CN109683750A - Control method, electronic device, computer equipment and storage medium - Google Patents
Control method, electronic device, computer equipment and storage medium Download PDFInfo
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- CN109683750A CN109683750A CN201811623753.2A CN201811623753A CN109683750A CN 109683750 A CN109683750 A CN 109683750A CN 201811623753 A CN201811623753 A CN 201811623753A CN 109683750 A CN109683750 A CN 109683750A
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- Prior art keywords
- display screen
- touch display
- electronic device
- processing result
- touch
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/03—Arrangements for converting the position or the displacement of a member into a coded form
- G06F3/041—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
- G06F3/044—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means by capacitive means
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0484—Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
- G06F3/04847—Interaction techniques to control parameter settings, e.g. interaction with sliders or dials
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Theoretical Computer Science (AREA)
- Human Computer Interaction (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Telephone Function (AREA)
Abstract
This application discloses a kind of control methods of electronic device.Control method includes: when electronic device is in talk business, by touching the self-capacitance signal of chip processing touch display screen output and exporting the first processing result;The mutual capacitance signal of touch display screen output is handled by the processor of electronic device and exports second processing result;According to the first processing result and the display state of second processing result control touch display screen.In the control method of the application embodiment, electronic device and computer readable storage medium, the self-capacitance signal and mutual capacitance signal that touch display screen generates pass through respectively touches chip and processor processing, the efficiency for the signal that processing touch display screen generates can be improved in this way, so as to quickly issue control instruction to touch display screen, so that touch display screen can rapidly make corresponding response.Disclosed herein as well is a kind of electronic device, computer equipment and storage mediums.
Description
Technical field
This application involves electronic technology field, in particular to a kind of control method, control device, electronic device, computer
Equipment and storage medium.
Background technique
With the rapid development of comprehensive screen mobile phone, in order to improve the screen accounting of mobile phone, proximity sensor is arranged on display
The lower section of screen.However in this way, proximity sensor works when screen is lighted may cause the flashing of screen, thus use touch screen
Substitution proximity sensor is realized close to the function of putting out screen, however touch screen responds relatively slowly after being blocked, and can not make in time
Corresponding response.
Summary of the invention
It is situated between in view of this, embodiments herein provides a kind of control method, electronic device, computer equipment and storage
Matter.
This application provides a kind of control method of electronic device, the electronic device includes touch display screen, connection institute
The touch chip and processor of touch display screen are stated, the control method includes:
When the electronic device is in talk business, pass through touch display screen output described in the touch chip processing
Self-capacitance signal simultaneously exports the first processing result;
The mutual capacitance signal of the touch display screen output is handled by the processor and exports second processing result;
The display state of the touch display screen is controlled according to first processing result and the second processing result.
The application embodiment provides a kind of electronic device, comprising:
Touch display screen;
Chip is touched, the touch chip is for handling the touch display when the electronic device is in talk business
Shield the self-capacitance signal of output and exports the first processing result;With
Processor, the processor are used to handle the touch display screen when the electronic device is in talk business defeated
Mutual capacitance signal out simultaneously exports second processing as a result, and for according to first processing result and the second processing knot
Fruit controls the display state of the touch display screen.
This application provides a kind of computer equipments, comprising:
Touch display screen;
One or more processors;
Memory;With
One or more programs, wherein one or more of programs are stored in the memory, and described
One or more processors execute, and described program includes the instruction for executing the control method.
This application provides one or more non-volatile computer readable storage mediums comprising computer executable instructions
Matter, when the computer executable instructions are executed by one or more processors, so that the processor executes the electricity
The control method of sub-device.
In the control method of the application embodiment, electronic device and computer readable storage medium, touch display screen is produced
Raw self-capacitance signal and mutual capacitance signal passes through respectively touches chip and processor processing, and it is aobvious that processing touch can be improved in this way
The efficiency for the signal that display screen generates, so as to quickly issue control instruction to touch display screen, so that touch display screen
Corresponding response can rapidly be made.
Detailed description of the invention
The application is above-mentioned and/or additional aspect and advantage will become from the following description of the accompanying drawings of embodiments
Obviously and it is readily appreciated that, in which:
Fig. 1 is the floor map of the electronic device of the application certain embodiments;
Fig. 2 be Fig. 1 electronic device along II-II to schematic cross-section;
Fig. 3 to Figure 12 is the schematic cross-section of the electronic device of the application certain embodiments;
Figure 13 is a status diagram of the electronic device of the application certain embodiments;
Figure 14 is another status diagram of the electronic device of the application certain embodiments;
Figure 15 be electronic device shown in Figure 14 along A-A to partial sectional schematic view;
Figure 16 is the stereoscopic schematic diagram of the light guide of the electronic device of the application certain embodiments;
Figure 17 is another stereoscopic schematic diagram of the light guide of the electronic device of the application certain embodiments;
Figure 18 is the flow diagram of the control method of the application certain embodiments;
Figure 19 is the module diagram of the electronic device of the application certain embodiments;
Figure 20 is the structural schematic diagram of the electronic device of the application certain embodiments;
Figure 21-Figure 22 is the flow diagram of the control method of the application certain embodiments;
Figure 23 is the schematic diagram of a scenario of the control method of the application certain embodiments;
Figure 24 is the flow diagram of the control method of the application certain embodiments;
Figure 25 is the module diagram of the computer equipment of the application certain embodiments.
Specific embodiment
Embodiments herein is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end
Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached
The embodiment of figure description is exemplary, it is intended to for explaining the application, and should not be understood as the limitation to the application.
