CN101408797A - Sensing module - Google Patents

Abstract

A sensing module is arranged in a handheld electronic device. The sensing module comprises a sensing device, a starting device and an arithmetic device. The sensing device senses the acceleration of the motion state of the handheld electronic device to generate an acceleration signal. The starting device is used for generating a starting signal. The computing device receives the acceleration signal and the starting signal and determines whether the motion state of the handheld electronic device is the turnover state or not according to the starting signal and the acceleration signal. When the motion state of the handheld electronic device is the turnover state, the operation device generates a switching signal. The switching signal instructs the handheld electronic device to switch from performing the first operation to performing the second operation. The handheld electronic device comprises an electronic device body and a display device. The display device is arranged on the electronic device body, and the first operation is displayed on the display device in a more obvious way.

Description

Sensing module

Technical field

The present invention relates to a kind of sensing module; Particularly, the present invention relates to a kind of sensing module for the hand-held electronic device use.

Background technology

Except the increase of external aesthetic feeling and function, the convenience in the use and be the reference frame that the consumer selects to buy hand-held electronic device equally in operational cordiality.

Along with the raising of hand-held electronic device performance, the user can be on hand-held electronic device a plurality of programs of open operation simultaneously, or open and browse a plurality of documents.If switch operated program or the document of being browsed, need input media as interface.For example, input media can comprise button, switch, button, mouse, trace ball, contact mat, joystick and touch screen etc.In order to save the space, general hand-held electronic device uses button, switch or touch screen.

Button and switch are for general on the specific direction moving cursor or do the selection of menu.As switching operated program or the document of being browsed, often need repeatedly push one and even a plurality of button or switch.Touch screen then is must be with certain location on touching pen or the finger taps screen.Above switching mode convenience and operational cordiality in the use still has improved space.

Summary of the invention

Fundamental purpose of the present invention is to provide a kind of sensing module of hand-hold electronic device, improves the ease of use of hand-hold electronic device.

Another fundamental purpose of the present invention is to provide a kind of hand-hold electronic device, has preferred ease of use.

Another fundamental purpose of the present invention is to provide a kind of hand-hold electronic device method of operating, improves the ease of use of hand-hold electronic device.

Sensing module of the present invention is arranged in the hand-hold electronic device.Hand-hold electronic device comprises electronics and display device.Electronics has executory first operation and second operation to be hit.Display device is arranged on the electronics, and first operates in display device is significantly demonstration, and second operates in display device is more obscure demonstration.

According to sensing module of the present invention, wherein sensing apparatus is the acceleration sensing chip, in order to the acceleration of the mutually orthogonal first direction of sensing, second direction and third direction.

According to sensing module of the present invention, wherein sensing apparatus comprises first accelerometer in order to the sensing first direction, second accelerometer of second direction and the 3rd accelerometer of third direction, and wherein said first direction, described second direction and described third direction are mutually orthogonal.

According to sensing module of the present invention, wherein starter gear is a push-on starter.

According to sensing module of the present invention, wherein starter gear is the thermoinduction starter.

According to sensing module of the present invention, wherein starter gear is the electro-induction starter.

According to sensing module of the present invention, wherein when the difference of first direction acceleration and third direction acceleration during greater than first setting value, the motion state of arithmetic unit decision hand-hold electronic device is a rollover states.

According to sensing module of the present invention, wherein when the difference of second direction acceleration and third direction acceleration during greater than second setting value, the motion state of arithmetic unit decision hand-hold electronic device is a rollover states.

Sensing module comprises sensing apparatus, starter gear and arithmetic unit.Sensing apparatus is arranged on the electronics, in order to the acceleration of the motion state of sensing hand-hold electronic device, to produce acceleration signal.Starter gear is arranged on the electronics, in order to produce enabling signal.Whether arithmetic unit is arranged on the electronics, receives acceleration signal and enabling signal, and be rollover states according to enabling signal and acceleration signal with the motion state of decision hand-hold electronic device.

Sensing apparatus comprises the acceleration sensing chip, in order to the acceleration of the mutually orthogonal first direction of sensing, second direction and third direction.Sensing apparatus comprises first accelerometer in order to the sensing first direction, second accelerometer of second direction and the 3rd accelerometer of third direction, and wherein first direction, second direction and third direction are mutually orthogonal.

