CN206627857U - Electronic installation - Google Patents
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- CN206627857U CN206627857U CN201621493252.3U CN201621493252U CN206627857U CN 206627857 U CN206627857 U CN 206627857U CN 201621493252 U CN201621493252 U CN 201621493252U CN 206627857 U CN206627857 U CN 206627857U
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- Prior art keywords
- electronic installation
- module
- fingerprint recognition
- vivo detection
- finger print
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Abstract
The utility model provides a kind of electronic installation, electronic installation includes processor, fingerprint recognition module and In vivo detection module, processor has detected whether that finger print safety identifies demand, and the safe class of analysis finger print safety identification demand, when safe class, which is less than intended level, needs to carry out In vivo detection, processor exports In vivo detection enabling signal to fingerprint recognition module;When the safe class, which is more than or equal to intended level, to carry out In vivo detection, processor exports fingerprint detection enabling signal to fingerprint recognition module, In vivo detection module touches the attribute of main body according to the detection of In vivo detection enabling signal, and fingerprint recognition module is output control signals to when the attribute is live body;Fingerprint recognition module starts the finger print information of detection acquisition touch main body according to fingerprint detection enabling signal or control signal.The utility model mainly sets unlocking condition to In vivo detection, is just opened when needing to open, and reaches power saving, reduces energy consumption purpose.
Description
Technical field
It the utility model is related to electronic technology field, more particularly to a kind of electronic installation.
Background technology
With the development of information technology and electronic technology, electronic installation (such as:Mobile phone, flat board etc.) day with people
Often live closely bound up, because electronic installation can realize various functions, such as make a phone call, take pictures, storing all kinds of texts
Part, instant messaging, on-line payment etc., people save all kinds of privacies on the electronic device to the dependence more and more higher of terminal
Information, the security that this allows for electronic installation are particularly important.In the prior art, fingerprint recognition mould is mounted with an electronic
Group or fingerprint recognition module, because fingerprint is the lines of the rough and uneven in surface formation of finger surface skin, and fingerprint characteristic has
Uniqueness, stability feature, fingerprint recognition module or fingerprint recognition module are used for identifying user identity, to ensure the peace of terminal
Quan Xing.However, the fingerprint recognition module or fingerprint recognition module of existing electronic installation and In vivo detection condition is not present, less
It is related to the specific unlocking condition of setting, security is not high, and compares power consumption power consumption.
Utility model content
To solve the fingerprint recognition module of prior art electronic device or fingerprint recognition module security is not high and energy consumption
More technical problem, it is necessary to which a kind of electronic installation safe and reliable, energy consumption is less is provided.
A kind of electronic installation, including processor, fingerprint recognition module and In vivo detection module, the fingerprint recognition module are used
In the touch operation for receiving touch main body, the processor has detected whether that finger print safety identifies demand, when the processor is examined
The safe class of the finger print safety identification demand is analyzed when measuring finger print safety identification demand, is needed when the finger print safety identifies
When the safe class asked needs to carry out In vivo detection less than intended level, the processor exports In vivo detection enabling signal to institute
State fingerprint recognition module;Live body inspection need not be carried out when the safe class of finger print safety identification demand is more than or equal to intended level
During survey, the processor exports fingerprint detection enabling signal to the fingerprint recognition module, wherein:
In vivo detection module detects the attribute for touching main body according to the In vivo detection enabling signal, when the touch main body
Attribute output control signals to the fingerprint recognition module when being live body;And
The fingerprint recognition module starts detection according to the fingerprint detection enabling signal or the control signal and obtained
The finger print information for touching main body.
Preferably, the safety identification demand corresponds to user name safety, legal power safety, account password safety or pays peace
Entirely.
Preferably, the fingerprint detection enabling signal is identical with the control signal.
Preferably, the electronic installation also includes timing module, and the timing module is used to export for the processor
Start timing after the In vivo detection enabling signal, and stop when the processor receives finger print safety identification demand again
Only timing and obtain the very first time, the intended level included for first scheduled time, and when the very first time, to be less than or equal to first predetermined
Time represents that the finger print safety identification demand is more than or equal to intended level, and the processor exports the fingerprint detection and starts letter
Number to the fingerprint recognition module.