With the development of electronic equipment, screen has become the development trend of mobile phone comprehensively.Screen high the characteristics of shielding accounting comprehensively
So that the top of screen leaves proximity sensor for or the position of other elements is limited, when proximity sensor is arranged in light transmission display screen
When lower, due to photoelectric effect, proximity sensor makes the electronics in screen by excitation to draw during emitting infrared light
The flashing of light transmission display screen is played, so that the normal display with light transmission display screen forms interference, influences the experience of user.
Fig. 1-3 is please referred to, the application embodiment provides a kind of electronic device 100.Electronic device 100 includes touching to show
Display screen 10, proximity sensor 16, temperature sensor 21 and processor 23.Touch display screen 10 includes display layer 13, display layer 13
Including viewing area 1311.Proximity sensor 16 is arranged below touch display screen 10.Further, the setting of proximity sensor 16 exists
1311 lower section of viewing area.Proximity sensor 16 is used to emit infrared light and receives the infrared light that is reflected by the object with detection object extremely
The distance of electronic device 100.
Illustratively, electronic device 100 can be various types of calculating that are mobile or portable and executing wireless communication
Any one of machine system equipment (only illustratively shows a kind of form) in Fig. 1.Specifically, electronic device 100 can be with
For mobile phone or smart phone (for example, being based on iPhone TM, the phone based on Android TM), portable gaming device
(such as Nintendo DS TM, PlayStation Portable TM, Gameboy Advance TM, iPhone TM), knee
Laptop, PDA, portable Internet appliance, music player and data storage device, other handheld devices and such as
Wrist-watch, In-Ear Headphones, pendant, headphone etc., electronic device 100 can also be other wearable devices (for example, all
As electronic glasses, electronics clothes, electronics bracelet, electronics necklace, electronics are tatooed, the headset equipment of electronic equipment or smartwatch
(HMD))。
Electronic device 100 can also be that any one of multiple electronic equipments, multiple electronic equipments include but is not limited to
Cellular phone, smart phone, other wireless telecom equipments, personal digital assistant, audio player, other media players, sound
Happy logger, video recorder, camera, other medium recorders, radio, Medical Devices, vehicle transport instrument, calculator, can
Program remote controler, pager, laptop computer, desktop computer, printer, netbook computer, personal digital assistant
(PDA), portable media player (PMP), Motion Picture Experts Group's (MPEG-1 or MPEG-2) audio layer 3 (MP3) play
Device, portable medical device and digital camera and combinations thereof.
In some cases, electronic device 100 can execute multiple functions and (for example, playing music, show video, storage
Picture and send and receive call).If desired, electronic device 1000 can be such as cellular phone, media play
The portable device of device, other handheld devices, watch equipment, pendant equipment, receiver device or other compact portable equipment.
Mobile phone determines the distance between mobile phone and barrier by being positioned proximate to sensor 16 and makes corresponding adjustment,
Erroneous operation by the user can be prevented and is conducive to save the electricity of mobile phone.For example, when user answer or make a phone call and incite somebody to action
When mobile phone is close to head, by calculating, transmitter issues infrared light to proximity sensor 16 and receiver reception is reflected infrared
The time of light generates detection information, and processor 23 is according to the detection information touch display screen 10.When mobile phone is far from head, processing
The detection information that device 23 is fed back again according to proximity sensor 16 reopens touch display screen 10.
In some embodiments, display layer 13 includes OLED display layer.
Specifically, OLED display layer has good translucency, can preferably penetrate visible light and infrared light.Therefore,
OLED display layer can nor affect on the transmitting of proximity sensor 16 and receive infrared light in the case where showing content effect.It is aobvious
Show that layer 13 can also be using Micro LED display layer, Micro LED display layer equally has good to visible light and infrared light
Light transmittance.Certainly, these display layers are only used as illustrative and embodiments herein is not limited to this.In addition, touching display
Shield 10 it is settable on the housing 20.
Referring to Fig. 3, in some embodiments, touch display screen 10 further includes euphotic cover plate 11 and touch control layer 12.Thoroughly
Light cover board 11 is arranged in touch control layer 12.Touch control layer 12 is arranged on display layer 13.The upper surface 131 of display layer 13 is towards touch-control
Layer 12.Euphotic cover plate 11 and touch control layer 12 are all larger than 90% to visible light transmittance rate and infrared light transmittance.
Specifically, touch control layer 12 is mainly used for receiving user input signal and being transmitted to circuit board carrying out data processing, from
And obtain the specific location that user touches touch control layer 12.It should be pointed out that the setting of touch control layer 12 can refer on display layer 13
Be that touch control layer 12 is contacted with display layer 13.For example, In-Cell On-Cell technology can be used, by touch control layer 12 and show
Show that layer 13 is bonded, can effectively mitigate the weight of display layer 13 and reduces the integral thickness of display layer 13.Touch control layer 12
Setting also also refers to touch control layer 12 on display layer 13 and is arranged above display layer 13, and is spaced with display layer 13.
In addition, being arranged euphotic cover plate 11 in touch control layer 12, it can be effectively protected touch control layer 12 and its internal structure,
Avoid damage of the external forces to touch control layer 12 and display layer 13.Euphotic cover plate 11 and touch control layer 12 are to visible light and infrared
The light transmittance of light is all larger than 90%, not only contributes to display layer 13 and preferably shows content effect, and also helps setting and exist
Proximity sensor 16 under display layer 13 steadily emits and receives infrared light, ensure that the normal work of proximity sensor 16.
