1321747 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種觸控輸入方法及可攜式終端裝 置,特別關於一種藉由觸控所產生之游標來進行操作之觸 控輸入方法及可攜式終端裝置。 【先前技術】 隨著科技的發展,許多可攜式終端裝置也琳螂滿目的 出現在世人面前,如個人數位助理(Pers〇nai1321747 IX. The invention relates to a touch input method and a portable terminal device, and more particularly to a touch input method for operating by a cursor generated by touch and Portable terminal device. [Prior Art] With the development of technology, many portable terminal devices are also appearing in front of the world, such as personal digital assistants (Pers〇nai).
Assistant, PDA )、智慧型手機(Sman ph〇ne )或是 手 機等等:這.些可攜式終端裝置更便利了人們的生活。此 外’為讓使用者能更方便地操作,這些可攜式終端敦置的 使用者介面(User imerface)亦有許多進展,像現在很多 可仏式、’、端裝置不僅具有—按鍵式鍵盤以讓使用者藉由 按鍵來操作,此外,更具有一觸控式使用者介面(To. User;Interfaee)以方便使用者藉由觸控來操作。 机請參照圖1所示,一種可攜式終端裝置1,例如-個 人數位助理,係且有一艏姑 、有觸控面板II及一顯示螢幕12。其 中,觸控面板11盥顯千恶蓋,1 J t, 4幕12係設置於可攜式終端裝置 ^觸控面板丨!係設置於顯示營幕】2之上,此外, 觸控面板11係露出於可搾 ϋ鮮署式終端裝置1以供觀。可搞 式6鈿裝置1係透過顯示螢幕 操作畫面】4具有至少—待^生2顯不一操作畫面14,且 待選物件141,例如圖1所示,在 5 ^21747 操作晝面14上之一軟體式鍵盤的每一 β — 件14卜這些待選物件⑷可供使用者按壓^而= 雖然使用者可藉由手指按壓觸控面板u來操控可攜式炊 :土置卜但是當待選物件141 +於—定面積的時候,使 便很難利用手指來按壓/點擊而選取,因為可能會同時 按到許多待選物件⑷或是不易正確按壓到待選物H 時 另外,如圖2所示,可携式終端裝置1更 於其筆尖之面積很小,所以使用者可藉由觸控: 而精確地按壓觸控面板u。雖然觸控筆Η方便使用, 但其缺點料少,例如使用者需精地取放觸控筆! 增加使用者的困擾,另外,小小的觸控筆15亦 此外,觸控筆15係增何攜式終端裝置Μ 對使用者來說亦是一消耗品。 ” =此,如何提供-種觸控輸入方法,在不需使用觸控 況下,依然方便使用者利用手指按壓並精確地選取 要的待選物件,進而提升使用效能,實為當前重要課題 ^ 一 ° 【發明内容】 觸^鑑於上述課題,本發明之目的為提供—種不需使) 要^待!然方便使用者利用手指按壓並財地選取戶 要的待f物件’進而提升使用效能之觸控輸入方法。 ❹2 ’為達上述目的,依本發明之—種觸控輸入方3 係應用於m終端裝置,包括接收—觸碰指令;對淘 1321747 碰指令作一範圍演曾,廿/曰r, 八'^亚侍到一按壓區;根據觸碰指令產 絲據㈣區之一目前位置選擇性地將游標 配置於按壓區外圍之—預設範圍内。 人上述目的,依本發明之一種可攜式終端裝置係包 έ 一觸控面板模組、一演管楛 ^ "、开模組、一平面顯示模組及一處 ^且。”巾,觸控面板触係接收—觸碰指令並產生一 虎丄演算模組係與觸控面板模組連接,並依據位置 圍演算而得到-按壓區訊號,按壓區訊號係對 二平面顯示模組係與觸控面板模組對應設置; =组係與平面顯示模組及演算模組連接,並傳送一游 平面顯示模組’平面顯示模組係依據游標訊號, 將一游“顯示於按壓區外圍之—預設範圍内。 承上所述’因依本發明之一種觸控輸入方法及可攜式 =裝J係在按壓區附近產生一游標,使得使用者按壓觸 =並:動時’可藉由游標清楚、明確地選取所要的待 本發明與習知技術相較,可藉由游標而除去 1/=用/指按墨所帶來的困擾,例如無法精確地按 =所要的待選物件,另外,本發明不需要使用觸控 :::以f發明可有效地節省成本’且能讓使用者更方便 地#作,進而提升使用效能。 【實施方式】 之一 以下將參m目Μ式,說日錄本發_佳實施例 種觸控輸入方法及可攜式終端裝置。 1321747 本實施例之觸控輸入方法係應用於一可攜式終端裝 • 置2,如圖3所示,其可為一個人數位助理(Personal Digital Assistant, PDA )、智慧型手機(Smart Phone )或是 PDA 手 機等等。於此先稍作說明可攜式終端裝置2,以利後續說 明本實施例之觸控輸入方法。 可攜式終端裝置2係具有一觸控面板模組21及一平 面顯示模組22,其中,觸控面板模組21係與平面顯示模 組22對應設置,並露出於可攜式終端裝置2,以供使用者 • 觸碰操作,而平面顯示模組22係設置於可攜式終端裝置2 内,且顯示一操作畫面221,其係透過觸控面板模組21而 讓使用者看見,並且在操作畫面221上具有複數待選物件 222以供使用者選取並執行。於此,觸控面板模組21係可 為但不限定於電阻式(Resistive )觸控面板、電容式 (Capacitive )觸控面板、音波式(Surface Acoustic Wave) 觸控面板及光學式(Optics)觸控面板等等;平面顯示模 • 組22係可為但不限定於液晶顯示(Liquid Crystal Display, LCD ) 模組及有機電激發光顯示 (Organic ElectroLuminescent Display, OELD)模組等等。 以下說明本實施例之觸控輸入方法,請參照圖3及圖 4所示,觸控輸入方法係包含,步驟S01係接收一觸碰指 令;步驟S02係對觸碰指令作一範圍演算,並得到一按壓 區PA;步驟S03係根據觸碰指令產生一游標23;步驟S04 係根據按壓區PA之一目前位置選擇性地將游標23配置於 按壓區PA外圍之一預設範圍PR内。 1321747 +在;^驟SOI巾,當使用者使用手指觸碰、按壓觸控面 板模、、且21 4 ’可攜式終端裝置2係接收-觸碰指令。本 發明之觸控輸人方法係方便使用者使用手指來觸碰並操 亦可使用其他物件來觸碰觸控面板模組21,例如一 觸控筆而產生觸碰指令。 #在乂驟S02中’可攜式終端裝置2係依據觸碰指令作 i圍演算’並得到—按壓區pA。當使用者按壓觸控面板 吴,-且21 B寺’觸控面板模組21之觸控驅動電路會產生對應 =使用者按壓之區域之訊號,這些訊號係對應至多數個座 且可攜式終端裝置2練據這些純值而演算出按 ;P A。在本實施财’可攜式終端裝置2所計算出之按 :A相當於使用者之手指按壓在觸控面板模組 真實區域。 厭η 且將游標23選擇性地配置於去 ^=外圍之—預設範圍p R内。當使用者持續地觸碰薄 控:杨組21並移動手指時’游標23係持續地由平㈣ 二22内來顯不,並隨著按壓區PA移動,且顯示於㈣ 壓區ΡΑ Γ於此,預設範圍叹係防切標23顯示料 Q ΡΑ内’而被使用者之手指遮擔,以致益法看見, 之驗,預設範圍 ::用者動態變更’另外’游…為任何圖案❹ 對於游標23出現在按壓區pA外圍之位置,本發明』 1321747 無特別限定,只要不被使用者之手指或其他用來按廢之物 件所遮擔即可。在實施上,可有至少兩種方式來決定游標 23出現在按壓區PA外圍之位置’一種方式係由使用者動 態變更,如圖5A及圖5B所示,在圖5A中,使用者係可 順時針方向改變游標23之位置,圖5β則以逆時針方向改 邊办標23之位置;而另一種方式係由製造商決定配置策 略(DisP〇sition Strategy )。