CN205176816U - Touch devices with fingerprint is discerned - Google Patents

Abstract

The utility model provides a touch devices with fingerprint is discerned, includes: the unit is discerned to a touch devices, a fingerprint, this touch devices has touch -control district and non - touch -control district, non - touch -control district distinguishes adjacently and locates this touch -control foreign and enclose with the touch -control, this fingerprint is discerned the unit and is located aforementioned non - touch -control district, needs the extra shortcoming that fluting or trompil destroyed touch devices structural strength in touch devices on can reduce manufacturing cost through discerning the fingerprint unit and this touch devices integration prior art of improvement as an organic whole.

Description

There is the contactor control device of identification of fingerprint

Technical field

Have a contactor control device for identification of fingerprint, espespecially a kind of directly integration by fingeprint distinguisher is formed on contactor control device, and then promotes the contactor control device with identification of fingerprint of identification of fingerprint precision and reduction manufacturing cost.

Background technology

Flourish along with multimedia technology, increasing intelligent portable electronic installation such as mobile phone, personal digital assistant (PersonalDigitalAssistant, PDA), digital camera, notebook personal computer or flat board or Wearable device etc. has become instrument indispensable in people's life.But these portable electron devices have very strong personalized feature.Therefore once these portable electron devices are usurped or lost, the information of its storage inside, such as telephone directory, photograph, data etc. are all likely utilized by others, and cause unnecessary loss.

Therefore, this kind of product needed is arranged in pairs or groups certain authentication and rights management, to guarantee the personal secrets used.And the main method of current adopted authentication has cryptoguard, user first need input correct password to portable electron device, can enter the manipulation page of portable electron device.But the security of cryptoguard is lower, reason is that password is easier to be leaked or cracked.And it is also pretty troublesome when user forgets Password.Therefore, the portable electron device of the authentication of employing identification of fingerprint is namely had to ask city.Fingerprint due to everyone is different, and therefore fingerprint has the feature of uniqueness, the security of the authentication adopting identification of fingerprint is improved a lot.Further, the method that use fingerprint carries out authentication is also relatively convenient, makes user eliminate memory and input the loaded down with trivial details of password.

And existing fingerprint identification system is widely used on handheld apparatus or running gear, fingeprint distinguisher independent design the most common is in the fixing side of such as keyboard of notebook computer or the dorsal part of hand held device or the fixed position of bottom side, one end, and cannot to effectively integrate on hand-held action device Touch Screen and then the volume of reduction hand held device, and existing identification of fingerprint chip encapsulation module mainly comprises substrate, chip and mould envelope body.Chip to be arranged on substrate and to be connected with electrical property of substrate, and on the surface that mould envelope body is covered in substrate and chip.

And each sensor circuit and metal routing or chip mainly must first be arranged on the substrate made by a Silicon Wafer by prior art, integration is combined with contact panel or other devices after making a finger print identification unit again, and the finger print identification unit integral thickness that prior art provides the also thicker also easy precision because of thickness effect identification of fingerprint and the consideration because of thickness cannot integrate with thinner device.

Meanwhile, in general, when the sensing area of finger contact chip, owing to being coated with multilayer film outside chip, make chip encapsulation module integral thickness higher, and chip encapsulation module sensitivity is lower.

In addition, existing sliding fingerprint identification system has directivity, and the identification time passes for a long time and must independently arrange, and is that structural integrity or ease of use are all bad.

Utility model content

Therefore, for effectively solving the above problems, fundamental purpose of the present utility model, directly integrates finger finger print identification unit the contactor control device with identification of fingerprint be combined as a whole with this contactor control device for providing a kind of.