Referring to Fig. 4, in some embodiments, display layer 13 includes upper surface 131 and lower surface 132.Electronic device
100 further include the first coating layer 14 for being coated on lower surface 132 and covering proximity sensor 16.First coating layer 14 is for penetrating
Infrared light and interception visible light.Proximity sensor 16 is used for through the first coating layer 14 and the transmitting of display layer 13 and/or receives red
Outer light.
Specifically, the first coating layer 14 of setting is for the normal work of guarantee proximity sensor 16 through infrared light.First
Coating layer 14 intercept visible light can be realized from outside watch electronic device 100 when, reach the sightless effect of proximity sensor 16
Fruit.
Fig. 4 and Fig. 5 is please referred to, in some embodiments, proximity sensor 16 includes transmitter 1611 and receiver
1612.Transmitter 1611 is used to emit infrared light through the first coating layer 14 and display layer 13.Receiver 1612 is for receiving warp
The infrared light of object emission is with detection object at a distance from electronic device 100.
Specifically, under normal circumstances, when user is when answering or making a phone call, electronic device 100 close to human body head,
Transmitter 1611 issues infrared light, and receiver 1612 receives reflected infrared light.Processor 23 calculates infrared light from transmitting
To the reflected time, just issues command adapted thereto control screen and close.When electronic device 100 is far from head, processor 23
Instruction is calculated and issued again according to the data fed back, just reopens screen.In this way, not only preventing user's
Maloperation, and save the electricity of mobile phone.
In some embodiments, orthographic projection of the proximity sensor 16 in lower surface 132 is located at the first coating layer 14 under
In the orthographic projection on surface 132.
Specifically, the installation of proximity sensor 16 usually requires reserved fit-up gap during carrying out technique assembly,
Lead to gap occur between proximity sensor 16 and other elements, enters visible light in gap, light leakage phenomena occur.Cause
This, on the direction that proximity sensor 16 and display layer 13 are laminated, area of first coating layer 14 in the orthographic projection of lower surface 132
Greater than proximity sensor 16 in the area of the orthographic projection of lower surface 132, the normal work of proximity sensor 16 can not influenced
In the case of, so that the first coating layer 14 is sufficiently blocked proximity sensor 16 and reaches and connect when realization watches electronic device 100 from outside
The sightless effect of nearly sensor 16.
Referring to Fig. 5, in some embodiments, orthographic projection and first coating of the proximity sensor 16 in lower surface 132
Layer 14 is overlapped.
Specifically, on the direction that proximity sensor 16 and display layer 13 are laminated, the first coating layer 14 also can be set just
The area for being projected on lower surface 132 is equal to 16 orthographic projection of proximity sensor in the area of lower surface 132.It so, it is possible in not shadow
In the case where ringing the normal work of proximity sensor 16, the first coating layer 14 is made just to block proximity sensor 16, realized from direction
And when watching electronic device 100 perpendicular to the direction of 13 upper surface 131 of display layer, reach the sightless effect of proximity sensor 16
Fruit.
Referring to Fig. 6, further, in such an embodiment, electronic device 100 further includes being arranged in lower surface
132 and surround proximity sensor 16 light shield layer 17.
Specifically, it is just being thrown when area of setting 14 orthographic projection of the first coating layer in lower surface 132 is equal to proximity sensor 16
Shadow is when the case where area of lower surface 132, due to placing the spatial volume of proximity sensor 16 than proximity sensor 16
Volume is big, and when causing to watch electronic device 100 from external environment, it is existing that light leakage occurs in the space around proximity sensor 16
As.Therefore, the light shield layer 17 that proximity sensor 16 is surrounded by setting, has filled up the seam of proximity sensor 16 Yu surrounding space
Gap can eliminate this light leakage phenomena.Light shield layer 17 can be using foam made of black material, be also possible to other black
Foamed plastics or rubber.Certainly, these materials are only used as illustrative and embodiments herein is not limited to this.
In some embodiments, the first coating layer includes IR ink, and IR ink is greater than 85% to the light transmittance of infrared light,
IR ink is 850nm-940nm less than the wavelength for the infrared light that 6%, IR ink can pass through to the light transmittance of visible light.
Specifically, since IR ink has the characteristic to visible light low-transmittance, so watching electronic device 100 from outside
When, based on the visual observation of human eye less than the proximity sensor 16 being arranged under the first coating layer 14.Meanwhile IR ink has both pair
The characteristic of infrared light high transparency can make proximity sensor 16 steadily emit and receive infrared light, ensure that close to sensing
The normal work of device 16.
Please refer to Fig. 7 and Fig. 8, in some embodiments, electronic device 100 further include be coated on lower surface 132 and with
The second coating layer 15 that first coating layer 14 connects.
Specifically, the first coating layer 14 is mainly used for through infrared light and blocks proximity sensor 16, but due to the first painting
The cost for the IR ink that layer of cloth 14 uses will be unfavorable for compared with general black ink height if lower surface 132 is all coated with IR ink
Production cost is reduced, also, general black ink can reach lower, occlusion effect to the light transmittance of visible light compared to IR ink
It is more prominent.In this way, not only contributing to reduce production cost, and occlusion effect more meets by the second coating layer 15 of setting
Technique requirement.
Fig. 9 and Figure 10 are please referred to, in some embodiments, electronic device 100 further includes covering lower surface 132 and avoids
The buffer layer 18 of proximity sensor 16.
Specifically, buffer layer 18 is for slowing down impact force and shockproof to protect touch control layer 12 and display layer 13 and its internal junction
Structure avoids display layer 13 from damaging due to by extraneous percussion.Buffer layer 18 can by foam or foamed plastics or
Rubber or other soft materials are made.Certainly, these padded coamings are only used as illustrative and embodiments herein not
It is limited to this.In addition, during buffer layer 18 are set avoid proximity sensor 16, be in order to prevent buffer layer 18 block it is close
Sensor 16, in case proximity sensor 16 is affected during emitting and receiving infrared light.
