KR20220009972A - Display device including fingerprint authentication sensor and laminate used therefor - Google Patents

Abstract

An object of the present invention is to provide a display device including a fingerprint authentication sensor capable of suppressing an increase in the size of a bezel area and contributing to further slimming of the display device, and a laminate used therefor.
In the display device 1 of the present invention, in the display area layer 40 of the stacked body 110, a display element provided on a predetermined surface and for displaying an image, and a predetermined surface same as the display element ( 40) and a fingerprint authentication sensor for detecting an image of a fingerprint used for fingerprint authentication at a position where the display element is displayed and a process for performing fingerprint authentication processing using the image detected by the fingerprint authentication sensor A negative integrated circuit (200) is provided.

Description

Display device including fingerprint authentication sensor and laminate used therefor

The present invention relates to a display device including a fingerprint authentication sensor and a laminate used therefor.

Confidential information data such as personal information and trade secrets are stored in portable terminals such as notebook computers, tablet terminals, and smart phones, and a security system for protecting these data is required in the portable terminals. As a security system, a fingerprint authentication sensor that enhances security using a human finger fingerprint is known. The fingerprint authentication sensor is a sensor that detects a fingerprint of a finger.

The fingerprint authentication sensor is usually disposed outside a screen that displays an image in a portable terminal, for example, a home button or the like. For this reason, the bezel area outside the screen becomes large, and accordingly, the screen of the portable terminal becomes small.

As a means for arranging a fingerprint authentication sensor in an area within a screen, Patent Document 1 discloses a display device in which a fingerprint authentication sensor is disposed below a display panel.

[Patent Document 1] Japanese Patent Laid-Open No. 2018-85114

An embodiment of the present invention aims to provide a display device including a fingerprint authentication sensor capable of suppressing an increase in the size of a bezel area and contributing to further slimming of the display device, and a laminate used therefor.

In order to achieve the above object, a display device according to an embodiment of the present invention includes a display element provided on a predetermined surface and for displaying an image, and a display element provided on the same predetermined surface as the display element and provided on the display element. A fingerprint authentication sensor that detects an image of a fingerprint used for fingerprint authentication at a position displayed by the fingerprint authentication sensor, and a processing unit that performs fingerprint authentication processing using the image detected by the fingerprint authentication sensor.

In order to achieve the above object, a display device according to an embodiment of the present invention detects a display element for displaying an image, and a fingerprint image used for fingerprint authentication at a position where the display is made by the display element. and a display area layer having a fingerprint authentication sensor, and a processing unit that performs fingerprint authentication processing using an image detected by the fingerprint authentication sensor.

In order to achieve the above object, a laminate for a display device according to an embodiment of the present invention is provided on a predetermined surface, a display element for displaying an image, and a display element are provided on the same predetermined surface as the display element, and A fingerprint authentication sensor is provided that detects an image of a fingerprint used for fingerprint authentication at a position displayed by the display element.

In order to achieve the above object, a laminate for a display device according to an embodiment of the present invention includes a display element for displaying an image, and a fingerprint used for fingerprint authentication at a position where the display by the display element is made. and a display area layer having a fingerprint authentication sensor for detecting an image.

In one embodiment of the present invention, the fingerprint authentication sensor and the display element for displaying an image are disposed on the same surface or the display region layer, thereby suppressing an increase in the size of the bezel region and making a slim display device . In addition, one embodiment of the present invention is convenient because a fingerprint can be detected within a screen displaying an image.

BRIEF DESCRIPTION OF THE DRAWINGS It is a schematic diagram which shows 1st Embodiment, 2nd Embodiment, and 3rd Embodiment of the display apparatus of this invention.
Fig. 2 is a schematic diagram showing a display region layer in the first embodiment of the display device of the present invention.
3 is a schematic diagram showing a display region layer in a second embodiment of the display device of the present invention.
4 is a schematic diagram showing a display region layer in a third embodiment of the display device of the present invention.
5 is a schematic diagram showing a first embodiment, a second embodiment, a third embodiment, and a fourth embodiment of the display device of the present invention.
6 is a schematic diagram showing a display region layer in a fourth embodiment of the display device of the present invention.

The display device of the present invention can be applied to a self-luminous display device such as an inorganic EL display device and an organic EL display device, for example, can be applied to an organic EL display device.

Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following embodiment, an example of an organic EL display device as one of the display devices will be mainly described.

Fig. 5 schematically shows the display device 1 of the first embodiment. The display device 1 is, for example, a device capable of displaying an image, such as a tablet terminal or a smart phone. In addition, the display device 1 can perform fingerprint authentication of the user. The user's fingerprint authentication may be performed with the same timing and purpose as in the conventional apparatus, such as when the user starts to use the display device 1 .

As shown in FIG. 5 , the display device 1 includes a stacked body 110 and an integrated circuit 200 as a configuration for performing fingerprint authentication of a user by displaying an image. The laminated body 110 part in FIG. 5 is sectional drawing which shows the side surface of the layers 10, 20, 30, 40, 50 which comprise the laminated body 110. As shown in FIG. In addition, the display device 1 may be provided with the structure normally equipped with devices, such as a tablet terminal or a smartphone, normally.

