 + χ 4) / 4 Y coordinate average: Ya = (Y1 + Y2 +Y3 + Y4)/4 Pressure average: Ρρ(Ρ1+Ρ2 + Ρ3 + ρ4)/4 Then the range of position and pressure can be calculated as follows: X coordinate variation range: Xd = |Xa — X1 + |Xa - X3 ||Xa χ4| γ coordinate variation range: Yd = |Ya—Yl + |Ya —Y3| + |Ya —Y4| Pressure variation range: Pd = |P a — pi| + |Pa + |Pa-P3| + |Pa~P4| As for how to classify the pressure according to the position Μ ^ $ ^ The force of the sway range judgment tool is as shown in the flow of Figure 4Α to 4C Figure 4Α is the processing of Figure 2ΑCrying under 23〇. According to the sequence of the month, the input tool type is executed. 16 M333607 96-11-29 Identification method Flow _, The process of 4A is based on the contact position judgment tool surface. First Green Step · Start _ Transfer Manual and = Μ ^ Μ 420 ^ ^ - X, Y coordinates. Then check if the number of samples is sufficient at step 43G, = the preset number of processors 23G has been satisfied, and the flow proceeds to step 44. The recording is continued in step 420. &~ Next, in step 440, the variation range of the contact position is calculated, and Yd' is checked in step 450 whether Xd < Vx and Yd < Vy, % and Vy are presets for processing II 230 If the range of the two coordinates is less than the corresponding preset range, the processor 23() determines that the type of the input tool is a stylus in the step bias, and the interface of the fairy is the corresponding interface. Otherwise, the processor 230 is Step 47: determining that the input tool face refers to 'converting the user interface to the corresponding phase Figure 4B is a flow chart of another type of input tool performed by the processor 230, and the flow of the method is based on the type of variation of the contact pressure. The processor 23 takes a step at step 421. The contact pressure of one person is input, and the contact pressure is calculated in the step phase as the preset range of the processor top T Vp 'where Vp _ the determination wheel type tool is VP, and the processor is the common user interface corresponding to the step Converting the user interface to the processor 230 determines in step 470 that the input tool type is a finger and the user interface is enabled. The remaining steps of _ and the second are described. The figure button is a flow chart of the other type of tool currently implemented by the processor. 96-11-29 M333607 The flow chart of the method is shown in Fig. 4C, and the type of the tool is determined according to the range of contact position and pressure. The processor 230 calculates the variation range Xd, Yd of the contact position and the variation range Pd of the contact pressure at the contact position of the basket input tool every step 422 at step 422, and then checks in step 452 whether Xd < Vx , Yd < Vy and Pd < Vp. If so, the processor 230 determines in step 460 that the input tool type is a stylus and converts the user interface to a corresponding common use interface. Otherwise, the processor 230 determines in step 470 that the input tool type is a finger and converts the user interface into a corresponding common function interface. The remaining steps of FIG. 4C are the same as those of FIG. 4A and will not be described again. Next is another input tool type identification method under the hardware design. Refer to Figure 2B and Figure 5 for details. 2B is a block diagram of a handheld device according to another embodiment of the present invention. The main difference between FIG. 2B and FIG. 2A is that the touch sensing device 220 of FIG. 2A is replaced with a touch sensor including a capacitive sensor device 250. Induction device 221. The capacitive sensor is constructed with a plurality of arrays of sensing pads (sens〇rpad). The induction pad is only 10 t for a sufficiently large conductor tantalum effect and wire-to-conductor contact or connection. The finger is a conductor that can sense the sensor pad. If the stylus is used, the production: size is large enough to make the sensor pad feel. Capacitive sensors are typically sensed by scanning, so that multiple sensing pads can be sensed at the same time or in a short period of time. The ® 2B processor 230 can be used to determine whether the input tool is a finger or a stylus based on the number of sensed wires. Figure 5 is a flow chart of the input method performed by the processor 23() of Fig. 2B. 18 M333607 96-11-29. First, in step 5H), the contact or proximity of the time side input tool is sampled every _th segment, and then at step 520, it is checked whether or not the sensing pad is inductive. If you return to Step 510, you will continue to detect. If the gray fruit is there, the process proceeds to step 530, and when the input device is calculated for a predetermined period of time and the touch sensing device 221 is operated, the number of sensing turns generated by the capacitive sensor 25A is generated. Then, in step 540, it is checked that the number of sensing pads is less than the pre-e value of the processor 230. The number of right sensing turns is less than a preset value, and the processor 230 determines in step 550 that the input tool type is the stylus σ and converts the user interface into a corresponding common user interface. Otherwise, the processor 23 determines in step 560 that the input tool type is a finger and converts the user interface into a corresponding common function interface. The above preset values can be set according to the density of the unit area of the sensing unit. 2C is a block diagram of a handheld device according to another embodiment of the present invention. The main difference between FIG. 2c and FIG. 2B is that the touch sensing device 220 of FIG. 2A is replaced with a touch sensing device 222 including a temperature sensor 260. In the present embodiment, the processing person 230 determines the type of the tool based on the tool temperature when the input tool contacts or approaches the touch sensing device 222. Referring to FIG. 1 and FIG. 2C simultaneously, when the user operates on the touch sensing device 222 by using the input tool, the processor 230 will receive the corresponding input signal (step 119). At this time, the processor 230 detects the temperature of the tool when the input tool is operated through the temperature sensor 260, and compares the tool