For reaching above-mentioned purpose, the utility model provides a kind of contactor control device with identification of fingerprint, comprising: a contactor control device, a finger print identification unit;

Described contactor control device, defines a Touch Zone and a non-touch-control district, and described non-touch-control district is adjacent with this Touch Zone and to be located at this Touch Zone peripheral, and this contactor control device has:

One first substrate, has a first surface and a second surface, this first surface can in plane or curved surface one of them;

One shielding layer, selects to be located at first, second one of them non-touch-control district, surface aforementioned;

One second substrate, has one the 3rd surface and one the 4th surface;

One touch control electrode layer, is located at the Touch Zone on the 3rd surface of this second substrate, and this touch control electrode layer has multiple first touch control electrode, multiple second electrode and multiple metal routing, and respectively first, second touch control electrode and each metal routing are electrically connected;

One insulation course, is located at first, second touch control electrode junction each;

One optical cement layer, is located between aforementioned first substrate and this second substrate;

One flexible base plate, has multiple circuit trace and a touch chip, and each circuit trace and this touch chip and each metal routing are electrically connected, described flexible base plate select to be located at aforementioned second substrate the 3rd, the 4th surface one of them.

One finger print identification unit, is located at the non-touch-control district of aforementioned contactor control device.

In one embodiment, described second substrate be chosen as glass or PET material one of them.

In one embodiment, described finger print identification unit also has:

One first coating layer, is located at the non-touch-control district on the 3rd surface of this second substrate;

One first identification of fingerprint electrode layer, is stacked on this first coating layer, and has multiple first identification of fingerprint electrode;

One first protective seam, covers aforementioned first identification of fingerprint electrode layer subregion;

One second identification of fingerprint electrode layer, is located at the side that this first protective seam is contrary with this first identification of fingerprint electrode layer, and this second identification of fingerprint electrode layer has multiple second identification of fingerprint electrode;

One second protective seam, covers aforementioned second identification of fingerprint electrode layer subregion;

One conductor layer, has multiple plain conductor, and each plain conductor is selected to be electrically connected with the aforementioned first or second identification of fingerprint electrode layer;

One identification of fingerprint chip, is located at the 3rd surface of this second substrate or the non-touch-control district on the 4th surface;

One flexible circuit base board, there is multiple electronic circuit, each electronic circuit is connected with first, second identification of fingerprint electrode layer aforementioned, this conductor layer and this identification of fingerprint chip, and described flexible base plate selects to be located at one of them the non-touch-control district, the 3rd, the 4th surface of aforementioned second substrate.

In one embodiment, described finger print identification unit also has:

One first coating layer, is located at the non-touch-control district on the 3rd surface of this second substrate;

One first identification of fingerprint electrode layer, is stacked on this first coating layer, and this first identification of fingerprint electrode layer has multiple first identification of fingerprint electrode;

One second coating layer, the aforementioned first identification of fingerprint electrode layer in cover part;

One second identification of fingerprint electrode layer, is located at the side that this second coating layer is contrary with this first identification of fingerprint electrode layer, and this second identification of fingerprint electrode layer has multiple second identification of fingerprint electrode;

One conductor layer, has multiple plain conductor, and each plain conductor is selected to be electrically connected with the aforementioned first or second identification of fingerprint electrode layer;

One the 3rd coating layer, covers aforementioned second identification of fingerprint electrode layer and part conductor layer;

One identification of fingerprint chip, is located at the non-touch-control district on the 3rd surface of this second substrate;

One flexible circuit base board, there is multiple electronic circuit, each electronic circuit and first, second identification of fingerprint electrode layer aforementioned, this conductor layer and this identification of fingerprint chip are electrically connected, described flexible circuit base board select to be located at aforementioned second substrate the 3rd, the 4th surface one of them.

In one embodiment, first, second protective seam described be an OC diaphragm (OVERCOAT) or silica membrane one of them.

In one embodiment, described first, second, third coating layer is silica membrane.

By the utility model finger print identification unit is directly integrated in the structure in the non-touch-control district of this contactor control device, not only need not in addition on contactor control device fluting or borehole can avoid this contactor control device because of fluting borehole destroy this structural strength, also can reduce the manufacturing cost of this contactor control device.