Preferably, the electronic installation also includes temperature sensing module, and it is pre- that the temperature sensing module is used for interval second
Sensing of fixing time contacts the temperature of the exterior object of institute's electronic installation, and the temperature sensing module senses also directed to adjacent time point
To exterior object temperature be compared obtain first temperature difference, wherein, the intended level includes the first fiducial temperature;Work as work
When receiving finger print safety demand again after the physical examination survey module output fingerprint detection enabling signal, if first temperature difference is small
In representing that finger print safety identification demand is more than or equal to the intended level, the processor equal to first fiducial temperature
The fingerprint recognition signal is exported to the fingerprint recognition module.
Preferably, when first temperature difference is more than the first fiducial temperature, represent that the finger print safety identification demand is less than institute
Intended level is stated, the processor exports the In vivo detection enabling signal.
Preferably, the electronic installation also includes substrate, and the fingerprint recognition module is all provided with the In vivo detection module
It is placed on the substrate.
Preferably, the electronic installation also includes retainer ring, and the Fixing shrink ring is located at the fingerprint recognition module, described
The periphery of In vivo detection module and the substrate.
Preferably, the electronic installation also includes protective layer, and the protective layer is covered in above the retainer ring so that will
The fingerprint recognition module, the In vivo detection module packaging surround in the protective layer, the retainer ring and the substrate
In receiving space.
Preferably, the substrate, the retainer ring, the fingerprint recognition module, the In vivo detection module and the guarantor
Sheath forms sensing device, and the electronic installation also includes being arranged at the positive cover plate of the electronic installation, and the cover plate includes
Hollow out or the sensitive zones with substrate, the sensing device correspond to the sensitive zones and set.
Compared to prior art, in the utility model electronic installation, the finger that is combined using In vivo detection with fingerprint detection
Line identification technology, and the safe class unlocking condition of finger print safety identification demand is set, finger has been detected whether by processor
Line identifies safely demand, and the finger print safety identification demand is analyzed when the processor detects that finger print safety identifies demand
Safe class, it is described when the safe class of finger print safety identification demand, which is less than intended level, needs to carry out In vivo detection
Processor exports In vivo detection enabling signal to the fingerprint recognition module;When the safe class of finger print safety identification demand
When need not carry out In vivo detection more than or equal to intended level, processor output fingerprint detection enabling signal to the fingerprint is known
Other module, it is ensured that just opened when needing to open, it is flexible and convenient to use, securely and reliably, and reach power saving, reduce energy consumption
Effect.
Brief description of the drawings
, below will be to implementing in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art
The required accompanying drawing used is briefly described in mode or description of the prior art, it should be apparent that, drawings in the following description
Only some embodiments of the present utility model, for those of ordinary skill in the art, do not paying creative work
On the premise of, other accompanying drawings can also be obtained according to these accompanying drawings.
Fig. 1 is the dimensional structure diagram of the electronic installation of the utility model first embodiment.
Fig. 2 is the three-dimensional exploded view of electronic installation shown in Fig. 1.
Fig. 3 is the perspective exploded view of button module shown in Fig. 2.
Fig. 4 is the circuitry block schematic diagram of electronic installation shown in Fig. 1.
Fig. 5 is that the fingerprint live body of electronic installation shown in Fig. 1 starts the flow chart of method.
Main element symbol description
Electronic installation 100
Display surface 101
The back side 102
Viewing area 103
Non-display area 104
Perspective portion 105
Periphery 106
Button module 120
Sensing device 130
Protecgulum 111
Touch-control display module 112
Center 113
Frame 114
Main circuit board 115
Bonnet 116
Transparency carrier 117
Shielding layer 118
Substrate 135
Retainer ring 134
Fingerprint recognition module 131
In vivo detection module 132
Protective layer 133
Processor 140
Step S100, S110, S120, S130, S140, S150, S160
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, to the technical scheme in the utility model embodiment
It is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the utility model, without
It is whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not paying creation
Property work under the premise of the every other embodiment that is obtained, belong to the scope of the utility model protection.