temperature with a preset temperature (for example, an average value of room temperature and body temperature). If the tool temperature is less than the preset temperature, the processor 230 determines that the input tool is a stylus, and otherwise determines that the input tool is a finger (step 120). Next, processor 230 displays a corresponding common user interface or common function interface on display 210 in accordance with tool class 19 M333607 96-11-29, as described in the previous embodiment (step 130). In addition to utilizing differences in area, pressure, and temperature to determine the type of tool, in the embodiment of Figure 2D, processor 230 may also utilize feature recognition techniques to determine the type of tool. Please refer to FIG. 2D and FIG. 2D, which are block diagrams of a handheld device according to another embodiment of the present invention, and FIG. 2A mainly replaces the touch sensing device 220 of FIG. 2A with a touch including the image capturing device 270. The sensing device 223 is controlled. When the user operates on the touch sensing device 223 using the input tool, the processor receives the input signal through the touch sensing device 223 in step 11A. Next, in step 12, the processor 230 controls the image capturing device 27 to capture an image including the input work, and judges the tool type according to the feature or size (4) of the input tool in the image. For example, the processor 23 can obtain the edge feature of the input eagle in the image towel through the image recognition technology, thereby judging the tool surface. Or it is to calculate the size of the input tool in the image, and f and the * test _ size to taste the jade type. If the device 230 touches the input tool is a stylus, then in step 13, the display user = 210 displays a common user interface. If the processor; 23, the input tool is judged to be a finger, especially in step 130, the common function interface is displayed through the display 210. It is worth mentioning that the processor in the handheld device can adjust the size of the user interface when converting and displaying the user interface according to the type of tool. For example, when the processor determines that the input tool is a stylus, the option on the 'user interface' shown in Figure 6 is displayed in a general size. However, when the processor determines that the input tool is the user's finger, the 20 M333607 96-11-29 will enlarge the user interface options to the finger-operable size, as shown in the user interface 700 of FIG. It is convenient for the user to operate the user interface through the finger. The above options include items such as icons or images that can be selected with the input tool. In addition to converting different user interfaces according to the type of input tool, the handheld device of the present invention can perform various preset functions in different manners according to the type of the input tool, as shown in the flow of FIG. FIG. 8 is a flow chart showing a user interface operation method performed by the handheld device according to the embodiment of the present invention. The process is described in detail below. First, the processor of the handheld device receives the input signal through the touch sensing device (step 810), determines the type of the input tool that generates the input signal (step 82), and then executes the preset function according to the type of the tool (step 830). For example, the preset function may convert the corresponding user interface according to the type of the tool (step 840), and the related details are included in the previous embodiment and will not be described again. The preset function of step 83〇 may also be to turn a specific function on or off according to the type of the tool (step 850). The processor can also perform other presets depending on the type of tool. The function is not limited to the above examples. The particular function of step 850 may be user interface panning, user interface scrolling (scr〇ning), or both (step 860). For example, when the input tool is a stylus, the user interface is closed; the shifting and scrolling functions are enabled, and when the input tool is a finger, the user interface panning and scrolling function is turned on, so that the user can use the moving finger to pan or scroll. The content of the interface. The detailed flow of step 860 is shown in Figure 8B. First, in step 861 21 M3 3 3 607 96-11-29, it is judged that the input tool type is a finger, and the user interface panning and scrolling function is turned on. At step 862, it is checked if the contact or proximity state of the finger has been removed, that is, whether the finger has left the touch sensing device. If not, the user interface translation function is performed in step 863 to allow the user interface to pan as the user's finger moves. On the other hand, if the finger has left the touch sensing device, it is checked in step 864 if there is a movement while the finger is away. If there is no movement, the process ends here. If there is movement, proceed to step φ 865 to perform a user interface scrolling function to scroll the user interface with the direction in which the finger moves. Alternatively, the particular function of step 850 can be a multiple selection function (step 870). For example, when the input tool is a stylus, the multi-selection function is enabled, so that the user can simultaneously select multiple data items on the user interface or work on the item with the stylus', and the multi-selection function is turned off when the input tool is a finger, so that Users can only select a single item at a time. Because the accuracy of the finger is not as good as the stylus, it is easy to mis-select, which can improve the precision and efficiency of use. The detailed flow of step 870 is as shown in Fig. 8C. First in step 871 • Determine the type of input tool as the stylus and turn on the multi-select function. Then, in " Step 872, check if the stylus touches or approaches the area of the touch sensing device to cover any options. If not, the process ends here. If so, in step 873 all options covered by the contact area are selected. In yet another aspect, the particular functionality of step 850 can include a drawing brush function and a drawing eraser function (step 880). For