When the difference of first direction acceleration and third direction acceleration during greater than first setting value, the motion state of arithmetic unit decision hand-hold electronic device is a rollover states.When the difference of second direction acceleration and third direction acceleration during greater than second setting value, the motion state of arithmetic unit decision hand-hold electronic device is a rollover states.

Starter gear is the thermoinduction starter.Starter gear is the electro-induction starter.When the motion state of hand-hold electronic device is a rollover states, arithmetic unit produces switching signal.Switching signal indication hand-hold electronic device switches to and carries out second operation from carrying out first operation, and operates in display device by second and be significantly and show.Significantly show with respect to more obscure be shown as have last level, the visual effect of more preceding ordering, higher brightness or large-size.Starter gear is a push-on starter.

According to hand-hold electronic device of the present invention, wherein significantly show with respect to the more obscure visual effect that is shown as with last level.

According to hand-hold electronic device of the present invention, wherein significantly show with respect to the more obscure visual effect that is shown as with more preceding ordering.

According to hand-hold electronic device of the present invention, wherein significantly show with respect to the more obscure visual effect that is shown as with higher brightness.

According to hand-hold electronic device of the present invention, wherein significantly show with respect to the more obscure visual effect that is shown as with large-size.

According to hand-hold electronic device of the present invention, wherein sensing apparatus comprises the acceleration sensing chip, in order to the acceleration of the mutually orthogonal first direction of sensing, second direction and third direction.

According to hand-hold electronic device of the present invention, wherein sensing apparatus comprises first accelerometer in order to the sensing first direction, second accelerometer of second direction and the 3rd accelerometer of third direction, and wherein first direction, second direction and third direction are mutually orthogonal.

According to hand-hold electronic device of the present invention, wherein starter gear is a push-on starter.

According to hand-hold electronic device of the present invention, wherein starter gear is the thermoinduction starter.

According to hand-hold electronic device of the present invention, wherein starter gear is the electro-induction starter.

According to hand-hold electronic device of the present invention, wherein when the difference of first direction acceleration and third direction acceleration during greater than first setting value, the motion state of arithmetic unit decision hand-hold electronic device is a rollover states.

According to hand-hold electronic device of the present invention, wherein when the difference of second direction acceleration and third direction acceleration during greater than second setting value, the motion state of arithmetic unit decision hand-hold electronic device is a rollover states.

Hand-hold electronic device method of operating step comprises provides starter gear to produce enabling signal, the acceleration of the motion state by the sensing device senses hand-hold electronic device is to produce acceleration signal, provide arithmetic unit to accept acceleration signal and enabling signal, whether is rollover states according to enabling signal and acceleration signal with the motion state that determines hand-hold electronic device, arithmetic unit produces switching signal when the motion state of hand-hold electronic device is rollover states, and switch to and carry out second operation and second and operate in display device and be significantly and show from carrying out first operation according to switching signal indication hand-hold electronic device.

According to hand-hold electronic device method of operating of the present invention, wherein significantly show with respect to the more obscure visual effect that is shown as with last level.

According to hand-hold electronic device method of operating of the present invention, wherein significantly show with respect to the more obscure visual effect that is shown as with more preceding ordering.

According to hand-hold electronic device method of operating of the present invention, wherein significantly show with respect to the more obscure visual effect that is shown as with higher brightness.

According to hand-hold electronic device method of operating of the present invention, wherein significantly show with respect to the more obscure visual effect that is shown as with large-size.

According to hand-hold electronic device method of operating of the present invention, wherein sensing apparatus comprises the acceleration sensing chip, in order to the acceleration of the mutually orthogonal first direction of sensing, second direction and third direction.

According to hand-hold electronic device method of operating of the present invention, wherein sensing apparatus comprises first accelerometer in order to the sensing first direction, second accelerometer of second direction and the 3rd accelerometer of third direction, and wherein first direction, second direction and third direction are mutually orthogonal.

According to hand-hold electronic device method of operating of the present invention, wherein starter gear is a push-on starter.

According to hand-hold electronic device method of operating of the present invention, wherein starter gear is the thermoinduction starter.

According to hand-hold electronic device method of operating of the present invention, wherein starter gear is the electro-induction starter.

According to hand-hold electronic device method of operating of the present invention, wherein when the difference of first direction acceleration and third direction acceleration during greater than first setting value, the motion state of arithmetic unit decision hand-hold electronic device is a rollover states.