Figure 11 and Figure 12 are please referred to, further, in such an embodiment, electronic device 100 further includes that covering is slow
It rushes layer 18 and avoids the sheet metal 19 of proximity sensor 16.
Specifically, sheet metal 19 has the function of spreading temperature rise for shielding electromagnetic interference and ground connection.Sheet metal 19 can be with
It is cut using metal materials such as copper foil, aluminium foils.Certainly, these metal materials are only used as illustratively and the implementation of the application
Example is not limited to this.It is the screening of sheet metal 19 in order to prevent in addition, avoiding proximity sensor 16 during sheet metal 19 are arranged
Proximity sensor 16 is kept off, in case proximity sensor 16 is affected during emitting and receiving infrared light.
Also referring to Figure 13-15, in some embodiments, electronic device 100 further include shell 20, receiving shell 200,
Light guide 51 and optical inductor 5.Receiving shell 200 is slidably connect with shell 20, and can be stretched out shell 20 or be retracted in shell 20.
It accommodates shell 200 and is equipped with incidence hole 2006, light guide 51 is contained in 200 inside of receiving shell and partially protrudes into incidence hole 2006.It is guide-lighting
Part 51 has opposite incidence surface 511 and light-emitting surface 512.Incidence surface 511 towards receiving shell 200 outside.Light-emitting surface 512 is towards receipts
Hold inside shell 200.Optical inductor 5 is contained in 200 inside of receiving shell and face light-emitting surface 512.
In this way, since incidence hole 2006 is set in the receiving shell 200 of electronic device 100, rather than be arranged in electronic device
100 touch display screen 10, therefore the setting of incidence hole 2006 can either meet the needs of optical inductor 5 receives environment light, also
Without limitation on the screen accounting of touch display screen 10, so that the screen accounting of electronic device 100 is larger.
Specifically, Figure 13-14 is please referred to, which is in electronic device 100 and is defined for reference, electronic device
100 have width direction X, length direction Y and thickness direction Z, and for length direction Y perpendicular to width direction X, thickness direction Z is vertical
In width direction X and length direction Y.
Shell 20 further includes top end face 1002 and the bottom face being disposed opposite to each other with top end face 1,002 1003.In general, top
Face 1002 and bottom face 1003 X can extend in the width direction.Namely top end face 1002 and bottom face 1003 are electronic device 100
Short side.Connector, microphone, loudspeaker etc. of the bottom face 1003 for electronic device 100 of arranging.
Such as Figure 14, holding tank 1004 is offered on the top of shell 20, holding tank 1004 is from the top of shell 20 to shell
20 inner recess.Holding tank 1004 runs through the side of shell 20.It accommodates shell 200 and is slided in holding tank 1004 with shell 20 and connected
It connects.In other words, receiving shell 200 is slidably connected shell 20, to stretch out or retract holding tank 1004.
Function element 300 can also be set in receiving shell 200, and function element 300 is, for example, camera, earpiece or laser hair
Emitter etc., camera are exposed by incidence hole 2006, such as function element 300 passes through the incidence hole of the side of receiving shell 200
2006 expose.When accommodating the stretching shell 20 of shell 200, camera can shoot the external image of electronic device 100.Camera example
The for example cameras such as RGB camera.
In some embodiments, receiving shell 200 has lateral surface, and the part or all of opposite exterior lateral sides face of incidence surface 511 is convex
Out.In this way, receiving shell 200 is less to blocking for incidence surface 511, or even incidence surface 511 is not blocked completely, so that incidence surface 511
More ambient lights can be received, light guide 5151 can preferably guide ambient to enter photosensitive sensors 5.
In present embodiment, the lateral surface of receiving shell 200 includes top surface 2003, and top surface 2003 offers incidence hole 2006.
Light guide 51 is corresponding with the incidence hole 2006 of top surface 2003 is located at.In other words, optical inductor 5 is received by light guide 51 by position
In the light of the incidence hole 2006 of top surface 2003.In this way, no matter accommodating shell 200 stretches out or retract shell 20, optical inductor 5 is equal
It can sense ambient light.The part or all of opposing top 2003 of incidence surface 511 protrusion.
Please refer to Figure 15-Figure 17, the edge that incidence surface 511 has central area 5111 and is arranged around central area 5111
Region 5112.5111 opposed edge sections 5112 of central area protrusion.At this point, the area of incidence surface 511 is larger, it is more extraneous
Light is able to enter light guide 51.Wherein, incidence surface 511 is cambered surface.
In some embodiments, receiving shell 200 has medial surface 2063, and medial surface 2063 forms locating slot 2064, fixed
Position slot 2064 is connected to incidence hole 2006, and light guide 51 includes light in part 513 and light out part 514, and incidence surface 511 is light in part 513
Away from the end face of light out part 514, light-emitting surface 512 is the end face that light out part 514 deviates from light in part 513, light in part 513 be arranged in into
Unthreaded hole 2006, light out part 514 are partly or entirely embedded at locating slot 2064.
At this point, light guide 5151 is fixed to one another with receiving shell 200, it is difficult to slide.Meanwhile light out part 514 is towards light in part
On 513513 face can adhesive sealant, sealing element continuously around light in part 513513 be arranged.Sealing element is supported in light out
On the trough wall surface of portion 514 and locating slot 2064, to realize sealing, prevents external dust, steam etc. from entering through incidence hole 2006 and receive
Hold the inside of shell 200.