example, when the input tool is a stylus, the edge brush function is turned on and the edge eraser function is turned off, so that the user can draw with the stylus. On the other hand, when the input tool is a finger, turn off the 22 M333607 96-11-29 Closed Edge Brush function and turn on the _Eraser function, let the user use the finger as an eraser to erase the previous drawing. In addition, the processor can also turn other specific functions on or off according to the type of tool, not limited to the above examples. The handheld device of the above embodiment can be extended to a general electronic device. The method flow of the above embodiments can also be implemented by the operating system of the hand or the electronic device or the secret recording system to integrate the functions of the hardware such as the device. The above operating system or application can be stored in a computer-readable recording medium, which can be executed by the processing of the electronic device, and its operation is basically the same and will not be described. In the embodiment of Figures 2A to 2D, the display and the touch sensing device are two separate components, wherein the display is used to display a user interface, and the touch sensing device is configured to receive the input signal. In other embodiments of the present invention, the display and the touch sensing device may constitute a touch display, as shown in FIGS. 9α and 9B. FIG. 9 is a diagram of an electronic device according to an embodiment of the present invention. FIG. 9 is a cross-sectional view of the electronic device of FIG. 9A. FIG. 9A is a cross-sectional view of the touch sensing device of FIG. 9A. FIG. 9D is a green view of FIG. 9A. A perspective view of the lunar surface of a portion of the housing. Referring first to Figures 9A and 9B, the electronic device includes a housing 910, a touch display, and a processor, 93A. The casing (10) has -open π 91Ga in communication with the outside. The touch display gamma is disposed in the opening 910a and is used for receiving an operation of an input tool. The input tool example in 1 is a stylus or a user's finger. In addition, the touch sensing device _ = touch wire plane 92Ga, and the input guard can slide over the intersection of the touch sensing plane 920a and the housing 91 (as shown in area A). 23 M333607 96-11-29 Example έ The difference in height between the touch sensing plane 920a and the housing 910 at the edge of the opening 910a is within a predetermined range so that the input tool can smoothly slide over the touch sensing plane. The junction of 920a and the housing 910, and the predetermined range is, for example, less than 1 mm. In this embodiment, the touch sensing plane 920a is substantially coplanar with the housing 91〇 at the edge of the opening 91〇a. In other words, the touch sensing plane 920a and the edge of the opening 910a form a smooth surface between the bodies 910 to facilitate the unimpeded movement of the input pen. Therefore, such an electronic device can also be referred to as an electronic device having a P-free touch sensing plane or an electronic device having a smooth touch sensing plane. In addition, the processor 930 is coupled to the touch display 92A and used to judge the type of the input tool. As in the previous embodiment, the processor can operate the area 'pressure, temperature, or image' of the touch sensing device 924 according to the input tool to facilitate determination of the type of input tool. Similarly, the touch sensing device 924 may include a resistive sense, or the touch sensing device 924 may include a capacitive sensing. Alternatively, the touch display 92. It may be comprised of a temperature sensor. Or the touch display display 920 may be an image capture device, which is used to capture an image including an input tool. As for the judgment process and the details of the preset functions have been seen in the previous content, the description will not be repeated here. It is worth noting that although the method of displaying different user interfaces may be different depending on the type of input tool, The different user = face is displayed, and the determination method is not limited to the above-mentioned judgment method. In addition, the result of judging the type of the wheel-in tool is not limited to only determining the use of the displayed 24 M333607 96-11-29. In this embodiment, the touch-sensitive display and touch sensing device 924, wherein the display 922 and the touch sensing device 924 are separate components, are used in the present embodiment. Alternatively, in other embodiments, the display 922 and the touch sensing device 924 can be integrated into a single module. Further, the display 922 and the touch sensing device 924 are respectively coupled to the processor 93A. In this embodiment, the display 922 is disposed in the housing 910. The touch sensing device 924 is disposed on the housing 910 and covers the opening 91〇a. The device 924 is located above the display 922, and the touch sensing device 924 has a touch sensing plane 920a for receiving an input tool. In this embodiment, the display 922 and the touch sensing device 924 are respectively located in the housing 910. On both sides, in other embodiments, the display 922 and the touch sensing device 924 may also be located on the same side of the housing 91. Some components will be described in detail below. Referring to FIG. 9A and FIG. 9C, the touch sensing device The 924 includes a transparent substrate 9242, a first conductive film 9244a, a second conductive film 9244b, a protective layer 9246 and at least one spacer 9428. The first conductive film 9244a is disposed on the transparent substrate 9242, and the second conductive film 9244b The first conductive film 9244a and the second conductive film 9244b are made of, for example, indium tin oxide (IT〇) or other transparent conductive material. The protective layer 9246 is disposed on the first conductive film 9244a. The second conductive film 9244b and the protective layer 9246 have a touch sensing plane 920a. In addition, in order to increase the aesthetics of the electronic device, the protective layer 9246 may also have a light shield 25 M3. 