當然,這兩種方式亦可互相配 鲁 合使用,以下介紹幾種配置策略。 如圖6所示,一種配置策略係將觸控面板模組2丨晝 分為一第一預設範圍2U及一第二預設範圍212,本實施 例之觸控輸入方法更包含,根據按壓區pA之目前位置選 擇性地將游標23配置於按壓區pA外圍之左側與右側其中 之一;判斷按壓區PA位於第一預設範圍2n或第二預設 範圍212 ;當判斷得知按壓區pA位於第一預設範圍 和則將游# 23配置於按壓區pa外圍之右側;以及判斷 Φ得知按壓區PA位於第二預設範圍212時,則將游標23配 置於按壓區PA外圍之左側。 另外,如圖6所示,第一預設範圍211係具有一預設 極限區2111 ’在預設極限區2111内之座標值係定義為預 又極限座‘值,第一預設範圍212亦具有一預設極限區 2121,在預設極限區212ι内之座標值亦定義為預設極限 座標值。本實施例之觸控輸入方法更包含,判斷按壓區PA 之位置位於第一預設範圍211之一預設極限座標值與否; 當判斷得知按壓區PA之位置位於預設極限座標值時,則 1321747 使游標23由按壓區PA夕卜圍之右側移動至左側;判斷按壓 區PA之位置位於第二預設範圍扣之一預設極限座標值 與否’·以及當判斷得知按麗區PA之位置位於預設極限座 標值時、,則使游標23由按壓區PA外圍之左側移動至右側。 上述之方法係方便使用者選取在觸控面板模組21之 預設極限區2111、2121内之待選物件222。以預設極限區 2111為例,原本當使用者之手指觸碰第一預設範圍2ιι •時,游標23係出現在按壓區PA外圍之右側,然而,當使 用者將手指向左移動至預設極限區2U1内,即按壓區pA 位於預設極限座標值時,無法選取到在按壓區pA之左邊 邊緣及上面邊緣之待選物件222 (由於可攜式終端裝置2 之殼體的限制)’因此,藉由上述方法,當按壓區pA位於 預設極限座標值時,即讓游標23自按壓區pa右側移動至 左側,如此就能選取在預設極限區2U1内之待選物件222。 此外,當按壓區PA離開預設極限區2111後,亦維持 φ 游標23在按壓區PA之左側,如此以方便選取在第一預設 範圍211及預設極限區2111之交界處之待選物件222,而 不會發生當按壓區PA在第一預設範圍211時,游標23位 在按壓區PA之右側’當按壓區PA在預設極限區2111時, 游標23位在按壓區PA之左側,以致無法選取到第一預設 範圍211及預設極限區之交界處之待選物件222之情況。 另外,游標23在第二預設範圍212及預設極限區2121之 位置與在第一預設範圍211及預設極限區2111具有同樣的 原則,故不再贅述。 1321747 另一種配置策略如圖7所示,係將觸控面板模組21 畫分為一第三預設範圍213 ’且在第三預設範圍2n之二 側设置預設極限區213 1、2132。當按壓區pa在第三預設 範圍213時,游標23可在按壓區pa之右側或左側,於此 以左側為例’而當按壓區PA在預設極限區2131時,游標 幻係由按壓區PA外圍之左側移動至右側(可以順時針或 逆時針方向移動),以利使用者選取預設極限區2131内之 φ 待選物件222,並且當按壓區PA離開預設極限區2131並 移動至第三預設範圍213時,游標2 3依然在按壓區pA外 圍之右側,當按壓區PA移動至預設極限區2132時,游標 23係由按壓區PA外圍之右側移動至左側,以利使用者選 取預設極限區2132内之待選物件222,且這樣的方式亦不 會讓使用者無法選取到位在第三預設範圍213與預設極限 區2131、2132之間的待選物件222。 在此僅提供兩種配置策略以供實施,但本發明不限於 參上述配置策略。此外,上述之配置策略除了以按壓區PA 之位置來作為游標23改變位置之依據’亦可用游標23之 位置作為依據,由於作動機制皆類似,故於此不再贅述。 咕再參照圖3所不,本實施例之觸控輸入方法更包 含,判斷游標23位於多數個待選物件222其中之一與否; S判斷得知游標23位於該些待選物件222其中之一時, 則判斷於一預設時間内按壓區pA之一可容職圍被按下 至J 一次與否;以及當判斷得知於預設時間内按壓區PA 之可谷許範圍被按下至少一次時,則執行游標^所位在 12 1321747 之待選物件222。在本實施例中,使用者藉由在按壓區PA 之可容許範圍内按壓/點擊觸控面板模組21至少一次,便 可執行游標23所位在之待選物件222。 本發明不限定可容許範圍之態樣,可容許範圍甚至可 线用者動態變更,舉例來說’可容許範圍可設定為將按 ,區Μ内縮或外擴所得到的區域,例如可容許範圍可設 疋為按壓區ΡΑ向内縮至原本區域大小的戰或外擴至原 本區域大小的120%。另外,可容許範圍亦可定義為 之面積:舉例來說’當使用者藉由手指來移動按 ? 且游標23停在所要之待選物件222時,在預設 ==區以内,擊-次,且點擊時二 物件ΡΑ之50%’則執行游標23所指之待選 田…、、,此百分比是可調整的。另 設時間係可由使用者動態變更,亦即觸 度為可調整。 和入方法的筮破 端示,以進一步說明本實施例之可攜式終 =:::終觸控面板模…平* 及-判斷模組26,其t 3^=24二處理模組25 模組21及處理模组25…二·’且係、分別與觸控面板 .. 、’’、 連接’判斷模組26係盥.畜曾 Μ及處理模組25連接, :…秀异換組 22連接。 处傧、,且25係與平面顯示模組 當使用者藉由手指或其他物件( 面板模組2!時’觸控 工=)觸碰觸控 係接收一觸碰指令並產 1321747 生位置汛號PS,並傳送至演算模組24,演算模組24係 依據位置訊號PS作一範圍演算而得到一按壓區訊號 PAS’其係對應—按壓^ pA (相當於使用者所按壓之區 域),且將按壓區訊號pAS傳送至處理模組25及判斷模組 %,其中,處理模組25係依據按壓區訊號pAs產生一游 標訊號cs’並傳送至平面顯示模組22,平面顯示模心Assistant, PDA), smart phone (Sman ph〇ne) or mobile phone, etc.: These portable terminal devices are more convenient for people's lives. In addition, in order to make it easier for users to operate, the user interface of these portable terminals has also made a lot of progress. Like many shackles, the end device not only has a push-button keyboard to let The user operates by means of a button, and further has a touch-sensitive user interface (To. User; Interfaee) for the user to operate by touch. Referring to FIG. 1 , a portable terminal device 1 , for example, a number of assistants, has a touch panel, a touch panel II and a display screen 12 . Among them, the touch panel 11 displays a thousand evil cover, 1 J t, 4 screen 12 is set in the portable terminal device ^ touch panel 丨! The touch panel 11 is disposed on the display screen 2, and the touch panel 11 is exposed to the squeezing terminal device 1 for viewing. The 6-inch device 1 can be displayed on the screen through the display screen. 