Accompanying drawing explanation

Fig. 1: the three-dimensional exploded view with the first embodiment of the contactor control device of identification of fingerprint of the present utility model;

Figure 1A: the partial enlarged drawing with the first embodiment of the contactor control device of identification of fingerprint of the present utility model;

Figure 1B: the partial enlarged drawing with the first embodiment of the contactor control device of identification of fingerprint of the present utility model;

Fig. 2: the assembled sectional view with the first embodiment of the contactor control device of identification of fingerprint of the present utility model;

Fig. 3: the three-dimensional exploded view with the second embodiment of the contactor control device of identification of fingerprint of the present utility model;

Fig. 3 A: the partial enlarged drawing with the second embodiment of the contactor control device of identification of fingerprint of the present utility model;

Fig. 3 B: the partial enlarged drawing with the second embodiment of the contactor control device of identification of fingerprint of the present utility model;

Fig. 3 C: the partial enlarged drawing with the second embodiment of the contactor control device of identification of fingerprint of the present utility model;

Fig. 4: the assembled sectional view with the second embodiment of the contactor control device of identification of fingerprint of the present utility model.

Description of reference numerals

There is the contactor control device 1 of identification of fingerprint

Contactor control device 11

Touch Zone 111

Non-touch-control district 112

First substrate 113

First surface 113a

Second surface 113b

Shielding layer 114

Second substrate 115

3rd surperficial 115a

4th surperficial 115b

Touch control electrode layer 116

First touch control electrode 116a

Second touch control electrode 116b

Metal routing 116c

Insulation course 117

Optical cement layer 118

Flexible base plate 119

Circuit trace 119a

Touch chip 119b

Finger print identification unit 12

First coating layer 121

First identification of fingerprint electrode layer 122

First identification of fingerprint electrode 122a

First protective seam 123

Second identification of fingerprint electrode layer 124

Second identification of fingerprint electrode 124a

Second protective seam 125

Conductor layer 126

Plain conductor 126a

Identification of fingerprint chip 127

Flexible circuit base board 128

Electronic circuit 128a

The described contactor control device 2 of tool identification of fingerprint

Contactor control device 21

Touch Zone 211

Non-touch-control district 212

First substrate 213

First surface 213a

Second surface 213b

Shielding layer 214

Second substrate 215

3rd surperficial 215a

4th surperficial 215b

Touch control electrode layer 216

First touch control electrode 216a

Second touch control electrode 216b

Metal routing 216c

Insulation course 217

Optical cement layer 218

Flexible base plate 219

Circuit trace 219a

Touch chip 219b

Finger print identification unit 22

First coating layer 221

First identification of fingerprint electrode layer 222

First identification of fingerprint electrode 222a

Second coating layer 223

Second identification of fingerprint electrode layer 224

Second identification of fingerprint electrode 224a

Conductor layer 225

Plain conductor 225a

3rd coating layer 226

Identification of fingerprint chip 227

Flexible circuit base board 228

Electronic circuit 228a.

Embodiment

Characteristic on above-mentioned purpose of the present utility model and structure and fuction thereof, is explained the preferred embodiment according to accompanying drawing.

Refer to Fig. 1,1A, 1B and Fig. 2, for stereo decomposing, partial enlarged drawing and the assembled sectional view with the first embodiment of the contactor control device of identification of fingerprint of the present utility model, as shown in the figure, the contactor control device 1 with identification of fingerprint of the present utility model, comprising: contactor control device 11, finger print identification unit 12;

Described contactor control device 11 defines Touch Zone 111 and a non-touch-control district 112, and described non-touch-control district 112 is adjacent with Touch Zone 111 and to be located at this Touch Zone 111 peripheral; Described finger print identification unit 12 is located at aforementioned non-touch-control district 112.

Described contactor control device 11 has: first substrate 113, shielding layer 114, second substrate 115, touch control electrode layer 116, insulation course 117, optical cement layer 118, flexible base plate 119;

Described first substrate 113 has an a first surface 113a and second surface 113b, this first surface 113a can in plane or curved surface one of them, if this first surface 113a be curved surface, it can be entirety be curved surface can 4 sides be also curved surface (not shown).

Described shielding layer 114 select to be located at aforementioned first, second surperficial 113a, 113b non-touch-control district 112 one of them, the present embodiment illustrates with the non-touch-control district 112 being arranged at this second surface 113b but not as limit, described shielding layer 114 is a black dielectric ink.

