201020876 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種電子裝置以及相適應的觸控輸入方 法’且特別是有關於一種具有觸控輸入功能的電子裝置及其 觸控輸入方法。 【先前技術】 隨著技術發展,目前常見的電子裝置已邁入薄型化且輕 ❿ 量化的時代,例如:行動通訊裝置(mobile communication device)、個人數位助理(personai digital assistant,PDA)、筆記 型電腦(notebook computer)等,為符合可攜式與高機動性的趨 勢’盡可能設計更小更輕薄的款式。因應上述的趨勢,搭配 使用或設置於電子裝置上的輸入模組’也必須發展出精簡且 便於使用的版本。 目前一種普遍使用輸入裝置為標準鍵盤(107鍵標準鍵 盤),其總共具有一百零七個不同的按鍵以對應不同的輸入。 然而,直接將這種鍵盤設置在可攜式電子裝置上,在有限的 ® 空間裡要區分出如此多的按鍵,會使單一按鍵過小且難以操 作。 請參閱圖一」其繪示先前技術中一種常見於行動通訊裝 置的輸入鍵盤之示意圖。如圖一所示,鍵盤上上之按鍵係 以一標準電話形式(standard telephone set)的次戽排列。當#用 者欲輸入英文字母時,其必須先找出所==文^ 於哪個按鍵10上’之後再依據英文字母於按鍵1〇上之先後 次序’按壓該按鍵1〇 —到數次,方完成該英文字母之輸入。 舉例而έ,當使用者欲輸入英文字母”z”時,其必須按壓 5 201020876 對應數字”9”的按鍵1〇四次,以& 使用者不小心多按-次,貝二==字母”z”的輸入’若 英文字母”z”的輸人,常常造成二二按二次,才得以完成 鍵U)雖不致於太小,作吊^=者輪入時的不便。這種按 =’導致輸入效率不佳,且不;同 其他文字的輸人’ _物齡驟,造成朗/不方便予或 ❹ 輪人裝置為觸控面板(祕_,廣 WiqUid C^Stal disP^ LCD); 舆觸r板的裝置又稱 位;::二觸實控二:\根用據:界碰觸之位置’定 入A際應用時,使用者可用觸控筆執行輸 ’如圖一所不’使用者循一接觸路徑22碰觸觸控面板% ^不同位置,觸控面板20產生許多接觸點24之訊號,隨後 ^些訊舰行運算_,計算得出輸人制_、26 ,此輸入^ 、26可近似使用者實際的接觸路徑η。再將此輸入軌跡% 。預設輸人進行比對,如圖二所示’輸人輪26可對應到英 文字母’’S” ’則得知使用者欲輸入,,s”。 田以這種觸^面板20進行輸入,好處在於觸控面板2〇可 重豐於液晶顯示屏幕的表面,進而省下於行動通訊裝置2上 額外设置輸入模組的面積。然而,為避免輸入軌跡%與使用 者實際的接觸路徑22之間產生失真,接觸點24需頻繁地取 樣、大里的接觸點24賀sfL需要二次維度(tw〇 dimensions)方向 ,算判斷,使這種輸入方式產生大量的運算處理程序造成訊 號處理上的負荷。另一方面,若使用較少的接觸點24進行判 斷以加快運算,則可能使輸入軌跡26過於粗糙,導致比對的 辨識率下降。此外,這種觸控面板2〇於實際操作時,通常需 201020876 ^兩起操作(―手扶持,另—手輸人),即便可 ,’、可旎使得手指遮蔽使用者的視線。 呆 圖:Hi 動^訊裝置的輸人裝置,請參閱圖三。 ^了::=先刚技術中行動通訊裝置3之示意圖。如圖三 動Ϊ訊裳置3具有複數個按鍵30,該等按鍵30可為 走鈕式等等不同形式,雖然其所佔面積不大,:Ϊ 源Fifn輪犯’有限。於實際應用中,通常僅作為電 播里碰、通話接通或掛斷等用途,若侧於音樂 播放窃(如^Od)之應用勉強足夠,但因盔法執 、 不足應付繁雜舰的可攜式裝置(如智_手^)歧子輸入, $明提出—種具有觸控輸人功能的電子裝置以及觸控 i及可斜J較小的m積達成高辨識率、低運算處理需 、心夕種輸入需求且方便使用的輸入功能,以解決上 遂問題。 【發明内容】 本發明之一範疇在於提供一種具有觸控輸入功能之電子 :# 1·!電子裝置包含處理模組以及複數個觸控式感測區段。 处杈組分別與每一觸控式感測區段電性連接。 、查姨根?—具體實施例’觸控式感測區段之間係、彼此相鄰且 π地設置,該等觸控式感測區段排列而形成一特定圖形(例 笙Ξ格形狀)’當使用者以手指或觸控物體(如觸控筆)接觸該 控式感測區段(例如以滑動方式輕觸各區段表面),該接 形成-接觸路徑。觸控式感泰段感職接觸,並根據接 =接觸路徑產生相對應之輸入信號,傳送到處理模組。其 號根據接觸所經過之區段編號以及移動方向而產 ’可對應到使用者實際的接觸路徑,藉以達成觸控輸入功 7 201020876 能0 之另—範疇在於提供一種觸控式輸入方法,應用 區地3控式感測區段之一種電子裝置,觸控式感測 人二地δ又置以形成特定圖形(例如網格形狀),該方法包 二f: 當該等觸控式感測區段感測到接觸時,根據 操作功沪。路杈產生輸入信號;以及作)執行對應輸入信號之 ❹ 萨法在步驟⑻之後’可進-步比賴輸入信號與 或數字之筆劃,當比對相符時,即執行步驟作), 疋成該文子或數字的輸入功能。 技術,本發明中具有觸控輸人功能之電子裝置 按入方法,以滑動觸控方式進行輸入,比起按壓 便且更直覺’不需要刻意學習。其中每一觸控 面板(如iPh〇ne的b寸多S控Ϊ f) ’ 個小_控面板之成本較低且較不耗電。於本發 ί用面板可躺其是碰按㈣產生不同的編 J用2應輸入功能,其訊號十分簡單易於運算處理。此 卜r實施例中’每一觸控面板可進一步感測一次維度(。批 =η:η)的移動方向’藉以對應更多樣化的輸入,此 式辨識容易且具理論值為百分之百的辨識率。此F 由該等觸控式感測區段組成之觸控網格可僅用一 可達成多樣化的輸人需求。本發明提出之觸控輸^ 置以及馳式輸人方法可作為高觸率、低運算 處理為求、可對應多種輪人魏且方便使關觸控輸》。 8 201020876 【實施方式】 具體實施例中電子裝置5之示咅圖=、、、日,據本發明之一 面5〇之示意圖。圖六繪示圖四;示圖四中=介 如圖四所示,電子裝置5可=2置二之功能方二鬼圖。 機),但不以此為限。Μ仃動通«置(如智慧型手 如圖五及圖六所示,電子奘罟ςBACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic device and a suitable touch input method, and more particularly to an electronic device having a touch input function and a touch input method thereof. [Prior Art] With the development of technology, the current common electronic devices have entered the era of thinning and gradual quantification, such as: mobile communication device, personal digital assistant (PDA), notebook type Notebook computers, etc., in order to meet the trend of portable and high mobility, try to design smaller and lighter models as much as possible. In response to the above trend, the input module used in conjunction with or disposed on the electronic device must also develop a compact and easy-to-use version. A commonly used input device is a standard keyboard (107-key standard keyboard), which has a total of one hundred and seven different keys to correspond to different inputs. However, by directly placing this keyboard on a portable electronic device, distinguishing so many buttons in a limited ® space makes a single button too small and difficult to operate. Referring to FIG. 1 , a schematic diagram of an input keyboard commonly used in mobile communication devices in the prior art is shown. As shown in Figure 1, the keys on the keyboard are arranged in a standard telephone set. When #user wants to input English letters, it must first find out which == text ^ on which button 10' and then press the button 1〇-to several times according to the order of the English letters on the button 1〇, The party completes the input of the English letter. For example, when the user wants to input the English letter "z", he must press 5 201020876 corresponding to the number "9" button 1 〇 four times to & the user accidentally presses - times, the second two == letters The input of "z", if the English letter "z" is input, often causes the second or second to press twice, but the key U) is not too small, and it is inconvenient for the person to hang. This type of pressing '' leads to poor input efficiency, and no; the same as other characters' input' _ age, causing lang/inconvenient or ❹ wheeled device as touch panel (secret _, wide WiqUid C^Stal disP^ LCD); The device that touches the r plate is also called the position;:: The two-touch real control two: \The root is used: the position of the touch touches 'When the A-type application is determined, the user can use the stylus to perform the loss' As shown in FIG. 1 , the user touches the touch panel % ^ different positions according to a contact path 22 , and the touch panel 20 generates a plurality of signals of the contact points 24 , and then some of the signals are calculated _, and the input system is calculated. _, 26, this input ^, 26 can approximate the actual contact path η of the user. Then enter this track %. The default input is compared. As shown in Fig. 2, the input wheel 26 can correspond to the English letter ''S'' and the user wants to input, s". The input of the touch panel 20 is advantageous in that the touch panel 2 can be used to reproduce the surface of the liquid crystal display screen, thereby saving the area of the input communication module additionally provided on the mobile communication device 2. However, in order to avoid distortion between the input track % and the actual contact path 22 of the user, the contact point 24 needs to be frequently sampled, and the contact point 24 of the large one needs sfL to require a secondary dimension (tw〇dimensions) direction, and the judgment is made. This type of input method produces a large number of arithmetic processing programs that cause load on the signal processing. On the other hand, if a smaller number of contact points 24 are used for the judgment to speed up the calculation, the input trajectory 26 may be made too rough, resulting in a decrease in the recognition rate of the comparison. In addition, when the touch panel 2 is actually operated, it usually needs to operate in 201020876 ^ (hand support, and other hand input), even if it can, the finger can shield the user's line of sight. Stay in the picture: Hi input device of the mobile device, please refer to Figure 3. ^了::=The schematic diagram of the mobile communication device 3 in the technology. As shown in Fig. 3, the mobile phone set 3 has a plurality of buttons 30, and the buttons 30 can be in different forms such as a button type, and although the area is small, the Fifn wheel is limited. In practical applications, it is usually only used as a telescope, call-on or hang-up. If the application is not enough for music playback (such as ^Od), it is not enough for the helmet to handle the complicated ship. Portable device (such as Zhi _ hand ^), the input of the device, $ Ming proposed - an electronic device with touch input function and the small m of the touch i and the oblique J to achieve high recognition rate, low arithmetic processing needs The heart and the evening input and demand-friendly input functions to solve the problem. SUMMARY OF THE INVENTION One aspect of the present invention is to provide an electronic device having a touch input function: #1·! The electronic device includes a processing module and a plurality of touch sensing sections. The group is electrically connected to each of the touch sensing sections. In the embodiment, the touch sensing sections are arranged adjacent to each other and are arranged in a π manner, and the touch sensing sections are arranged to form a specific pattern (for example, a grid shape) When the user touches the controlled sensing section with a finger or a touch object (such as a stylus) (for example, slidingly touching the surface of each section), the connection forms a contact path. The touch-sensitive sensory contact is touched, and the corresponding input signal is generated according to the contact path, and is transmitted to the