TW201619792A - Operation mode switching method used in capacitive touch control panel module - Google Patents

Abstract

An exemplary embodiment of the present disclosure illustrates an operation mode switching method used in a capacitive touch control panel module, wherein the capacitive touch control panel module has a first operation mode and a second operation mode, and the operation mode switching method has steps as follows. A hover gesture is detected in the first operation mode, wherein the first operation mode has ability for detecting the hover gesture. Next, when the hover gesture matches to a specific gesture, the capacitive touch control panel module is changed to the second operation mode from the first operation mode.

Description

電容式觸控面板模組之操作模式切換方法 Operation mode switching method of capacitive touch panel module

本發明係關於一種電容式觸控面板模組，且特定是一種電容式觸控面板模組之操作模式切換方法。 The invention relates to a capacitive touch panel module, and in particular to a method for switching operation modes of a capacitive touch panel module.

目前電容式觸控面板模組被廣泛地應用於智能裝置，其用以作為使用者對智能裝置進行操作控制的介面。由於使用者可能在不同的情境下操作智能裝置(例如，使用者手指髒污，而僅能懸浮操作，或使用者帶著手套下進行觸碰操作，亦或使用者在有外在或內部雜訊干擾的情況下進行操作)，故電容式觸控面板被期待可以依據使用者的操作精確地執行對應功能。為了使電容式觸控面板模組可以因應前述不同情況而有不同功能及應用，傳統電容式觸控面板模組的觸控晶片的複雜度、設計成本與運算負擔等勢必會大幅度地增加。 At present, the capacitive touch panel module is widely used in smart devices, and is used as an interface for the user to control the operation of the smart device. Since the user may operate the smart device in different situations (for example, the user's finger is dirty, but can only be suspended, or the user performs a touch operation with a glove, or the user is externally or internally miscellaneous In the case of interference, the capacitive touch panel is expected to accurately perform the corresponding function according to the user's operation. In order to enable the capacitive touch panel module to have different functions and applications according to the above different situations, the complexity, design cost and computing burden of the touch chip of the conventional capacitive touch panel module are bound to increase greatly.

目前，智能裝置允許使用者進入作業系統的設定選項，以因應前述情況來切換電容式觸控面板模組的操作模式。然而，此種作法對使用者來說，有其不方便之處。舉例來說，智能裝置開機後，電容式觸控面板模組的操作模式為一般模式(normal mode)，此時，若使用者因為天氣寒冷而穿戴手套時，因為穿戴手套的情況無法適用於電容式觸控面板的一般模式，使用者根本無法在電容式觸控面板上操作，更別說是進入作業系統更改設定將電容式 觸控面板模組的操作模式從一般模式切換為手套應用模式(glove application mode)；或者，在高雜訊或有水氣影響的操作環境下，雜訊及水氣容易大幅影響到電容式觸控面板模組感測使用者手指操作的精確度，使得使用者無法順利進入作業系統更改設定，將電容式觸控面板模組的操作模式從一般模式切換為抗雜訊模式或防水/防潮模式。 Currently, the smart device allows the user to enter the setting options of the operating system to switch the operating mode of the capacitive touch panel module in response to the foregoing. However, this practice has inconvenience to the user. For example, after the smart device is turned on, the operation mode of the capacitive touch panel module is the normal mode. At this time, if the user wears the glove because of the cold weather, the glove cannot be applied to the capacitor. The general mode of the touch panel, the user can not operate on the capacitive touch panel, let alone enter the operating system to change the settings will be capacitive The operation mode of the touch panel module is switched from the normal mode to the glove application mode; or, in a high noise or moisture-sensitive operating environment, noise and moisture easily affect the capacitive touch. The control panel module senses the accuracy of the user's finger operation, so that the user cannot smoothly enter the operating system to change the setting, and the operation mode of the capacitive touch panel module is switched from the normal mode to the anti-noise mode or the waterproof/moisture-proof mode. .

另外一方面，電容式觸控面板模組的不同操作模式之間存在著一些互斥的設定，故使得使用者在一些情境下無法透過進入作業系統的設定選項，來切換電容式觸控面板模組的操作模式。舉例而言，請參照圖1A，圖1A是電容式觸控面板模組之操作模式為懸浮應用模式(hover mode)的情境示意圖。於圖1A中，當物件(例如，使用者的手指11)懸浮於電容式觸控面板模組之電容式觸控面板10上方的T公釐(T例如為0.3)之內時，電容式觸控面板模組之觸控晶片會感應物件移動產生的懸浮手勢，但卻不會判斷物件的座標。 On the other hand, there are some mutually exclusive settings between the different operation modes of the capacitive touch panel module, so that the user cannot switch the capacitive touch panel mode by entering the setting options of the operating system in some situations. The mode of operation of the group. For example, please refer to FIG. 1A . FIG. 1A is a schematic diagram of a situation in which the operation mode of the capacitive touch panel module is a hover mode. In FIG. 1A, when an object (for example, a user's finger 11) is suspended within T mm (T is, for example, 0.3) above the capacitive touch panel 10 of the capacitive touch panel module, the capacitive touch The touch panel of the control panel module senses the hovering gesture generated by the movement of the object, but does not determine the coordinates of the object.