Described second substrate 115 has the surperficial 115b of one the 3rd surperficial 115a and the 4th, this touch control electrode layer 116 is located at the Touch Zone 111 of the 3rd surperficial 115a of this second substrate 115, this touch control electrode layer 116 has multiple first touch control electrode 116a, multiple second touch control electrode 116b and multiple metal routing 116c, described first, second touch control electrode 116a, 116b and each metal routing 116c is electrically connected, each metal routing 116c part extends to this non-touch-control district 112, described insulation course 117 is located at each first, second touch control electrode 116a, 116b junction, described second substrate 115 be chosen as glass or PET material one of them, the present embodiment illustrates with glass material but not as limit.

Described optical cement layer 118 is located between aforementioned first substrate 113 and this second substrate 115 and is also covered this touch control electrode layer 116 simultaneously.

Described flexible base plate 119 has a multiple circuit trace 119a and touch chip 119b, each circuit trace 119a and this touch chip 119b and each metal routing 116c is electrically connected, described flexible base plate 119 select to be located at aforementioned second substrate 115 the 3rd, the 4th surperficial 115a, 115b one of them.

Described finger print identification unit 12 is located at the non-touch-control district 112 of aforementioned contactor control device 11.

Described finger print identification unit 12 also has: one first coating layer 121,1 first identification of fingerprint electrode layer 122,1 first protective seam 123,1 second identification of fingerprint electrode layer 124,1 second protective seam 125, conductor layer 126, identification of fingerprint chip 127 and a flexible circuit base board 128;

Described first coating layer 121 is located at the non-touch-control district 112 of the 3rd surperficial 115a of this second substrate 115; Described first identification of fingerprint electrode layer 122 is stacked on this first coating layer 121, and has multiple first identification of fingerprint electrode 122a; Described first protective seam 123 covers aforementioned first identification of fingerprint electrode layer 122 subregion; Described second identification of fingerprint electrode layer 124 is located at this first protective seam 123 side contrary with this first identification of fingerprint electrode layer 122, and this second identification of fingerprint electrode layer 124 has multiple second identification of fingerprint electrode 124a; Described second protective seam 125 covers aforementioned second identification of fingerprint electrode layer 124 subregion; Described conductor layer 126 has multiple plain conductor 126a, and each plain conductor 126a selects to be electrically connected with the aforementioned first or second identification of fingerprint electrode layer 122,124; Described identification of fingerprint chip 127 selects to be located at one of them the non-touch-control district 112 of the 3rd, the 4th surperficial 115a, 115b of aforementioned second substrate 115, and the present embodiment illustrates with the non-touch-control district 112 being located at the 3rd surperficial 115a but do not regard it as and is limited; Described flexible circuit base board 128 has multiple electronic circuit 128a, each electronic circuit and aforementioned first, second identification of fingerprint electrode layer 122,124, this conductor layer 126 and this identification of fingerprint chip 127 be connected, described flexible circuit base board 128 selects to be located at one of them the non-touch-control district 112 of the 3rd, the 4th surperficial 115a, 115b of aforementioned second substrate 115, the present embodiment illustrates with the non-touch-control district 112 being located at the 3rd surperficial 115a but is not therefore limited, and described flexible circuit base board 128 is corresponding with this identification of fingerprint chip 127 to be arranged.

Refer to Fig. 3,3A, 3B, 3C and Fig. 4, for the stereo decomposing of the second embodiment of the contactor control device of tool identification of fingerprint of the present utility model, partial enlarged drawing and assembled sectional view, as shown in the figure, the described contactor control device 2 with identification of fingerprint of the present utility model, comprising: contactor control device 21, finger print identification unit 22;

Described contactor control device 21 defines Touch Zone 211 and a non-touch-control district 212, and described non-touch-control district 212 is adjacent with Touch Zone 211 and to be located at this Touch Zone 211 peripheral; Described finger print identification unit 22 is located at aforementioned non-touch-control district 212.

Described contactor control device 21 has: first substrate 213, shielding layer 214, second substrate 215, touch control electrode layer 216, insulation course 217, optical cement layer 218, flexible base plate 219;

Described first substrate 213 has an a first surface 213a and second surface 213b, this first surface 213a can in plane or curved surface one of them.

Described shielding layer 214 select to be located at aforementioned first, second surperficial 213a, 213b non-touch-control district 212 one of them, the present embodiment illustrates with the non-touch-control district 212 being arranged at this second surface 213b but is not therefore limited.