processing module. The number is based on the segment number and the moving direction of the contact, which can correspond to the actual contact path of the user, thereby achieving the touch input function. The other is to provide a touch input method, application. An electronic device of the ground-based three-control sensing section, wherein the touch-sensing sensor δ is further disposed to form a specific graphic (for example, a mesh shape), and the method includes two: f: when the touch sensing When the section senses the contact, it depends on the operation. The switch generates an input signal; and performs a corresponding input signal. After the step (8), the input signal can be compared with the input signal and the stroke of the number. When the comparison is matched, the step is performed. The input function of the text or number. The technology of the present invention has an electronic device with a touch input function, and the input method is input by sliding touch, which is more intuitive than pressing and does not require deliberate learning. Each of the touch panels (such as iPh〇ne's b-inch multi-S control Ϊ f) ’ small _ control panel is less expensive and consumes less power. In the present invention, the panel can be used for lying down. It is a touch (4) to generate different functions. The input function is 2, and the signal is very simple and easy to operate. In this embodiment, each touch panel can further sense the moving direction of the primary dimension (. batch = η: η) to correspond to a more diverse input, which is easy to identify and has a theoretical value of one hundred percent. Identification rate. The touch grid composed of the touch sensing sections can use only one to achieve diverse input requirements. The touch input device and the chisel input method proposed by the invention can be used as high-touch rate and low-calculation processing, and can be used for a variety of rounds and convenient for touch-off. 8 201020876 [Embodiment] A schematic diagram of an electronic device 5 in the specific embodiment is shown in Fig. =, , and day, according to one aspect of the present invention. Figure 6 shows Figure 4; Figure 4 shows that, as shown in Figure 4, the electronic device 5 can be set to 2. Machine), but not limited to this. Μ仃动通«定(如智慧手Figure 5 and Figure 6, electronic 奘罟ς
區段s以及處理模組52。每44力:户個觸控式f則Section s and processing module 52. Every 44 forces: household touch f
IV 面5〇。該輸入介面50設置於電子裝置5 ^有獅删順/==== 3Γ:=ίί觸控網格上沿著各個觸控式感測區段 如圖六所示,於實際應用中,電子裝置5可 54、顯示模組56以及通訊模組58。記憶模組54、 顯不模組56以及通訊模組58皆分別與處理模組52 接。 < 請-併參閱圖七。圖七繪示圖五中十二個觸控式感測區 奴予以編號後(S1〜S12)之示意圖。如圖七所示,本實施例 中’十二個觸控式感測區段(S1〜S12)係彼此首尾相鄰,、^二 個觸控感測區段本身可為獨立的一個長條型的觸控面板或接 觸感測元件,但其形狀不以長條型為限。觸控式^測區》执 置於電子裝置表面上,彼此間的設置位置具有—二姆二 9 201020876 觸控式感測區段可根據其相對位置給定一個區段編號,如圖 七所示。例如於此實施例中,由上至下、由左至右依次為觸 控式感測區段S1至觸控式感測區段sl2,共十二個觸控式感 測區段。該等區段編號之定義方法可根據系統或使用者之設 定根據使用情境而有所調整,不受限為本實施例中舉例之循 序定義方法。 其中觸控式感測區段si、S2、S6、S7、S11以及S12為 水平設置,當使用者輕觸滑過時,這六個觸控式感測區段除 了能感測到使用者是否接觸之外,這些水平設置的觸控式感 測區段SI、S2、S6、S7、S11以及S12可進一步根據該接觸 之移動方向產生前進信號或後退信號,於此實施例中,當使 用者之接觸為第一方向(由左至右)移動時產生前進信號;反 之,若為相反的第二方向(由右至左)時則產生後退信號。於 此實施例中,該等長條狀的觸控式感測區段可進行一次維度 之方向感測,前進/後退信號僅需二分法之判斷,信號產生十 分簡單快速。 另一方面,觸控式感測區段S3、S4、S5、S8、S9以及 S10為垂直設置。相同地,這些垂直設置的觸控式感測區段 S3、S4、S5、S8、S9以及S10亦可進一步根據使用者接觸的 移動方向產生前進信號或後退信號,於此實施例中,當使用 者之接觸為第三方向(由上至下)移動時,這六個觸控式感測 區段產生前進信號;反之,若為第四方向(由下至上)時則產 生後退信號。其產生之方法與前述相似,在此不另贅述。 其中上述第一、第二、第三及第四方向之定義以及觸控 式感測區段排列之角度(亦可為右上左下、左上右下或各種角 度之斜線)可視應用情境由系統或使用者自行決定’不受限於 本實施例之舉例。 10 201020876 於此實施例中’當使用者觸控輸入時,受接觸之觸控式 感測區段感測該接觸,並根據接觸之接觸路徑產生輸入信號 至處理模組。其中,需注意的是,輪入信號係根據接觸所經 過之觸控式感測區段的區段編號以及經過觸控式感測區段上 的移動方向(前進/後退信號)而產生。 4 請參閱圖六以及圖八。圖八繪示圖六中十二個觸控式感 測區段s感測接觸路徑p之示意圖。如圖八所示,當使用者 欲輸入數字”2” ’使用者可用手指或觸控筆等物體延^接觸路 位P以滑動方式接觸該等觸控式感測區段s。此時,觸控式 ❹ 感測區段S2、S5、S7、S9以及S12依序感測到該接觸。其 =觸控式感測區段S2、S5、S9、S12分別送出區段編號以及 前進信號;觸控式感測區段S7送出區段編號以及後退信號。 上述產生之共五組區段編號以及前進/後退信號即作為^輸入 信號。此輸入信號之產生處理程序相當簡單,且可準確對應 使用者實際觸控之接觸路徑P。 ‘ 請參閱圖六以及圖九。圖九繪示圖六中十二個觸控式感 測區巧S感測接觸路徑P,之示意圖。如圖九所示,使^者^ 輸入英文文字”e” ’使用者延著接觸路徑P,接觸。觸控式感測 〇 區段S6、S4、S1、S3、%以及S11依序感測到該接觸%亥 等觸控式感測區段S可產生對應到接觸路徑p的輪入俨號, 而該輸入信號可對應到一文數字輸入功能。 ϋ ;b 由上述操作實例可知,本發明之電子裝置可處理的接 路徑包t了對應到數字或文字等兩種形式,但不限於*** 數字或英文字母,亦可透過接觸路徑之不同組合對應到更廣 泛的應用,例如各國文字以及羅馬數字等。 “ ’、 另一方面,根據另一具體實施例,對應該接觸路徑產生 之輸入信號所代表之意義亦可為系統或使用者設定的其他功 11 201020876 Ϊ隹例如手機鍵盤鎖、密碼鎖、電源開關、方向鍵或遊戲搖 才干荨,端視電子裝置對該輸入信號之判斷而決定。 