KR102257761B1 - Fingerprint recognition system and method using touchscreen and rail-guide - Google Patents

Abstract

The present invention relates to a fingerprint recognition system and method using a touch screen and a rail-type guide, wherein the fingerprint recognition system of the present invention moves away from the touch screen panel in order to generate a sensing signal for a touch on the touch screen panel. A fingerprint recognition optical module arranged to be possible, a guide for guiding the movement of the fingerprint recognition optical module, and a touch on the touch screen panel, the fingerprint recognition optical module in response to the position coordinate recognized for the corresponding touch position. And a controller for controlling generation of the detection signal corresponding to the fingerprint signal by moving to a corresponding position on the guide.

Description

Fingerprint recognition system and method using touchscreen and rail-guide}

The present invention relates to a fingerprint recognition system, and in particular, to a fingerprint recognition system using a rail type guide to expand a fingerprint recognition area on a touch screen.

The personal authentication function is mainly used in smartphones, laptops, financial devices, access controllers, and other electronic devices. Fingerprint recognition devices are being employed. In such an electronic device, a touch panel provides an input means to a user through a touch screen attached to the display panel, and generally, a fingerprint recognition device recognizes a fingerprint through a device provided separately from the touch screen at a location away from the screen. Various methods, such as a method and a fingerprint recognition method using a touch panel, have been attempted.

However, in the conventional fingerprint recognition method, since it is inconvenient for a user to accurately touch a corresponding location by touching in a narrow area, and causing user inconvenience due to a failure in recognition, there is a need for improvement.

Accordingly, the present invention was conceived to solve the above-described problems, and an object of the present invention is to increase user convenience by expanding a touch area for recognizing a fingerprint using a rail-type guide and improving a recognition success rate. It is to provide a system and method.

First, summarizing the features of the present invention, the fingerprint recognition system according to one aspect of the present invention for achieving the above object is moved away from the touch screen panel in order to generate a detection signal for a touch on the touch screen panel. A fingerprint recognition optical module arranged to be possible; A guide for guiding the movement of the fingerprint recognition optical module; And for a touch on the touch screen panel, by moving the fingerprint recognition optical module to a corresponding position on the guide in response to a position coordinate recognized for a corresponding touch position, thereby controlling the generation of the detection signal corresponding to the fingerprint signal. It includes a control unit.

In the normal mode, the control unit may display a preset touch area on the touch screen panel to guide the touch position to the user.

The controller may display the touch area when there is recognition of a touch on the touch screen panel when fingerprint recognition starts.

The predetermined touch area may be a fixed area or an area in which the fingerprint recognition optical module is movable with a short axis or a long axis.

In the extended mode, the controller may move the fingerprint recognition optical module to a position corresponding to the position coordinate on the guide in a direction of a long axis, a direction of a short axis, or a combination thereof.

The touch screen panel may have a structure in which a touch panel for sensing a touch position is combined with an OLED display panel.

The fingerprint recognition optical module includes: a light receiving unit configured to receive light reflected from a finger touched at the touch position and convert it into an electrical signal; And a signal processor configured to process the electrical signal and convert it into a digital signal to generate the detection signal.

The guide may include: a first guide part for guiding the movement of the fingerprint recognition optical module in a short axis direction; And a second guide part guiding the movement of the fingerprint recognition optical module in a direction of a major axis.

A motor for moving the second guide part along the first guide part may be provided, and the controller may control the second guide part to move along the guide groove of the first guide part by driving the motor.

The guide is in the form of a rail, and the fingerprint recognition optical module includes a motor, and for moving the fingerprint recognition optical module, the control unit drives the motor so that a wheel provided in the fingerprint recognition optical module is mounted on the rail. You can control it to move.

The fingerprint recognition system further includes a memory for storing information on one or more fingerprint images, and the controller may determine whether to match the fingerprint signal by comparing the information stored in the memory according to a fingerprint request.

In response to a fingerprint request from a server on the Internet in an Internet browser, the controller may transmit the fingerprint signal to the server.

In addition, a fingerprint recognition method according to another aspect of the present invention includes the steps of: for a touch on a touch screen panel, recognizing position coordinates for a corresponding touch position; And generating an image detection signal by the fingerprint recognition optical module to output a fingerprint signal to the touch by moving the fingerprint recognition optical module to a corresponding location on the guide in response to the location coordinates.