Described second substrate 215 has the surperficial 215b of one the 3rd surperficial 215a and the 4th, this touch control electrode layer 216 is located at the Touch Zone 211 of the 3rd surperficial 215a of this second substrate 215, this touch control electrode layer 216 has multiple first touch control electrode 216a, multiple second touch control electrode 216b and multiple metal routing 216c, described first, second touch control electrode 216a, 216b and each metal routing 216c is electrically connected, each metal routing 216c part extends to this non-touch-control district 212, described insulation course 217 is located at each first, second touch control electrode 216a, 216b junction, described second substrate 215 be chosen as glass or PET material one of them, the present embodiment illustrates with PET material but is not therefore limited.

Described optical cement layer 218 is located between aforementioned first substrate 213 and this second substrate 215 and is also covered this touch control electrode layer 216 simultaneously.

Described flexible base plate 219 has and a multiple circuit trace 219a and touch chip 219b, each circuit trace 219a and this touch chip 219b and each metal routing 216c is electrically connected, described flexible base plate 219 selects to be located at one of them the non-touch-control district 212 of the 3rd, the 4th surperficial 215a, 215b of aforementioned second substrate 215, and the present embodiment illustrates with the non-touch-control district 212 being located at the 3rd surperficial 215a but is not therefore limited.

Described finger print identification unit 22 is located at the non-touch-control district 212 of aforementioned contactor control device 21.

Described finger print identification unit 22 also has: one first coating layer 221,1 first identification of fingerprint electrode layer 222,1 second coating layer 223,1 second identification of fingerprint electrode layer 224, conductor layer 225, the 3rd coating layer 226, identification of fingerprint chip 227, flexible circuit base board 228;

Described first coating layer 221 is located at the non-touch-control district 211 of the 3rd surperficial 215a of this second substrate 215; This first identification of fingerprint electrode layer 222 is stacked on this first coating layer 221, and this first identification of fingerprint electrode layer 222 has multiple first identification of fingerprint electrode 222a; The described second aforementioned first identification of fingerprint electrode layer 222 in coating layer 223 cover part.

Described second identification of fingerprint electrode layer 224 is located at this second coating layer 223 side contrary with this first identification of fingerprint electrode layer 222, and this second identification of fingerprint electrode layer 224 has multiple second identification of fingerprint electrode 224a; This conductor layer 225 has multiple plain conductor 225a, and each plain conductor 225a selects to be electrically connected with the aforementioned first or second identification of fingerprint electrode layer 222,224; Described 3rd coating layer 226 covers aforementioned second identification of fingerprint electrode layer 224 and part conductor layer 225.

Described identification of fingerprint chip 227 selects to be located at one of them the non-touch-control district 212 of the 3rd, the 4th surperficial 215a, 215b of aforementioned second substrate 215, and the present embodiment illustrates with the non-touch-control district 212 being located at the 3rd surperficial 215a but is not therefore limited; This flexible circuit base board 228 has multiple electronic circuit 228a, each electronic circuit 228a and first, second identification of fingerprint electrode layer aforementioned 222,224, this conductor layer 225 and this identification of fingerprint chip 227 be electrically connected, described flexible circuit base board 228 selects to be located at one of them the non-touch-control district 212 of the 3rd, the 4th surperficial 215a, 215b of aforementioned second substrate 215, the present embodiment illustrates with the non-touch-control district 212 being located at the 3rd surperficial 215a but not as limit, described flexible circuit base board 228 is corresponding with aforementioned fingerprint identification chip 227 to be arranged.

First, second protective seam 123,125 described be an OC diaphragm (OVERCOAT) or silica membrane one of them; Described first, second, third coating layer 121,221,223,226 is silica membrane.

Be arranged in the non-touch-control district of this contactor control device by of the present utility model directly finger print identification unit integration, and make this finger print identification unit be arranged at the structure in the non-touch-control district of this contactor control device by the mode of direct wiring, the structural strength that hole or groove avoid destroying this contactor control device need not be offered in addition on this contactor control device, meanwhile, manufacturing cost can be reduced further.