The stacked body 110 is a module that configures a display screen for displaying an image and detects a user's fingerprint. The integrated circuit 200 is a module (device) for performing information processing and the like for user's fingerprint authentication. As the integrated circuit 200, the one used in a conventional device may be used. The integrated circuit 200 is fixedly disposed, for example, in a housing (not shown) of the display device 1 , for example, on the back surface of the stacked body 110 .

The laminate 110 includes a transparent plate 10 , a polarizing film 30 , a display area layer 40 , and a back plate 50 . The transparent plate 10 side is the layer facing the outside of the display device 1 . The transparent plate 10 and the polarizing film 30 may be adhered by the pressure-sensitive adhesive layer 20 . Each of the layers 10 , 20 , 30 , 40 , and 50 constituting the stacked body 110 has a shape of a display screen for displaying an image when viewed from the stacking direction, and is, for example, a rectangle.

FIG. 2 : is a schematic diagram which shows the display area layer 40 in 1st Embodiment, and looked at the laminated body 110 in FIG. 5 from the upper side. A plurality of display elements 401 , 402 , 403 and a plurality of fingerprint authentication sensors 404 are provided in the display area layer 40 . One display element 401 , 402 , 403 corresponds to one pixel constituting the display screen. In the display area layer 40, the fingerprint authentication sensor 404 and the display elements 401, 402, 403 are present on the same surface. When they exist on the same surface, the slimmed display device 1 can be obtained. Each fingerprint authentication sensor 404 and each display element 401 , 402 , 403 and the integrated circuit 200 are electrically connected to each other by wiring. Through this connection, each fingerprint authentication sensor 404 and each display element 401, 402, 403 from the integrated circuit 200 are supplied with electric power for their driving. In addition, information is transmitted and received through the connection.

In the absence of the transparent plate 10 and the polarizing film 30 , that is, even a display device having the display area layer 40 and the back plate 50 can function as a display device including the fingerprint authentication sensor 404 , , a slimmed display device can be obtained. From the viewpoint of stability over time and lifetime, the display device 1 may include the transparent plate 10 . In addition, the display device 1 may have the polarizing film 30 from a viewpoint of reflection prevention of external light.

The user's finger prints are in contact with the transparent plate 10 . Since the fingerprint authentication sensor 404 is present in the display area layer 40 , a fingerprint pattern may be recognized by detecting a fingerprint in a display screen displaying an image.

The display elements 401 , 402 , and 403 are elements for displaying an image. As the display elements 401 , 402 , and 403 , for example, an organic light emitting diode (OLED) can be used. The display elements 401, 402, 403 emit light, that is, light. The emitted light is emitted out of the display device 1 toward the transparent plate 10 , and the user can recognize the emitted light. The display elements 401 , 402 , and 403 may emit light in blue, red, or green, for example. The first display element 401 , the second display element 402 , and the third display element 403 emit light in blue, green, and red, respectively. As shown in Fig. 2, the fingerprint authentication sensor 404 and the display elements 401, 402, 403 are alternately arranged. Specifically, for example, each of the plurality of display elements 401, 402, 403 and the fingerprint authentication sensor 404 are arranged vertically at a small interval, and these columns are the display element 401, the display element 402, and the display. The element 403 and the fingerprint authentication sensor 404 are arranged horizontally side by side with a small interval in the order. By alternately placing them, the uniformity of fingerprint sensing across the screen is increased. The display elements 401 , 402 , and 403 have a stacked structure including, for example, a cathode, an electron injection layer, an electron transport layer, a light emitting layer, a hole transport layer, a hole injection layer, and an anode, and are usually driven by the integrated circuit 200 .

The transparent plate 10 may be a transparent film or transparent glass. When a transparent film is used as the transparent plate 10, a flexible display can be obtained. Since the obtained flexible display is slim, it is excellent in flexibility.

The back plate 50 may be a PI (polyimide) film substrate. A multi-layered buffer film made of an insulating material may be formed on the back plate 50 . In addition, a wiring for supplying power or a signal to be applied to the display region layer 40 may be formed in the back plate 50 . The back plate 50 may further have a PET (polyethylene terephthalate) substrate. The back plate 50 can block moisture permeation so that the display area layer 40 is not exposed to humidity, and can support the display area layer 40 . When the back plate 50 has flexibility, the display device 1 of the present invention can be used as a flexible display.

The polarizing film 30 may block reflection of external light on the display area layer 40 to improve outdoor visibility. The polarizing film 30 may include a circular polarizer (or a λ/4 plate). The pressure-sensitive adhesive layer 20 for bonding the polarizing film 30 and the transparent plate 10 may be, for example, an optical clear adhesive (OCA).

The display elements 401, 402, 403 are arranged in a matrix and are electrically connected to data lines and gate lines intersecting the data lines, thereby emitting light to give an input image. The data line is connected to the integrated circuit 200 to receive a data signal from the integrated circuit 200 .

The fingerprint authentication sensor 404 is mounted in the display area layer 40 . The fingerprint authentication sensor 404 is a sensor that detects an image of a fingerprint used for fingerprint authentication. The fingerprint authentication sensor 404 detects a finger fingerprint of a user in contact with or close to the transparent plate 10 . That is, the fingerprint authentication sensor 404 detects a fingerprint at a position displayed by the display elements 401 , 402 , 403 .