33607 96-11-29 924b' and the shade 924b is used to shield the portion of the electronic device that the user does not want to see, such as the line, the edge of the display 922, or the ^^ ^ ^ ^ ^ 9248 electric film The first conductive film 9244a and the second conductive film 9244b are separated between the second and second conductive films 9244b. In the embodiment, the touch sensing device 924 further includes a plurality of electrodes 9242a extending through the flexible circuit board 924a, wherein the electrodes 9242a extend through the transparent substrate. 9242, and electrically connected to the first conductive film 924 and the second conductive film 9244b, respectively. In addition, the flexible circuit board 924a is disposed on a lower surface 9242b of the transparent substrate 9242, and is electrically connected to the electrodes 9242a and processed 930. In other words, the flexible circuit board 924a extends from under the entire touch sensing device 924. However, in other embodiments, the flexible circuit board 924a may also extend from the first conductive film 9244a transparent substrate 9242 without passing through the electrode 9242a. When the flexible circuit board 924a extends from the first conductive film 9244a and the transparent substrate 9242, the transparent substrate 9242 of the touch sensing device 924 does not have the electrode 9242a. Since the flexible circuit board 924a extends from below the touch sensing device 924, the touch sensing surface 920a and the housing 910 at the edge of the opening 910a are more likely to form a smooth surface for the input tool to move without any hindrance. Referring to Figures 9A and 9D, in order to increase the structural strength of the housing 910, the housing 910 further has a metal piece 912 located above the periphery of the display 922. In addition, the metal sheet 912 is adapted to support the touch sensing device 924. However, in another embodiment, the housing 91 can also be constructed solely of plastic without the need for a metal sheet 912. Furthermore, in order to avoid the metal 26 M333607 96-11-29 dan / gentleman is a pre-active metal, the touch sensing device 924 is defective. The MG can also have a plurality of grounding terminals 914, which are arranged at: : 912 Turtle 1 922 of 1 between TM 22 . In other words, the ground terminal 914 is disposed at the center of the housing 910 and the metal #912 can be grounded to the ground of the display TM, - via the ground terminal 914. However, in other embodiments, the metal piece is also: a ground terminal that is grounded to other components of the electronic device via the ground terminal 914. (4) A ground terminal (not shown) of the circuit board of the electronic device. Since the metal piece 912 may come into contact with the display 922, a black buffer layer or cushioning tape (not shown) is usually attached to the metal piece 912. It should be noted that since the touch sensing device 924 has the electrode 9242a and the electrode 9242a protrudes slightly from the lower surface of the transparent substrate 9242=42b, when the touch sensing device 924 is disposed on the housing 91〇 The valley is prone to an unbalanced condition, resulting in malfunction of the touch sensing device 924. Therefore, an opening 91 can be formed on the housing 910 or the metal piece 912 to expose the electrode 9242a. In addition, in order to increase the reliability of the touch sensing device 924, the electronic device may also include a spacer 94〇 disposed between the flexible circuit board 924a and the housing 91〇 under the electrode 9242a. In the present embodiment, the spacer 940 is disposed on the black buffer layer or the buffer tape in the opening 91〇b, and the flexible circuit board 924a under the electrode 9242a is in contact with the spacer 940. However, the spacer 940 can also be attached to the touch sensing device 924 or to the housing 910. In summary, this creation can judge the type of tools of the input tool, and root 27 M333607 96-11-29

财同類型之使恩者介嚴 便捷的方絲料贿置進行操作 用者介面，或以不同方 不但提供了一種快速轉 也讓使用者得MUL為 率與便利性。 ’據此提高使用上的效 〜雖然本創作已以較佳實施例揭露如上，然其並非用以 限，本創作，任何所屬技術領域中具有通常知識者，在不 φ 脫離本創作之精神和範圍内，當可作些許之更動與潤飾， 因此本創作之保護範圍當視後附之申請專利範圍所界定者 為準。 【圖式簡單說明】 圖1疋依照本創作之一實施例所繪示之使用者介面之 操作方法的流程圖。 圖2A至圖2D是依照本創作之實施例所繪示之可轉換 使用者介面之手持裝置的方塊圖。 圖3A及圖3B是依照本創作之一實施例所繪示之輸入 攀工具接觸面積示意圖。 圖4A至圖4C是依照本創作之實施例所繪示之輸入工 具種類辨識方法流程圖。 圖5是依照本創作另一實施例所繪示之輸入工具種類 辨識方法流程圖。 圖6及圖7是依照本創作之實施例所繪示之手持裝置 之使用者介面的示意圖。 圖8A至圖8C是依照本創作之一實施例所繪示之使用 28 M333607 96-11-29 者介面之操作方法的流程圖 圖9A為依照本創作一 圖。 圖9B為圖9 A的電子裝置的剖面圖。 圖9C繪示圖9A的觸控感應裝置的剖面圖。 圖9D繪示圖9A的部分殼體的背面的立體圖 【主要元件符號說明】The same type of stipulations are convenient for the convenience of the party wire bribes to operate the user interface, or to different parties not only provides a quick turn but also allows users to get MUL rate and convenience. 'According to this, the effect of the use is improved~ Although the present invention has been disclosed above in the preferred embodiment, it is not intended to be limiting, and the present invention, any person having ordinary knowledge in the technical field, does not deviate from the spirit of the present invention. In the scope of the application, the scope of protection of this creation shall be subject to the definition of the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a flow chart showing a method of operating a user interface in accordance with an embodiment of the present invention. 2A-2D are block diagrams of a hand-held device of a convertible user interface in accordance with an embodiment of the present invention. 3A and 3B are schematic diagrams showing the contact area of an input climbing tool according to an embodiment of the present invention. 4A-4C are flow charts of an input tool type identification method according to an embodiment of the present invention. FIG. 5 is a flow chart of a method for identifying an input tool according to another embodiment of the present invention. 6 and 7 are schematic diagrams of a user interface of a handheld device in accordance with an embodiment of the present invention. 8A to 8C are flowcharts showing an operation method using a 28 M333607 96-11-29 interface according to an embodiment of the present invention. Fig. 9A is a view in accordance with the present invention. Figure 9B is a cross-sectional view of the electronic device of Figure 9A. 9C is a cross-sectional view of the touch sensing device of FIG. 9A. 9D is a perspective view of the back surface of the partial housing of FIG. 9A.