According to hand-hold electronic device method of operating of the present invention, wherein when the difference of second direction acceleration and described third direction acceleration during greater than second setting value, the motion state of arithmetic unit decision hand-hold electronic device is a rollover states.

According to hand-hold electronic device method of operating of the present invention, wherein hand-hold electronic device comprises electronics, display device, sensing apparatus, starter gear and arithmetic unit, and display device, sensing apparatus, starter gear and arithmetic unit are arranged on the electronics.

Description of drawings

Fig. 1 a is the synoptic diagram of the preferred embodiment of the present invention;

Fig. 1 b to Fig. 1 d is the different embodiment synoptic diagram that significantly show visual effect for the present invention has;

Fig. 2 a is the schematic top plan view of the preferred embodiment of the present invention;

Fig. 2 b has the embodiment synoptic diagram of the different starter gears that are provided with for the present invention;

Fig. 3 a is the schematic top plan view of preferred embodiment of the present invention running;

Fig. 3 b is a preferred embodiment of the present invention synoptic diagram;

Fig. 3 c is the schematic top plan view of another embodiment of the present invention running;

Fig. 4 a is the synoptic diagram of another embodiment of the present invention running;

Fig. 4 b is the side schematic view of another embodiment of the present invention running;

Fig. 5 a to Fig. 5 d is another embodiment of the present invention running synoptic diagram;

Fig. 6 is for using the hand-hold electronic device circuit structure calcspar of sensing module of the present invention;

Fig. 7 is a hand-hold electronic device flow chart of the present invention.

Embodiment

The invention provides a kind of sensing module that is arranged in the hand-hold electronic device.As shown in Figure 1a, with preferred embodiment, hand-holdelectronic device 100 be mobile network apparatus (Mobile Internet Device, MID).Yet in different embodiment, hand-holdelectronic device 100 also can be personal digital assistant (Personal Digital Assistant, PDA), (Global Position System Navigator GPSNavigator) waits consumption electronic products for mobile phone, e-book, digital frame, digital camera, digital walkman, e-dictionary, GPS navigation machine.

Preferred embodiment as shown in Figure 1a compriseselectronics 110 anddisplay device 130 as the mobile network apparatus of hand-hold electronic device 100.Electronics 110 has executoryfirst operation 810 andsecond operation 820 to be hit.Display device 130 is arranged on theelectronics 110, andfirst operation 810 is significantly indisplay device 130 and shows,second operation 820 is more obscure demonstration in display device.

In preferred embodiment as shown in Figure 1a, significantly show with respect to the more obscure visual effect that is shown as with last level.Yet in different embodiment, the visual effect performance that significantly demonstration can be different with respect to more obscure demonstration.Embodiment shown in Fig. 1 b significantly shows to have the visual effect of more preceding ordering with respect to more obscure demonstration.Embodiment shown in Fig. 1 c significantly shows the visual effect that has higher brightness with respect to more obscure demonstration.Embodiment shown in Fig. 1 d significantly shows to have the visual effect of large-size with respect to more obscure demonstration.

In a preferred embodiment, first operation, 810 andsecond operation 820 refers to be executed in different action pane in the computer operating system in the processor (not shown) of electronics 110.Above-mentioned different action pane can be the action pane of different software, also can be same software but the action pane of different document.Yet in different embodiment, first operation, 810 andsecond operation 820 can for the different document of opening in the hand-holdelectronic device 100 such as the different numeral of e-book show in the different digital photo of different song track, the digital frame of page or leaf, digital walkman etc.

Preferred embodiment shown in Fig. 2 a,sensing module 300 comprisesensing apparatus 310,starter gear 330 and arithmetic unit 350.Starter gear 330 is arranged on theelectronics 110, in order to produce enabling signal.In the preferred embodiment shown in Fig. 2 a,starter gear 330 is arranged at the opposite side ofelectronics 110 with respect to display device 130.Wherein,starter gear 330 be provided with the position can be further to point finger tip corresponding with the user of hand-hold electronic device 100.Just when the user held with hand-holdelectronic device 100, it is corresponding withstarter gear 330 that the user points finger tip, can increase the convenience ofoperation start device 330 thus.In different embodiment,starter gear 330 visual demands are arranged at positions different on the electronics 110.Embodiment shown in Fig. 2 b,starter gear 330 anddisplay device 130 are arranged at the homonymy ofelectronics 110.