A plurality of fingerprint authentication sensors 404 are generally uniformly and fixedly disposed within the display area layer 40 . Each fingerprint authentication sensor 404 detects a fingerprint of a user's finger corresponding to the arranged location. By concatenating the detection results from the plurality of fingerprint authentication sensors 404, a fingerprint image of the user's finger is obtained. In addition, the position where the fingerprint authentication sensor 404 is arrange|positioned may not be the whole display area layer 40, but the part of the display area layer 40 may be sufficient. As the fingerprint authentication sensor 404, for example, an optical fingerprint authentication sensor that optically detects an image of a fingerprint can be used. The optical fingerprint authentication sensor 404 outputs a detection result to the integrated circuit 200 .

The optical fingerprint authentication sensor 404 receives the light reflected from the fingerprint, and detects the fingerprint pattern by using the difference in the amount of light reflected from the ridge and valley of the fingerprint. As the light detected by the optical fingerprint authentication sensor 404 and reflected by the fingerprint, light emitted by the display elements 401 , 402 , 403 can be used. However, light other than the display elements 401 , 402 , 403 may be a detection target of the optical fingerprint authentication sensor 404 . In this case, the light source of the light is provided in the display device 1 . The light-receiving surface of the optical fingerprint authentication sensor 404 faces the transparent plate 10, and detects reflected light. As the optical fingerprint authentication sensor 404, for example, an image sensor using a photo diode (PD) such as a charge coupled device (CCD) or a CMOS image sensor (CIS) can be used.

Also, the fingerprint authentication sensor 404 may be an ultrasonic fingerprint authentication sensor 404 that detects an image of a fingerprint by ultrasonic waves. In this case, an ultrasonic transmitter that generates ultrasonic waves and sends ultrasonic waves toward the transparent plate 10 is provided in the display device 1 (it may be included in the ultrasonic fingerprint authentication sensor). The ultrasonic fingerprint authentication sensor 404 detects a fingerprint pattern by analyzing ultrasonic waves reflected from ridges and valleys of the fingerprint. The ultrasonic receiving surface of the ultrasonic fingerprint authentication sensor 404 faces the fingerprint in contact with the transparent plate 10 .

The back plate 50 may have a foam pad and a metal layer. Foam pads are made of foamed resin to absorb vibrations and shocks. The metal layer is a metal that shields electromagnetic interference (EMI), for example, a Cu layer.

The integrated circuit 200 is a processing unit that performs fingerprint authentication processing using the image detected by the fingerprint authentication sensor 404 . The integrated circuit 200 generates an image of the fingerprint based on input from each fingerprint authentication sensor 404 . The integrated circuit 200 performs fingerprint authentication processing using the generated fingerprint image. The above-described processing in the integrated circuit 200 can be performed in the same manner as in conventional optical fingerprint authentication. For example, the integrated circuit 200 stores information for performing fingerprint authentication (eg, fingerprint information of a user to be authenticated), and performs fingerprint authentication using the stored information. The fingerprint authentication result may be used in the same way as a device equipped with a conventional fingerprint authentication function.

The integrated circuit 200 converts data of an input image input or generated in the display device 1 into a data signal, and outputs the data to the data lines of the display elements 401 , 402 , 403 , so that the display element 401 , 402 and 403) are driven. In addition, the above-described and later-described functions of the integrated circuit 200 need not be performed in one integrated circuit 200 . The display device 1 includes a plurality of integrated circuits 200 , and functions may be realized by any one integrated circuit 200 .

The fingerprint detection and fingerprint authentication processing by the fingerprint authentication sensor 404 need not always be executed, but may be performed at specific timing as follows. For example, the display device 1 may have modes such as a video display mode and a fingerprint authentication mode. For example, the fingerprint authentication sensor 404 may not be driven in the image display mode, and the fingerprint authentication sensor 404 may be driven in the fingerprint authentication mode. That is, the fingerprint authentication sensor 404 may act as a fingerprint authentication sensor only at a predetermined timing. This control is achieved, for example, by the integrated circuit 200 .

The display device 1 further includes a contact sensor for detecting contact or proximity of an object to a position where a fingerprint is detected by the fingerprint authentication sensor 404 in the display device 1 , and the fingerprint authentication sensor 404 . ) may detect an image of a fingerprint by triggering detection of contact or proximity of an object by the touch sensor. The display device 1 may include, for example, a touch sensor array (not shown) between the transparent plate 10 and the display area layer 40 as a contact sensor. That is, the display device 1 may have a touch panel function. As the touch sensor array, a conventional one that detects contact or proximity of an object by capacitance can be used. The touch sensor array is electrically connected to the integrated circuit 200 by wiring, for example, and is driven by the integrated circuit 200 . The touch sensor array detects contact or proximity of an object to the surface of the transparent plate 10 , that is, a touch input. When the touch sensor array senses a touch input, it notifies the integrated circuit 200 of that effect.