於此實施财,該接觸路徑可制 徑,而該輸入信號對應到一應用操作功能。電 憶模組54可儲存有包含該應用操作 料 ^己 =義:徑之資料庫中定義了不同的輸=代= 動t卿應到-個指令、文字輸入、 舉例而言,請參關六以及圖十。圖场 = 感,觸路徑P”之示意圖。本實施例ί 電子裂置5疋義以順時針方向接觸輸介 彻增: 細錢者沿逆時針方向接觸輸μ 入取卜圈,方祕鎖’透過上述機制,可利用本發明之 輸入;丨面50形成觸控式的裝置鎖,可廣 當,可利用觸控式感測區段S的各種===性 的裝置密碼鎖。 7风叉/、女王I·生 ❹ 中的^^接㈣輸人信號後’可根據記憶模組54 52= -tt義Ϊ從對輸入信號進行判斷。隨後處理模組 52可執订相對應之操作功能’例如上述的裝置鎖功能。 該輸入信號對應的應用操作定義路徑 :送出求救簡訊指令。則該則處理模組52 == 例如處理模組52可透過通訊模組58以通 訊方式發迗求救簡訊。 < -文可進一步比對該輸入信號與代表 w ’處理模組52可根據當時之使用狀態將該 12 201020876 文字顯示於顯示模組56上或透過通訊模組58發送該文字。 一如圖六所示,於本實施例中,電子裝置5可進—步包含 光線產^模組60以及聲音產生模組62。於此實施例中,光 ,,生拉組60以及聲音產生模組62分別與處理模組&電性 連接。 、口 =此實施例t,當使用者透過輸入介面5〇上的觸控式感 進行觸控輸人時’處理模組52可驅動光線產生模組 ❹ ❹ ^光線,該光線可投射於電子裝置5之不同部位,例如 5的表面、觸控式感測區段s或顯示模組%上。於 中’光線可進—步沿著該接觸之接觸路徑投射, 並產生對應使用者輸入之光線視覺效果。 當使用者透過輸入介面5〇上的觸控式感測區 丁觸ί輸入時,處理模組52可驅動聲音產生模組62 生聲ί:於iii生模組62可用於對應使用者是否接觸而產 觸路實施财,鱗音可進—步對應該接觸之接 鎖定Ρ入a*款如當使用者之接觸路徑經處理模組判斷為 續推二二n生模組62可發出,,裝置已鎖定,,之聲響, 讓使用者更讀了解電子裝置5之使用狀態。 慼測= ===如圖五所示),觸控式 s可排列我夂括回型排列為主要舉例,但觸控式感測區段 ^例如將田字型加以複雜化延伸之各種 複數侧控式感測區段s之排歹Ιί用/為本發1月進之一範步峰加上 例中ίίΖ ί〇—之^一 據本發明之另-具艘實施 輸入介面70 圖。如圖十一所不,於此實施例中, 粉丨面70由十二個觸控式感測區段S,排列形成。與先前之 13 201020876 ,施例不同之處在於,輸人介面7G進—步包含四個 71,为別設置於十二個觸控式感測區段s,之間。按鍵7ι鱼 理撫組(未齡)電性連接且可健独執行輸人魏。二= ^例中之其他結構與先前實補之敘敍致相同,在^ 賢述。 麵式之滅鍵或電子紅細鍵。按鍵 71可配合觸控式感樞段s观之觸控輸人使用, 方^更快捷的輸人魏。於行動通默實際顧巾,按鍵^IV face 5〇. The input interface 50 is disposed on the electronic device 5 ^ has a lion cut/==== 3Γ:= ίί touch grid along each touch sensing section as shown in Figure 6, in practical applications, electronics The device 5 can be 54 , the display module 56 and the communication module 58 . The memory module 54, the display module 56, and the communication module 58 are respectively connected to the processing module 52. < Please - see Figure 7. FIG. 7 is a schematic diagram showing the twelve touch sensing regions in FIG. 5 after the slaves are numbered (S1 to S12). As shown in FIG. 7 , in the embodiment, the twelve touch sensing sections (S1 to S12) are adjacent to each other, and the two touch sensing sections themselves may be independent strips. Type of touch panel or contact sensing element, but its shape is not limited to the long strip type. The touch-sensitive ^ test area is placed on the surface of the electronic device, and the position between them is set to - two and two 9 201020876. The touch-sensing section can be given a section number according to its relative position, as shown in Figure 7. Show. For example, in this embodiment, from top to bottom, from left to right, the touch-sensitive sensing section S1 to the touch-sensing section sl2 have twelve touch sensing sections. The method for defining the segment numbers may be adjusted according to the usage scenario according to the system or user settings, and is not limited to the sequence definition method exemplified in the embodiment. The touch sensing sections si, S2, S6, S7, S11, and S12 are horizontally disposed. When the user touches and slides over, the six touch sensing sections can sense whether the user touches. In addition, the horizontally-configured touch sensing sections SI, S2, S6, S7, S11, and S12 may further generate a forward signal or a back signal according to the moving direction of the contact. In this embodiment, when the user The forward signal is generated when the contact moves in the first direction (from left to right); conversely, if it is in the opposite second direction (from right to left), a back signal is generated. In this embodiment, the strip-shaped touch sensing sections can perform direction sensing of one dimension, and the forward/backward signals only need to be judged by a dichotomy, and the signals are generated in a simple and fast manner. On the other hand, the touch sensing sections S3, S4, S5, S8, S9, and S10 are vertically disposed. Similarly, the vertically disposed touch sensing sections S3, S4, S5, S8, S9, and S10 may further generate a forward signal or a back signal according to the moving direction of the user contact. In this embodiment, when used The six touch sensing sections generate a forward signal when the contact is moved in the third direction (from top to bottom); conversely, if it is the fourth direction (from bottom to top), a back signal is generated. The method for generating the same is similar to the foregoing, and will not be further described herein. The definitions of the first, second, third, and fourth directions and the angles of the touch sensing segments (which may also be upper right lower left, upper left lower right, or various angles) may be visually applied by the system or used. It is self-determining 'not limited to the examples of this embodiment. 