請參照圖1B，圖1B是電容式觸控面板模組之操作模式為手套應用模式的情境示意圖。於圖1B中，當物件(例如，使用者穿戴的手套12)觸碰電容式觸控面板模組之電容式觸控面板10時，使用者的手指11亦懸浮於電容式觸控面板模組之電容式觸控面板10上方的T公釐之內，不同於前述懸浮應用模式，此時電容式觸控面板模組之觸控晶片則須進一步判斷使用者之手指11的座標。 Please refer to FIG. 1B . FIG. 1B is a schematic diagram of a scenario in which the operation mode of the capacitive touch panel module is a glove application mode. In FIG. 1B, when an object (for example, a glove 12 worn by a user) touches the capacitive touch panel 10 of the capacitive touch panel module, the user's finger 11 is also suspended in the capacitive touch panel module. Within T mm above the capacitive touch panel 10, unlike the aforementioned floating application mode, the touch wafer of the capacitive touch panel module needs to further determine the coordinates of the user's finger 11.

由此可以得知，若使用者穿戴手套，且電容式觸控面板模組所對應之操作模式為懸浮應用模式時，因為在懸浮應用模式下，電容式觸控面板模組的觸控晶片並沒有進一步判斷物件的座標，導致使用者無法透過進入作業系統的設定選項，來將電容式觸控面板模組的操作模式從懸浮應用模式切換成手套應用模式。另一情況，抗雜訊模式可能僅允許一個物件進行操作，而一般模式允許多個物件進行操作。因此，在抗雜訊模式下，若進入作業系統 的設定選項需要使用者使用多個物件進行操作，則使用者無法將電容式觸控面板模組從抗雜訊模式切換為一般模式。 Therefore, if the user wears the glove and the operation mode corresponding to the capacitive touch panel module is the floating application mode, because the touch sensor module of the capacitive touch panel module is in the floating application mode, Without further determining the coordinates of the object, the user cannot switch the operation mode of the capacitive touch panel module from the floating application mode to the glove application mode by entering the setting options of the operating system. In another case, the anti-noise mode may only allow one object to operate, while the general mode allows multiple objects to operate. Therefore, in the anti-noise mode, if you enter the operating system The setting option requires the user to operate with multiple objects, and the user cannot switch the capacitive touch panel module from the anti-noise mode to the normal mode.

綜上所述，由於習用電容式觸控面板模組的操作模式切換方式往往需要透過在作業系統下的設定選項來進行操作模式切換的選擇，故在特殊環境雜訊或使用狀況下，常導致使用者無法順利進入作業系統的設定選項來進行操作模式切換，造成使用的不便利性。 In summary, since the operation mode switching mode of the conventional capacitive touch panel module often needs to be selected through the setting options under the operating system, it is often caused by special environment noise or usage conditions. The user cannot smoothly enter the setting options of the operating system to switch the operation mode, resulting in inconvenience in use.

本發明實施例提供一種電容式觸控面板模組之操作模式切換方法，其中電容式觸控面板模組具有第一操作模式與第二操作模式，且所述操作模式切換方法的步驟如下。於第一操作模式下偵測懸浮手勢，其中第一操作模式具有懸浮手勢偵測功能。接著，若懸浮手勢符合特定手勢，將電容式觸控面板模組自第一操作模式切換至第二操作模式。 The embodiment of the present invention provides a method for switching an operation mode of a capacitive touch panel module. The capacitive touch panel module has a first operation mode and a second operation mode, and the steps of the operation mode switching method are as follows. The hovering gesture is detected in the first mode of operation, wherein the first mode of operation has a hovering gesture detection function. Then, if the hovering gesture conforms to the specific gesture, the capacitive touch panel module is switched from the first operating mode to the second operating mode.

本發明另一實施例提供一種電容式觸控面板模組之操作模式切換方法，其中電容式觸控面板模組具有第一操作模式與第二操作模式，且所述操作模式切換方法的步驟如下。於第一操作模式下偵測手勢。接著，若手勢符合特定手勢，將電容式觸控面板模組自第一操作模式切換至第二操作模式，其中第一、第二操作模式分別具有用以獲得操作資訊的第一演算法與第二演算法，且第一演算法不同於第二演算法。 Another embodiment of the present invention provides a method for switching an operation mode of a capacitive touch panel module, wherein the capacitive touch panel module has a first operation mode and a second operation mode, and the steps of the operation mode switching method are as follows . The gesture is detected in the first mode of operation. Then, if the gesture conforms to the specific gesture, the capacitive touch panel module is switched from the first operation mode to the second operation mode, wherein the first and second operation modes respectively have a first algorithm and a first algorithm for obtaining operation information Second algorithm, and the first algorithm is different from the second algorithm.