The integrated circuit 200 does not drive the fingerprint authentication sensor 404 (eg, does not supply power for driving) when it is not notified that the touch input has been sensed from the touch sensor array, and the integrated circuit 200 performs the touch from the touch sensor array. When it is notified that an input has been detected, the fingerprint authentication sensor 404 may be driven (eg, power for driving is supplied). Accordingly, the fingerprint authentication sensor 404 detects the image of the fingerprint only when the touch sensor array detects the fingerprint. That is, the fingerprint authentication sensor 404 detects a fingerprint image by triggering the detection of contact or proximity of an object to the transparent plate 10 . Alternatively, the fingerprint authentication sensor 404 may detect an image of a fingerprint when a button provided on the display device 1 is being pressed.

In addition, the fingerprint authentication sensor 404 may detect the image of a fingerprint every fixed time. That is, the fingerprint authentication sensor 404 may act as a fingerprint authentication sensor in time division. In this case, the time acting as the fingerprint authentication sensor may be 0.02 seconds or less for each time the fingerprint is sensed. By setting the time within this range, fingerprint authentication can be performed at a level that cannot be visually recognized by the user. This time may further be 0.01 seconds or less or 0.005 seconds or less.

The display elements 401 , 402 , 403 may display for fingerprint detection at the timing when the fingerprint image is detected by the fingerprint authentication sensor 404 . In the fingerprint authentication mode driven by the fingerprint authentication sensor 404, the display elements 401, 402, 403 emit light for fingerprint detection toward the transparent plate 10, and the light is generated by being reflected by the transparent plate. The reflected light may be detected by the fingerprint authentication sensor 404 . At this time, the light emitted by the display elements 401 , 402 , 403 may be monochromatic light. Light emission of each color can be realized by any one of blue, red, and green or a combination of these amounts of light emission. In particular, light (for example, red) having a high wavelength for detection by the fingerprint authentication sensor 404 may be emitted to reduce the influence of external light. Thereby, the S/N ratio in detection of the fingerprint authentication sensor 404 can be increased.

As described above, in this embodiment, the fingerprint authentication sensor 404 and the display elements 401, 402, 403 for displaying an image are arranged on the same surface. Therefore, in the display device 1, it is not necessary to separate the display screen and the area for performing fingerprint authentication. Thereby, an increase in the size of the bezel area can be suppressed and the slim display device 1 can be obtained. In addition, the display device 1 according to the present embodiment is convenient because it can detect a fingerprint within a display screen that displays an image. In the present embodiment, since the fingerprint authentication sensor 404 is disposed on the display area layer 40 , the distance between the fingerprint in contact with the transparent plate 10 and the fingerprint authentication sensor 404 is short. Accordingly, the ultrasonic or light reception efficiency of the fingerprint authentication sensor 404 is increased, thereby improving the fingerprint sensing performance.

In addition, the stacked body 110 according to the present embodiment can suppress an increase in the size of the bezel area to provide a slim display device 1 . In addition, the laminated body 110 just needs to be provided with the display elements 401, 402, 403 and the fingerprint authentication sensor 404 provided on the same surface, and you may employ|adopt the structure other than the above-mentioned. Alternatively, the fingerprint authentication sensor 404 and the display elements 401 , 402 , 403 may be disposed on the display region layer 40 .

In addition, as in the present embodiment, the fingerprint authentication sensor 404 and the display elements 401 , 402 , 403 may be alternately arranged on a predetermined surface, that is, in the display area layer 40 . According to this configuration, it is possible to appropriately detect a fingerprint image and display an image. However, the fingerprint authentication sensor 404 and the display elements 401, 402, and 403 do not necessarily have to be alternately arranged, and they may be arranged so as to be capable of detecting a fingerprint image and displaying an image.

In addition, as in the present embodiment, a contact sensor (for example, the touch sensor array described above) for detecting contact or proximity of an object to a position where a fingerprint is detected in the display device 1 is provided so that the contact or proximity of the object is detected. The fingerprint authentication sensor 404 may detect an image of a fingerprint using the detected one as a trigger. According to this configuration, the fingerprint image can be detected only when necessary, so that detection of the fingerprint image and display of the image can be performed efficiently, and power consumption can be reduced.

In addition, like this embodiment, the fingerprint authentication sensor 404 may detect the image of a fingerprint every fixed time. According to this configuration, as described above, detection of a fingerprint image and display of an image can be performed efficiently, and power consumption can be reduced.

In addition, as in this embodiment, the display elements 401, 402, 403 may display for fingerprint detection at the timing when the image of a fingerprint is detected by the fingerprint authentication sensor 404. As shown in FIG. According to such a configuration, it is possible to properly and reliably detect a fingerprint image, and as a result, it is possible to properly and reliably authenticate the user's fingerprint. The above is the display device 1 and the stacked body 110 according to the first embodiment.

Next, the display device 1 and the stacked body 110 according to the second embodiment of the present invention will be described. In addition, except for the points described below, the display device 1 and the stacked body 110 according to the second embodiment are the same as the display device 1 and the stacked body 110 according to the first embodiment. In the first embodiment, the display elements 401 , 402 , 403 and the fingerprint authentication sensor 404 are configured as separate ones and arranged independently. In the present embodiment, the fingerprint authentication sensor is the display element. integrated with some. That is, the display element may operate as a fingerprint authentication sensor (or the fingerprint authentication sensor may operate as a display element). The integration of the fingerprint authentication sensor and the display element is achieved, for example, by disposing the fingerprint authentication sensor in the display element. Alternatively, the composition constituting the display element and the composition constituting the fingerprint authentication sensor may be the same.