According to the fingerprint recognition system according to the present invention, the user can touch to perform fingerprint recognition using a wide touch area, and to enable successful recognition by one operation of the fingerprint recognition function by moving the optical module through the rail-type guide. It can operate and increase user convenience.

The accompanying drawings, which are included as part of the detailed description to aid in understanding of the present invention, provide embodiments of the present invention and describe the technical spirit of the present invention together with the detailed description.
1 is a view for explaining a fingerprint recognition system according to an embodiment of the present invention.
2 is a schematic perspective view of an XY guide of the present invention.
3 is a diagram illustrating a normal mode and an extended mode according to the present invention.
4 is a view for explaining a detailed block diagram of a fingerprint recognition system according to an embodiment of the present invention.
5 is a view for explaining the configuration of the fingerprint recognition optical module of the present invention.
6 is a flowchart for explaining the operation of the fingerprint recognition system according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In this case, the same components in each drawing are indicated by the same reference numerals as possible. In addition, detailed descriptions of already known functions and/or configurations will be omitted. In the following, a portion necessary for understanding an operation according to various embodiments will be mainly described, and descriptions of elements that may obscure the subject matter of the description will be omitted. In addition, some elements of the drawings may be exaggerated, omitted, or schematically illustrated. The size of each component does not entirely reflect the actual size, and therefore, the contents described herein are not limited by the relative size or spacing of the components drawn in each drawing.

In describing the embodiments of the present invention, when it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of users or operators. Therefore, the definition should be made based on the contents throughout the present specification. The terms used in the detailed description are only for describing the embodiments of the present invention, and should not be limiting. Unless explicitly used otherwise, expressions in the singular form include the meaning of the plural form. In the present description, expressions such as "comprising" or "feature" are intended to refer to certain features, numbers, steps, actions, elements, some or combination thereof, and one or more It should not be construed to exclude the presence or possibility of other features, numbers, steps, actions, elements, any part or combination thereof.

In addition, terms such as first and second may be used to describe various components, but the components are not limited by the terms, and the terms are used to distinguish one component from other components. Is only used.

1 is a view for explaining a fingerprint recognition system 100 according to an embodiment of the present invention.

Referring to FIG. 1, a fingerprint recognition system 100 according to an embodiment of the present invention includes a touch screen panel 150, a fingerprint recognition optical module 230, which is a structure in which a display panel 110 and a touch panel 120 are combined. ), and an XY guide 240 for guiding one-dimensional or two-dimensional movement of the fingerprint recognition optical module 230. The fingerprint recognition optical module 230 and the XY guide 240 may be provided in the driving unit 130 as described later.

The fingerprint recognition system 100 may be included as some components of a display device including the touch screen panel 150. Here, the display device is a display device having a touch screen function in a smartphone, a tablet PC, a notebook PC, etc., and the screens of various electronic devices such as a desktop PC and a wearable device may include all display devices having a touch screen function.

The driving unit 130 may be implemented on a printed circuit board (PCB) board, and the like, and the fingerprint recognition optical module 230 connected to the driving unit 130 is spaced apart from the touch screen panel 150 by a predetermined distance and fixed to the XY guide. It is disposed so as to be movable on the touch screen 240 and operates to enable fingerprint recognition in an extended area so as to generate a sensing signal for a finger touch at any position on the touch screen panel 150.

The display panel 110 is preferably a display panel without a backlight, for example, a display panel driven in an OLED (Organic Light Emitting Diode) structure, and the touch panel 120 is on the display panel 110 (finger, etc.). ) Combined to detect the touch position.

The control unit (210 of FIG. 4) in charge of controlling the overall circuits including the fingerprint recognition optical module 230 of the driving unit 130, when fingerprint recognition starts, the touch on the touch screen panel 150, corresponding to Recognizes the location coordinates for the touched location, and in response to the location coordinates, the fingerprint recognition optical module 230 is moved to the corresponding location on the XY guide 240, and fingerprint recognition to output a fingerprint signal for the touched finger The optical module 230 controls to generate an image detection signal.

2 is a schematic perspective view of the XY guide 240 of the present invention.