10 201020876 In this embodiment, when the user touches the input, the contacted touch sensing section senses the contact and generates an input signal to the processing module according to the contact path of the contact. It should be noted that the wheeling signal is generated according to the segment number of the touch sensing segment through which the contact passes and the moving direction (forward/backward signal) on the touch sensing segment. 4 See Figure 6 and Figure 8. FIG. 8 is a schematic diagram showing the sensing contact path p of the twelve touch sensing sections s in FIG. As shown in FIG. 8, when the user wants to input the number "2"', the user can contact the touch sensing section s in a sliding manner with an object such as a finger or a stylus. At this time, the touch-sensitive sensing sections S2, S5, S7, S9, and S12 sequentially sense the contact. The touch sensing sections S2, S5, S9, and S12 respectively send out the segment number and the forward signal; the touch sensing section S7 sends the segment number and the back signal. The total of five sets of segment numbers and forward/backward signals generated as described above are used as ^ input signals. The input signal generation processing program is relatively simple and can accurately correspond to the contact path P of the user's actual touch. ‘ Please refer to Figure 6 and Figure 9. FIG. 9 is a schematic diagram showing the touch sensing path P of the twelve touch sensing regions in FIG. As shown in Fig. 9, the user enters the English character "e" ’ user and contacts the contact path P. The touch sensing sections S6, S4, S1, S3, %, and S11 sequentially sense that the touch sensing section S such as the contact % Hai can generate a rounding nickname corresponding to the contact path p. The input signal can correspond to an alphanumeric input function. ϋ ; b According to the above operation example, the electronic device can process the connection path packet to two forms, such as numbers or characters, but is not limited to Arabic numerals or English letters, and can also correspond to different combinations of contact paths. To a wider range of applications, such as national texts and Roman numerals. "On the other hand, according to another embodiment, the meaning of the input signal generated corresponding to the contact path may also be other functions set by the system or the user. 11 201020876 Ϊ隹 For example, a mobile phone keypad lock, a combination lock, a power supply The switch, the direction key or the game shake is dry, and the end view electronic device determines the judgment of the input signal. In this implementation, the contact path can be made to be diameter, and the input signal corresponds to an application operation function. 54 can be stored with the application operating material ^ = = meaning: the diameter of the database defines a different input = generation = move t Qing should go to - an instruction, text input, for example, please refer to the six and Figure ten Figure field = sense, touch path P" schematic. In this embodiment, the electronic splicing 5 疋 以 以 以 以 以 以 顺 顺 顺 顺 顺 顺 顺 顺 顺 顺 顺 顺 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子 电子The face 50 forms a touch-type device lock, which can be widely used, and can use various touch==== device locks of the touch sensing section S. 7 Wind fork /, Queen I · Health ^ ^ ^ connected (four) after the input signal ' can be judged according to the memory module 54 52 = -tt Ϊ from the input signal. Processing module 52 can then perform a corresponding operational function, such as the device lock function described above. The application operation definition path corresponding to the input signal: sending a help message. Then, the processing module 52 == For example, the processing module 52 can send a request for a short message through the