In the preferred embodiment shown in Fig. 2 a,starter gear 330 is a push-on starter, makesstarter gear 330 runnings by releasing the button.Yet in different embodiment,starter gear 330 can be for the pressure sensitive starter that operates by induction pressure, change thermoinduction starter that operates or the electro-induction starter that operates by induction current or change in voltage by temperature sensor.In addition, in different embodiment,starter gear 330 can further have the function of identification of fingerprint.

Whether the preferred embodiment shown in Fig. 2 a,arithmetic unit 350 are arranged on theelectronics 110, receive acceleration signal and enabling signal, and be rollover states according to enabling signal and acceleration signal with the motion state of decision hand-hold electronic device 100.In a preferred embodiment,arithmetic unit 350 is executed in the processor (not shown) of hand-hold electronic device 100.Yet in different embodiment,arithmetic unit 350 can be executed in the processor that another independently is provided with separately, and the result after the execution delivers to the processor of hand-holdelectronic device 100 again and further handles.

Sensing apparatus 310 is arranged on theelectronics 110, in order to the acceleration of the motion state of sensing hand-holdelectronic device 100, to produce acceleration signal.In this preferred embodiment,sensing apparatus 310 is arranged at the opposite side ofstarter gear 330 correspondences inelectronics 110 inner spaces, just away from a side of user's hand position, can sense significantly acceleration thus.Yet in different embodiment,sensing apparatus 310 can be arranged at positions different on theelectronics 110 according to demand.

In the preferred embodiment shown in Fig. 2 a,sensing apparatus 310 is the acceleration sensing chip, in order to the acceleration of the mutually orthogonalfirst direction 401 of sensing,second direction 402 and third direction 403.Wherein, the sensing principle of acceleration chip comprises the electric capacity difference of utilizing sensing component to produce when quickening.Yet in different embodiment,sensing apparatus 310 comprises the first accelerometer (not shown) in order to sensingfirst direction 401, the second accelerometer (not shown) ofsecond direction 402 and the 3rd accelerometer (not shown) ofthird direction 403, and whereinfirst direction 401,second direction 402 andthird direction 403 are mutually orthogonal.

Further specifyingsensing module 300 of the present invention uses with the collocation of hand-hold electronic device 100.Preferred embodiment shown in Fig. 3 a in the acceleration of the motion state of mutually orthogonalfirst direction 401,second direction 402 andthird direction 403, and produces acceleration signal as the acceleration sensing chip sensing hand-holdelectronic device 100 of sensing apparatus 310.When the finger finger tip when pushing the push-on starter asstarter gear 330 towards the application of force of push-button 408,starter gear 330 produces enabling signals.Whether thearithmetic unit 350 that is arranged on theelectronics 110 reads or calculates acceleration signal according to enabling signal is initial, be rollover states and type, direction and the angle of judging upset with the motion state of decision hand-hold electronic device 100.In a preferred embodiment,arithmetic unit 350 is executed in the processor (not shown) of hand-holdelectronic device 100.

In the preferred embodiment shown in Fig. 3 a, the user makes hand-holdelectronic device 100 stir clockwise aroundsecond direction 402, and hand-holdelectronic device 100 produces the acceleration offirst direction 401 simultaneously.Though hand-holdelectronic device 100 also might produce acceleration onthird direction 403, but when the difference of the acceleration of the acceleration offirst direction 401 andthird direction 403 during greater than first setting value,arithmetic unit 350 can determine that the motion state of hand-holdelectronic device 100 is a rollover states.

When the motion state of hand-holdelectronic device 100 is a rollover states,arithmetic unit 350 produces switching signals.Preferred embodiment shown in Fig. 3 b, switching signal indicate hand-holdelectronic device 100 to switch to executionsecond operation 820 from carrying outfirst operation 810, and are significantly demonstration bysecond operation 820 indisplay device 130, and first 810 of the operations transfer armed state to.In other words,operation 820 this moment second has the visual effect of last level with respect to first operation 810.In a preferred embodiment, the switching of the remarkable demonstration between different operating is to indicate the display control program in the processor that is executed in hand-holdelectronic device 100 to carry out by indicator signal.By aforesaid operations, the user can be switched the different operating that is executed in the hand-holdelectronic device 100 by simple hand motion, has more convenient usability.And intuitive action further has operational cordiality.