Referring to FIG. 2, the XY guide 240 may be provided between the driving unit 130 in the form of a PCB installed on the bottom of the housing or cover 500 of the display device and the touch screen panel 150 on the upper layer. As will be described later, in the extended mode, such an XY guide 240 is used, and in the normal mode, it can be operated without such an XY guide 240.

The XY guide 240 includes a first guide unit 241 for guiding the movement of the fingerprint recognition optical module 230 in the short axis direction of the touch screen panel 150 and the fingerprint recognition optical module 230 with a touch screen panel ( It may include a second guide portion 242 for guiding the movement in the direction of the major axis 150). The first guide unit 241 and the second guide unit 242 may have a rail shape, and the fingerprint recognition optical module 230 may be implemented to move along the rail.

In addition, the second guide part 242 may be designed to be movable along the first guide part 241. That is, the control unit 210 may control the second guide unit 242 to move to a required position along a guide groove of the first guide unit 241 by driving a predetermined motor. To this end, a wheel may be provided at the end of the second guide part 242, and even if there is no wheel, the end of the second guide part 242 slides or pulls in the guide groove of the first guide part 241. You can also make it lose.

For example, the fingerprint recognition optical module 230 may be equipped with a motor for movement. By driving such a motor, the control unit 210 controls the wheel provided in the fingerprint recognition optical module 230 to move on the rails of the first guide unit 241 and the second guide unit 242 as described above. The fingerprint recognition optical module 230 may be moved to any position on the screen panel 150.

3 is a diagram for explaining a normal mode and an expansion mode of the present invention.

The normal mode and the extended mode can be selected through various interfaces, such as a predetermined button of the display device including the touch screen panel 150 or a tap created on the screen, and the selected mode is recognized by the controller (210 of FIG. 4). . In addition, FIG. 3A illustrates a normal mode region 600 that is a fixed finger touch position in the normal mode. In addition, FIG. 3B shows that in the extended mode, the finger touch position is from a predetermined long axis (Y axis) position of the touch screen panel 150 to a short axis (X axis) (or vice versa, that is, a predetermined short axis ( The extended area 610 is illustrated to be an arbitrary position from the X-axis) position to the long-axis (Y-axis). 3(c) shows an area that is extended to an arbitrary long axis (Y-axis) in addition to the extended area 610 so that the finger touch position becomes an arbitrary (X,Y) position on the touch screen panel 150 in the extended mode. 620 is further illustrated.

First, in the normal mode, an effective finger touch position capable of fingerprint recognition as shown in the drawing 600 is fixed to the normal mode area 600, and a user can perform fingerprint recognition by touching a finger at the corresponding position.

In the extended mode, an effective finger touch position capable of fingerprint recognition is extended to the extended areas 610 and 620, and for this purpose, the control unit 210 includes a wheel provided in the fingerprint recognition optical module 230 as the first guide unit 241 as above. ) And the second guide unit 242 to move on the rail, so that the touch position coordinates of the touch screen panel 150 are on the extended area 610 of the short axis (X-axis) or the extended area 620 of the long axis (Y-axis). The fingerprint recognition optical module 230 can be moved to any location. In addition, if necessary, after controlling to move the second guide part 242 to a required position along a guide groove of the first guide part 241 by driving a predetermined motor, the fingerprint recognition optical module 230 By controlling the wheels provided in the first guide unit 241 and the second guide unit 242 to move on the rails as above, the fingerprint recognition optical module 230 at any position of the touch screen panel 150 ) Can be moved.

At this time, the controller (210 of FIG. 4) displays a predetermined touch area 600 on the touch screen panel 150 to guide the touch position to the user in the normal mode, so that the user touches a finger on the area. You can make it convenient to do. In addition, the control unit (210 of FIG. 4), when the extended area in any one direction of the extended area 610 of the short axis (X axis) or the extended area 620 of the long axis (Y axis) is set, the corresponding extended area 610 , Or 620 may be displayed to make it convenient for the user to touch a finger on the corresponding area. In this case, as described later, when there is recognition of a touch on the touch screen panel 150 when fingerprint recognition starts, a corresponding touch area 600/610/620 may be displayed. Further, when the extended area is set to have both the extended area 610 of the short axis (X axis) and the extended area 620 of the long axis (Y axis) (Fig. 3(c)), an arbitrary position on the touch screen panel 150 As is the fingerprint recognition area, a separate display is unnecessary.