4 has at least one image to be displayed, and the object 141 to be selected, for example, as shown in FIG. 1, is operated on the surface 14 of the 5^21747. Each of the β-pieces 14 of the software keyboard can be pressed by the user ^ while the user can press the touch panel u to control the portable 炊: When the object to be selected 141+ is in a certain area, it is difficult to select by pressing/clicking with the finger, because it may be pressed to many items to be selected at the same time (4) or it is not easy to press the candidate H correctly. As shown in FIG. 2, the portable terminal device 1 has a smaller area than the tip of the pen, so that the user can accurately press the touch panel u by touch: Although the stylus is easy to use, it has fewer disadvantages. For example, the user needs to carefully access the stylus! In addition, the stylus 15 is also a consumable item for the user. ”=This, how to provide a kind of touch input method, it is convenient for the user to use the finger to press and accurately select the desired object to be selected without using the touch condition, thereby improving the use efficiency, which is an important topic at present^ One aspect [Invention] In view of the above problems, the object of the present invention is to provide a kind of thing that does not need to be made, but it is convenient for the user to use the finger to press and select the object to be f Touch input method. ❹2 'In order to achieve the above purpose, the touch input side 3 according to the present invention is applied to the m terminal device, including the receiving-touch command; and the range of the 1321747 touch command is performed, 廿/曰r, 八'^亚侍到一压区; according to the touch command, the current position of one of the (4) zones is selectively arranged in the preset range of the periphery of the pressing zone. The invention relates to a portable terminal device, which comprises a touch panel module, a performance control module, an open module, a flat display module and a place, and a touch panel touch receiving system. - touch the command and generate one The tiger 丄 calculus module is connected with the touch panel module, and the pressing area signal is obtained according to the positional encirclement calculation, and the pressing area signal is corresponding to the two-plane display module and the touch panel module; The flat display module and the calculation module are connected, and a navigation plane display module is transmitted, and the flat display module is based on the cursor signal, and the cursor is displayed in the preset range of the periphery of the pressing area. According to the touch input method and the portable type J of the present invention, a cursor is generated in the vicinity of the pressing area, so that the user can press and select the desired invention to be clearly and clearly selected by the cursor. Compared with the prior art, the problem caused by the 1/=/finger ink can be removed by the cursor, for example, the object to be selected cannot be accurately pressed, and the invention does not need to use touch: The invention can effectively save the cost by the invention of f, and can make the user more convenient to use, thereby improving the use efficiency. [Embodiment] One of the following will be referred