It should be noted that the term used in the utility model embodiment is only merely for description particular implementation side
The purpose of formula, and it is not intended to be limiting the utility model.Used in the utility model embodiment and appended claims
" one kind " of singulative, " described " and "the" be also intended to including most forms, unless context clearly shows that other contain
Justice.It is also understood that term "and/or" used herein refers to and appointed comprising the associated list items purpose of one or more
What is possible to combine.In addition, term " first " in specification and claims of the present utility model and above-mentioned accompanying drawing,
" second " etc. is to be used to distinguish different objects, rather than for describing particular order.In addition, term " comprising " and " having " and
Their any deformations, it is intended that cover non-exclusive include.Such as contain the process of series of steps or unit, method,
The step of system, product or equipment are not limited to list or unit, but alternatively also include the step of not listing or
Unit, or alternatively also include for the intrinsic other steps of these processes, method, product or equipment or unit.
The electronic installation that the utility model embodiment is related to can be it is any possess communication and store function equipment, example
Such as:Tablet personal computer, mobile phone, electronic reader, remote control, personal computer (Personal Computer, PC), notebook electricity
Brain, mobile unit, Web TV, wearable device etc. have the smart machine of network function.
Fig. 1 is referred to, Fig. 1 is the dimensional structure diagram of the first embodiment of the utility model electronic installation 100.This reality
Apply in mode, the electronic installation 100 is mobile phone.Specifically, the electronic installation 100 has display surface 101 and positioned at described
The back side 102 of display surface opposite side.The display surface 101 includes generally rectangular shaped viewing area 103 and positioned at the display
The non-display area 104 of the periphery of area 103.Further, the electronic installation 100 is positioned at the non-display of the downside of viewing area 103
Area 104 is additionally provided with button module 120.Present embodiment, the button module 120 include sensing device 130, the condenser type
Fingerprint recognition module is arranged in the perforate of the protecgulum of the electronic installation 100.
Referring to Fig. 2, Fig. 2 is the three-dimensional exploded view of electronic installation 100 shown in Fig. 1.Before the electronic installation 100 also includes
Cover (cover lens) 111, touch-control display module 112, center 113, frame 114, main circuit board 115 and bonnet 116.It is described
Protecgulum 111, the touch-control display module 112, the center 113, the main circuit board 115 and the bonnet 116 are from top to bottom
Sequentially set, the frame 114 is located on the touch-control display module 112, the center 113, outside the main circuit board 115
Enclose, the touch-control display module 112, the center 113 and the main circuit board 115 house and the protecgulum 111, the bonnet
116 and the receiving space that surrounds of the frame 114 in.
The protecgulum 111 can include transparency carrier 117 and be covered at least part of screening in the inner side of transparency carrier 117
Cover layer 118.The transparency carrier 117 can be the one of which base in glass substrate, sapphire substrate and transparent resin substrate
Plate, but it is not limited to aforesaid substrate.The transparency carrier 117 can be divided into the perspective portion 105 of the corresponding viewing area 103 and right
Answer the periphery 106 of the non-display area 104.The perspective portion 105 of the transparency carrier 117 is not provided with shielding layer 118, described to touch
The picture that control display module 112 is shown can be supplied to user, the periphery of the transparency carrier 117 through the perspective portion 105
The inner side in portion 106 is provided with shielding layer 118, is blocked for regions such as the periphery wirings to the touch-control display module 112.
Preferably, the material of the shielding layer 118 includes ink, and its color can be white or black, but be not limited to above-mentioned face
Color.In present embodiment, the protecgulum 111 also includes the perforate through the transparency carrier 117, and the perforate is arranged at described
Periphery 106, specifically, the perforate is positioned at the middle position of the periphery 106 of the downside of perspective portion 105.The button
The sensing device 130 of module 120 is exposed by the perforate so that user can pass through button module 120 described in tap operation
And use the sensing device 130.Certainly, in embodiment is changed, the transparency carrier 117 can also be not provided with out
Hole, the button module 120 can directly be hidden in the lower section of the protecgulum 111.