The control unit 210 of FIG. 4 may display the above touch area 600/610/620 on the screen on the touch screen panel 150 in a predetermined color. For example, the edge of the touch area 600/610/620 that is effective for fingerprint recognition can be displayed in green or orange, and various additional information such as fingerprint shape, guide text, and picture can be displayed therein. .

As described above, in the present invention, the fingerprint recognition optical module 230 can move in the long axis direction, the short axis direction, or a combination thereof in the extended mode using the XY guide 240, so that the user can freely touch in a wide touch area. By moving the fingerprint recognition optical module 230 to an arbitrary location corresponding to the user's finger touch location coordinates, the fingerprint recognition is performed, so that the recognition success is possible with one operation of the fingerprint recognition function. User convenience can be increased.

4 is a view for explaining a detailed block diagram of the driving unit 130 of the fingerprint recognition system 100 according to an embodiment of the present invention.

Referring to FIG. 4, the driving unit 130 according to an embodiment of the present invention includes a control unit 210, a memory 211, a touch screen module 220, a fingerprint recognition optical module 230, and an XY guide 240. ) Can be included.

The control unit 210 may be implemented by hardware such as a semiconductor processor, software such as an application program, or a combination thereof. In addition, the controller 210 in charge of overall control may be implemented to include one or more functions among other constituent elements, and some functions of the controller 210 may be implemented in the form of separate constituent elements as other units. The memory 211 stores data or setting information necessary for the operation of the fingerprint recognition system 100 or a display device including the fingerprint recognition system 100.

The touch screen module 220 includes a display module 221 driving the display panel 110 under control of the controller 210, and a touch panel module 221 driving the touch panel 110. The display panel 110 is preferably a display panel without a backlight, for example, a display panel driven in an OLED (Organic Light Emitting Diode) structure, and the touch panel 120 is on the display panel 110 (finger, etc.). ) Combined to detect the touch position. The display module 221 processes an image signal to drive the display panel 110 to display a screen, and the touch panel module 221 is to recognize a touch position touched on the touch panel 110. ), and receiving a received signal from the touch panel 110, a signal for a touch position touched on the touch panel 110 may be generated. The touch panel 110 may have a structure driven by a capacitive method. Since the display panel 110 and the touch panel 120 are well known, detailed descriptions thereof will be omitted.

5 is a view for explaining the configuration of the fingerprint recognition optical module 230 of the present invention.

As shown in FIG. 5, the fingerprint recognition optical module 230 receives light from the display panel 110 from a finger touched on the touch screen panel 150, receives the reflected light, and converts it into an electrical signal. ), and a signal processing unit 30 that processes the electrical signal and converts it into a digital signal to generate a detection signal for a corresponding fingerprint. The light-receiving unit 20 is for photoelectric conversion using a photodiode, and a charge coupled device (CCD) image sensor, a Complementary Metal Oxide Semiconductor (CMOS) image sensor, or the like may be used. The signal processing unit 30 may correspond to a predetermined semiconductor processor and may be designed to be included in the control unit 210.

Hereinafter, the operation of the fingerprint recognition system 100 according to an embodiment of the present invention will be described in more detail with reference to FIG. 6.

6 is a flowchart for explaining the operation of the fingerprint recognition system 100 according to an embodiment of the present invention.

Referring to FIG. 6, first, fingerprint recognition is received on a display device such as a smartphone, tablet PC, or notebook PC serving the fingerprint recognition system 100 by receiving a request on an OS (Operating System) or through an application program such as an Internet browser. This can be started (S110). For example, a fingerprint may be requested for user authentication in the OS during operation of the system, or a fingerprint may be requested for authentication from a server on the Internet in an application program such as an Internet browser.

When fingerprint recognition starts with such a request, in order to guide the user to a touch area for fingerprint recognition, the control unit 210 may, as shown in FIG. 3, at a location corresponding to the mode on the touch screen panel 150. (600/610/620) (omitted when the extended area is the entire area of the touch screen panel 150 as shown in FIG. 3(c)) may be displayed (S120). In addition, in the method of displaying the touch area 500, when fingerprint recognition starts, when the controller 210 recognizes a touch at an arbitrary location on the touch screen panel 150, the touch area 600/610 /620). Whether or not the touch screen panel 150 is touched may be determined through a touch position detection signal from the touch panel module 222, for example, when a user touches an area other than the touch area 600/610/620 In this case, the controller 210 may display the touch area 600/610/620 of the corresponding mode on the touch screen panel 150 as shown in FIG. 3, and the user can display the touch area 600/610/620 on the touch screen panel 150. Even when a touch is made, the controller 210 may display the touch area of the corresponding mode on the touch screen panel 150 as shown in FIG. 3.