to as the m-type, and the daily record is issued. Touch input method and portable terminal device 1321747 The touch input method of this embodiment is applied to a portable terminal device 2, as shown in FIG. 3, which can be a Personal Digital Assistant (PDA) or a smart phone (Smart Phone). Or a PDA mobile phone, etc. The portable terminal device 2 will be described briefly to facilitate the subsequent description of the touch input method of the present embodiment. The portable terminal device 2 has a touch panel module 21 and A flat display module 22, wherein the touch panel module 21 is disposed corresponding to the flat display module 22 and exposed to the portable terminal device 2 for user touch operation, and the flat display module 22 The system is disposed in the portable terminal device 2, and displays an operation screen 221 which is visible to the user through the touch panel module 21, and has a plurality of candidate objects 222 on the operation screen 221 for the user to select. And execute. The touch panel module 21 can be, but is not limited to, a resistive touch panel, a capacitive touch panel, a surface Acoustic wave touch panel, and an optical (Optics). The touch panel or the like; the flat display mode group 22 can be, but is not limited to, a liquid crystal display (LCD) module and an organic electroluminescence display (OELD) module. The following describes the touch input method of the present embodiment. Referring to FIG. 3 and FIG. 4, the touch input method includes: step S01 receives a touch command; step S02 performs a range calculation on the touch command, and A pressing area PA is obtained; step S03 generates a cursor 23 according to the touch command; and step S04 selectively arranges the cursor 23 in a preset range PR of the periphery of the pressing area PA according to the current position of one of the pressing areas PA. 1321747 + in the SOI towel, when the user touches with a finger, presses the touch panel module, and the 21 4 'portable terminal device 2 receives the touch command. The touch input method of the present invention is convenient for the user to touch and operate with a finger, and other objects can be used to touch the touch panel module 21, such as a stylus, to generate a touch command. In step S02, the portable terminal device 2 performs a calculation based on the touch command and obtains a pressing area pA. When the user presses the touch panel, the touch drive circuit of the 21B temple touch panel module 21 generates a signal corresponding to the area pressed by the user, and the signals correspond to the majority of the seats and are portable. The terminal device 2 exercises the calculation based on these pure values; PA. In the implementation of the portable terminal device 2, the press: A corresponds to the user's finger pressing on the real area of the touch panel module. It is ηη and the cursor 23 is selectively arranged in the peripheral range - the preset range p R . When the user continuously touches the thin control: Yang group 21 and moves the finger, the 'cursor 23 system is continuously displayed by the flat (four) two 22, and moves with the pressing area PA, and is displayed in the (four) nip area. Therefore, the preset range sings the anti-cut label 23 to display the material Q ΡΑ ' and is covered by the user's finger, so that the benefit method is seen, the