CN104035608A - Touch panel sampling frequency adjusting device and method - Google Patents

Abstract

The invention provides a touch panel sampling frequency adjusting device and method. The adjusting method comprises the steps of detecting whether a touch event occurs on a touch panel through a touch chip; analyzing the operating situation demand to obtain an analysis result when the touch event occurs; dynamically adjusting the sampling frequency of the touch chip to the touch panel according to the analysis result.

Description

The adjusting gear of contact panel sample frequency and method

Technical field

The invention relates to a kind of screen touch electronic device, and particularly relevant for a kind of adjusting gear and method of contact panel sample frequency.

Background technology

User for example, when operation with traditional screen touch electronic device (smart mobile phone or panel computer), and the sample frequency of its contact panel (sampling rate) is often fixing frequency.Yet in different operating environments, or while using different application software (application program, AP), the demand of sample frequency also can be different.

If sample frequency demand is instantly less than the sample frequency of contact panel, too high sample frequency can make more power consumption of screen touch electronic device.For example, when user is when operating screen touch electronic device with reading file, the sample frequency demand of reading file is low sample frequency.Low sample frequency can reduce the power consumption of screen touch electronic device.

If sample frequency demand is instantly greater than the sample frequency of contact panel, because sample frequency is too low, make user's operating experience not good.For example, when user (as Fighting Game (FTG)) when playing games, the sample frequency demand of game is high sample frequency, so that the response that allows user operate is more smooth/instant.

Summary of the invention

The invention provides a kind of adjusting gear and method of contact panel sample frequency, to provide a feedback mechanism between operating system and touch-control chip, and then make adjusting gear/method can dynamically adjust according to operation scenario demand the sample frequency of contact panel.

The embodiment of the present invention proposes a kind of method of adjustment of contact panel sample frequency.Described method of adjustment comprises: by touch-control chip detection contact panel, whether touch-control event occurs; When there is this touch-control event, analysis operation situation demand, to obtain analysis result; And according to this analysis result, dynamically adjust the sample frequency of this touch-control chip to this contact panel.

The embodiment of the present invention proposes a kind of adjusting gear of contact panel sample frequency, comprises detection module, analysis module and adjusting module.Whether detection module there is touch-control event by touch-control chip detection contact panel.Analysis module is coupled to this detection module, to receive the touch information of this touch-control event.When there is this touch-control event, this analysis module analysis operation situation demand, to obtain analysis result.Adjusting module is coupled to analysis module, to receive this analysis result.Adjusting module, according to this analysis result, is dynamically adjusted the sample frequency of touch-control chip to contact panel.

Based on above-mentioned, adjusting gear and the method for the contact panel sample frequency of the embodiment of the present invention can provide feedback mechanism between operating system and touch-control chip.Therefore, this adjusting gear/method can dynamically be adjusted the sample frequency of contact panel according to operation scenario demand, so that contact panel sample frequency meets the demand of user's operation scenario.

For above-mentioned feature and advantage of the present invention can be become apparent, special embodiment below, and coordinate accompanying drawing to be described in detail below.

Accompanying drawing explanation

Fig. 1 is the function block schematic diagram that the embodiment of the present invention illustrates a kind of screen touch electronic device;

Fig. 2 is the schematic flow sheet that the embodiment of the present invention illustrates a kind of method of adjustment of contact panel sample frequency;

Fig. 3 is the function block schematic diagram that another embodiment of the present invention illustrates a kind of screen touch electronic device;

Fig. 4 is the schematic flow sheet that another embodiment of the present invention illustrates a kind of method of adjustment of contact panel sample frequency;

Fig. 5 is the schematic flow sheet that yet another embodiment of the invention illustrates a kind of method of adjustment of contact panel sample frequency.

Description of reference numerals:

11: contact panel;

12: touch-control chip;

100,300: the adjusting gear of contact panel sample frequency;

110,310: detection module;

120,330: analysis module;

130,340: adjusting module;

320: logging modle;

S210～S240, S410～S450, S510～S560: step.

Embodiment

" coupling " word using in this case instructions full text (comprising claim) can refer to any direct or indirect connection means.For example, if describe first device in literary composition, be coupled to the second device, should be construed as this first device and can be directly connected in this second device, or this first device can be connected to indirectly by other devices or certain connection means this second device.In addition, all possibility parts are used the element/member/step of same numeral to represent identical or similar portions in graphic and embodiment.In different embodiment, use same numeral or use the element/member/step of identical term can cross-reference related description.