communication module 58 in a communication manner. < - The text may further display the 12 201020876 text on the display module 56 or the text via the communication module 58 according to the current state of use of the input signal and the representative w ’ processing module 52. As shown in FIG. 6, in the embodiment, the electronic device 5 can further include a light generating module 60 and a sound generating module 62. In this embodiment, the light, the raw pull group 60 and the sound generating module 62 are electrically connected to the processing module & Port = this embodiment t, when the user touches the touch through the input interface 5, the processing module 52 can drive the light generating module ❹ 光线 ^ light, the light can be projected on the electron Different parts of the device 5, such as the surface of the 5, the touch sensing section s or the display module %. The light in the middle can be projected along the contact path of the contact and produce a visual effect corresponding to the user input. When the user inputs the touch-sensitive sensing area through the input interface 5, the processing module 52 can drive the sound generating module 62 to generate a sound. The iii generating module 62 can be used to respond to the user's contact. When the production touches the way, the scale sound can be advanced, and the contact should be touched into the a*. If the user's contact path is determined by the processing module, the second and second n modules 62 can be issued. The device is locked, and the sound is loud, allowing the user to read more about the state of use of the electronic device 5.戚 = = === As shown in Figure 5), the touch-type s can be arranged as a main example, but the touch-sensitive sensing section ^ The side-controlled sensing section s is used for the input of the input interface 70 according to the present invention. As shown in FIG. 11 , in this embodiment, the white face 70 is formed by twelve touch sensing sections S. The difference from the previous 13 201020876 is that the input interface 7G includes four 71s, which are disposed between the twelve touch sensing sections s. Button 7 鱼 理 理 理 ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( The other structure in the case of the second = ^ is the same as the description of the previous actual complement, in the ^ sage. Face key or electronic red key. The button 71 can be used in conjunction with the touch-sensitive type of the sensory section to control the input, and the faster and faster input. In the action of the actual care of the towel, press ^
Γ:ΐ作i接聽鍵、掛斷鍵、輸入模式切換與裝置電源鍵。 ΐ用;可透過操作四個按鍵?!快速執行各種不同的二 tli—2 ’按鍵71亦可當條戲搖桿之動作鍵使用。其 中滅之數$不限定為四個,所對應之功能亦不以此為限。 署於一 f體實施例中,亦可將至少一個按鍵(未顯示)設 感口二”說,於實際應用 — 乃凃於該等觸控式感測區段S'其中一部份 ^母式感砸段S,之下方分別設置至少一個按 ϊ 過特定區段’亦可選擇性地施力按>1按 鍵,以達成更多樣化的輸入功能。 中艏圖^― °圖十二緣示根據本發明之—具體實施例 之觸之方法流程圖。如圖十二所示,本實施例 處:則二法可應用於電子裝置,其包含複數個觸控式 i’,、;二==區=地設;以形成-特定圖 但不在此限。飾、日字形或網格形狀, 接觸首絲行步驟M1,當—接觸循一 ^ 该測隨時,鱗觸控式感測區段 心、q觸接者,執行步驟Μ2,該等觸控式感測區段分別 14 201020876 ====產生__號。接著, 段鮮另該接觸所經過之該等觸控式感測區段之區 ⑽,執行龍勝執行步驟 預先到由使用者或製造商 ❹ ❹ 操作^為應用操作定義路徑,其對應的應用 _路徑可對應—數字之筆劃或—筆=前2 =不同之處在於,於步驟M3之後,可進J一步、gj: 對^符比ίϊ輸ί信號與文字或數字的筆劃是否相符,若比 ^ ,Μ4 ’執行對應輸入錢之操作功能,以 费,則子或數字的目的。若比對後無相對應輸入信 步驟娜亦可提示使用者比對失敗,要求重新輸f施例中 摸今觸控輸入方法,使用者可符合直覺地滑動觸 二:ί觸Ϊ式感測區段以達到執行柯輸入功能(包含執行特 疋札々、輸入文字或數字等)。 於另一實施例中,當觸控式感測區段感測到該接觸時, 觸I =控式輸人方法可產生聲音及/或光線,輯應該接 J,聲光效果可用以提示使用者是否完成觸控輸入功 月b。另一方面,該聲音及/或光線之效果可進一步對應使用者 接觸之接·徑而產生’例如產生制齡之聲響^沿接觸 15 201020876 =射光線,爾驗输梅㈣用並兼具聲 以及ϊϊΐϊίί,發明中具有觸控輸人功能之電子裝置 式感測區段可由一個小型觸控;板構較 =二製,個小型嶋板之成本較低且較不耗電 此夕母—觸控面板可進—步感測_ 方向,藉以對應更多樣化的輸人,此 二箄;二t易丨且具理論值為百分之百的辨識率。此外, 由該等觸控式感測區段組成之觸控網格可僅用— =之多樣化的輸入需求。本發明提出之觸控輸入功 裝置以及難式輸人方法可作為高_率、低運算 處理而求、可對應多種輸人魏且方便使用的觸控輸入。 請參閱圖十四。圖十四繪示根據本發明之另一具體 例中輸入介面90的示意圖。不同於先前實施例所述之長條形 觸控式感砸段,難料_段亦可由各種雜的小型^ 控面板或接觸感測元件構成。如圖十四所示,於本實施例中 輸入介面90由二十一個圓形之觸控式感測區段s,,排列形 成’但觸控式感測區段S”之形狀並不以圓形為限,亦可為方 开)、多邊形、文字或任意圖形等,觸控式感測區段s”之數量 亦根據實際應用而定,不以二Η—個為限。 士於此實施例中,當使用者接觸該等觸控式感測區段s,, 日守’觸控式感測區段sn產生輸入訊號並傳送至處理模組,處 理模組可根據輸入訊號得知使用者接觸之接觸路徑,'進而^ 16 201020876 成觸控輸入效果。此外’於此實施例中,每一觸控式感測區 段s”可判斷其是否被接觸,其產生之訊號(觸及與非觸及)與 一般按壓式之按鍵(按壓與釋放)類似,故可用以取代按壓式 之按鍵,作為一種接觸式按鍵的應用。 此外本發明&出之以觸控式感測區段形成之輸入介面 直接可整合至液晶顯示屏幕上,形成低成本、運算快速的簡 易觸控螢幕。