Claims (6)

1. there is a contactor control device for identification of fingerprint, it is characterized in that: comprising:

One contactor control device, comprises a Touch Zone and a non-touch-control district, and described non-touch-control district is adjacent with this Touch Zone and to be located at this Touch Zone peripheral, and this contactor control device has:

One first substrate, has a first surface and a second surface, and this first surface is one of plane or curved surface;

One shielding layer, selects to be located at first, second one of them non-touch-control district, surface aforementioned;

One second substrate, has one the 3rd surface and one the 4th surface;

One touch control electrode layer, is located at the Touch Zone on the 3rd surface of this second substrate, and this touch control electrode layer has multiple first touch control electrode, multiple second touch control electrode and multiple metal routing, and respectively first, second touch control electrode and each metal routing are electrically connected;

One insulation course, is located at first, second touch control electrode junction each;

One optical cement layer, is located between aforementioned first substrate and this second substrate;

One flexible base plate, has multiple circuit trace and a touch chip, and each circuit trace and this touch chip and each metal routing are electrically connected, described flexible base plate select to be located at aforementioned second substrate the 3rd, the 4th surface one of them;

One finger print identification unit, is located at the non-touch-control district of aforementioned contactor control device.

2. there is the contactor control device of identification of fingerprint as claimed in claim 1, it is characterized in that: described second substrate be chosen as glass or PET material one of them.

3. there is the contactor control device of identification of fingerprint as claimed in claim 1, it is characterized in that: described finger print identification unit also has:

One first coating layer, is located at the non-touch-control district on the 3rd surface of this second substrate;

One first identification of fingerprint electrode layer, is stacked on this first coating layer, and has multiple first identification of fingerprint electrode;

One first protective seam, covers aforementioned first identification of fingerprint electrode layer subregion;

One second identification of fingerprint electrode layer, is located at the side that this first protective seam is contrary with this first identification of fingerprint electrode layer, and this second identification of fingerprint electrode layer has multiple second identification of fingerprint electrode;

One second protective seam, covers aforementioned second identification of fingerprint electrode layer subregion;

One conductor layer, has multiple plain conductor, and each plain conductor is selected to be electrically connected with the aforementioned first or second identification of fingerprint electrode layer;

One identification of fingerprint chip, selects the 3rd, the 4th one of them the non-touch-control district, surface being located at aforementioned second substrate;

One flexible circuit base board, there is multiple electronic circuit, each electronic circuit is connected with first, second identification of fingerprint electrode layer aforementioned, this conductor layer and this identification of fingerprint chip, described flexible base plate select to be located at aforementioned second substrate the 3rd, the 4th surface one of them.

4. there is the contactor control device of identification of fingerprint as claimed in claim 1, it is characterized in that: described finger print identification unit also has:

One first coating layer, is located at the non-touch-control district on the 3rd surface of this second substrate;

One first identification of fingerprint electrode layer, is stacked on this first coating layer, and this first identification of fingerprint electrode layer has multiple first identification of fingerprint electrode;

One second coating layer, the aforementioned first identification of fingerprint electrode layer in cover part;

One second identification of fingerprint electrode layer, is located at the side that this second coating layer is contrary with this first identification of fingerprint electrode layer, and this second identification of fingerprint electrode layer has multiple second identification of fingerprint electrode;

One conductor layer, has multiple plain conductor, and each plain conductor is selected to be electrically connected with the aforementioned first or second identification of fingerprint electrode layer;

One the 3rd coating layer, covers aforementioned second identification of fingerprint electrode layer and part conductor layer;

One identification of fingerprint chip, is located at the non-touch-control district on the 3rd surface of this second substrate;

One flexible circuit base board, there is multiple electronic circuit, each electronic circuit and first, second identification of fingerprint electrode layer aforementioned, this conductor layer and this identification of fingerprint chip are electrically connected, described flexible circuit base board select to be located at aforementioned second substrate the 3rd, the 4th surface one of them.

5. there is the contactor control device of identification of fingerprint as claimed in claim 3, it is characterized in that: first, second protective seam described be an OC diaphragm or silica membrane one of them.

6. there is the contactor control device of identification of fingerprint as claimed in claim 4, it is characterized in that: described first, second, third coating layer is silica membrane.