In some embodiments, the area of light-emitting surface 512 is greater than the area of incidence surface 511, in incidence surface 511 to light out
On the direction in face 512, the cross-sectional area of light in part 513 is incremented by.
Specifically, the shape of light in part 513 is substantially in truncated cone-shaped, is conducive to light and transmits in light in part 3513, and energy
It enough spreads apart, even into light out part 514.
In some embodiments, light guide 51 further includes positioning region 515, and positioning region 515 and light out part 514, which enclose, sets out appearance
516 between emptying, accommodating space 516 is for accommodating optical inductor 5.The photosensitive sensors 5 for being contained in accommodating space 516 can be determined
Position portion 515 and light out part 514 are protected, and avoid being damaged when electronic device 100 falls or hit.Wherein, light-emitting surface 512
Gap is formed between the photosensitive area 52 of photosensitive sensors 5.
Figure 18 and Figure 19 is please referred to, this application provides a kind of control methods of electronic device 100.Electronic device 100 wraps
Include the touch chip 30 and processor 23 of touch display screen 10, the connection touch display screen 10, control method comprising steps of
S10 handles what touch display screen 10 exported by touching chip 30 when electronic device 100 is in talk business
Self-capacitance signal simultaneously exports the first processing result;
S20 handles the mutual capacitance signal of the output of touch display screen 10 by processor 23 and exports second processing result;With
S30, according to the first processing result and the display state of second processing result control touch display screen 10.
In some embodiments, electronic device 100 further includes touching chip 30, touches chip 30 and is used in electronic device
100 are in the self-capacitance signal and the first processing result of output for handling that touch display screen 10 exports when talk business.Processor 23
For handling the mutual capacitance signal of the output of touch display screen 10 when electronic device 100 is in talk business and exporting second processing
As a result, and for the display state according to the first processing result and second processing result control touch display screen 10.
In the control method and electronic device 100 of the application embodiment, the self-capacitance signal of the generation of touch display screen 10
Pass through respectively with mutual capacitance signal and touch chip 30 and the processing of processor 23, processing touch display screen 10 can be improved in this way and generate
Signal efficiency, so as to quickly to touch display screen 10 issue control instruction so that touch display screen 10 can be fast
Corresponding response is made fastly.
Specifically, it supports to include two kinds of capacitance signals in the touch display screen 10 of suspension touch control, mutual capacitance signal and certainly electricity
Hold signal.Self-capacitance signal is bigger than mutual capacitance signal strength, can detecte farther finger induction, and detecting distance range is reachable
20mm.The electric field very little of mutual capacitance signal can not sense those very small and weak signals so that signal strength is very low.Cause
This can not be to the hovering detection of finger according to mutual capacitance signal when the finger of user hovers on the screen.
Touch display screen 10 can size exports different capacitances at a distance from touch display screen 10 according to object, according to
Whether the quantity of capacitance and capacitance that touch display screen 10 exports can be blocked with touch display screen 10.For example, touching aobvious
Display screen 10 export capacitance quantity be 10,10 capacitances be all larger than threshold value and it is almost the same when determine touch display screen 10
It is blocked.
In one example, when electronic device 100 enter talk business when, user electronic device 100 can generally be put to
In one's ear, user by electronic device 100 put in one's ear during, the position due to face and ear etc. with skin is to lead
Body, touch display screen 10 can generate different signal values according to electronic device 100 at a distance from human body head, to judge to use
Whether complete to put electronic device 100 to movement in one's ear in family.
In present embodiment, touch display screen 10 judges whether there is object when carrying out proximity test, according to self-capacitance signal
Body close to touch display screen 10, touch judge when, judge whether to be touched according to mutual capacitance signal.
Figure 20 is please referred to, the touch display screen 10 of electronic device 100 can pass through flexible circuit board 40 and electronic device 100
Mainboard 50 (main board) connection.Generally, processor 23 is arranged on mainboard 50.In one example, core is touched
Piece 30 is arranged on flexible circuit board 40.Touch display screen 10 and touch chip 30 pass through flexible circuit board 40 and processor 23
Communication.
Generally, the ability that processor 23 handles data is better than the ability that chip 30 handles data that touches.It is shown touching
In screen 10, the mutual capacitance signal that touch display screen 10 generates is more than the self-capacitance signal of touch display screen 10, therefore, passes through touch
Chip 30 handles the lesser self-capacitance signal of data volume, and handles the biggish mutual capacitance signal of data volume by processor 23,
The efficiency that the signal that processing touch display screen 10 exports can be improved in this way, is made with the control rapidly to touch display screen 10
Reaction.
Specifically, in step slo, talk business includes incoming call, removes electricity or connect phone.Further, talk business
The process of voice dialogue can be carried out for user, for example, talk business is that user dials number to other people and other side is waited to answer
Process, that is, remove electricity condition;Or the process that user is being talked with by voice with other people, that is, connect telephone state;?
It can be the process that electronic device 100 accesses the phone of external incoming call and user is waited to answer, that is, carry out electricity condition.
First processing result is, for example, to determine whether object close to the result of touch display screen 10.
In step S20, in one example, second processing result is, for example, to determine whether touch display screen 10 has received
The result of predetermined operation.Predetermined operation includes slide and/or clicking operation.In other words, predetermined operation can be sliding behaviour
Make, or clicking operation, or be simultaneously slide and clicking operation.
Slide refers to that user slides into touch along certain track from a position of touch display screen 10 and shows
Another position of display screen 10.The track of slide is, for example, straight line.Slide can be to slide up and down operation or a left side
Right slide.