Fig. 1 is the function block schematic diagram that the embodiment of the present invention illustrates a kind of screen touch electronic device.This screen touch electronic device comprises contact panel 11 and touch-control chip 12.Touch-control chip 12 is coupled to many strip electrodes line of contact panel 11, to drive contact panel 11.Touch-control chip 12 can periodically detect contact panel 11 according to default sample frequency whether touch-control event occurs.For example, when user touches the induction region of contact panel 11 with finger (or article), touch-control chip 12 can detect the induction region generation touch-control event of contact panel 11.

Touch-control chip 12 directly or indirectly mode is sent to the touch information of this touch-control event the operating system of screen touch electronic device.For example, when user is with finger (or article) while sliding on contact panel 11, the touch information that the application program of operating system (for example E-book reader) can provide according to touch-control chip 12 and correspondence is carried out page turn over operation.Therefore, user can operate this screen touch electronic device and reading file.

Please refer to Fig. 1, the adjusting gear 100 of contact panel sample frequency comprises detection module 110, analysis module 120 and adjusting module 130.Detection module 110 is in order to be coupled to the touch-control chip 12 of contact panel 11.In certain embodiments, detection module 110, analysis module 120 and/or adjusting module 130 can utilize hardware (hardware) mode to realize.For example, detection module 110, analysis module 120 and/or adjusting module 130 are embodied as to different integrated circuit separately.Again for example, detection module 110, analysis module 120 and/or adjusting module 130 are integrated into same integrated circuit.Detection module 110, analysis module 120 and/or the adjusting module 130 of realizing with hardware mode can be controlled by the operating system of screen touch electronic device.For example, analysis module 120 can be sent to operating system by touch information or analysis result.Again for example, analysis module 120 can receive from operating system the adjustment information/order of sample frequency.

In further embodiments, detection module 110, analysis module 120 and/or adjusting module 130 can utilize firmware (firmware) mode to realize.For example, detection module 110, analysis module 120 and/or adjusting module 130 are implemented in to different microcontroller (microcontroller) in firmware mode separately.Again for example, detection module 110, analysis module 120 and/or adjusting module 130 are integrated into same firmware.The detection module 110 of realizing in firmware mode, analysis module 120 and/or adjusting module 130 can be controlled by the operating system of screen touch electronic device.

In other embodiments, detection module 110, analysis module 120 and/or adjusting module 130 can utilize software (software) mode to realize.For example, detection module 110, analysis module 120 and/or adjusting module 130 are implemented in to different application program (or driver) with software mode separately.Again for example, detection module 110, analysis module 120 and/or adjusting module 130 are integrated into same program.Detection module 110, analysis module 120 and/or the adjusting module 130 with software mode, realized can run in the operating system environment of screen touch electronic device.

Fig. 2 is the schematic flow sheet that the embodiment of the present invention illustrates a kind of method of adjustment of contact panel sample frequency.Please refer to Fig. 1 and Fig. 2, touch-control chip 12 is set the sample frequency to contact panel 11 in step S210.In certain embodiments, when screen touch electronic device is when carrying out initialization, touch-control chip 12 is set as an initial value by described sample frequency in step S210.In further embodiments, touch-control chip 12 can be recorded in current sample frequency nonvolatile memory (non-volatile memory).Therefore,, when screen touch electronic device is when carrying out initialization, touch-control chip 12 can be according to sample frequency described in the content setting of described nonvolatile memory in step S210.

After completing steps S210, touch-control chip 12 is understood the sample frequency that set according to step S210 and is periodically detected contact panel 11.Therefore, whether detection module 110 can there is touch-control event by touch-control chip 12 detection contact panels 11 in step S220.Wherein, this touch-control event comprises singly click event or the moving event that refers to (or referring to) more.The touch information that detection module 110 can provide according to touch-control chip 12 carries out click behavior detection and/or mobile behavior detects.