綜上所述，本發明實施例所提供的電容式觸控面板模組之操作模式切換方法可以在不增加智能裝置之額外負擔的情況下，解決不同操作模式間之部份設定互斥而不易切換的問題。 In summary, the operation mode switching method of the capacitive touch panel module provided by the embodiment of the present invention can solve the mutual exclusion of different operation modes without increasing the additional burden of the smart device. Switching problems.

為使能更進一步瞭解本發明之特徵及技術內容，請參閱以下有關本發明之詳細說明與附圖，但是此等說明與所附圖式僅係用來說明本發明，而非對本發明的權利範圍作任何的限制。 The detailed description of the present invention and the accompanying drawings are to be understood by the claims The scope is subject to any restrictions.

10‧‧‧手指 10‧‧‧ fingers

11、30、201‧‧‧電容式觸控面板 11, 30, 201‧‧‧ capacitive touch panel

12‧‧‧手套 12‧‧‧ gloves

2‧‧‧智能裝置 2‧‧‧Smart devices

20‧‧‧電容式觸控面板模組 20‧‧‧Capacitive touch panel module

202‧‧‧觸控晶片 202‧‧‧ touch wafer

21‧‧‧液晶顯示模組 21‧‧‧LCD module

22‧‧‧處理單元 22‧‧‧Processing unit

31~34‧‧‧特定手勢 31~34‧‧‧Special gestures

S401~S404、S411~S414‧‧‧步驟流程 S401~S404, S411~S414‧‧‧ Step procedure

圖1A是電容式觸控面板模組之操作模式為懸浮應用模式的情境示意圖。 FIG. 1A is a schematic diagram of a situation in which the operation mode of the capacitive touch panel module is a floating application mode.

圖1B是電容式觸控面板模組之操作模式為手套應用模式的情境示意圖。 FIG. 1B is a schematic diagram of a scenario in which the operation mode of the capacitive touch panel module is a glove application mode.

圖2是本發明實施例之智能裝置的方塊圖。 2 is a block diagram of a smart device in accordance with an embodiment of the present invention.

圖3是本發明實施例之電容式觸控面板模組進行操作模式切換的情境示意圖。 FIG. 3 is a schematic diagram of a situation in which a capacitive touch panel module of the embodiment of the present invention switches an operation mode.

圖4A是本發明實施例之電容式觸控面板模組之操作模式切換方法的流程圖。 4A is a flowchart of a method for switching an operation mode of a capacitive touch panel module according to an embodiment of the present invention.

圖4B是本發明另一實施例之電容式觸控面板模組之操作模式切換方法的流程圖。 FIG. 4B is a flowchart of a method for switching an operation mode of a capacitive touch panel module according to another embodiment of the present invention.

在下文將參看隨附圖式更充分地描述各種例示性實施例，在隨附圖式中展示一些例示性實施例。然而，本發明概念可能以許多不同形式來體現，且不應解釋為限於本文中所闡述之例示性實施例。確切而言，提供此等例示性實施例使得本發明將為詳盡且完整，且將向熟習此項技術者充分傳達本發明概念的範疇。在諸圖式中，可為了清楚而誇示層及區之大小及相對大小。類似數字始終指示類似元件。 Various illustrative embodiments are described more fully hereinafter with reference to the accompanying drawings. However, the inventive concept may be embodied in many different forms and should not be construed as being limited to the illustrative embodiments set forth herein. Rather, these exemplary embodiments are provided so that this invention will be in the In the drawings, the size and relative sizes of layers and regions may be exaggerated for clarity. Similar numbers always indicate similar components.

本發明實施例提供一種電容式觸控面板模組之操作模式切換方法，所述操作模式切換方法是利用自容式高感度的電容式觸控面板模組於第一操作模式下偵測手勢，並判斷手勢是否符合特定手勢，以決定讓電容式觸控面板模組是否切換至第二操作模式或維持在第一操作模式。 An embodiment of the present invention provides a method for switching an operation mode of a capacitive touch panel module. The operation mode switching method uses a self-capacitance high-sensitivity capacitive touch panel module to detect a gesture in a first operation mode. And determining whether the gesture conforms to the specific gesture to determine whether the capacitive touch panel module is switched to the second operation mode or maintained in the first operation mode.