Referring to Fig. 3, Fig. 3 is the structural representation of the sensing device 130 of button module shown in Fig. 2 120.The sensing dress
Putting 130 includes substrate 135, fingerprint recognition module 131, In vivo detection module 132, retainer ring 134 and protective layer 133.This implementation
In mode, the fingerprint recognition module 131 is packaged together with the In vivo detection module 132.Specifically, the fingerprint recognition
Module 131 may be contained within the substrate 135 with the In vivo detection module 132, and the retainer ring 135 is sheathed on the fingerprint
Module 131, the periphery of the In vivo detection module 132 and the substrate 135 are identified, the protective layer 133 is covered in described solid
Determine the top of ring 134 so as to by the fingerprint recognition module 131, the In vivo detection module 132 be packaged in the protective layer 133,
In the receiving space that the retainer ring 134 and the substrate 135 surround.The In vivo detection module 133 can be that optical profile type is lived
Module is surveyed in physical examination, and it can include being respectively arranged at the signal projector of the both sides of fingerprint recognition module 131 and be received with signal
Device (non-label).
The In vivo detection module 132 is for detecting whether having user to operate the sensing device 130 and exporting detection
Signal, the In vivo detection module 132 can also be enclosed on the fingerprint recognition module 131, it might even be possible to play fixed protection
The effect of fingerprint recognition module 131.Further, In vivo detection module 132 touches according to In vivo detection enabling signal detection
The attribute of main body is touched, the fingerprint recognition module 131 is output control signals to when the attribute of the touch main body is live body.
The protective layer 133 is a cover sheet, and the cover sheet can include transparent base (such as sapphire substrate)
And it is arranged at the dyed layer (such as black or white ink layer) on the inside of the transparent base.
Further, referring to Fig. 4, Fig. 4 is the circuitry block schematic diagram of the utility model electronic installation 100, the electricity
Sub-device 100 also includes processor 140, and the processor 140 electrically connects the fingerprint recognition module 131 and the In vivo detection
Module 132.The processor 140 can be used for having detected whether that finger print safety identifies demand, when the processor 140 detects finger
Line identifies safely the safe class that the finger print safety identification demand is analyzed during demand, when the peace of finger print safety identification demand
When congruent level is less than intended level and needs to carry out In vivo detection, the processor 140 exports In vivo detection enabling signal to described
Fingerprint recognition module 131;Live body need not be carried out when the safe class of finger print safety identification demand is more than or equal to intended level
During detection, the processor 140 exports fingerprint detection enabling signal to the fingerprint recognition module 131.The fingerprint recognition mould
Group 131 can start detection according to the fingerprint detection enabling signal or the control signal and obtain the fingerprint for touching main body
Information.
Preferably, the safety identification demand corresponds to user name safety, legal power safety, account password safety or pays peace
Entirely.
Preferably, the fingerprint detection enabling signal is identical with the control signal.
Preferably, the electronic installation (can also be generally located on inside main circuit board, not show in figure including timing module
Go out), the timing module is used to start timing after exporting the In vivo detection enabling signal for the processor 140, and
Stop timing when the processor 140 receives finger print safety identification demand again and obtain the very first time, the predetermined level
Not Bao Kuo first scheduled time, represent that finger print safety identification demand is more than when the very first time was less than or equal to for first scheduled time
Equal to intended level, the processor 140 exports the fingerprint detection enabling signal to the fingerprint recognition module 131.