inspection, the preset range: the user dynamically changes 'other' tour... for any Pattern ❹ For the position where the cursor 23 appears at the periphery of the pressing area pA, the present invention 1321747 is not particularly limited as long as it is not covered by the user's finger or other objects used for waste. In practice, there may be at least two ways to determine where the cursor 23 appears at the periphery of the pressing area PA. One way is dynamically changed by the user, as shown in FIGS. 5A and 5B. In FIG. 5A, the user can The position of the cursor 23 is changed clockwise, and FIG. 5β changes the position of the cursor 23 counterclockwise; the other method is determined by the manufacturer (DisP〇sition Strategy). Of course, these two methods can also be used in conjunction with each other. The following describes several configuration strategies. As shown in FIG. 6 , a configuration strategy is to divide the touch panel module 2 into a first preset range 2U and a second preset range 212. The touch input method of the embodiment further includes, according to the pressing The current position of the region pA selectively configures the cursor 23 on one of the left side and the right side of the periphery of the pressing area pA; and determines that the pressing area PA is located in the first preset range 2n or the second preset range 212; The pA is located in the first preset range and the tour #23 is disposed on the right side of the periphery of the pressing area pa; and the judgment Φ is that the pressing area PA is located in the second preset range 212, and the cursor 23 is disposed on the left side of the periphery of the pressing area PA. . In addition, as shown in FIG. 6, the first preset range 211 has a preset limit area 2111. The coordinate value in the preset limit area 2111 is defined as a pre-limit limit value, and the first preset range 212 is also There is a preset limit zone 2121, and the coordinate value in the preset limit zone 212ι is also defined as a preset limit coordinate value. The touch input method of the embodiment further includes: determining whether the position of the pressing area PA is located at a preset limit coordinate value of the first preset range 211; and determining that the position of the pressing area PA is at the preset limit coordinate value , 1321747 moves the cursor 23 from the right side of the pressing area PA to the left side; determines whether the position of the pressing area PA is located in the second preset range, one of the preset limit coordinate values or not '· When the position of the area PA is at the preset limit coordinate value, the cursor 23 is moved from the left side of the periphery of the pressing area PA to the right side. The above method is convenient for the user to select the object 222 to be selected in the preset limit areas 2111, 2121 of the touch panel module 21. Taking the preset limit area 2111 as an example, when the user's finger touches the first preset range 2ιι •, the cursor 23 appears on the right side of the periphery of the pressing area PA, however, when the user moves the finger to the left to the front In the limit zone 2U1, that is, when the pressing zone pA is at the preset limit coordinate value, the object to be selected 222 cannot be selected to the left edge and the upper edge of the pressing zone pA (due to the limitation