於本發明實施例中，當上述第一操作模式具有懸浮手勢偵測 功能，且上述手勢是懸浮手勢時，第一操作模式可以是待機模式(idle mode)，而第二操作模式可以是一般模式、抗雜訊模式、防水/防潮模式或特定應用模式，或者，第一操作模式可以是一般模式，而第二操作模式可以是抗雜訊模式、防水/防潮模式或特定應用模式。上述抗雜訊模式例如為抗充電器(charger)雜訊模式、抗全球行動通訊系統(GSM)雜訊模式、抗特定液晶顯示模組幀(specific LCM frame)或雜訊模式，而特定應用模式例如為手套應用模式、觸控筆應用模式或懸浮應用模式。 In the embodiment of the present invention, when the first operation mode has a hovering gesture detection Function, and when the gesture is a hovering gesture, the first operation mode may be an idle mode, and the second operation mode may be a general mode, an anti-noise mode, a waterproof/moisture-proof mode, or a specific application mode, or One mode of operation may be a general mode, and the second mode of operation may be an anti-noise mode, a waterproof/moisture-proof mode, or a specific application mode. The anti-noise mode is, for example, a charger noise mode, a global mobile communication system (GSM) noise mode, a specific LCM frame or a noise mode, and a specific application mode. For example, a glove application mode, a stylus application mode, or a floating application mode.

於本發明實施例中，操作於電容式觸控面板模組上的手勢可以是懸浮手勢或觸碰手勢，第一操作模式為一般模式，而第二操作模式為抗雜訊模式、防水/防潮模式或特定應用程式，其中第一操作模式包含有用以獲取操作資訊的第一演算法，第二操作模式亦包含有用以獲取操作資訊的第二演算法，且第一演算法不同於第二演算法。第一演算法與第二演算法可能有不同的設定參數，而設定參數包括掃描頻率、增益值(相關於感測靈敏度)與操作物件允許數目的至少其中之一。 In the embodiment of the present invention, the gesture on the capacitive touch panel module may be a hovering gesture or a touch gesture, the first operation mode is a general mode, and the second operation mode is an anti-noise mode, waterproof/moisture proof. a mode or a specific application, wherein the first mode of operation includes a first algorithm useful for obtaining operational information, and the second mode of operation also includes a second algorithm useful for obtaining operational information, and the first algorithm is different from the second algorithm law. The first algorithm and the second algorithm may have different setting parameters, and the setting parameters include at least one of a scanning frequency, a gain value (related to the sensing sensitivity), and an allowable number of operating objects.

以下將先介紹本發明實施例的智能裝置，接著再繼續介紹本發明實施例之操作模式切換方法。當然，所屬技術領域具有通常知識者應知悉，下述各實施例僅是本發明的其中一種實現方式，其並非用以限制本發明。 The smart device of the embodiment of the present invention will be described below, and then the operation mode switching method of the embodiment of the present invention will be further described. Of course, those skilled in the art should be aware that the following embodiments are merely one of the implementations of the present invention and are not intended to limit the present invention.

請參照圖2，圖2是本發明實施例之智能裝置的方塊圖。智能裝置2包括電容式觸控面板模組20、液晶顯示模組21與處理單元22，其中處理單元22電性連接電容式觸控面板模組20與液晶顯示模組21。電容式觸控面板模組20包括電容式觸控面板201與觸控晶片202，其中電容式觸控面板201電性連接觸控晶片202。 Please refer to FIG. 2. FIG. 2 is a block diagram of a smart device according to an embodiment of the present invention. The smart device 2 includes a capacitive touch panel module 20 , a liquid crystal display module 21 , and a processing unit 22 . The processing unit 22 is electrically connected to the capacitive touch panel module 20 and the liquid crystal display module 21 . The capacitive touch panel module 20 includes a capacitive touch panel 201 and a touch wafer 202. The capacitive touch panel 201 is electrically connected to the touch wafer 202.

處理單元22為智能裝置2的核心元件，用以執行各種不同的工作，其功能為所屬技術領域具有通常知識者所知悉，故不多贅述。液晶顯示模組21用以顯示智能裝置2所輸出的畫面，其功能 亦為所屬技術領域具有通常知識者所知悉，故不多贅述。 The processing unit 22 is a core component of the smart device 2 for performing various different functions, and its functions are known to those of ordinary skill in the art, and therefore will not be described again. The liquid crystal display module 21 is configured to display a screen output by the smart device 2, and its function It is also known to those of ordinary skill in the art, and therefore will not be described again.

在一實施例中，觸控晶片202以自容式掃描技術對觸控面板201進行掃描，使得電容式觸控面板201在一般模式或待機模式下，可以感應懸浮於其上的物件，並產生電容變化的資訊傳送至觸控晶片202，進而感測懸浮手勢。 In one embodiment, the touch panel 202 scans the touch panel 201 by using a self-capacitance scanning technology, so that the capacitive touch panel 201 can sense objects suspended thereon in a normal mode or a standby mode, and generate The information of the change in capacitance is transmitted to the touch wafer 202 to sense the hovering gesture.