Preferably, the electronic installation also includes temperature sensing module (not shown), and the temperature sensing module is used
In the temperature for the exterior object for being spaced second scheduled time sensing contact institute electronic installation, the temperature sensing module is also directed to phase
The temperature for the exterior object that adjacent time point senses, which is compared, obtains first temperature difference, wherein, the intended level includes first
Fiducial temperature;When receiving finger print safety demand again after In vivo detection module 132 exports the fingerprint detection enabling signal,
Represent the finger print safety identification demand more than or equal to described pre- if first temperature difference is less than or equal to first fiducial temperature
Deciding grade and level is other, and the processor 140 exports the fingerprint recognition signal to the fingerprint recognition module 131.
Preferably, when first temperature difference is more than the first fiducial temperature, represent that the finger print safety identification demand is less than institute
Intended level is stated, the processor exports the In vivo detection enabling signal.
Referring to Fig. 5, Fig. 5 is illustrated that the utility model creates the flow of the fingerprint live body startup method of electronic installation
Figure.The fingerprint live body starts method and comprised the following steps:
Whether step S100, detection electronic installation have finger print safety to identify demand.
Specifically, the safety identification demand corresponds to user name safety, legal power safety, account password safety or pays peace
Entirely.For example, the electronic installation 100 may connect to external network, when the electronic installation 100 accesses the external network,
It is required that the corresponding user name of input, it is described outer to access that such user can input the user name by the electronic installation 100
Portion's network, you can detect that the electronic installation 100 has user name to safely identify demand.In another embodiment, it is described
Electronic installation 100 may include some subregions, and some subregions may be provided with corresponding authority, and such as the first subregion is arranged to first
Authority, the second subregion are arranged to the second authority, in this way, when the electronic installation 100 accesses first subregion, the electronics
Device 100 then requires the authority of checking user, that is, whether verify the authority of the user has first authority, so
Detect that the electronic installation 100 has permission the demand of safely identifying.In another embodiment, the electronic installation 100 can
Some application programs (such as payment program) are installed, when being paid by the payment program, the payment program has
Corresponding account password and/or payment cipher, in this way, when user is paid using the payment program, you can detect
The electronic installation 100 has account password safety or the identification demand of safety of payment.
When detection electronic installation does not have finger print safety to identify demand, this time detection operation terminates.
Step S110, when processor has detected that finger print safety identifies demand, analyze the finger print safety identification demand
Safe class.
Specifically, when processor 140 receives the detection letter from fingerprint recognition module 131, the output of In vivo detection module 132
After number, matched corresponding user name safety, legal power safety, account password safety or branch can be detected according to the actual requirements
The finger print safeties such as safety identification demand is paid, transfers its safe class table of comparisons pre-set, so as to finger described in check analysis
Safe class corresponding to line safety identification demand.
Step S120, judges whether the safe class of finger print safety identification demand is less than intended level.
In step S120, during safe class corresponding to finger print safety identification demand described in check analysis, place
Intended level is set in reason device 140, and whether the safe class that can judge the finger print safety identification demand is predetermined less than this
The action of rank.
Step S130, when judge finger print safety identification demand safe class be less than intended level, just export live body
Detect enabling signal.
Specifically, processor 140 transfers the safe class table of comparisons that it pre-sets, and judges that the finger print safety is known
When the safe class of other demand is less than a certain intended level N in the table of comparisons really, that is, it is defaulted as triggering In vivo detection and refers to
Order, then processor 140 is with regard to exporting In vivo detection enabling signal.
Step S140, detection touch the attribute of main body, the control letter of output one when the attribute of the touch main body is live body
Number.
Further, the processor 140 voluntarily detects the category for touching main body also according to the In vivo detection enabling signal
Property, export a control signal when the attribute of the touch main body is live body.Specifically, the detection of In vivo detection module 132 touches
The attribute of the touch main body of button module 120, and processor 140 is transferred to, the category of the touch main body is judged through processor 140
Property be live body after, perform corresponding control instruction, export a control signal.
Step S150, export fingerprint detection enabling signal.
Specifically, processor 140 transfers the safe class table of comparisons that it pre-sets, when judging the finger print safety
When the safe class of identification demand is more than or equal to a certain intended level N in the table of comparisons, that is, it is defaulted as triggering fingerprint detection
Instruction, then processor 140 is with regard to exporting fingerprint detection enabling signal.