、110-130:本創狀—實施例所述之制者介面之操 方法的各步驟 21 〇 :顯示器 220-223 :觸控感應裝置 230 :處理器 240 :電阻式感測器 250 :電容式感測器 260 :溫度感測器 270 :影像擷取裝置110-130: Each step of the method of the maker interface described in the present invention is as follows: display 220-223: touch sensing device 230: processor 240: resistive sensor 250: capacitive Sensor 260: temperature sensor 270: image capturing device

實施例的-種電子裝置的*** 〇 410-470、510-560 :本創作之實施例所述之輸入工具 種類辨識方法的各步驟 600、700 :使用者介面 810-880:本創作之一實施例所述之使用者介面之操作 方法的各步驟 910 ··殼體 910a、910b ··開口 912 :金屬片 29 M333607 96-11-29 914 :接地端子 920 :觸控式顯示器 920a :觸控感應平面 922 :顯示器 924 :觸控感應裝置 924a :軟性電路板 924b :遮光物 9242 :透明基板 9242a :電極 9242b :下表面 9244a :第一導電膜 9244b :第二導電膜 9246 :保護層 9248 :間隔物 930 :處理器 940 :墊片 Μ、t-2、t-3、t-4 :輸入工具與觸控感應裝置之接觸 30Explosion of an electronic device of an embodiment 〇 410-470, 510-560: steps 600, 700 of the input tool type identification method described in the embodiment of the present invention: user interface 810-880: implementation of one of the creations Step 910 of the operation method of the user interface as described in the example: · Housing 910a, 910b · Opening 912: metal piece 29 M333607 96-11-29 914: Grounding terminal 920: touch display 920a: touch sensing Plane 922: Display 924: Touch sensing device 924a: Flexible circuit board 924b: Light shield 9242: Transparent substrate 9242a: Electrode 9242b: Lower surface 9244a: First conductive film 9244b: Second conductive film 9246: Protective layer 9248: Spacer 930: processor 940: pad Μ, t-2, t-3, t-4: contact of the input tool with the touch sensing device 30

Claims (1)

M333607 96-11-29 九、申請專利範圍： •種無p早礙觸控感應之電子裝置，包括： 觸控式顯示器，設置於該開口内，用以接收一輸入 ，其中該觸控式顯示11具有—觸控感應平面， = 具μ受喊的滑過朗減鮮面與該殼體 之父界處；以及 細處理器，耦接至該觸控式顯示器，其中該處理器決 &〜觸控式顯示H_示的使肖者介面。 2上如申請專利範圍第1項所述之電子裝置，其中該處 :決定該觸控式顯示器所顯示的使用者介面之方法包括 判斷該輸人工具的種類，並根據工具種類來轉換 對應的使用者介面。 ㈣^如申請專利範81第1項所述之電子裝置，其中該觸 平面與位於該肖口的邊緣之該殼體之間的高度差在 一預定範圍内。 定rl·如申請專利制第3項所述之電子裝置，其中該預 疋乾圍是小於1公厘。 μ i如申請專利麵第1項所狀電子裝置，其中該觸 二钬應平面與位於開口的邊緣之殼體實質上為共平面。 押十盈=%專利範圍第1項所述之電子裝置，其中該觸 工八4示器更包括： —顯示器，配置於該殼體内；以及 觸控感應裝置，配置於該顯示器上方，並位於該開 31 M333607 96-11-29 口内，且該觸控感應裝置具有該觸控感應平面，其中該顯 示器及該觸控感應裝置麵接至該處理器。 '、 7·如申請專利範圍第6項所述之電子裝置，其中該 控感應裝置依序包括： a ^ 一透明基板； 一第一導電膜； 至少一間隔物；M333607 96-11-29 IX. Scope of application: • An electronic device that does not interfere with touch sensing, including: a touch display, disposed in the opening for receiving an input, wherein the touch display 11 has a touch sensing plane, = a shouted sliding surface and a parent boundary of the housing; and a fine processor coupled to the touch display, wherein the processor determines & ~ Touch display H_ shows the interface of the viewer. 2. The electronic device of claim 1, wherein the method for determining a user interface displayed by the touch display comprises determining a type of the input tool and converting the corresponding type according to the type of the tool. user interface. (4) The electronic device of claim 1, wherein the height difference between the contact plane and the casing at the edge of the oscillating opening is within a predetermined range. The electronic device of claim 3, wherein the pre-drying circumference is less than 1 mm. μ i is the electronic device of claim 1, wherein the contact surface is substantially coplanar with the housing at the edge of the opening. The electronic device of the first aspect of the invention, wherein the touch device comprises: a display disposed in the housing; and a touch sensing device disposed above the display, and The touch sensing device has the touch sensing plane, and the display and the touch sensing device are connected to the processor. The electronic device of claim 6, wherein the control device comprises: a ^ a transparent substrate; a first conductive film; at least one spacer; 第二導電膜；以及 一保護層，具有一遮光物與該觸控感應平面。 8·如申請專利範圍第7項所述之電子裝置，其中該觸 控感應裝置更包括 、多個電極，貫穿該透明基板，並分別電性連接至該 一導電膜或該第二導電膜；以及 Λ 一軟性電路板，配置於該透明基板之一下表面上， 電性連接至該些電極與該處理器。