3 : is a schematic diagram which shows the display area layer 40 in 2nd Embodiment, and looked at the laminated body 110 in FIG. 5 from the upper side. A plurality of display elements 4014 , 4024 , 4034 in which a fingerprint authentication sensor is integrated are provided in the display region layer 40 in the second embodiment. Specifically, the display element 401 and the display element 4014 in which the display element 401 and the fingerprint authentication sensor are integrated are alternately arranged vertically with a small interval. Similarly, the display element 402 and the display element 4024 in which the display element 402 and the fingerprint authentication sensor are integrated are alternately arranged vertically with a small distance apart, and the display element 403 and the display element ( 403) and the display element 4034 in which the fingerprint authentication sensor is integrated are alternately arranged vertically with a small distance therebetween. These rows are arranged horizontally in order with a slight spacing between them. In the second embodiment, since the fingerprint authentication sensor is integrated with the display element, the resolution of the image display area is improved compared with that of the first embodiment. The above is the display device 1 and the stacked body 110 according to the second embodiment.

Next, the display device 1 and the stacked body 110 according to a third embodiment of the present invention will be described. In addition, except for the points described below, the display device 1 and the stacked body 110 according to the third embodiment are the same as the display device 1 and the stacked body 110 according to the first or second embodiment. 4 : is a schematic diagram which shows the display area layer 40 in 3rd Embodiment, and looked from the upper side of the laminated body 110 in FIG. In the second embodiment, the display elements 401 , 402 , 403 arranged vertically of the display region layer 40 and the display elements 4014 , 4024 , 4034 in which the fingerprint authentication sensor is integrated are arranged side by side at a small distance. was supposed to In this embodiment, the display elements 401, 402, 403 and the display elements 4014, 4024, 4034 may be arrange|positioned in physical contact as shown in FIG. Specifically, for example, two display elements may be arranged in physical contact so that the display elements 401 , 402 , 403 are on the upper side and the display elements 4014 , 4024 , 4034 are on the lower side. In the third embodiment, the resolution of the video display area is improved as compared with that of the second embodiment. The above is the display device 1 and the stacked body 110 according to the third embodiment.

Next, the display device 1 and the stacked body 110 according to a fourth embodiment of the present invention will be described. In addition, except for the points described below, the display device and the laminate according to the fourth embodiment are the same as the display device 1 and the laminate 110 according to the first, second, or third embodiment. 6 : is a schematic diagram which shows the display area layer 40 in 4th Embodiment, and looked from the upper side of the laminated body 110 in FIG. In the second and third embodiments, the display region layer 40 includes display elements 401, 402, 403 (without a fingerprint authentication sensor integrated) and display elements 4014, 4024 with a fingerprint authentication sensor integrated. , 4034) were mixed. In this embodiment, only the display elements 4014, 4024, 4034 in which the fingerprint authentication sensor is integrated may be arrange|positioned in the display area layer 40. As shown in FIG. Specifically, for example, each of the plurality of display elements 4014 , 4024 , 4034 is vertically side by side with a small distance therebetween, and these columns are arranged in rows of the display element 4014 , the display element 4024 , and the display element 4034 . They are arranged horizontally side by side with a slight interval in the order. In the fourth embodiment, since the density of the fingerprint authentication sensor is improved, it is possible to more appropriately detect a fingerprint image. In addition, when only some of the display elements 4014, 4024, 4034 (for example, the display elements 4014, 4024, 4034 of a specific color) are made to emit light when displaying for fingerprint detection, the display elements 4014 that do not emit light 4024 and 4034 may detect an image of a fingerprint (the same applies to other than the present embodiment). The above is the display device 1 and the stacked body 110 according to the fourth embodiment.

The display device of the present invention can be applied to a self-luminous display device such as an inorganic EL display device and an organic EL display device, and can be preferably applied to an organic EL display device.

Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following embodiment, an example of an organic EL display device as one of the display devices will be mainly described.

1 is a cross-sectional view of a display device according to a first embodiment of the present invention.

Referring to FIG. 1 , the display device of the present invention includes a transparent plate 10 , a polarizing film 30 , a display area layer 40 , and a back plate 50 . The transparent plate 10 and the polarizing film 30 may be adhered by the pressure-sensitive adhesive layer 20 . The display area layer 40 has a display element and a fingerprint authentication sensor.

FIG. 2 is a schematic diagram showing an embodiment of the display region layer 40 in the first embodiment, as viewed from above the display device according to FIG. 1 . The display area layer 40 has a display element and a fingerprint authentication sensor 404 , and the display element is composed of a plurality of display pixels 401 , 402 , 403 . In the display area layer, the fingerprint authentication sensor 404 and the display element are on the same side. When they exist on the same surface, a slimmed display device can be obtained. In the absence of the transparent plate 10 and the polarizing film 30 , that is, even a display device having the display area layer 40 and the back plate 50 can function as a display device including a fingerprint authentication sensor, and display device can be obtained. From the viewpoint of stability over time and lifespan, it is preferable that the display device has the transparent plate 10 . Moreover, it is preferable that a display device has the polarizing film 30 from a viewpoint of reflection prevention of external light.