Clicking operation refers to that user clicks touching in certain positions of touch display screen 10.Wherein, clicking operation can be with
For single-point operation, or multipoint operation.User can be operated by finger in touch display screen 10 to realize slide
And clicking operation.
In another example, second processing result is, for example, whether touch display screen 10 comes into contact in a large area with exterior object
Result.
In step s 30, the display screen state of touch display screen 10 includes OFF state and illuminating state, wherein in point
Under bright state, touch display screen 10 can be in the state of display different content.
It should be pointed out that in step s 30, the first processing result and second processing result can not existed simultaneously.
There is only the first processing result or second processing result, according in the first processing result and second processing result
One of processing result control touch display screen 10 display state.
In some embodiments, touching chip 30 includes specific integrated circuit (Application Specific
Integrated Circuit, ASIC).ASIC is a kind of integrated circuit designed for special purpose, and feature is towards specific
The demand of user.ASIC is in batch production with volume is smaller, power consumption is lower, reliability mentions compared with universal integrated circuit
The advantages that high, performance improves, confidentiality enhancing, cost reduce, by ASIC apply the application embodiment control method and
In electronic device 1000, it can satisfy functional requirement and reduce cost.
Figure 21 is please referred to, in some embodiments, step S30 includes:
S31: judge whether touch display screen 10 is blocked according to the first processing result and second processing result;
S32: when touch display screen 10 is blocked, control touch display screen 10 enters OFF state.
In some embodiments, processor 23 is used to be touched according to the first processing result and the judgement of second processing result aobvious
Whether display screen 10 is blocked, and when touch display screen 10 is blocked, and control touch display screen 10 enters OFF state.
In certain embodiments, step S30 is further comprised the steps of:
S33, when touch display screen 10 is not blocked, control touch display screen 10 is remain on state.In this way, facilitating use
Family operates touch display screen 10.
Specifically, it can control the display state of touch display screen 10 according to the first processing result and second processing result,
So that electronic device 100 is in call, and control touch display screen 10 enters and extinguishes shape when touch display screen 10 is blocked
State, to save electricity.
In step s 32, the OFF state of touch display screen 10 includes that viewing area 1311 is in all off state;Or display
A part display predetermined content in area 1311 and the other parts of viewing area 1311 are in OFF state.It is in viewing area 1311
When all off state, the display layer 13 of touch display screen 10 is powered off, and viewing area 1311 is rendered as appearance of black.
A part display predetermined content of viewing area 1311 and the other parts of viewing area 1311 are in what OFF state referred to
It is that only a part of viewing area 1311 is in illuminating state and shows predetermined content, and at the other parts of viewing area 1311
In closing OFF state.
For example, when a part of only viewing area 1311 is in illuminating state and shows predetermined content, touch display screen 10
Shield AOD (Always on Display) mode in putting out.Predetermined content is, for example, the time, in other words, no matter touch display screen
10 enter dormant state or wake-up states, and viewing area 1311 can show temporal information.Certainly, predetermined content may be day
Phase, electronic device 100 the contents such as signal strength or weakness.
Relatively, the illuminating state of touch display screen 10 refers to that the display layer 13 of touch display screen 10 is powered, viewing area
1311 all areas are lighted so that viewing area 1311 can show content.
In step S31, it can judge that touch display screen 10 generates electricity according to the first processing result and second processing result
Hold region, area and/or shape of signal etc. and determines whether touch display screen 10 is shielded.
Therefore, Figure 22 is please referred to, in some embodiments, step S31 includes:
S311 judges whether touch display screen 10 is less than pre- spacing at a distance from external object according to the first processing result
From;
S312, according to second processing result judge touch display screen 10 and external object contact area whether be greater than it is predetermined
Area;
S313 determines that touch display screen 10 is hidden when contact area is greater than predetermined area or distance is less than preset distance
Gear.
Figure 23 is please referred to, in one example, for user when receiving calls, electronic device 100 is close to face, at this point, such as
There is gap, that is, touch display screen 10 is not contacted with face between fruit touch display screen 10 and face.At this point, touching display
The self-capacitance signal that screen 10 generates touches chip 30 and handles the self-capacitance signal of touch display screen 10 and export the first processing knot
Fruit can determine the distance between face and touch display screen 10 according to the first processing result.For example, face and touch display screen
The distance between 10 it is smaller when, the intensity of self-capacitance signal is larger.It therefore, can be at a distance from face according to touch display screen 10
Judge whether touch display screen 10 is blocked.
In another example, for user when receiving calls, electronic device 100 is close to face, at this point, if touching display
Screen 10 is contacted with face, at this point, the mutual capacitance signal that touch display screen 10 generates, touches chip 30 and handle touch display screen 10
Mutual capacitance signal simultaneously exports the first processing result, can determine contact of the touch display screen 10 with face according to the first processing result
Area can determine that touch display screen 10 is blocked if contact area is greater than predetermined area.
Figure 24 is please referred to, in some embodiments, control method includes:
S40 closes the touch control layer 12 of touch display screen 10 when touch display screen 10 is in OFF state.
In some embodiments, processor 23, which is used to close when touch display screen 10 is in OFF state, touches display
The touch control layer 12 of screen 10.
In some cases, electronic device 100, which is provided with, puts out screen proximity test mode, i.e., is in and extinguishes in touch display screen
Under state, only the display layer of touch display screen is closed, and the state that the touch control layer of touch display screen is kept it turning on.At this point, with
Family still can control the work of electronic device 100 in the case where touch display screen is in OFF state.
For example, user can be in the case where touch display screen be in OFF state, user is drawn in touch display screen 10 with finger
" M " pattern, touch control layer 12 due to user touching and export control signal, thus control electronic device 100 play music.