In the preferred embodiment shown in Fig. 3 c, the user can further make hand-holdelectronic device 100 stir counterclockwise aroundsecond direction 402, and hand-holdelectronic device 100 produces simultaneously in contrast to the acceleration of first direction 401.When this in contrast to the difference of the acceleration of the acceleration offirst direction 401 andthird direction 403 during greater than the 3rd setting value, the motion state ofarithmetic unit 350 decision hand-holdelectronic devices 100 is second rollover states.When the motion state of hand-holdelectronic device 100 is second rollover states,arithmetic unit 350 produces second switching signal.At this moment, second switching signal indicates hand-holdelectronic device 100 to switch to executionfirst operation 810 from carrying outsecond operation 820, and is significantly demonstration byfirst operation 810 in display device as shown in Figure 1a.In other words, the user can be by producing hand-holdelectronic device 100 to be same as or in contrast to the more obviously motion of a direction, making hand-holdelectronic device 100 produce the effect of back and forth switching first operation, 810 andsecond operation 820.

In different embodiment, the user can make hand-holdelectronic device 100 produce significantly motion so that the motion state ofarithmetic unit 350 decision hand-holdelectronic devices 100 is a rollover states in different directions.Embodiment shown in Fig. 4 a, user make hand-holdelectronic device 100 stir counterclockwise aroundfirst direction 401, and hand-holdelectronic device 100 produces the acceleration ofsecond direction 402 simultaneously.When the difference of the acceleration ofsecond direction 402 andthird direction 403 acceleration during greater than second setting value, the motion state ofarithmetic unit 350 decision hand-holdelectronic devices 100 is a rollover states, produce switching signal and indicate hand-holdelectronic device 100 to switch to executionsecond operation 820, and shown in Fig. 3 b, be significantly demonstration indisplay device 130 bysecond operation 820 from carrying outfirst operation 810.

Another embodiment side view shown in Fig. 4 b, the user makes hand-holdelectronic device 100 stir aroundthird direction 403 clockwises, and hand-holdelectronic device 100 produces the acceleration offirst direction 401 simultaneously.Particularly, this moment, hand-holdelectronic device 100 was the axle center with the base, made reverse flip with respect to first direction 401.When the difference of the acceleration offirst direction 401 andthird direction 403 acceleration during greater than the 3rd setting value, the motion state ofarithmetic unit 350 decision hand-holdelectronic devices 100 is a rollover states, produce switching signal and indicate hand-holdelectronic device 100 to switch to executionsecond operation 820, and shown in Fig. 3 b, be significantly demonstration indisplay device 130 bysecond operation 820 from carrying out first operation 810.Shown in Fig. 4 b, in this embodiment,sensing apparatus 310 be preferably disposed inelectronics 110 inner spaces than upside, can sense significantly acceleration thus.

The operand that hand-holdelectronic device 100 is carried out is not limited to 2.Embodiment shown in Fig. 5 a in this embodiment, has executoryfirst operation 810 and second operation the 820, the 3rd operation the 830, the 4th operation the 840 and the5th operation 850 to be hit in the hand-hold electronic device 100.Wherein,first operation 810 is for significantly showing.Particularly,first operation 810 has the visual effect of large-size with respect to other operation.

As mentioned above, when user's started bypress device 330, and make hand-holdelectronic device 100 shown in Fig. 3 a whensecond direction 402 is stirred clockwise, hand-holdelectronic device 100 switches to and carries outsecond operation 820 from carrying outfirst operation 810 shown in Fig. 5 b.When the user make once more hand-holdelectronic device 100 produce shown in Fig. 3 a whensecond direction 402 is stirred clockwise, 100 of hand-hold electronic devices switch to and carry out the3rd operation 830 from carrying outsecond operation 820 shown in Fig. 5 c.On the other hand, if the user make hand-holdelectronic device 100 produce shown in Fig. 3 c whensecond direction 402 is stirred counterclockwise, 100 of hand-hold electronic devices switch capablesecond operation 820 of receipts from carrying out the3rd operation 830 shown in Fig. 5 d.Thus, the user can be switched a plurality of different operatings that are executed in the hand-holdelectronic device 100 fast by simple hand motion, easy to use and operation cordiality.