For example, the controller 210 may control the display module 221 to display a predetermined touch area 600/610/620 of each mode on the screen on the touch screen panel 150 in a predetermined color. . For example, the edge of the effective touch area (600/610/620) for fingerprint recognition can be marked in green, orange, etc., and a fingerprint shape, a checkerboard shape, and a guide letter (eg, “fingerprint in this area Is recognized”, etc.), and various additional information such as pictures can also be displayed.

Next, when a (finger) touch is made on the touch screen panel 150, the control unit 210 coordinates the position of the touched portion based on a detection signal for the touch position from the touch panel module 222 Recognize (S130). For example, when the user touches a finger on the touch screen panel 150, the location coordinates for the touched area (eg, coordinates indicating the center or a plurality of coordinates indicating the edge of the touched area, etc.) are recognized. .

When the pre-selected mode is the extended mode, the effective finger touch position capable of fingerprint recognition is extended to the extended areas 610 and 620, and for this purpose, the control unit 210 includes a wheel provided in the fingerprint recognition optical module 230 as described above. By controlling to move on the rails of the first guide unit 241 and the second guide unit 242, the coordinates of the touch position of the touch screen panel 150 are reduced to the extended area 610 of the short axis (X axis) or the long axis (Y axis). The fingerprint recognition optical module 230 may be moved to any position on the extended area 620 of (S140). In addition, if necessary, after controlling to move the second guide part 242 to a required position along a guide groove of the first guide part 241 by driving a predetermined motor, the fingerprint recognition optical module 230 By controlling the wheels provided in the first guide unit 241 and the second guide unit 242 to move on the rails as above, the fingerprint recognition optical module 230 at any position of the touch screen panel 150 ) Can be moved. After moving the fingerprint recognition optical module 230 to the corresponding position, the controller 210 controls the fingerprint recognition optical module 230 to emit light and capture an image from the light reflected from the touched finger. (S150) In response to a detection signal (eg, raw data) generated by the fingerprint recognition optical module 230, a corresponding fingerprint signal (eg, data capable of outputting a fingerprint image by adjusting raw data) Can be output (S160).

When the preselected mode is the normal mode, as shown in FIG. 3, since an effective finger touch position capable of fingerprint recognition is fixed to the normal mode area 600, the movement of the fingerprint recognition optical module 230 as shown in S140 is omitted. At this time, the controller 210 controls the fingerprint recognition optical module 230 to emit light and capture an image from the light reflected from the touched finger (S150). In response to a signal (eg, raw data), a corresponding fingerprint signal (eg, data capable of outputting a fingerprint image by adjusting raw data) may be output (S160).

On the other hand, when the fingerprint recognition system 100 of the present invention is provided in a display device such as a smartphone, tablet PC, or notebook PC, a fingerprint is requested for user authentication in the OS or an application such as an Internet browser in the operation of the system. When a fingerprint is requested for authentication from a server on the Internet in the program and fingerprint recognition starts (S110), the control unit 210 may generate a fingerprint signal for a corresponding fingerprint image corresponding to the user's touch through the above process. .

At this time, for example, when fingerprint recognition is started by receiving a fingerprint for user authentication in the OS during operation of the corresponding system (S110), the controller 210 responds to the fingerprint request, Authentication can be performed by comparing the fingerprint signal with information stored in the memory 211 to determine whether to match. In the memory 211, information on one or more fingerprint images may be stored and managed in advance.

In addition, for example, when fingerprint recognition is started by receiving a fingerprint for authentication from a server on the Internet in an application program such as an Internet browser of the corresponding system (S110), the controller 210 responds to the fingerprint request, By transmitting the corresponding fingerprint signal generated in the same process to the server, it is possible to assist the server to use it for authentication and the like.