of the casing of the portable terminal device 2) Therefore, by the above method, when the pressing area pA is at the preset limit coordinate value, the cursor 23 is moved from the right side of the pressing area pa to the left side, so that the object to be selected 222 in the preset limit area 2U1 can be selected. In addition, after the pressing area PA leaves the preset limit area 2111, the φ cursor 23 is also maintained to the left of the pressing area PA, so as to conveniently select the object to be selected at the boundary between the first preset range 211 and the preset limit area 2111. 222, and when the pressing area PA is in the first preset range 211, the cursor 23 is on the right side of the pressing area PA. When the pressing area PA is in the preset limit area 2111, the cursor 23 is on the left side of the pressing area PA. Therefore, the situation of the candidate object 222 to the boundary between the first preset range 211 and the preset limit area cannot be selected. In addition, the position of the cursor 23 in the second preset range 212 and the preset limit area 2121 has the same principle as the first preset range 211 and the preset limit area 2111, and therefore will not be described again. 1321747 Another configuration strategy is as shown in FIG. 7, which divides the touch panel module 21 into a third preset range 213' and sets preset limit areas 213 1 and 2132 on the two sides of the third preset range 2n. . When the pressing area pa is in the third preset range 213, the cursor 23 may be on the right or left side of the pressing area pa, where the left side is taken as an example, and when the pressing area PA is in the preset limit area 2131, the cursor is pressed by the magical system. The left side of the periphery of the area PA moves to the right side (can be moved clockwise or counterclockwise), so that the user selects the φ candidate object 222 in the preset limit area 2131, and moves away from the preset limit area 2131 when the pressing area PA moves away. When the third preset range 213 is reached, the cursor 2 3 is still on the right side of the periphery of the pressing area pA. When the pressing area PA moves to the preset limit area 2132, the cursor 23 is moved to the left side from the right side of the pressing area PA to facilitate the left side. The user selects the candidate object 222 in the preset limit area 2132, and the manner does not allow the user to select the object 222 to be selected between the third preset range 213 and the preset limit area 2131, 2132. . Only two configuration strategies are provided here for implementation, but the invention is not limited to the above configuration strategies. In addition, the configuration strategy described above can be used as the basis for changing the position of the cursor 23 by the position of the pressing area PA. The position of the cursor 23 can also be used as the basis, and since the actuation mechanism is similar, no further details are provided herein. Referring to FIG. 3 again, the touch input method of the embodiment further includes: determining whether the cursor 23 is located in one of the plurality of candidate objects 222; and determining that the cursor 23 is located in the candidate objects 222. At one time, it is judged that one of the pressing areas pA can be pressed to J once or not within a predetermined time; and