a second conductive film; and a protective layer having a light shield and the touch sensing plane. The electronic device of claim 7, wherein the touch sensing device further comprises: a plurality of electrodes extending through the transparent substrate and electrically connected to the conductive film or the second conductive film respectively; And a flexible circuit board disposed on a lower surface of the transparent substrate and electrically connected to the electrodes and the processor. 並and 9·如申請專利範圍第8項所述之電子裝置，更包括一 塾片，配置於該些電極下方之該軟性電路板與該殼體之間。 10. 如申請專利範圍第6項所述之電子裝置，其中該殼 ，更具有-金屬片與多個接地端子，該金屬片位於該顯示 :的周圍的上方’而該些接地端子配置於該金屬片與該顯 示器之間’並電性連接該金屬片與該顯示器之間。 11. 如申請專利範圍第6項所述之電子 直 控感應裝聽括mMII。 置，、中 12. 如申請專利範圍第6項所述之電子裝置，其中該觸 32 M333607 96-11-29 控感應裝置包括_電容式感測器。 μ ^如巾請專利範圍第6項所述之電子裝置，其中該觸 I感應衣置包括二氩度處魏蓋。 14·如申請專利範圍第6項所述之電子， 控感應裝置紐1像擷取錢，㈣擷取包括該H 具之一影像。9. The electronic device of claim 8, further comprising a cymbal disposed between the flexible circuit board below the electrodes and the housing. 10. The electronic device of claim 6, wherein the case further has a metal piece and a plurality of ground terminals, the metal piece being located above the display: and the ground terminals are disposed on the A metal sheet is electrically connected between the metal sheet and the display. 11. The electronic direct-controlled sensing device described in item 6 of the patent application scope includes mMII. 12. The electronic device of claim 6, wherein the touch 32 M333607 96-11-29 control sensing device comprises a _capacitive sensor. The electronic device of claim 6, wherein the touch sensing device comprises a diga cover at a argon angle. 14. The electronic device as described in claim 6 of the patent application, the control device 1 is like drawing money, and (4) capturing an image including the H device. 15·如申請專利範圍第丨項所述之電子裝置，其中該輸 入工具包括觸控筆或使用者的手指。 /、 16· —種與殼體共平面的觸控感應之電子裝置，包括： 一殼體，具有一開口； 一觸控式顯示器，設置於該開口 Lx接收-輸入 工具的操作’其中該觸控式顯示器具有-觸控感應平面， 且該觸控感應平面與位於該開口的邊緣之該殼體實質上為 共平面；以及 、、 — 處理态，輕接至該觸控式顯示器，其中該處理器決 定該觸控式顯示器所顯示的使用者介面。The electronic device of claim 2, wherein the input tool comprises a stylus or a user's finger. /, 16------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- The control display has a touch-sensing plane, and the touch-sensing plane is substantially coplanar with the housing at the edge of the opening; and, the processing state, is lightly connected to the touch display, wherein The processor determines the user interface displayed by the touch display. 17·如申凊專利範圍第16項所述之電子裝置，其中該 處理器決定該觸控式顯示器所顯示的使用者介面之方法包 括該處理H骑該輸人工具的種類，並根據卫越類的不 同來轉換對應的使用者介面。 、 18·如申請專利範圍第17項所述之電子裝置，其中該 觸控式顯示器更包括： 一顯示器，配置於該殼體内；以及 一觸控感應裝置，配置該於該顯示器上方，並位於該 33 M333607 96-11-29 開口内上方，且該觸控感應裝置具有該觸控感應平面，其 中該顯示器及該觸控感應裝置耦接至該處理器。 19·如申讓農利農圍 觸控感應裝置依序包括·· 〜 一透明基板； 一第一導電膜； 至少一間隔物； 一第二導電膜；以及 一保護層，具有一遮光物與該觸控感應平面。 20·如申明專利範圍第I9項所述之電子震置，立中該 觸控感應裝置更包括·· 〃The electronic device of claim 16, wherein the method for determining, by the processor, the user interface displayed by the touch display comprises: processing the type of the H riding device, and according to Wei Yue The difference in class to convert the corresponding user interface. The electronic device of claim 17, wherein the touch display further comprises: a display disposed in the housing; and a touch sensing device disposed above the display, and The touch sensing device has the touch sensing plane, and the display and the touch sensing device are coupled to the processor. 19. If the Shennong Non-Nongwei touch sensing device comprises: a transparent substrate; a first conductive film; at least one spacer; a second conductive film; and a protective layer having a light shield and The touch sensing plane. 20·If the electronic vibration device described in item I9 of the patent scope is claimed, the center of the touch sensing device further includes·· 22·如申請專利範圍第18項所述之 殼體更具有—金屬片與“Μλ山7 示器的周圍的上方 殼體更具有一22. The casing as described in claim 18 has a metal sheet and an upper casing surrounding the "Μλ山7" 電子裝置，其中該 該金屬片位於該顯 …么三牧吧喁于配置於該金屬片與該 示器之間。The electronic device, wherein the metal piece is located between the metal piece and the display device. 