或是將本案之輸人介面與―般觸控鮮分別獨 i設=使Γί _輸人方法並存,增加可_之輸入功 ❹Γ: i i answer button, hang up button, input mode switch and device power button. Use; can operate four buttons?! Quickly execute a variety of different two tli-2' buttons 71 can also be used as the action button of the bar joystick. The number of extinctions is not limited to four, and the corresponding functions are not limited to this. In a f-body embodiment, at least one button (not shown) may be provided with a sensory port 2", which is applied in practice - is applied to one of the touch sensing sections S' The sensation section S is provided with at least one button ϊ above the specific section ′, and can also selectively press the > 1 button to achieve a more diverse input function. The second embodiment shows a flow chart of a method according to the present invention. As shown in FIG. 12, in this embodiment, the second method can be applied to an electronic device, which includes a plurality of touch types i', ; = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = Measure the segment heart, the q-contact, and perform step Μ2, and the touch-sensing segments respectively generate a __ number for 201020876 ====. Then, the segment touches the touch Sensing the zone (10), performing the Longsheng execution step in advance to the user or manufacturer ❹ ^ operation ^ defining the path for the application operation, the pair The application _ path can correspond to - the number of strokes or - pen = the first 2 = the difference is that after step M3, you can enter J step, gj: whether the ^ 符 ϊ ϊ ί 信号 signal match the text or number of strokes If the ratio ^, Μ 4 'execute the operation function corresponding to the input money, the purpose of the fee, the sub- or the number. If there is no corresponding input letter after the comparison, the user may also prompt the user to compare the failure, and request to re-enter the example. In this touch input method, the user can intuitively slide the touch two: ί touch-type sensing section to achieve the execution of the Ke input function (including the implementation of the special Sapporo, input text or numbers, etc.) In the example, when the touch sensing section senses the contact, the touch I=controlled input method can generate sound and/or light, and the sound should be connected to J, and the sound and light effect can be used to prompt the user whether to complete the touch. Controlling the input power month b. On the other hand, the effect of the sound and/or light can be further generated corresponding to the contact diameter of the user's contact, for example, the sound of the age of the body is generated ^ along the contact 15 201020876 = the light is transmitted, the light is measured (4) use and both sound and ϊϊΐϊ ί ί In the invention, the electronic device-type sensing section with the touch input function can be controlled by a small touch; the board structure is lower than the second system, and the small-sized board is lower in cost and less power-consuming. The step-by-step sensing _ direction, in order to correspond to a more diverse input, the second 箄; two t is easy and has a theoretical value of 100% recognition rate. In addition, consisting of the touch sensing segments The touch grid can use only a variety of input requirements of - =. The touch input power device and the difficult input method proposed by the present invention can be obtained as high _ rate and low arithmetic processing, and can correspond to multiple input and Please refer to FIG. 14. FIG. 14 is a schematic diagram of the input interface 90 according to another embodiment of the present invention, which is different from the long touch sensing section described in the previous embodiment. The _ segment can also be composed of various miscellaneous small control panels or contact sensing elements. As shown in FIG. 14, in the embodiment, the input interface 90 is formed by twenty-one circular touch sensing sections s, and the shape of the touch sensing section S is not formed. The number of the touch sensing sections s" depends on the actual application, and is not limited to two. In this embodiment, when the user touches the touch sensing sections s, the touch-sensitive sensing section sn generates an input signal and transmits it to the processing module, and the processing module can be input according