when it is judged that the variability range of the pressing area PA is pressed at least for a preset time At one time, the object 222 of the cursor that is located at 12 1321747 is executed. In this embodiment, the user can press the touch panel module 21 at least once within the allowable range of the pressing area PA to execute the object 222 in which the cursor 23 is located. The invention is not limited to the scope of the allowable range, and the allowable range can be dynamically changed even by the user. For example, the allowable range can be set to the area obtained by retracting or expanding the area, for example, tolerable. The range can be set to 120% of the size of the original area when the pressing area is inwardly retracted to the size of the original area. In addition, the allowable range can also be defined as the area: for example, when the user moves by pressing with the finger and the cursor 23 stops at the desired item 222, within the preset == area, hit-time And, when clicked, the 50% of the two objects are executed, and the percentage of the field to be selected by the cursor 23 is adjusted, and the percentage is adjustable. The additional time can be dynamically changed by the user, that is, the touch is adjustable. The smashing end of the method is further described to further illustrate the portable end=:::final touch panel module...flat* and the judging module 26 of the embodiment, and the t3^=24 two processing module 25 The module 21 and the processing module 25 are connected to the touch panel.., the '', the connection' judgment module 26 is connected to the animal and the processing module 25, :... Group 22 is connected. At the same time, the 25-series and the flat display module receive a touch command by the user touching the touch system with a finger or other object (the panel module 2! 'toucher=) and produce a 1321747 position. No. PS, and transmitted to the calculation module 24, the calculation module 24 performs a range calculation according to the position signal PS to obtain a pressing area signal PAS' corresponding to - pressing ^ pA (corresponding to the area pressed by the user), And the pressing area signal pAS is transmitted to the processing module 25 and the determining module %, wherein the processing module 25 generates a cursor signal cs' according to the pressing area signal pAs and transmits it to the flat display module 22, and the plane display core
係依據游標訊號CS,將一游標顯示於按㈣PA外圍之一 預設範圍PR (如圖3所示)。 另外’判斷模、组26係具有配置策略之解析能力,且 依據配置策略來判斷按壓區訊號PAS所對應之按壓區以 之所在位置,例如第一預設範圍211或第二預設範圍叫 (如圖6所示),並產生一範圍訊號rs傳送至處理模組 ^ ^模組2 5係依據範圍訊號R s產生—游標位置訊號 …,至平面顯示模組22 ’平面顯示模組22係依據 游如位置訊號CPS而將游標23蒸員示於按壓請 側或左側。 |图义右 仕不貫施例中 ----,〜TV尠丨保組可以一 體或一晶片來實現,另外,演算模纽24及判斷模植26 可與處理模組25合併以一晶片實規,, 日日月貫現,如一中央處理單 (central Processing Unit,cp(J)或—微處理 Controller Unit, MCU) ° 综上所述,因依本發明之—種觸控輸人方 係在按壓區附近產生-游標,使得使用者‘ 控面板並㈣時,可#切標清楚1確地餘所要… 使用者利用手指按壓所帶來的困 屢/點擊所要的待選物件,另外 ;^精確地按 有效地節省成本,且能讓使用者更方便 也才呆作’進而提升使用效能。 本述僅為舉舰,而非為㈣性者咳何未脫離 ^明之精神與m㈣其進行之等效修改或變更,均 應包含於後附之申請專利範圍中。 【圖式簡單說明】 圖1為一種習知可攜式終端裝置之一示意圖; 圖2為一種習知可攜式終端裝置及其觸控筆之一示意 圖; u 圖3為依據本發明較佳實施例之一種可携式終端裝置 之一示意圖; 圖4為依據本發明較佳實施例之一種觸控輸入方法之 一步驟流程圖; 圖5A及圖5B為依據本發明較佳實施例之觸控輸入方 法,其中游標係可動態變更之一示意圖; 圖6為依據本發明較佳實施例之—種配置策略之一示 意圖; 圖7為依據本發明較佳實施例之另一種配置策略之一 示意圖;以及 圖8為依據本發明較佳實施例之可攜式終端裝置之- 15 1321747 方塊圖。 