As described above, since the fingerprint recognition system 100 according to the present invention recognizes the movement of the optical module through the rail-type guide, the user can freely touch the wide touch area 500 to perform fingerprint recognition, It operates so that recognition success is possible with one operation of the fingerprint recognition function, and user convenience can be increased.

As described above, in the present invention, specific matters such as specific components, etc., and limited embodiments and drawings have been described, but this is provided only to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , Anyone with ordinary knowledge in the field to which the present invention pertains will be able to make various modifications and variations without departing from the essential characteristics of the present invention. Therefore, the spirit of the present invention is limited to the described embodiments and should not be determined, and not only the claims to be described later, but also all technical ideas that are equivalent or equivalent to the claims are included in the scope of the present invention. Should be interpreted as.

Display panel 110
Touch panel(120)
Touch Screen Panel(150)
Driving unit 130
Control unit 210
Memory(211)
Touch screen module (220)
Fingerprint Recognition Optical Module (230)

Claims (13)

A fingerprint recognition optical module spaced apart from the touch screen panel and movably disposed to generate a detection signal for a touch on the touch screen panel;
A guide for guiding the movement of the fingerprint recognition optical module; And
For a touch on the touch screen panel, by moving the fingerprint recognition optical module to a corresponding position on the guide in response to a position coordinate recognized for a corresponding touch position, and controlling the generation of the detection signal corresponding to the fingerprint signal Including a control unit,
When a touch is recognized on the touch screen panel when fingerprint recognition starts, the control unit is a preset touch area to guide a touch position to a user, and includes a fixed area in a normal mode and a shortening in an extended mode. Display on the touch screen panel an area in which the fingerprint recognition optical module is movable along a long axis,
The controller controls the generation of the detection signal without moving the fingerprint recognition optical module in the normal mode, and guides the fingerprint recognition optical module in a long axis direction, a short axis direction, or a combination thereof in the extended mode. Controls the generation of the detection signal by moving it to a location corresponding to the location coordinate on the top,
A fingerprint recognition system applied to the touch screen panel including a display panel and a touch panel. delete delete delete delete The method of claim 1,
The touch screen panel is a fingerprint recognition system having a structure in which a touch panel for sensing a touch position is combined with an OLED display panel. The method of claim 1,
The fingerprint recognition optical module,
A light receiving unit configured to receive light reflected from a finger touched at the touch position and convert it into an electrical signal; And
A signal processing unit that processes the electrical signal and converts it into a digital signal to generate the detection signal.
Fingerprint recognition system comprising a. The method of claim 1,
The guide,
A first guide part for guiding the movement of the fingerprint recognition optical module in a short axis direction; And
A second guide part guiding the movement of the fingerprint recognition optical module in the long axis direction
Fingerprint recognition system comprising a. The method of claim 8,
And a motor for moving the second guide part along the first guide part, and the controller drives the motor to control the second guide part to move along the guide groove of the first guide part. The method of claim 1,
The guide is in the form of a rail,
The fingerprint recognition optical module has a motor,
In order to move the fingerprint recognition optical module, the controller drives the motor to control a wheel provided in the fingerprint recognition optical module to move on the rail. The method of claim 1,
Further comprising a memory for storing information on one or more fingerprint images,
The control unit compares the fingerprint signal with information stored in the memory according to a fingerprint request to determine whether to match. The method of claim 1,
According to the fingerprint request from the server on the Internet in the Internet browser
The control unit, a fingerprint recognition system for transmitting the fingerprint signal to the server. For a touch on the touch screen panel, recognizing position coordinates for a corresponding touch position; And
In response to the location coordinates, moving the fingerprint recognition optical module to a corresponding location on the guide, and generating an image detection signal in the fingerprint recognition optical module to output a fingerprint signal to the touch,
Generating the image detection signal,
At the start of fingerprint recognition, when there is recognition of a touch on the touch screen panel, it is a preset touch area to guide the touch position to the user. Displaying an area in which the fingerprint recognition optical module is movable on the touch screen panel;
Generating the detection signal without moving the fingerprint recognition optical module in the normal mode; And
In the extended mode, generating the detection signal by moving the fingerprint recognition optical module to a position corresponding to the position coordinate on the guide in a direction of a major axis, a direction of a minor axis, or a combination thereof,
Fingerprint recognition method applied to the touch screen panel including a display panel and a touch panel.

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