A fingerprint of a finger contacts the transparent plate 10 . Since the fingerprint authentication sensor is present in the display area, a fingerprint pattern can be recognized by detecting a fingerprint in a screen displaying an image.

The display element emits light by light emission of the display pixels 401 , 402 , 403 . The emitted light is emitted out of the display device toward the transparent plate 10 , and a viewer may recognize the emitted light. The display pixels may emit light in blue, red or green, for example. The first display pixel 401 , the second display pixel 402 , and the third display pixel respectively emit blue, green, and red light, for example. In Fig. 2, the fingerprint authentication sensor and the display element are alternately arranged. By alternately placing them, the uniformity of fingerprint sensing across the screen is increased. A display element or a display pixel has a laminated structure including, for example, a cathode, an electron injection layer, an electron transport layer, a light emitting layer, a hole transport layer, a hole injection layer, and an anode, and is usually driven by an integrated circuit (not shown).

The transparent plate 10 may be a transparent film or transparent glass. When a transparent film is used as a transparent plate, a flexible display can be obtained. Since the obtained flexible display is slim, it is excellent in flexibility.

The back plate 50 may be a PI (polyimide) film substrate. A multi-layered buffer film made of an insulating material may be formed on the back plate 50 . In addition, a wiring for supplying power or a signal to be applied to the display region layer 40 may be formed in the back plate 50 . The back plate 50 may further have a PET (polyethylene terephthalate) substrate. The back plate 50 may block moisture permeation so that the display area layer 40 is not exposed to humidity, and may also support the display area layer 40 . When the back plate 50 has flexibility, the display device of the present invention can be used as a flexible display. In addition, the display device of the present invention may include a touch sensor array (not shown) between the transparent plate 10 and the display region layer 40 .

The polarizing film 30 may block reflection of external light on the display area layer 40 to improve outdoor visibility. The polarizing film 40 may include a circular polarizer (or a λ/4 plate). The pressure-sensitive adhesive layer 20 for bonding the polarizing film 30 and the transparent plate 10 may be, for example, an optical clear adhesive (OCA).

The display element has display pixels arranged in a matrix, and is electrically connected to a data line and a gate line intersecting the data line, so that each display pixel emits light, so that the display element gives an input image. The data line is connected to the integrated circuit to receive a data signal from the integrated circuit. The touch sensor array is driven by a touch sensor driver, detects a touch input, and transmits respective coordinates and an identification code (ID) of the touch input to a host system (not shown).

The fingerprint authentication sensor 404 is mounted in the display area layer 40 . As the fingerprint authentication sensor 404, the optical fingerprint authentication sensor may be an ultrasonic fingerprint authentication sensor.

The optical fingerprint authentication sensor 404 detects a fingerprint pattern using a difference in the amount of light reflected from a ridge and a valley of the fingerprint that receives light reflected from the fingerprint. The optical fingerprint authentication sensor may include an image sensor such as a CCD (charge coupled device) or CIS (CMOS image sensor). The display device has modes such as an image display mode and a fingerprint authentication mode. The fingerprint authentication sensor 404 may act as a fingerprint authentication sensor only when detecting a fingerprint. In addition, the fingerprint authentication sensor 404 may act as a fingerprint authentication sensor in time division. In this case, it is preferable that the time to act as the fingerprint authentication sensor is 0.02 seconds or less for each time the fingerprint is sensed. By setting the time in this range, fingerprint authentication can be performed at a level that cannot be visually recognized by a viewer. More preferably, it is 0.01 second or less, and most preferably, it is 0.005 second or less. In the fingerprint authentication mode acting as a fingerprint authentication sensor, the display pixel emits light toward the transparent plate 10 when a fingerprint is sensed on the transparent plate, and the reflected light generated when the light is reflected from the transparent plate is transmitted to the fingerprint authentication sensor ( 404) detect. The light emitted when the fingerprint is detected may be a monochromatic light. Light emission of each color can be realized by any one of blue, red, and green or a combination of these amounts of light emission. The light-receiving surface of the optical fingerprint authentication sensor 404 faces the transparent plate 10 and detects the reflected light.

The fingerprint authentication sensor 404 may act as a display element. The fingerprint authentication sensor 404 may act as a fingerprint authentication sensor only when detecting a fingerprint, and act as a display element when not detecting a fingerprint. By acting as a display element when a fingerprint is not sensed, the surface luminous rate as a display device is improved.

The ultrasonic fingerprint authentication sensor 404 transmits ultrasonic waves toward the transparent plate 10 using an ultrasonic transmitter in the fingerprint authentication mode, and analyzes ultrasonic waves reflected from the ridges and valleys of the fingerprint, Detect a fingerprint pattern. The ultrasonic receiving surface of the ultrasonic fingerprint authentication sensor 404 faces the fingerprint in contact with the transparent plate 10 .