Analysis module 120 is coupled to the output terminal of detection module 110, to receive the touch information of this touch-control event.When there is touch-control event, analysis module 120 carries out step S230, with analysis operation situation demand, and obtains analysis result.In certain embodiments, described analysis operation situation demand comprises: analysis module 120 is analyzed the touch information of this touch-control event and the corresponding relation of user's operation behavior, and passes through adjusting module 130 sampling rate adjustings according to touch information.For example, in certain embodiments, analysis module 120 can be obtained x, the y coordinate of the touch points on contact panel 11, and then x, the y coordinate according to touch points passes through adjusting module 130 sampling rate adjustings.For example, contact panel 11 has Game Zone and non-Game Zone.When user's touch points is positioned at non-Game Zone, analysis module 120 can be set as sample frequency by adjusting module 130 " normal sample frequency ".When user's touch points is positioned at Game Zone, analysis module 120 can be set as sample frequency to be greater than by adjusting module 130 " the high sample frequency " of described normal sample frequency, to make the response of user's operation behavior more smooth/and instant.

In further embodiments, analysis module 120 can be resolved the mistiming of user's touch-control behavior, then according to this mistiming, passes through adjusting module 130 sampling rate adjustings.The mistiming of described touch-control behavior comprises singly and refers to a previous click behavior that (or referring to) clicked contact panel 11 and the mistiming of a current click behavior more, and/or is singly to refer to a previous mobile behavior of (or referring to) movement on contact panel 11 and the mistiming of a current mobile behavior more.For example, for general operation, when user is when playing Fighting Game (FTG), the click/mobile behavior of user on contact panel 11 is very fast and frequently.Therefore, for example,, if the mistiming of front and back click/mobile behavior is greater than critical value (threshold, 0.5 second), analysis module 120 can be set as sample frequency by adjusting module 130 " normal sample frequency ".If the mistiming of front and back click/mobile behavior is less than critical value, analysis module 120 can be set as sample frequency to be greater than by adjusting module 130 " the high sample frequency " of described normal sample frequency, to make the response of user's operation behavior more smooth/and instant.

In further embodiments, analysis module 120 can be analyzed the displacement of touch point on contact panel 11, then according to this displacement, passes through adjusting module 130 sampling rate adjustings.For example, for example, if the displacement of touch point is greater than critical value (20mm), analysis module 120 can be set as sample frequency by adjusting module 130 " normal sample frequency ".If the displacement of touch point is less than critical value, analysis module 120 can be set as sample frequency to be greater than by adjusting module 130 " the high sample frequency " of described normal sample frequency, to make the response of user's operation behavior more smooth/and instant.

In further embodiments, analysis module 120 can be analyzed the moving direction of a touch point, then according to this moving direction, passes through adjusting module 130 sampling rate adjustings.For example, if the moving direction of touch point for up or down, analysis module 120 can be set as sample frequency by adjusting module 130 " normal sample frequency ".If the moving direction of touch point is for to the left or to the right, analysis module 120 can be set as sample frequency to be greater than by adjusting module 130 " the high sample frequency " of described normal sample frequency.

In further embodiments, the situation of analysis operation described in step S230 demand comprises: analysis module 120 is analyzed the touch information of this touch-control event and the corresponding relation of current operating system environment, and passes through adjusting module 130 sampling rate adjustings according to touch information.For example, the current application program that analysis module 120 can analysis operation system, and determine a target sample frequency according to this current application program.If application program is web browser at present, analysis module 120 can be set as sample frequency by adjusting module 130 " normal sample frequency ".If application program is E-book reader at present, analysis module 120 can be set as sample frequency to be less than " the low sample frequency " of described normal sample frequency by adjusting module 130, to reduce the power consumption of touch-control chip 12.If application program is Fighting Game (FTG) program at present, analysis module 120 can be set as sample frequency to be greater than by adjusting module 130 " the high sample frequency " of described normal sample frequency, to make the response of user's operation behavior more smooth/and instant.

Again for example, the current state that analysis module 120 can analysis operation system, and determine target sample frequency according to this current state.If current state is normal manipulation mode, analysis module 120 can be set as sample frequency by adjusting module 130 " normal sample frequency ".If current state is battery saving mode (or standby (standby) pattern or free time (idle) pattern or sleep pattern or park mode), analysis module 120 can be set as sample frequency to be less than " the low sample frequency " of described normal sample frequency by adjusting module 130, to reduce the power consumption of touch-control chip 12.