to the input. The signal knows the contact path of the user contact, and further, the touch input effect is formed. In addition, in this embodiment, each touch sensing segment s can determine whether it is touched, and the generated signal (touch and non-touch) is similar to the general push button (press and release), so It can be used in place of a push-type button as an application of a touch button. Furthermore, the input interface formed by the touch sensing section can be directly integrated into the liquid crystal display screen, resulting in low cost and fast operation. Simple touch screen. Or set the input interface of the case and the "touch" separately to make the Γί _ input method coexist, increase the input _ input
舉例之手持式行動通繼使用,廣2 用於個人電腦鍵盤配置、筆記型電腦鍵盤配置、ίIfί應 家電輸入裝置、家庭雷满、立鄕二:置乳裝置、 輸入裝置、細車音響 述本發明之特Sid實述能更加清楚描 ,來對本發明之範嘴加以限制。相3揭ί的較佳具體實 涵蓋各種改變及具相等性的安 /、目的是希望能 :的齡内。因此,本發=====請之專利範 據上述的说明作最寬廣的解釋, fell的範疇應該根 變以及具相等性的安排。 ,、涵蓋所有可能的改 17 201020876 【圖式簡單說明】 圖一繪示先前技術中鍵盤之示意圖。 圖二繪示先前技術中行動通訊裝置之示意圖。 圖三繪示先前技術中另一種行動通訊裝置之示音圖。 圖四繪示根據本發明之一具體實施例中雷 圖。 电卞裝置之示意 圖五綠示圖四中輸入介面之示意圖。 圖六緣示圖四中電子裝置之功能方塊圖。 圖七繪示圖五中十二個觸控式感測區段予以編號後之示 意圖。 〃 _圖八繪示圖六中十二個觸控式感測區段感測接觸路徑之 示意圖。 圖九繪示圖六中十二個觸控式感測區段感測另一接觸路 仅之示意圖。 圖十繪示圖六中十二個觸控式感測區段感測另一接觸路 徑之示意圖。 圖Η• —繪示根據本發明之另一具體實施例中輸入介面之 示意圖。 圖十二繪示根據本發明之一具體實施例中觸控式輸入方 决之方法流程圖。 圖十三繪示根據本發明之另一具體實施例中觸控式輸入 201020876 方法之方法流程圖。 一立,十四繪示根據本發明之另—具體實施例中輸入介面的 【主要元件符號說明】 Ο 1 :鍵盤 10、30、71 :按鍵 22、Ρ、Ρ'、Ρ” :接觸路徑 26 :輸入軌跡 50、70、90 :輸入介面 54 :記憶模組 58 :通訊模組 2、3 :行動通訊裝置 20 :觸控面板 24 :接觸點 5:電子裝置 52 :處理模組 56 :顯示模組 60 :光線產生模組 ❹ 62 :聲音產生模組 S、S’、S”、S1-S12 :觸控式感測區段 Μ卜 M2、M3、M3a、M3b、M4 :步驟 19For example, the hand-held action is used continuously, and the wide 2 is used for personal computer keyboard configuration, notebook computer keyboard configuration, ίIfί home appliance input device, home thunder, stand 2: milking device, input device, fine car audio book The specific Sid description of the invention can be more clearly described to limit the scope of the invention. The preferred embodiment of Phase 3 covers all kinds of changes and equal security. The purpose is to be able to: within the age. Therefore, this is the broadest explanation of the above description, and the category of fell should be rooted and arranged equally. , covering all possible changes 17 201020876 [Schematic description of the drawings] Figure 1 shows a schematic diagram of the keyboard in the prior art. 2 is a schematic diagram of a prior art mobile communication device. FIG. 3 is a schematic diagram of another mobile communication device in the prior art. Figure 4 illustrates a ray diagram in accordance with an embodiment of the present invention. Schematic diagram of the electric sputum device Fig. 5 is a schematic diagram of the input interface in the green diagram 4. Figure 6 is a functional block diagram of the electronic device in Figure 4. FIG. 7 is a schematic diagram showing the twelve touch sensing sections in FIG. _ _ Figure 8 shows a schematic diagram of the sensing contact paths of twelve touch sensing sections in Figure 6. FIG. 9 is a schematic diagram showing the sensing of another contact path by twelve touch sensing sections in FIG. FIG. 10 is a schematic diagram showing the sensing of another contact path by twelve touch sensing sections in FIG. BRIEF DESCRIPTION OF THE DRAWINGS Figure 2 is a schematic illustration of an input interface in accordance with another embodiment of the present invention. Figure 12 is a flow chart showing a method of touch input input in accordance with an embodiment of the present invention. FIG. 13 is a flow chart showing a method of the touch input 201020876 method according to another embodiment of the present invention. One set, fourteen shows the main component symbol description of the input interface according to another embodiment of the present invention Ο 1: keyboard 10, 30, 71: button 22, Ρ, Ρ ', Ρ": contact path 26 : Input track 50, 70, 90: Input interface 54: Memory module 58: Communication module 2, 3: Mobile communication device 20: Touch panel 24: Contact point 5: Electronic device 52: Processing module 56: Display mode Group 60: Light Generation Module ❹ 62: Sound Generation Module S, S', S", S1-S12: Touch Sensing Section M M2, M3, M3a, M3b, M4: Step 19