在此請注意，一般模式與待機模式的差異主要在於，兩者的掃描頻率並不相同，一般而言待機模式的掃描頻率低於一般模式的掃描頻率，透過降低電容式觸控面板201的掃描頻率，可以有效地降低電容式觸控面板模組20的耗電量。 Please note that the difference between the normal mode and the standby mode is mainly that the scanning frequency of the two modes is not the same. Generally, the scanning frequency of the standby mode is lower than the scanning frequency of the normal mode, and the scanning of the capacitive touch panel 201 is reduced. The frequency can effectively reduce the power consumption of the capacitive touch panel module 20.

前述第一演算法與第二演算法係儲存儲存於觸控晶片202中，且由觸控晶片202執行之。在一實施例中，第一操作模式被設計為待機模式，而第二操作模式被設計為一般模式、抗雜訊模式或特定應用模式，亦即，第一操作模式的掃描頻率低於第二操作模式的掃描頻率。這樣的配置有助於省電。 The first algorithm and the second algorithm are stored in the touch wafer 202 and executed by the touch wafer 202. In an embodiment, the first mode of operation is designed to be in a standby mode, and the second mode of operation is designed to be a general mode, an anti-noise mode, or a specific application mode, that is, the scan frequency of the first mode of operation is lower than the second mode. The scan frequency of the operating mode. This configuration helps save power.

在本實施例之其中一種實施樣態中，當電容式觸控面板模組20操作於第一操作模式時，可以感測懸浮手勢。若懸浮手勢符合特定手勢，則觸控晶片202改執行第二演算法，而使得電容式觸控面板模組20切換至第二操作模式。相反地，若懸浮手勢不符合特定手勢，則觸控晶片202繼續執行第一演算法，而使得電容式觸控面板模組20維持於第一操作模式。 In one of the embodiments of the present embodiment, when the capacitive touch panel module 20 is operated in the first operation mode, the hovering gesture can be sensed. If the hover gesture conforms to the specific gesture, the touch wafer 202 performs the second algorithm instead, and the capacitive touch panel module 20 is switched to the second operation mode. Conversely, if the hovering gesture does not conform to the particular gesture, the touch wafer 202 continues to perform the first algorithm, while maintaining the capacitive touch panel module 20 in the first mode of operation.

在本發明實施例之另一實施樣態中，當第一操作模式被設計為一般模式，而第二操作模式被設計為抗雜訊模式、防水/防潮模式或特定應用模式時，第一操作模式所偵測的手勢可以不是上述懸浮手勢，而可以改偵測觸碰手勢。於第一操作模式下，當觸碰手勢符合特定手勢時，則觸控晶片202改執行第二演算法，而使得電容式觸控面板模組20切換至第二操作模式。相反地，若觸碰手勢不符合特定手勢，則觸控晶片202繼續執行第一演算法，而使得電容式觸控面板模組20維持於第一操作模式。 In another embodiment of the present invention, when the first operation mode is designed as a general mode and the second operation mode is designed to be an anti-noise mode, a waterproof/moisture-proof mode, or a specific application mode, the first operation The gesture detected by the mode may not be the above-mentioned hovering gesture, but may change the touch gesture. In the first mode of operation, when the touch gesture conforms to the specific gesture, the touch wafer 202 performs the second algorithm to switch the capacitive touch panel module 20 to the second operation mode. Conversely, if the touch gesture does not conform to the particular gesture, the touch wafer 202 continues to perform the first algorithm, thereby maintaining the capacitive touch panel module 20 in the first mode of operation.

請接著參照圖3，圖3是本發明實施例之電容式觸控面板模組進行操作模式切換的情境示意圖。不同的特定手勢可以被設計對應於不同的第二操作模式。以第一操作模式為待機模式為例進行說明，於第一操作模式下，當使用者於電容式觸控面板模組之電容式觸控面板30上的懸浮手勢符合特定手勢31~34的其中一者時，則電容式觸控面板模組會切換至對應特定手勢31(假設懸浮手勢符合特定手勢31)的第二操作模式。 Please refer to FIG. 3 . FIG. 3 is a schematic diagram of a situation in which the capacitive touch panel module of the embodiment of the present invention switches the operation mode. Different specific gestures can be designed to correspond to different second modes of operation. Taking the first operation mode as the standby mode as an example, in the first operation mode, when the user suspends the gesture on the capacitive touch panel 30 of the capacitive touch panel module, the specific gestures 31 to 34 are met. In one case, the capacitive touch panel module switches to a second mode of operation corresponding to a particular gesture 31 (assuming the hover gesture conforms to the particular gesture 31).