Therefore, user is when receiving calls, due to electronic device 100 be possible to be blocked and with face, human ear or other
Object contact, causes touch control layer 12 to output by the signal of touch-control, to cause the function that electronic device 100 runs non-user anticipation
It can program.
In this way, closing the touch control layer 12 of touch display screen 10 when touch display screen 10 is in OFF state, can prevent
User causes faulty operation in the process that electronic device 100 is conversed.
In present embodiment, " unlatching of touch control layer 12 " refers to the energization of touch control layer 12 and can be with output capacitance signal." touch control layer
12 close " refer to the power-off of touch control layer 12 and capacitance signal can not be generated.
In some embodiments, second processing result is exported by the top area that processor handles touch display screen 10
Mutual capacitance signal obtain;
The self-capacitance signal that first processing result handles the top area output of touch display screen 10 by touching chip 30
It obtains.
Since the receiver of electronic device 100 is generally arranged at the top of electronic device 100.In one example, with
When family receives calls, the top of electronic device 100 closer to ear near, therefore, according to the top region of touch display screen 10
The signal of domain output, processing obtain the first processing result and second processing as a result, it is possible to increase determining electronic device 100 close to head
The accuracy rate in portion.
In present embodiment, the top area of touch display screen 10 refers to (longitudinal direction of electronic device 100) in the Y direction
On, touch display screen 10 is close to the region of the top end face 1002 of electronic device 100.
Preferably, control method further includes the steps that whether the posture of detection electronic installation 100 is predetermined posture.
In this step, the posture of the sensors such as gyroscope of electronic device 100 detection electronic installation 100 can be passed through.
Step S32 includes controlling touch display screen when the posture of electronic device 100 is predetermined posture and touch display screen 10 is blocked
10 enter OFF state.
In this way, the process of the display state of control touch display screen 10 is more accurate.It is appreciated that in certain scenarios,
Even if electronic device 100 enters talk business, also not necessarily judge that user completes according to the signal that touch display screen 10 exports
Electronic device 100 put to movement in one's ear.For example, the finger of user is touched after electronic device 100 enters talk business
Touch display screen 10 (predetermined operation as described above), in this process, electronic device 100 is not placed on user's
In one's ear, but touch display screen 10 can also export different control signals.
By the judgement to 100 posture of electronic device, it may further determine that whether electronic device 100 is put to user's
In one's ear.Specifically, it can use the sensors such as gyroscope, gravity sensor to judge the posture of electronic device 100.Separately
Outside, the posture of electronic device 100 has very much, for example lays flat, is inverted and vertically, since user is when conversing, generally has
Therefore the movement of one lift hand, predetermined posture can be set as using so that electronic device 100 is vertically placed on user in one's ear
Electronic device 100 is in vertical posture after family lift hand.It is appreciated that the process that user lifts hand can be by electronic device 100
The sensors such as gyroscope, gravity sensor detect.
For example, gravity sensor can detecte electronics dress when passing through the posture of gravity sensor detection electronic installation 100
Set 100 width direction X, the acceleration change in these three directions length direction Y and thickness direction Z.Gravity sensor is constantly
Obtain the data of the X-direction of electronic device 100, Y-direction and Z-direction.It is appreciated that when electronic device 100 be placed in one's ear and
During call, the distance that electronic device 100 moves on X-direction, the two directions of Y-direction is smaller.Therefore, gravity
Sensor detects that X-direction, the data variation amount in Y-direction are smaller.
If electronic device 100 from being taken in one's ear at the moment, electronic device 100 X-direction, Y-direction, Z-direction this three
Moving distance in a direction at least two directions is larger, and therefore, gravity sensor gets X-direction, Y-direction, in Z-direction
At least two directions on data variation amount it is larger.
The available electronics of X-direction, Y-direction, the data variation amount of Z-direction is got according to gravity sensor as a result, to fill
Set 100 posture.
For another example, when through the posture of gyroscope detection electronic installation 100, gyroscope measure the deflection of electronic device 100 and
Rotational angular velocity when inclination.Gyroscope can detect and incude the linear of 3d space and movement, so as to recognize direction, determination
Posture and calculating angular speed.In this way, may determine that whether the posture of electronic device 100 is upright according to the detection data of gyroscope
Posture such as lays flat or tiltedly puts at the postures.
In some embodiments, control method further includes the detection data according to proximity sensor 16 after step S40
The step of controlling the display state of touch display screen 10.For example, judging electronic device according to the detection data of proximity sensor 16
100 far from external object when control touch display screen 10 light.
Embodiment further provides a kind of computer readable storage mediums by the application.One or more can be held comprising computer
The non-volatile computer readable storage medium storing program for executing of row instruction, when computer executable instructions are executed by one or more processors 23
When, so that processor 23 executes the control method of any of the above-described embodiment.
Figure 25 is please referred to, embodiment further provides a kind of computer equipments 400 by the application.Computer equipment 400 includes
Memory 32 and one or more processors 23, one or more programs are stored in memory 32, and be configured to by
One or more processors 23 execute.Program includes for executing control method described in above-mentioned any one embodiment.
Figure 25 is the internal module schematic diagram of the computer equipment 400 in one embodiment.Computer equipment 400 includes logical
Cross processor 23, the memory 32 (for example, non-volatile memory medium), built-in storage 33, display layer of the connection of system bus 31
13 and input unit 34.Wherein, the memory 32 of computer equipment 400 is stored with operating system and program.The program can be located
It manages device 23 to execute, to realize the control method of above-mentioned any one embodiment.