Use the calcspar and the hand-hold electronic device flow chart of the present invention shown in Figure 7 of the hand-hold electronic device circuit structure of sensing module of the present invention as Fig. 6, hand-hold electronic device method of operating of the present invention comprises:

Step 1001 produces enablingsignal 601 forstarter gear 330 is provided as shown in Figure 6.Just shown in Fig. 3 a, when the finger finger tip when pushing the push-on starter asstarter gear 330 towards the application of force of push-button 408,starter gear 330 produces enabling signals.

Step 1003 is that the acceleration of the motion state by sensingapparatus 310 sensing hand-holdelectronic devices 100 as shown in Figure 6 is to produce acceleration signal 603.Just shown in Fig. 3 a, the user makes hand-holdelectronic device 100 result fromfirst direction 401 and more significantly moves, and hand-holdelectronic device 100 produces the acceleration offirst direction 401 simultaneously.

Step 1005 is acceptedacceleration signal 603 and enabling signal 601 forarithmetic unit 350 is provided as shown in Figure 6.In a preferred embodiment,arithmetic unit 350 is executed in theprocessor 180 of hand-holdelectronic device 100.

Whetherstep 1007 is to be rollover states according to enabling signal 601 and acceleration signal 603 with the motion state that determines hand-holdelectronic device 100 as shown in Figure 6.Just shown in Fig. 3 a, though hand-holdelectronic device 100 also might produce acceleration onthird direction 403, but when the difference of the acceleration of the acceleration offirst direction 401 andthird direction 403 during greater than first setting value,arithmetic unit 350 can determine that the motion state of hand-holdelectronic device 100 is a rollover states.

Step 1009 is for as shown in Figure 6 when the motion state of hand-holdelectronic device 100 is rollover states,arithmetic unit 350 generation switching signals.

Step 1011 is for switching to and carry out second operation from carrying out first operation according to switching signal 605 indication hand-holdelectronic devices 100, and second operates indisplay device 130 and be significantly and show.In preferred embodiment as shown in Figure 6, first operation, 810 andsecond operation 820 refers to be executed in different action pane in the computer operating system in theprocessor 180 of hand-holdelectronic device 100.

The present invention is described by above-mentioned related embodiment, yet the foregoing description is only for implementing example of the present invention.Must be pointed out that the embodiment that has disclosed does not limit the scope of the invention.On the contrary, be contained in the modification of the spirit of claims and scope and be equal to replacement all within the scope of the present invention.

The primary clustering symbol description

100 hand-hold electronic devices

110 electronics

130 display unit

180 processors

300 sensing modules

310 sensing apparatus

330 starting drives

350 arithmetic units

401 first directions

402 second directions

403 third directions

408 push-button

601 enabling signals

603 acceleration signals

810 first operations

820 second operations

830 the 3rd operations

840 the 4th operations

850 the 5th operations

1001 steps

1003 steps

1005 steps

1007 steps

1009 steps

1011 steps

Claims (10)