於此實施例中，特定手勢31~34對應的第二操作模式可以分為一般模式、抗雜訊模式、觸控筆應用模式與手套模式。當然，上述特定手勢31~34對應的第二操作模式之設計方式並非用以限制本發明，所屬技術領域具有通常知識者可以依據需要設計特定手勢31~34所對應的第二操作模式。 In this embodiment, the second operation modes corresponding to the specific gestures 31-34 can be divided into a general mode, an anti-noise mode, a stylus application mode, and a glove mode. Certainly, the design manner of the second operation mode corresponding to the specific gestures 31-34 is not used to limit the present invention. Those skilled in the art may design a second operation mode corresponding to the specific gestures 31-34 as needed.

另外一方面，上述特定手勢31~34為往單一特定方向(例如左、上、右與下)滑動的手勢，然而，本發明並不限制特定手勢31~34的設計方式。舉例來說，特定手勢31~34亦可以是特定數量之物件同時向不同方向滑動的手勢(例如，兩根手指分別同時往上與往下滑動的手勢)或依序向不同方向滑動的手勢(例如，單一根手指畫S字的手勢)。 On the other hand, the specific gestures 31-34 described above are gestures that slide toward a single specific direction (eg, left, up, right, and down), however, the present invention does not limit the design of the specific gestures 31-34. For example, the specific gestures 31~34 may also be gestures in which a certain number of objects slide in different directions at the same time (for example, a gesture in which two fingers slide up and down simultaneously) or sequentially slide in different directions ( For example, a single finger draws an S-shaped gesture).

除此之外，要注意的是，當第二操作模式被設計為抗雜訊模式或防水/防潮模式時，由於雜訊或水氣容易對觸碰手勢的判斷造成影響，導致感測錯誤，因此，在此類型的第二操作模式下，電容式觸控面板模組會被設計係僅允許小於等於操作物件允許數目之物件於其電容式觸控面板30上進行操作。 In addition, it should be noted that when the second operation mode is designed to be anti-noise mode or waterproof/moisture-proof mode, the noise or moisture may easily affect the judgment of the touch gesture, resulting in a sensing error. Therefore, in the second mode of operation of this type, the capacitive touch panel module is designed to allow only an object that is less than or equal to the number of objects allowed to operate on its capacitive touch panel 30.

接著，請參照圖4A，圖4A是本發明實施例之電容式觸控面板模組之操作模式切換方法的流程圖。首先，在步驟S401中，電容式觸控面板模組於第一操作模式下偵測懸浮手勢，其中第一操作模式具有懸浮手勢偵測功能。例如，第一操作模式為待機模式，而第二操作模式為一般模式、抗雜訊模式或特定應用模式，或者 第一模式為一般模式，而第二模式為抗雜訊模式或特定應用模式。接著，在步驟S402中，電容式觸控面板模組判斷懸浮手勢是否符合特定手勢。若懸浮手勢符合特定手勢，則執行步驟S403，若懸浮手勢不符合特定手勢，則執行步驟S404。於步驟S403中，電容式觸控面板模組自第一操作模式切換至第二操作模式。於步驟S404中，電容式觸控面板模組維持在第一操作模式。 Next, please refer to FIG. 4A. FIG. 4A is a flowchart of a method for switching an operation mode of a capacitive touch panel module according to an embodiment of the present invention. First, in step S401, the capacitive touch panel module detects a hovering gesture in the first operating mode, wherein the first operating mode has a hovering gesture detection function. For example, the first mode of operation is a standby mode, and the second mode of operation is a normal mode, an anti-noise mode, or a specific application mode, or The first mode is the general mode, and the second mode is the anti-noise mode or the specific application mode. Next, in step S402, the capacitive touch panel module determines whether the hovering gesture conforms to a specific gesture. If the hovering gesture conforms to the specific gesture, step S403 is performed, and if the hovering gesture does not meet the specific gesture, step S404 is performed. In step S403, the capacitive touch panel module is switched from the first operation mode to the second operation mode. In step S404, the capacitive touch panel module is maintained in the first mode of operation.