Processor 23 can be used for providing calculating and control ability, support the operation of entire computer equipment 400.Computer is set
Standby 400 built-in storage 33 provides environment for the computer-readable instruction operation in memory 32.The display of computer equipment 400
Layer 13 can be OLED display layer or Micro LED display layer etc., and input unit 34, which can be, to be arranged on display layer 13
Touch display screen 10 is also possible to key, trace ball or the Trackpad being arranged on 400 shell of computer equipment, is also possible to outer
Keyboard, Trackpad or mouse for connecing etc..The computer equipment 400 can be mobile phone, tablet computer, laptop, a number
Word assistant or wearable device (such as Intelligent bracelet, smartwatch, intelligent helmet, intelligent glasses) etc..Those skilled in the art
It is appreciated that structure shown in figure, only the schematic diagram of part-structure relevant to application scheme, is not constituted to this
The restriction for the computer equipment 400 that application scheme is applied thereon, specific computer equipment 400 may include than institute in figure
Show more or fewer components, perhaps combines certain components or with different component layouts.
Those of ordinary skill in the art will appreciate that realizing all or part of the process in above-described embodiment method, being can be with
Instruct relevant hardware to complete by computer program, program can be stored in a non-volatile computer readable storage medium
In matter, the program is when being executed, it may include such as the process of the embodiment of above-mentioned each method.Wherein, storage medium can for magnetic disk,
CD, read-only memory (Read-Only Memory, ROM) etc..
Above embodiments only express the several embodiments of the application, and the description thereof is more specific and detailed, but can not
Therefore it is interpreted as the limitation to the application the scope of the patents.It should be pointed out that for those of ordinary skill in the art,
Without departing from the concept of this application, various modifications and improvements can be made, these belong to the protection model of the application
It encloses.Therefore, the scope of protection shall be subject to the appended claims for the application patent.
Claims (14)
1. a kind of control method of electronic device, which is characterized in that the electronic device includes touch display screen, the connection touching
The touch chip and processor of display screen are touched, the control method includes:
When the electronic device is in talk business, pass through the electricity certainly of touch display screen output described in the touch chip processing
Hold signal and exports the first processing result;
The mutual capacitance signal of the touch display screen output is handled by the processor and exports second processing result;
The display state of the touch display screen is controlled according to first processing result and the second processing result.
2. control method as described in claim 1, which is characterized in that described according to first processing result and described second
Processing result controls the display state of the touch display screen, comprising:
Judge whether the touch display screen is blocked according to first processing result and the second processing result;With
When the touch display screen is blocked, controls the touch display screen and enter OFF state.
3. control method as claimed in claim 2, which is characterized in that described according to first processing result and described second
Processing result judges that the step of whether touch display screen is blocked includes:
Judge whether the touch display screen is less than preset distance at a distance from external object according to first processing result;
Judge whether the contact area of the touch display screen and external object is greater than predetermined face according to the second processing result
Product;
Determine that described touch shows when the contact area is greater than the predetermined area or the distance is less than the preset distance
Display screen is blocked.
4. control method as claimed in claim 2, which is characterized in that the control method includes:
The touch control layer of the touch display screen is closed when the touch display screen is in OFF state.
5. control method as described in claim 1, which is characterized in that the second processing result is handled by the processor
The mutual capacitance signal of the top area output of the touch display screen obtains;
The self-capacitance that first processing result passes through the top area output of touch display screen described in the touch chip processing
Signal obtains.
6. control method as described in claim 1, which is characterized in that the touch chip includes specific integrated circuit.
7. a kind of electronic device characterized by comprising
Touch display screen;
Chip is touched, the touch chip is used to handle the touch display screen when the electronic device is in talk business defeated
Self-capacitance signal and the first processing result of output out;With
Processor, the processor, which is used to be in the electronic device, handles the touch display screen output when talk business
Mutual capacitance signal simultaneously exports second processing as a result, and for according to first processing result and the second processing result control
Make the display state of the touch display screen.
8. electronic device as claimed in claim 7, which is characterized in that the processor is also used to according to the first processing knot
Fruit and the second processing result judge whether the touch display screen is blocked, and for being hidden in the touch display screen
When gear, controls the touch display screen and enter OFF state.
9. electronic device as claimed in claim 8, which is characterized in that the processor is used for according to first processing result
Judge whether the touch display screen is less than preset distance at a distance from external object, and for according to the second processing result
Judge whether the contact area of the touch display screen and external object is greater than predetermined area, and in the contact area
Determine that the touch display screen is blocked when being less than the preset distance greater than the predetermined area or the distance.
10. electronic device as claimed in claim 8, which is characterized in that the processor is used at the touch display screen
The touch control layer of the touch display screen is closed when OFF state.
11. electronic device as claimed in claim 7, which is characterized in that the second processing result passes through at the processor
The mutual capacitance signal for managing the top area output of the touch display screen obtains;
The self-capacitance that first processing result passes through the top area output of touch display screen described in the touch chip processing
Signal obtains.
12. electronic device as claimed in claim 7, which is characterized in that the touch chip includes specific integrated circuit.
13. a kind of computer equipment characterized by comprising
Touch display screen;
One or more processors;
Memory;With
One or more programs, wherein one or more of programs are stored in the memory, and one
Or multiple processors execute, described program includes the finger for executing control method as claimed in any one of claims 1 to 6
It enables.
14. one or more includes the non-volatile computer readable storage medium storing program for executing of computer executable instructions, when the calculating
When machine executable instruction is executed by one or more processors, so that the processor perform claim requires any one of 1-6 institute
The control method for the electronic device stated.
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