The back plate 50 may have a foam pad and a metal layer. Foam pads are made of foamed resin to absorb vibrations and shocks. The metal layer is a metal that shields electromagnetic interference (EMI), for example, a Cu layer.

In the present invention, since the fingerprint authentication sensor 404 is disposed on the display area layer 40 , the distance between the fingerprint in contact with the transparent plate 10 and the fingerprint authentication sensor 404 is short. Accordingly, the ultrasonic or light reception efficiency of the fingerprint authentication sensor 404 is increased, thereby improving the fingerprint sensing performance.

The integrated circuit converts data of an input image into a data signal and outputs it to a data line of a display element, thereby driving a display pixel. The integrated circuit may be included in the touch sensor driving unit. The integrated circuit electrically connects with the fingerprint authentication sensor 404 .

The fingerprint authentication sensor 404 electrically connects to the main board and/or integrated circuit of the host system by wiring. The host system is electrically connected to the fingerprint authentication sensor 404 to exchange data with the fingerprint authentication sensor 404 and to control the fingerprint authentication sensor 404 . In the fingerprint authentication mode, the host system transmits the fingerprint data of the input image to the integrated circuit. The host system executes an application connected to the coordinates from the touch sensor driving unit, and performs user authentication based on the fingerprint information received from the fingerprint authentication sensor 404 . When a fingerprint is sensed, the display device may pre-acquire correction data that is background data, and thereafter, the sensed data (fingerprint information) obtained when a fingerprint is sensed may have a correction sequence using the correction data. can Accordingly, it is possible to correct the deviation of the sensed data when an opaque or translucent foreign material is attached to the surface of the transparent plate 10 .

A second embodiment of the display device of the present invention is also shown in FIG. 1 . FIG. 3 shows an embodiment of the display region layer 40 in the second embodiment, and is a schematic diagram seen from above of the display device according to FIG. 1 . The difference between the first embodiment and the second embodiment is that, in the first embodiment, the display pixels 401 , 402 , 403 of the display area layer 40 and the fingerprint authentication sensor 404 are arranged independently. , In the second embodiment, the fingerprint authentication sensor is integrated with a part of the display pixels, so that the display pixels 4014 , 4024 , 4034 are integrated with the fingerprint authentication sensor. Other configurations in the second embodiment are the same as in the first embodiment. In the second embodiment, since the fingerprint authentication sensor is integrated with the display pixel, the image display area is enlarged compared with that of the first embodiment. The fingerprint authentication sensor may be integrated with all of the display pixels.

A third embodiment of the display device of the present invention is also shown in FIG. 1 . FIG. 4 is a schematic diagram showing an embodiment of the display region layer 40 in the third embodiment, as viewed from above the display device according to FIG. 1 . The difference between the second embodiment and the third embodiment is that, in the second embodiment, the display pixels 401 , 402 , 403 of the display area layer 40 and the display pixels 4014 , 4024 , 4034 in which the fingerprint authentication sensor are integrated ) are arranged independently, whereas in the third embodiment, the display pixels 401 , 402 , 403 of the display area layer 40 and the display pixels 4014 , 4024 , 4034 in which the fingerprint authentication sensor are integrated and the physical placed in contact with Other configurations in the third embodiment are the same as in the second embodiment. In the third embodiment, the video display area is further enlarged compared with that of the second embodiment.

The laminate of the present invention has a display area layer and a back plate, and the display area layer has a fingerprint authentication sensor and a display element for displaying an image. The laminate of the present invention can be suitably used for the above-described display device.

In the laminate of the present invention, the display element may be constituted by a plurality of display pixels, and the fingerprint authentication sensor may be integrated with a part of the display pixels. The laminate of the present invention may have a transparent plate on the opposite side of the back plate in the display region layer. The laminate of this invention may have a polarizing film between a display area layer and a transparent plate, and may have an adhesive layer between a transparent plate and a polarizing film.

The display device of the present invention has a fingerprint authentication sensor and a display element for displaying an image, and the fingerprint authentication sensor and the display element are on the same surface.

The display device of the present invention has a transparent plate, a polarizing film, a display area layer and a back plate in this order, and the display area layer has a fingerprint authentication sensor and a display element for displaying an image.

The laminate of the present invention has a display area layer and a back plate, and the display area layer has a fingerprint authentication sensor and a display element for displaying an image.

In the display device of the present invention, the fingerprint authentication sensor and the display element for displaying an image are disposed on the same surface, thereby suppressing an increase in the size of the bezel area and making the display device slim. In addition, since the display device of the present invention can detect a fingerprint within a screen displaying an image, convenience is abundant. In addition, the laminate of the present invention can suppress an increase in the size of the bezel area and make it possible to obtain a slim display device.

A display device comprising a fingerprint authentication sensor and a display element for displaying an image, wherein the fingerprint authentication sensor and the display element are on the same surface.

The above-described display device in which the fingerprint authentication sensor and the display element are alternately arranged.

The display device described above, wherein the display element is constituted by a plurality of display pixels, and the fingerprint authentication sensor is integrated with a part of the display pixels.

The above-described display device, wherein the fingerprint authentication sensor acts as a fingerprint authentication sensor only when detecting a fingerprint.