之後，請參照圖4B，圖4B是本發明另一實施例之電容式觸控面板模組之操作模式切換方法的流程圖。首先，在步驟S411中，電容式觸控面板模組於第一操作模式下偵測手勢，其中第一、第二操作模式分別對應用以獲得操作資訊的第一演算法與第二演算法，且第一演算法不同於第二演算法。第一模式為一般模式，而第二模式為抗雜訊模式或特定應用模式。接著，在步驟S412中，電容式觸控面板模組判斷手勢是否符合特定手勢。若手勢符合特定手勢，則執行步驟S413，若手勢不符合特定手勢，則執行步驟S414。於步驟S413中，電容式觸控面板模組自第一操作模式切換至第二操作模式。於步驟S414中，電容式觸控面板模組維持在第一操作模式。 4B, FIG. 4B is a flowchart of a method for switching an operation mode of a capacitive touch panel module according to another embodiment of the present invention. First, in step S411, the capacitive touch panel module detects a gesture in the first operation mode, wherein the first algorithm and the second operation mode respectively apply the first algorithm and the second algorithm to obtain operation information. And the first algorithm is different from the second algorithm. The first mode is the general mode, and the second mode is the anti-noise mode or the specific application mode. Next, in step S412, the capacitive touch panel module determines whether the gesture conforms to a specific gesture. If the gesture meets the specific gesture, step S413 is performed, and if the gesture does not meet the specific gesture, step S414 is performed. In step S413, the capacitive touch panel module is switched from the first operation mode to the second operation mode. In step S414, the capacitive touch panel module is maintained in the first mode of operation.

據此，本發明實施例所提供的電容式觸控面板模組之操作模式切換方法可以在讓使用者在第一操作模式下，透過手勢使電容式觸控面板模組之觸控晶片將電容式觸控面板模組切換至第二操作模式。因此，所述電容式觸控面板模組之操作模式切換方法可以在不進入作業系統之設定選項的限制下，解決不同操作模式間之部份設定互斥而不易切換的問題。 Accordingly, the operation mode switching method of the capacitive touch panel module provided by the embodiment of the present invention can enable the user to make the capacitance of the touch control chip of the capacitive touch panel module through the gesture in the first operation mode. The touch panel module is switched to the second operation mode. Therefore, the operation mode switching method of the capacitive touch panel module can solve the problem that some settings between different operation modes are mutually exclusive and not easy to switch without being restricted by the setting options of the operating system.

以上所述，僅為本發明最佳之具體實施例，惟本發明之特徵並不侷限於此，任何熟悉該項技藝者在本發明之領域內，可輕易思及之變化或修飾，皆可涵蓋在以下本案之專利範圍。 The above description is only the preferred embodiment of the present invention, but the features of the present invention are not limited thereto, and any one skilled in the art can easily change or modify it in the field of the present invention. Covered in the following patent scope of this case.

S401~S404‧‧‧步驟流程 S401~S404‧‧‧Step procedure

Claims (15)