Adjusting module 130 is coupled to the output terminal of analysis module 120, to receive this analysis result.Adjusting module 130 carries out step S240, dynamically adjusts the sample frequency of 12 pairs of contact panels 11 of touch-control chip with the analysis result according to analysis module 120.In certain embodiments, according to the analysis result of analysis module 120, correspondence determines a weighted value (Weighting) to adjusting module 130, and provide described weighted value to touch-control chip 12, to control touch-control chip 12, according to this weighted value, adjust described sample frequency.In further embodiments, according to the analysis result of analysis module 120, correspondence determines a frequency numerical value (Raw data) to adjusting module 130, and provide described frequency numerical value to touch-control chip 12, to control touch-control chip 12, according to this frequency numerical value, adjust described sample frequency.

Therefore, above-described embodiment middle regulator 100 can provide feedback mechanism between operating system and touch-control chip 12.This adjusting gear/method can dynamically be adjusted the sample frequency of contact panel 11 according to operation scenario demand, so that the sample frequency of contact panel 11 meets the demand of user's operation scenario.

Fig. 3 is the function block schematic diagram that another embodiment of the present invention illustrates a kind of screen touch electronic device.Embodiment illustrated in fig. 3 can be with reference to the related description of Fig. 1 and analogize.Be different from part embodiment illustrated in fig. 1, be that the adjusting gear 300 of middle contact panel sample frequency embodiment illustrated in fig. 3 comprises detection module 310, logging modle 320, analysis module 330 and adjusting module 340.Detection module 310, logging modle 320, analysis module 330 and/or adjusting module 340 can utilize hardware, firmware and/or software mode to realize.Wherein, detection module 310, analysis module 330 and adjusting module 340 can be respectively with reference to the related description of detection module in Fig. 1 110, analysis module 120 and adjusting module 130 and analogize.

Fig. 4 is the schematic flow sheet that another embodiment of the present invention illustrates a kind of method of adjustment of contact panel sample frequency.Middle step S410 embodiment illustrated in fig. 4, S420, S440 and S450 can be respectively with reference to the related description of step S210, S220, S230 and S240 in Fig. 2 and analogize.Be different from part embodiment illustrated in fig. 2, be the step S430 that also comprised embodiment illustrated in fig. 4.

Logging modle 320 is coupled between detection module 310 and analysis module 330.When there is touch-control event, logging modle 320 is carried out step S430, to record the touch-control behavior of this touch-control event that " function at present " and detection module 310 measured.In certain embodiments, the touch-control behavior of the touch-control event that logging modle 320 can Inventory Detection Module 310 measures, and record the corresponding function of described touch-control behavior.For example, suppose that user operates the content that E-book reader (application program) carrys out reading file, user can grow the slip (mobile behavior) of distance on contact panel 11, so that this file is carried out to page-turning function.Therefore, logging modle 320 can record the two corresponding relation of the touch-control behavior slip of distance (long) and file page-turning function.Again for example, user can carry out click behavior on contact panel 11, so that this file is carried out to page-turning function.Therefore, logging modle 320 can record the two corresponding relation of click behavior and file page-turning function.

Each, occur after touch-control event, logging modle 320 can record touch-control behavior and the corresponding function of these touch-control events in step S430.Therefore, the historical data that analysis module 330 can analytic record module 320 in step S440 records, to obtain the corresponding relation of different click behaviors and difference in functionality.According to these historical datas, the corresponding function of touch-control behavior that analysis module 330 can be judged current touch-control event in step S440 why, and then determines target sample frequency according to the function of described correspondence.The target sample frequency that adjusting module 130 can determine according to analysis module 330 in step S450 and go to adjust the sample frequency of 12 pairs of contact panels 11 of touch-control chip.

Yet, logging modle 320 recording content and should not be limited to previous embodiment in step S430.For example, in another embodiment, after there is each time touch-control event, logging modle 320 can record " function at present " in step S430, and the triggered time of record " touch-control event at present ".Therefore, the historical data that analysis module 330 can analytic record module 320 in step S440 records, to obtain the corresponding relation of different triggered times and difference in functionality.According to these historical datas, why analysis module 330 can judge the current corresponding function of touch-control event in step S440, and then according to the function of described correspondence, determines target sample frequency.For instance, analysis module 330 can go out singly to refer to that (or referring to) to a previous click behavior of contact panel 11 clicks and the mistiming of a current click behavior more from these historical data analysis, and/or is singly to refer to a previous mobile behavior of (or referring to) movement on contact panel 11 and the mistiming of a current mobile behavior more.Analysis module 330 further analyzes the different mistimings of click/mobile behavior and the corresponding relation of difference in functionality from these historical datas.So the corresponding function of mistiming that analysis module 330 can be judged current touch-control event why, and then determines target sample frequency according to the function of described correspondence.