元件符號說明: 1、2 可攜式終端裝置 11 觸控面板 12 顯示螢幕According to the cursor signal CS, a cursor is displayed on a preset range PR (as shown in FIG. 3) of the periphery of the (four) PA. In addition, the 'decision mode and the group 26 have the analysis capability of the configuration policy, and the position of the pressing area corresponding to the pressing area signal PAS is determined according to the configuration policy, for example, the first preset range 211 or the second preset range is called ( As shown in FIG. 6 , a range signal rs is generated and transmitted to the processing module ^ ^ module 2 5 is generated according to the range signal R s - the cursor position signal ..., to the flat display module 22 'the flat display module 22 The cursor 23 is steamed on the pressing side or the left side according to the position signal CPS. In the case of the right-handed example, the ~TV group can be implemented in one piece or on the same chip. In addition, the calculation module 24 and the judgment module 26 can be combined with the processing module 25 to form a wafer. The actual rules, such as a central processing unit (cp (J) or - micro-processing Controller Unit, MCU) ° In summary, due to the invention of the touch input side A cursor is generated in the vicinity of the pressing area, so that when the user controls the panel and (4), the #切标 clearly clears that the user wants to use the finger to press the trapped/click desired object to be selected, and ;^ Accurately saves cost effectively, and makes it easier for users to stay as 'to improve performance. This statement is only for the purpose of lifting the ship, and not for the four-sexual cough. The equivalent modification or modification of the spirit and m(4) shall be included in the scope of the appended patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a conventional portable terminal device; FIG. 2 is a schematic diagram of a conventional portable terminal device and a stylus; FIG. 3 is a preferred embodiment of the present invention. FIG. 4 is a flow chart showing a step of a touch input method according to a preferred embodiment of the present invention; FIG. 5A and FIG. 5B are diagrams showing a touch according to a preferred embodiment of the present invention; The control input method, wherein the cursor is dynamically changed, is a schematic diagram; FIG. 6 is a schematic diagram of a configuration strategy according to a preferred embodiment of the present invention; FIG. 7 is another configuration strategy according to a preferred embodiment of the present invention. Figure 8 is a block diagram of a portable terminal device - 15 1321747 in accordance with a preferred embodiment of the present invention. Component symbol description: 1, 2 portable terminal device 11 touch panel 12 display screen
14、221操作畫面 141、222待選物件 15 觸控筆 21 觸控面板模組 211 第一預設範圍 2111、2121、2131、2132 預設極限區 212 第二預設範圍 213 第三預設範圍 22 平面顯示模組 23 游標 24 演算模組 25 處理模組 26 判斷模組 CPS 游標位置訊號 CS 游標訊號 PA 按壓區 PAS 按壓區訊號 PR 預設範圍 16 1321747 ps 位置訊號 RS 範圍訊號 S01-S04觸控輸入方法的步驟14, 221 operation screen 141, 222 candidate object 15 stylus 21 touch panel module 211 first preset range 2111, 2121, 2131, 2132 preset limit area 212 second preset range 213 third preset range 22 Plane Display Module 23 Cursor 24 Calculation Module 25 Processing Module 26 Judgment Module CPS Cursor Position Signal CS Cursor Signal PA Pressing Area PAS Pressing Area Signal PR Preset Range 16 1321747 ps Position Signal RS Range Signal S01-S04 Touch Steps to the input method