Translated fromChinese

1.一种感测模块，设置于手持电子装置中，包含：1. A sensing module, set in a handheld electronic device, comprising:感测装置，感测所述手持电子装置的运动状态的加速度，以产生加速度信号；a sensing device for sensing the acceleration of the motion state of the handheld electronic device to generate an acceleration signal;启动装置，用以产生启动信号；以及an activation device for generating an activation signal; and运算装置，接收所述加速度信号及所述启动信号，并根据所述启动信号及所述加速度信号以决定所述手持电子装置的运动状态是否为翻转状态，其中当所述手持电子装置的运动状态为翻转状态，所述运算装置产生切换信号，所述切换信号指示所述手持电子装置从执行第一操作切换至执行第二操作。An arithmetic device, receiving the acceleration signal and the start signal, and determining whether the motion state of the handheld electronic device is a flip state according to the start signal and the acceleration signal, wherein when the motion state of the handheld electronic device For the inversion state, the computing device generates a switching signal, and the switching signal instructs the handheld electronic device to switch from performing the first operation to performing the second operation.2.根据权利要求1所述的感测模块，其中所述感测装置是加速度感测芯片，用以感测相互正交的第一方向、第二方向及第三方向的加速度。2. The sensing module according to claim 1, wherein the sensing device is an acceleration sensing chip for sensing accelerations in a first direction, a second direction and a third direction which are orthogonal to each other.3.根据权利要求1所述的感测模块，其中所述感测装置包含用以感测第一方向的第一加速度计、第二方向的第二加速度计以及第三方向的第三加速度计，其中所述第一方向、所述第二方向及所述第三方向为相互正交。3. The sensing module according to claim 1, wherein the sensing device comprises a first accelerometer for sensing a first direction, a second accelerometer for a second direction, and a third accelerometer for sensing a third direction , wherein the first direction, the second direction and the third direction are mutually orthogonal.4.根据权利要求1所述的感测模块，其中所述启动装置是按钮启动器。4. The sensing module of claim 1, wherein the activation device is a push button actuator.5.根据权利要求1所述的感测模块，其中所述启动装置是热感应启动器。5. The sensing module of claim 1, wherein the activation device is a thermal induction actuator.6.根据权利要求1所述的感测模块，其中所述启动装置是电感应启动器。6. The sensing module of claim 1, wherein the activation device is an inductive actuator.7.根据权利要求2所述的感测模块，其中当所述第一方向加速度与所述第三方向加速度的差值大于第一设定值时，所述运算装置决定所述手持电子装置的运动状态为翻转状态。7. The sensing module according to claim 2, wherein when the difference between the acceleration in the first direction and the acceleration in the third direction is greater than a first set value, the computing device determines the The motion state is flip state.8.根据权利要求2所述的感测模块，其中当所述第二方向加速度与所述第三方向加速度的差值大于第二设定值时，所述运算装置决定所述手持电子装置的运动状态为翻转状态。8. The sensing module according to claim 2, wherein when the difference between the acceleration in the second direction and the acceleration in the third direction is greater than a second set value, the computing device determines the The motion state is flip state.9.一种手持电子装置包含：9. A handheld electronic device comprising:电子装置本体，其上有执行中的第一操作以及待命中的第二操作；The electronic device body has a first operation in progress and a second operation in standby;显示装置，设置于所述电子装置本体上，所述第一操作在所述显示装置呈较显著显示，所述第二操作在所述显示装置呈较隐晦显示；A display device is arranged on the electronic device body, the first operation is displayed more prominently on the display device, and the second operation is displayed more obscurely on the display device;感测装置，设置于所述电子装置本体上，用以感测所述手持电子装置的运动状态的加速度，以产生加速度信号；A sensing device, disposed on the electronic device body, is used to sense the acceleration of the motion state of the handheld electronic device to generate an acceleration signal;启动装置，设置于所述电子装置本体上，用以产生启动信号；以及an activation device, disposed on the electronic device body, for generating an activation signal; and运算装置，设置于所述电子装置本体上，接收所述加速度信号及所述启动信号，并A computing device, arranged on the body of the electronic device, receives the acceleration signal and the activation signal, and根据所述启动信号及所述加速度信号以决定所述手持电子装置的运动状态是否为翻转状态，其中当所述手持电子装置的运动状态为翻转状态，所述运算装置产生切换信号，所述切换信号指示所述手持电子装置从执行所述第一操作切换至执行所述第二操作，且由所述第二操作于所述显示装置呈所述较显著显示。According to the start signal and the acceleration signal to determine whether the motion state of the handheld electronic device is a flip state, wherein when the motion state of the handheld electronic device is a flip state, the computing device generates a switching signal, and the switching The signal instructs the hand-held electronic device to switch from performing the first operation to performing the second operation, and the second operation is displayed more prominently on the display device.10.一种手持电子装置操作方法，包含：10. A method for operating a handheld electronic device, comprising:提供启动装置产生的启动信号；Provide the starting signal generated by the starting device;通过感测装置感测所述手持电子装置的运动状态的加速度，以产生加速度信号；Sensing the acceleration of the motion state of the handheld electronic device through the sensing device to generate an acceleration signal;提供运算装置接受所述加速度信号及所述启动信号；providing a computing device to receive the acceleration signal and the activation signal;根据所述启动信号及所述加速度信号以决定所述手持电子装置的运动状态是否为翻转状态；determining whether the motion state of the handheld electronic device is a flip state according to the start signal and the acceleration signal;当所述手持电子装置的运动状态为翻转状态，所述运算装置产生切换信号；以及When the motion state of the handheld electronic device is a flip state, the computing device generates a switching signal; and根据所述切换信号指示所述手持电子装置从执行第一操作切换至执行第二操作，且所述第二操作于显示装置呈所述较显著显示。Instructing the handheld electronic device to switch from performing the first operation to performing the second operation according to the switching signal, and the second operation is displayed more prominently on the display device.

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