The above-described display device, wherein the fingerprint authentication sensor acts as a fingerprint authentication sensor in time division.

The display device as described above, wherein the time during which the fingerprint authentication sensor acts as the fingerprint authentication sensor is 0.02 seconds or less per time that a fingerprint is detected.

The above-described display device wherein the fingerprint authentication sensor can act as a display element.

The above-described display device, wherein the fingerprint authentication sensor functions as a fingerprint authentication sensor only when detecting a fingerprint, and functions as a display element when not detecting a fingerprint.

The above-described display device further comprising a transparent plate, wherein the display element emits light toward the transparent plate.

The display pixel emits light when a fingerprint is detected, and the fingerprint authentication sensor detects a reflected light generated when the light is reflected by the transparent plate.

A display device having a display region layer and a back plate, wherein the display region layer includes a fingerprint authentication sensor and a display element for displaying an image.

The above-described display device having a transparent plate on the opposite side of the back plate in the display region layer.

The above-described display device having a polarizing film between the display region layer and the transparent plate.

The above-mentioned display device which has an adhesive layer between a transparent plate and a polarizing film.

The above-described display device in which the fingerprint authentication sensor and the display element are alternately arranged.

The display device described above, wherein the display element is constituted by a plurality of display pixels, and the fingerprint authentication sensor is integrated with a part of the display pixels.

The above-described display device, wherein the fingerprint authentication sensor acts as a fingerprint authentication sensor only when detecting a fingerprint.

The above-described display device, wherein the fingerprint authentication sensor acts as a fingerprint authentication sensor in time division.

The display device as described above, wherein the time during which the fingerprint authentication sensor acts as the fingerprint authentication sensor is 0.02 seconds or less per time that a fingerprint is detected.

The above-described display device wherein the fingerprint authentication sensor can act as a display element.

The above-described display device, wherein the fingerprint authentication sensor functions as a fingerprint authentication sensor only when detecting a fingerprint, and functions as a display element when not detecting a fingerprint.

The display pixel emits light when a fingerprint is detected, and the fingerprint authentication sensor detects a reflected light generated when the light is reflected by the transparent plate.

The above-described display device capable of acquiring correction data in advance when a fingerprint is detected, and then performing correction using the detection data obtained when a fingerprint is detected and the correction data.

The above-described display device which is an organic EL display device.

A laminate having a display area layer and a back plate, wherein the display area layer has a fingerprint authentication sensor and a display element for displaying an image.

The display device described above, wherein the display element is constituted by a plurality of display pixels, and the fingerprint authentication sensor is integrated with a part of the display pixels.

The above-described laminate having a transparent plate on the opposite side of the back plate.

The above-mentioned laminated body which has a polarizing film between a display area layer and a transparent plate.

Said laminated body which has an adhesive layer between a transparent plate and a polarizing film.

The present invention can be applied to a display device including a fingerprint authentication sensor capable of detecting a fingerprint on a screen.

1: display device, 10: transparent plate, 20: pressure-sensitive adhesive layer, 30: polarizing film, 40: display area layer, 50: back plate, 100: display device, 110: laminate, 401: first display element, 402: A second display element, 403: a third display element, 404: a fingerprint authentication sensor, 4014: a first display element in which a fingerprint authentication sensor is integrated, 4024: a second display element in which a fingerprint authentication sensor is integrated, 4034: a fingerprint authentication sensor Integrated third display element

Claims (9)

A display element provided on a predetermined surface and for displaying an image;
a fingerprint authentication sensor provided on the same predetermined surface as the display element and configured to detect an image of a fingerprint used for fingerprint authentication at a position displayed by the display element;
A processing unit that performs fingerprint authentication processing using the image detected by the fingerprint authentication sensor
A display device comprising a. A display area layer having a display element for displaying an image, and a fingerprint authentication sensor that detects an image of a fingerprint used for fingerprint authentication at a position where the display by the display element is made;
A processing unit that performs fingerprint authentication processing using the image detected by the fingerprint authentication sensor
A display device comprising a. The display device according to claim 1 or 2, wherein the fingerprint authentication sensor is integrated with the display element. The display device according to claim 1 or 2, wherein the fingerprint authentication sensor and the display element are alternately arranged. 5. The display device according to any one of claims 1 to 4, further comprising: a contact sensor for detecting contact or proximity of an object to a position where the fingerprint is detected in the display device;
The fingerprint authentication sensor is a display device configured to detect the image of the fingerprint by triggering detection of contact or proximity of the object by the touch sensor. The display device according to any one of claims 1 to 5, wherein the fingerprint authentication sensor detects an image of the fingerprint every predetermined time. The display device according to claim 5 or 6, wherein the display element displays for fingerprint detection at a timing when the image of the fingerprint is detected by the fingerprint authentication sensor. A display element provided on a predetermined surface and for displaying an image;
A fingerprint authentication sensor that is provided on the same surface as the display element and detects an image of a fingerprint used for fingerprint authentication at a position displayed by the display element
A laminate for a display device comprising: A laminate for a display device comprising: a display element for displaying an image; and a display area layer having a fingerprint authentication sensor that detects an image of a fingerprint used for fingerprint authentication at a position where the display by the display element is made.

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