In another embodiment, after there is each time touch-control event, logging modle 320 can record " application program at present " in step S430, and record " touch-control event at present ".Therefore, the historical data that analysis module 330 can analytic record module 320 in step S440 records, to obtain the corresponding relation of different touch-control events and different application.According to these historical datas, why analysis module 330 can judge the current corresponding application program of touch-control event in step S440, and then according to the application program of described correspondence, determines target sample frequency.For instance, analysis module 330 can from these historical data analysis, to go out motion track when touch point be long and while having geometric configuration (such as circle etc.), the corresponding application program of this type of touch-control event is plotter program.So, once it is plotter program that analysis module 330 is judged the current corresponding application program of touch-control event, analysis module 330 can be set as sample frequency by adjusting module 340 " high sample frequency ", to make the response of user's operation behavior more smooth/and instant.

In an embodiment again, after there is each time touch-control event, logging modle 320 can record " content of multimedia at present " (for example picture, word, film or other classifications) in step S430, and record " touch-control event at present ".Therefore, the historical data that analysis module 330 can analytic record module 320 in step S440 records, to obtain the corresponding relation of different touch-control events and different multimedia content.According to these historical datas, why analysis module 330 can judge the current corresponding content of multimedia/classification of touch-control event in step S440, and then according to the content of multimedia/classification of described correspondence, determines target sample frequency.

Take mobile phone or panel computer as implementing example.When user is when operating touch-control mobile phone or the contact panel 11 of panel computer, the logging modle 320 of mobile phone or panel computer inside records the operation behavior of user in a period of time, and operating system can be adjusted dynamically by analysis module 330 sample frequency of contact panel 11 according to user's operation behavior.And/or mobile phone or panel computer also can decide the sample frequency of contact panel 11 according to the selected application program of user, this application program is operated more smooth.

Yet in other embodiments, the analysis/determining method of analysis module 330 (or 120) should not be limited to the above-mentioned embodiment of going out.For example, table 1 is that another embodiment has illustrated the corresponding relation that different touch-control events are adjusted from different sample frequency.

Table 1: the corresponding relation that different touch-control events are adjusted from different sample frequency

In table 1, "-" represents not need to consider (don ' t care).In this embodiment, for example, when operating system is switched distinct program (application program) each time, analysis module 330 can first be set as default sweep frequency (for example initial value or normal sample frequency) by adjusting module 340 by sample frequency, and then according to the defined analysis touch-control event of table 1, and then heighten accordingly or turn down sample frequency by adjusting module 340.

Fig. 5 is the schematic flow sheet that yet another embodiment of the invention illustrates a kind of method of adjustment of contact panel sample frequency.Middle step S510 embodiment illustrated in fig. 5, S520, S530, S540 and S560 can be respectively with reference to the related description of step S410, S420, S430, S440 and S450 in Fig. 4 and analogize.Be different from part embodiment illustrated in fig. 4, be the step S550 that also comprised embodiment illustrated in fig. 5.In the present embodiment, analysis module 330 can gate time.For example, when analysis module 330 does not reach adjustment cycle when (1 second or other cycles) in the step S550 judgement time, logging modle 320 can be carried out step S520 to step S540 again with analysis module 330.When analysis module 330 is when the step S550 judgement time has reached adjustment cycle, analysis module 330 can be reseted the time that (reset) counts, and carries out step S560.

In sum, the various embodiments described above can provide a feedback mechanism in operating system, make operating system, driver and/or application program can control the sample frequency that drives chip 12 to remove dynamically to adjust contact panel 11.The various embodiments described above can dynamically increase and decrease the sample frequency of contact panel 11 according to different environments for use and/or user's operational scenario, make it meet operation scenario/demand of user.For the operating environment of high sample frequency demand, the various embodiments described above can dynamically be heightened the sample frequency of contact panel 11, to make the response of user's operation behavior more smooth/and instant.For the operating environment of low sample frequency demand, the various embodiments described above can dynamically lower the sample frequency of contact panel 11, make more power saving of screen touch electronic device.