一種電容式觸控面板模組之操作模式切換方法，其中該電容式觸控面板模組具有一第一操作模式與一第二操作模式，該操作模式切換方法包括：於該第一操作模式下偵測一懸浮手勢，其中該第一操作模式具有一懸浮手勢偵測功能；以及若該懸浮手勢符合一特定手勢，將該電容式觸控面板模組自該第一操作模式切換至該第二操作模式。 The operation mode switching method of the capacitive touch panel module, wherein the capacitive touch panel module has a first operation mode and a second operation mode, and the operation mode switching method comprises: in the first operation mode Detecting a hovering gesture, wherein the first mode of operation has a hovering gesture detection function; and if the hovering gesture conforms to a specific gesture, switching the capacitive touch panel module from the first mode of operation to the second Operating mode. 如請求項第1項之電容式觸控面板模組之操作模式切換方法，其中於該第一操作模式下，使用一第一演算法，於該第二操作模式下，使用一第二演算法，且該第一演算法不同於該第二演算法。 The operation mode switching method of the capacitive touch panel module of claim 1, wherein in the first operation mode, a first algorithm is used, and in the second operation mode, a second algorithm is used. And the first algorithm is different from the second algorithm. 如請求項第1項之電容式觸控面板模組之操作模式切換方法，其中該第一操作模式為一待機模式，且該第二操作模式為一一般模式、一抗雜訊模式、一防水/防潮模式或一特定應用模式。 The operation mode switching method of the capacitive touch panel module of claim 1, wherein the first operation mode is a standby mode, and the second operation mode is a general mode, an anti-noise mode, and a waterproof / moisture proof mode or a specific application mode. 如請求項第1項之電容式觸控面板模組之操作模式切換方法，其中該第一操作模式為一一般模式，而該第二操作模式為一抗雜訊模式、一防水/防潮模式或一特定應用模式。 The operation mode switching method of the capacitive touch panel module of claim 1, wherein the first operation mode is a general mode, and the second operation mode is an anti-noise mode, a waterproof/moisture-proof mode, or A specific application mode. 如請求項第1項之電容式觸控面板模組之操作模式切換方法，其中於該第二操作模式下係僅允許小於等於一操作物件允許數目之物件在該電容式觸控面板模組之一電容式觸控面板上進行操作。 The operation mode switching method of the capacitive touch panel module of claim 1, wherein in the second operation mode, only an object that is less than or equal to an allowable number of operating objects is allowed in the capacitive touch panel module. Operate on a capacitive touch panel. 如請求項第2項之電容式觸控面板模組之操作模式切換方法，其中該第一操作模式與該第二操作模式分別對應不同的工作參數，該工作參數包括一掃描頻率、一增益值與一操作物件允許數目的至少其中之一。 The operation mode switching method of the capacitive touch panel module of claim 2, wherein the first operation mode and the second operation mode respectively correspond to different operating parameters, and the working parameter includes a scanning frequency and a gain value. At least one of the number allowed with an operating object. 如請求項第6項之電容式觸控面板模組之操作模式切換方法，其中該第一操作模式的掃描頻率低於該第二操作模式的掃描 頻率。 The operation mode switching method of the capacitive touch panel module of claim 6, wherein the scan frequency of the first operation mode is lower than the scan of the second operation mode frequency. 如請求項第1項之電容式觸控面板模組之操作模式切換方法，其中該特定手勢為向一特定方向滑動的手勢、符合一特定數量之物件同時向不同方向滑動的手勢或依序向不同方向滑動的手勢。 The operation mode switching method of the capacitive touch panel module of claim 1, wherein the specific gesture is a gesture of sliding in a specific direction, a gesture corresponding to a certain number of objects sliding in different directions, or sequentially Gestures that slide in different directions. 一種電容式觸控面板模組之操作模式切換方法，其中該電容式觸控面板具有一第一操作模式與一第二操作模式，且該操作模式切換方法包括：於該第一操作模式下偵測一手勢；以及若該手勢符合一特定手勢，將該電容式觸控面板模組自該第一操作模式切換至該第二操作模式；其中該第一、第二操作模式分別具有用以獲得一操作資訊的一第一演算法與一第二演算法，且該第一演算法不同於該第二演算法。 The operation mode switching method of the capacitive touch panel module, wherein the capacitive touch panel has a first operation mode and a second operation mode, and the operation mode switching method comprises: detecting in the first operation mode Measuring a gesture; and if the gesture conforms to a specific gesture, switching the capacitive touch panel module from the first mode of operation to the second mode of operation; wherein the first and second modes of operation are respectively used to obtain A first algorithm of operation information and a second algorithm, and the first algorithm is different from the second algorithm. 如請求項第9項之電容式觸控面板模組之操作模式切換方法，其中該手勢為一懸浮手勢或一觸碰手勢。 The operation mode switching method of the capacitive touch panel module of claim 9, wherein the gesture is a hovering gesture or a touch gesture. 如請求項第9項之電容式觸控面板模組之操作模式切換方法，其中該第一操作模式為一般模式，且該第二操作模式為一抗雜訊模式、一防水/防潮模式或一特定應用模式。 The operation mode switching method of the capacitive touch panel module of claim 9, wherein the first operation mode is a general mode, and the second operation mode is an anti-noise mode, a waterproof/moisture-proof mode or a Specific application mode. 如請求項第9項之電容式觸控面板模組之操作模式切換方法，其中於該第二操作模式下係僅允許小於等於一操作物件允許數目之物件在該電容式觸控面板上進行操作。 The operation mode switching method of the capacitive touch panel module of claim 9, wherein in the second operation mode, only an object that is less than or equal to an allowable number of operating objects is allowed to operate on the capacitive touch panel. . 如請求項第9項之電容式觸控面板模組之操作模式切換方法，其中該第一演算法及第二演算法分別具有不同的設定參數來偵測一物件於該電容式觸控面板模組之一電容式觸控面板上的操作資訊，該設定參數包括一掃描頻率、一增益值與一操作物件允許數目的至少其中之一。 The operation mode switching method of the capacitive touch panel module of claim 9, wherein the first algorithm and the second algorithm respectively have different setting parameters to detect an object in the capacitive touch panel module The operation information on the capacitive touch panel of the group, the setting parameter includes at least one of a scan frequency, a gain value, and an allowable number of an operation object. 如請求項第13項之電容式觸控面板模組之操作模式切換方 法，其中該第一演算法所設定的掃描頻率低於該第二演算法所設定的掃描頻率。 The operation mode switching party of the capacitive touch panel module of claim 13 The method, wherein the scanning frequency set by the first algorithm is lower than the scanning frequency set by the second algorithm. 如請求項第9項之電容式觸控面板模組之操作模式切換方法，其中該特定手勢為向一特定方向滑動的手勢、符合一特定數量之物件同時向多個不同方向滑動的手勢或依序向不同方向滑動的手勢。 The operation mode switching method of the capacitive touch panel module of claim 9, wherein the specific gesture is a gesture of sliding in a specific direction, a gesture corresponding to a certain number of objects sliding in a plurality of different directions, or The gesture of sliding in different directions.