圍第18項所述之電子裝置，其中該 34 96-11-29 M333607 24. 如申請專利範圍第18項所述之電子裝置，其中該 觸控感應裝置包括一電容式感測器。 25. 如申諳專利範圍第18項所述之電子裝置，其中該 觸控感應裝置包括一溫度感測器。 26. 如申請專利範圍第18項所述之電子裝置，其中該 觸控感應裝置包括一影像擷取裝置，用以擷取包括該輸入 工具之一影像。 27. 如申請專利範圍第16項所述之電子裝置，其中該 輸入工具包括觸控筆或使用者的手指。 28. —種無障礙觸控感應之電子裝置，包括： 一殼體，具有一開口； 一觸控式顯示器，設置於該開口内，用以接收一輸入 工具的操作，其中該觸控式顯示器具有一觸控感應平面， 且該輸入工具能不受阻擋的滑過該觸控感應平面與該殼體 之交界處；以及 一處理器，耦接至該觸控式顯示器，用以判斷該輸入 工具的種類。 29. 如申請專利範圍第28項所述之電子裝置，其中該 處理器更包括根據工具種類來決定該觸控式顯示器所顯示 的使用者介面。 30. 如申請專利範圍第28項所述之電子裝置，其中該 觸控感應平面與位於該開口的邊緣之該殼體之間的高度差 在一預定範圍内。 31. 如申請專利範圍第30項所述之電子裝置，其中該 35 M333607 96-11-29 預疋範圍是小於1公厘。 32.如申請專利範圍第28項所述之電 觸控，應平面與位於開σ的邊緣 該 ，青專利範圍第28項所述之電= 觸控式顯示器更包括： ，、中忒 二顯示器，配置於該殼體内；以及 觸控感應裝置，配置於今顯千哭 、，The electronic device of claim 18, wherein the electronic device of claim 18, wherein the touch sensing device comprises a capacitive sensor. 25. The electronic device of claim 18, wherein the touch sensing device comprises a temperature sensor. 26. The electronic device of claim 18, wherein the touch sensing device comprises an image capturing device for capturing an image comprising the input tool. 27. The electronic device of claim 16, wherein the input tool comprises a stylus or a user's finger. 28. An electronic device for barrier-free touch sensing, comprising: a housing having an opening; a touch display disposed in the opening for receiving an operation of an input tool, wherein the touch display Having a touch sensing plane, and the input tool can slide unimpeded across the interface between the touch sensing plane and the housing; and a processor coupled to the touch display for determining the input The type of tool. 29. The electronic device of claim 28, wherein the processor further comprises determining a user interface displayed by the touch display based on the type of tool. 30. The electronic device of claim 28, wherein a difference in height between the touch sensing plane and the housing at an edge of the opening is within a predetermined range. 31. The electronic device of claim 30, wherein the 35 M333607 96-11-29 pre-twist range is less than 1 mm. 32. The electric touch as described in claim 28 of the patent application, the plane and the edge located at the opening σ, the electric=touch display according to item 28 of the patent scope further includes: , the middle two display , disposed in the housing; and the touch sensing device, configured in the present, crying, 控感應裝置具有該觸控感應平面亚 不錢_控感應裝置_域處理器。 节袖 34.如申凊專利範圍第幻^ ^ ^ ^ 觸控感應裝置依序包括： ^ d衣置，其中該 一透明基板； 一第一導電膜； 至少一間隔物； 弟一導電膜；以及The control sensing device has the touch sensing plane, the control device, and the domain processor. Sleeve 34. The application of the touch range of the invention is as follows: ^ d clothing, wherein the transparent substrate; a first conductive film; at least one spacer; a conductive film; as well as 一保護層，具有一遮光物與該觸控感應平面。 35·如申請專利範圍第34項所述之電子裝置，其中該 觸控感應裝置更包括·· ^ ^ 夕個電極，貫穿該透明基板，並分別電性連接至該第 一導電膜或該第二導電膜；以及 ^ 一軟性電路板，配置於該透明基板之一下表面上，並 電性連接至該些電極與該處理器。 36·如申請專利範圍第35項所述之電子裝置，更包括 一墊片，配置於該些電極下方之該軟性電路板與該殼體之 36 M333607 96-11-29 間。 殼體所狀電子裝置，其中該 顯示器之門並^二該些接地端子配置於該金屬片與該 性連接該金屬片與該顯示器之間。 觸控•壯二專:範圍第33項所述之電子裝置，其中該 这應衣置包括一電阻式感測器。 觸控33項所述之電子裝置，其中該 ‘次應衣置包括—電容式感測器。 觸控^申^^範圍第33項所述之電子裝置，其中該 為應衣置包括一溫度感測器。 41·如申凊專利範圍第33項所述命狀 觸控感應装置包括一 电衣置，/、中該 工具之-影像。置，用以擷取包括該輸入 42.如申請專魏圍第28項所述之電子裝置，盆中該 别入工具包括觸控筆或使用者的手指。 與殼體共平面的她絲之電子裝置，包括： Λ又體，具有一開口； 工式顯示器，設置於該開叫，用以接收一輸入 且今觸二^其中該觸控式顯示器具有-觸控感應平面， 平面與位於該開口的邊緣之該殼體實質上為 =理n，_至該·式顯· 入 工具的種類。 37 M333607 96-11-29 44.如申請專利範圍第43項所述之 處理器更包括根據工具種類來決定該觸控‘Ϊ哭= 的使用者介面。 η 工式顯不态所顯不 如申叫專利範圍弟43項所述之電子穿詈 觸控式顯示器更包括： 計衣置，其中該 一顯示器，配置於該殼體内；以及 一觸控感縣置，配置於該顯㈣切 。内’且該觸控感應裝置具有該觸控感應平面，二： 不器及該觸控感應裝置耦接至該處理器。 。心、員 46. 如申請專利範圍第μ項所述之電子裝置， 觸控感應裝置依序包括·· /、中忒 一透明基板； 一第一導電膜； 至少一間隔物； 一第二導電膜；以及 一保護層，具有—遮光物與該觸控感應平面。 47. 如申請專職目第46項所述 觸控感應裝置更包括： 置八中該 -導貫^透縣板，並分別電性連接至該第 膜或该弟二導電膜；以及 -軟性電路板，配置於該透縣板之—下 電性連接至該些電極與該處理器。 W 48. 如申明專利範圍第47項所述之電子裝置，更包括 一塾片，配置於該些電極下方之該軟性電路板與該殼體之 38 96-11-29 M333607 間。 49. 如申請專利範圍第45項所述之電子裝置，其中該 殼體更具有一金屬片與多個接地端子，該金屬片位於該顯 示器的周圍的上方，而該些接地端子配置於該金屬片與該 顯示器之間，並電性連接該金屬片與該顯示器之間。 50. 如申請專利範圍第45項所述之電子裝置，其中該 觸控感應裝置包括一電阻式感測器。 51. 如申請專利範圍第45項所述之電子裝置，其中該 觸控感應裝置包括一電容式感測器。 