Finally it should be noted that: each embodiment, only in order to technical scheme of the present invention to be described, is not intended to limit above; Although the present invention is had been described in detail with reference to aforementioned each embodiment, those of ordinary skill in the art is to be understood that: its technical scheme that still can record aforementioned each embodiment is modified, or some or all of technical characterictic is wherein equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (14)

1. a method of adjustment for contact panel sample frequency, is characterized in that, comprising:

By touch-control chip detection one contact panel, whether there is a touch-control event;

When there is this touch-control event, analyze an operation scenario demand, to obtain an analysis result; And

According to this analysis result, dynamically adjust the sample frequency of this touch-control chip to this contact panel.

2. the method for adjustment of contact panel sample frequency according to claim 1, is characterized in that, described analysis one operation scenario demand comprises:

Analyze the touch information of this touch-control event and the corresponding relation of user's operation behavior; Or

Analyze the corresponding relation of described touch information and current operating system environment.

3. the method for adjustment of contact panel sample frequency according to claim 2, is characterized in that, the touch information of this touch-control event of described analysis and the corresponding relation of user's operation behavior comprise:

Analyze the mistiming of a touch-control behavior;

Analyze the displacement of a touch point; Or

Analyze the moving direction of a touch point.

4. the method for adjustment of contact panel sample frequency according to claim 2, is characterized in that, the touch information of this touch-control event of described analysis comprises with the corresponding relation of operating system environment at present:

The current application program of analysis operation system; And

According to this current application program, determine a target sample frequency.

5. the method for adjustment of contact panel sample frequency according to claim 1, is characterized in that, this touch-control chip of described dynamic adjustment comprises the sample frequency of this contact panel:

Provide a weighted value to this touch-control chip, to control this touch-control chip, according to this weighted value, adjust described sample frequency; Or

Provide a frequency numerical value to this touch-control chip, to control this touch-control chip, according to this frequency numerical value, adjust described sample frequency.

6. the method for adjustment of contact panel sample frequency according to claim 1, is characterized in that, also comprises:

The touch-control behavior of record one current function and this touch-control event.

7. the method for adjustment of contact panel sample frequency according to claim 6, is characterized in that, described one current function and the touch-control behavior of recording this touch-control event comprise:

Record the corresponding function of a touch-control behavior;

Record the triggered time of this touch-control event;

Record the corresponding application program of this touch-control event; Or

Record the corresponding content of multimedia of this touch-control event.

8. an adjusting gear for contact panel sample frequency, is characterized in that, comprising:

One detection module, in order to be coupled to a touch-control chip of a contact panel, wherein whether this detection module there is a touch-control event by this this contact panel of touch-control chip detection;

One analysis module, is coupled to this detection module to receive the touch information of this touch-control event, and wherein, when there is this touch-control event, this analysis module is analyzed an operation scenario demand, to obtain an analysis result; And

One adjusting module, is coupled to this analysis module to receive this analysis result, and wherein this adjusting module, according to this analysis result, is dynamically adjusted the sample frequency of this touch-control chip to this contact panel.

9. the adjusting gear of contact panel sample frequency according to claim 8, it is characterized in that, this analysis module is analyzed the touch information of this touch-control event and the corresponding relation of user's operation behavior, or analyzes the corresponding relation of described touch information and current operating system environment.

10. the adjusting gear of contact panel sample frequency according to claim 8, is characterized in that, this analysis module is analyzed the mistiming of a touch-control behavior, or analyzes the displacement of a touch point, or analyzes the moving direction of a touch point.

11. adjusting gears of contact panel sample frequency according to claim 8, is characterized in that, the current application program of this analysis module analysis operation system, and determine a target sample frequency according to this current application program.

12. adjusting gears of contact panel sample frequency according to claim 8, is characterized in that, this adjusting module provides a weighted value to this touch-control chip, to control this touch-control chip, according to this weighted value, adjusts described sample frequency; Or this adjusting module provides a frequency numerical value to this touch-control chip, to control this touch-control chip, according to this frequency numerical value, adjust described sample frequency.

13. adjusting gears of contact panel sample frequency according to claim 8, is characterized in that, also comprise:

One logging modle, is coupled between this detection module and this analysis module, wherein the touch-control behavior of this logging modle record one current function and this touch-control event.

14. according to the adjusting gear of contact panel sample frequency described in claim 13, it is characterized in that, this logging modle records the corresponding function of a touch-control behavior, or the triggered time of recording this touch-control event, or record the corresponding application program of this touch-control event, or record the corresponding content of multimedia of this touch-control event.