Step S160, the touch main body is obtained according to the fingerprint detection enabling signal or control signal detection
Finger print information.
Specifically, the fingerprint recognition module 131 can be examined according to the fingerprint exported through processor 140 during step S150
Survey what is exported when enabling signal or foundation judge that the attribute of touch main body is live body through processor 140 during step S140
Control signal, voluntarily detection get the corresponding finger print information for touching main body, and the action for this time obtaining finger print information is considered as
Terminate.In another embodiment, the fingerprint detection enabling signal and the control signal can be identicals, specifically, refer to
Line identifies module 131 according to the control signal or fingerprint detection enabling signal received, obtain the finger print information equivalent to
The fingerprint detection enabling signal and the control signal are identicals.
Preferably, may also include the steps of after the output In vivo detection enabling signal step:
For starting timing after exporting the In vivo detection enabling signal, and needed receiving finger print safety identification again
Stop timing when asking and obtain very first time t1, the intended level includes the first scheduled time T1, when very first time t1 is less than
The safe class for representing the finger print safety identification demand equal to the first scheduled time T1 is more than or equal to the intended level, exports
The fingerprint detection enabling signal.
Preferably, fingerprint live body, which starts method, also has following steps:
The temperature that the second scheduled time T2 sensings contact the exterior object of the electronic installation is spaced, for adjacent time point
The temperature of the exterior object sensed, which is compared, obtains first temperature difference;After the In vivo detection enabling signal is exported and again
When receiving fingerprint demand, first temperature difference is less than or equal to represent the finger print safety identification demand during the first fiducial temperature
Safe class is more than or equal to the intended level, exports the fingerprint detection enabling signal.
Preferably, when first temperature difference is more than the first fiducial temperature, represent that the finger print safety identification demand is less than institute
Intended level is stated, exports the In vivo detection enabling signal.
Compared to prior art, the fingerprint live body of the utility model electronic installation starts in method and related electronic device,
The fingerprint identification technology being combined using In vivo detection with fingerprint detection, and set the safe class of finger print safety identification demand
Unlocking condition, detect whether that finger print safety identifies demand by processor, when the processor detects that finger print safety identifies
The safe class of the finger print safety identification demand is analyzed during demand, when the safe class of finger print safety identification demand is less than
When intended level needs to carry out In vivo detection, the processor exports In vivo detection enabling signal to the fingerprint recognition module;
When the safe class of finger print safety identification demand, which is more than or equal to intended level, to carry out In vivo detection, the processor
Fingerprint detection enabling signal is exported to the fingerprint recognition module, it is ensured that just opened when needing to open, using flexible side
Just, securely and reliably, and reach power saving, reduce the effect of energy consumption.
Above disclosed is only the preferred embodiment of the utility model, certainly can not be new to limit this practicality with this
The interest field of type, therefore the equivalent variations made according to the utility model claims, still belong to the model that the utility model is covered
Enclose.
Claims (10)
1. a kind of electronic installation, including processor, fingerprint recognition module and In vivo detection module, the fingerprint recognition module are used for
Receive the touch operation for touching main body, it is characterised in that the processor has detected whether that finger print safety identifies demand, when described
Processor detects the safe class that the finger print safety identification demand is analyzed when finger print safety identifies demand, when the fingerprint is pacified
When the safe class of full identification demand needs to carry out In vivo detection less than intended level, the processor output In vivo detection starts
Signal is to the fingerprint recognition module;It need not enter when the safe class of finger print safety identification demand is more than or equal to intended level
During row In vivo detection, the processor exports fingerprint detection enabling signal to the fingerprint recognition module, wherein:
In vivo detection module detects the attribute for touching main body according to the In vivo detection enabling signal, when the category of the touch main body
Property outputs control signals to the fingerprint recognition module when being live body;And
The fingerprint recognition module starts described in detection acquisition according to the fingerprint detection enabling signal or the control signal
Touch the finger print information of main body.