52. 如申請專利範圍第45項所述之電子裝置，其中該 觸控感應裝置包括一溫度感測器。 53. 如申請專利範圍第45項所述之電子裝置，其中該 觸控感應裝置包括一影像擷取裝置，用以擷取包括該輸入 工具之一影像。 54. 如申請專利範圍第43項所述之電子裝置，其中該 輸入工具包括觸控筆或使用者的手指。 39A protective layer has a light shield and the touch sensing plane. The electronic device of claim 34, wherein the touch sensing device further comprises a plurality of electrodes extending through the transparent substrate and electrically connected to the first conductive film or the first And a flexible circuit board disposed on a lower surface of the transparent substrate and electrically connected to the electrodes and the processor. 36. The electronic device of claim 35, further comprising a spacer disposed between the flexible circuit board under the electrodes and 36 M333607 96-11-29 of the housing. The electronic device of the housing, wherein the door of the display is disposed between the metal piece and the metal piece and the display. The electronic device described in the above paragraph 33, wherein the device comprises a resistive sensor. The electronic device of claim 33, wherein the ‘secondary clothing comprises a capacitive sensor. The electronic device of claim 33, wherein the device comprises a temperature sensor. 41. The life touch sensing device according to item 33 of the patent application scope includes an electric clothes set, and an image of the tool. The device for extracting includes the input. 42. If the electronic device described in claim 28 is applied, the accessory tool in the basin includes a stylus or a user's finger. An electronic device of her wire coplanar with the housing, comprising: a body having an opening; a work display disposed at the opening for receiving an input and touching the touch device, wherein the touch display has - The touch sensing plane, the plane and the casing located at the edge of the opening are substantially the type of the tool. 37 M333607 96-11-29 44. The processor of claim 43 further includes a user interface for determining the touch Ϊ crying according to the type of tool. η 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式 式County set, configured in the display (four) cut. The touch sensing device has the touch sensing plane, and the touch sensing device is coupled to the processor. . 46. The electronic device according to the invention of claim 5, wherein the touch sensing device comprises a transparent substrate in the middle of the film, a first conductive film, at least one spacer, and a second conductive device. a film; and a protective layer having a light shield and the touch sensing plane. 47. The application of the touch sensing device according to item 46 of the special purpose item further comprises: placing the eight-station-conducting plate and electrically connecting to the first film or the second conductive film respectively; and - the flexible circuit The board is disposed on the through-counter board - electrically connected to the electrodes and the processor. W 48. The electronic device of claim 47, further comprising a cymbal disposed between the flexible circuit board under the electrodes and 38 96-11-29 M333607 of the housing. 49. The electronic device of claim 45, wherein the housing further has a metal piece and a plurality of grounding terminals, the metal piece is located above the display, and the grounding terminals are disposed on the metal The sheet is electrically connected between the metal sheet and the display. 50. The electronic device of claim 45, wherein the touch sensing device comprises a resistive sensor. The electronic device of claim 45, wherein the touch sensing device comprises a capacitive sensor. 52. The electronic device of claim 45, wherein the touch sensing device comprises a temperature sensor. The electronic device of claim 45, wherein the touch sensing device comprises an image capturing device for capturing an image comprising the input tool. 54. The electronic device of claim 43, wherein the input tool comprises a stylus or a user's finger. 39