2. electronic installation according to claim 1, it is characterised in that it is described safety identification demand correspond to user name safely,
Legal power safety, account password safety or safety of payment.
3. electronic installation according to claim 1, it is characterised in that the fingerprint detection enabling signal is believed with the control
It is number identical.
4. electronic installation according to claim 3, it is characterised in that the electronic installation also includes timing module, described
Timing module is used to start timing after exporting the In vivo detection enabling signal for the processor, and in the processor
Stop timing when receiving finger print safety identification demand again and obtain the very first time, the intended level includes the first pre- timing
Between, it is more than or equal to intended level, institute when the very first time is less than or equal to first scheduled time expression finger print safety identification demand
State processor and export the fingerprint detection enabling signal to the fingerprint recognition module.
5. electronic installation according to claim 3, it is characterised in that the electronic installation also includes temperature sensing module,
The temperature sensing module is used for the temperature for being spaced the exterior object of second scheduled time sensing contact institute electronic installation, the temperature
The temperature for the exterior object that degree sensing module senses also directed to adjacent time point, which is compared, obtains first temperature difference, wherein, institute
Stating intended level includes the first fiducial temperature;Received again after In vivo detection module exports the fingerprint detection enabling signal
During finger print safety demand, if first temperature difference is less than or equal to first fiducial temperature and represents the finger print safety identification demand
More than or equal to the intended level, the processor exports the fingerprint recognition signal to the fingerprint recognition module.
6. electronic installation according to claim 5, it is characterised in that when first temperature difference is more than the first fiducial temperature,
Represent that the finger print safety identification demand is less than the intended level, the processor exports the In vivo detection enabling signal.
7. electronic installation as claimed in claim 1, it is characterised in that:The electronic installation also includes substrate, and the fingerprint is known
Other module may be contained within the substrate with the In vivo detection module.
8. electronic installation as claimed in claim 7, it is characterised in that:The electronic installation also includes retainer ring, the fixation
Ring set is located at the periphery of the fingerprint recognition module, the In vivo detection module and the substrate.
9. electronic installation as claimed in claim 8, it is characterised in that:The electronic installation also includes protective layer, the protection
Layer is covered in above the retainer ring so that by the fingerprint recognition module, the In vivo detection module packaging in the protection
In the receiving space that layer, the retainer ring and the substrate surround.
10. electronic installation as claimed in claim 9, it is characterised in that:The substrate, the retainer ring, the fingerprint recognition
Module, the In vivo detection module and the protective layer form sensing device, and the electronic installation also includes being arranged at the electricity
The positive cover plate of sub-device, the cover plate include hollow out or have the sensitive zones of substrate, described in the sensing device correspondence
Sensitive zones are set.
Priority Applications (1)
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CN201621493252.3U CN206627857U (en) | 2016-12-30 | 2016-12-30 | Electronic installation |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621493252.3U CN206627857U (en) | 2016-12-30 | 2016-12-30 | Electronic installation |
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CN201621493252.3U Active CN206627857U (en) | 2016-12-30 | 2016-12-30 | Electronic installation |
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CN (1) | CN206627857U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106682476A (en) * | 2016-12-30 | 2017-05-17 | 珠海市魅族科技有限公司 | Electronic device and fingerprint living body starting method |
CN112465503A (en) * | 2020-11-17 | 2021-03-09 | 葛云霞 | Information security protection method based on internet finance and biological recognition and cloud platform |
-
2016
- 2016-12-30 CN CN201621493252.3U patent/CN206627857U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106682476A (en) * | 2016-12-30 | 2017-05-17 | 珠海市魅族科技有限公司 | Electronic device and fingerprint living body starting method |
CN106682476B (en) * | 2016-12-30 | 2019-09-20 | 珠海市魅族科技有限公司 | Electronic device and fingerprint living body start method |
CN112465503A (en) * | 2020-11-17 | 2021-03-09 | 葛云霞 | Information security protection method based on internet finance and biological recognition and cloud platform |
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