JP2001351099A - Optical fingerprint read sensor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an optical fingerprint read sensor which is thin. SOLUTION: The optical fingerprint sensor provided on the display surface of a plane type display device has on the display surface a trapezoidal prism provided with a surface parallel to the display surface of the plane type display device, a 1st oblique flank, and a 2nd flank perpendicular to the display surface on the opposite side from the 1st flank and is provided with a mount part for a finger whose fingerprint is to be read on the surface of the trapezoidal prism parallel to the display surface of the plane display device; and a reflecting film is provided on the 1st flank and an optical system which guides to a fingerprint detecting means a fingerprint image irradiated with the light made incident from the plane display device and reflected by the 1st flank is provided on the 2nd frank.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical fingerprint reading sensor, and more particularly, to an optical fingerprint reading sensor which operates using a liquid crystal display element module as a light source without using a separate light source. It is about.

[0002]

2. Description of the Related Art Generally, fingerprint reading sensors are classified into a semiconductor type and an optical type. Among them, a semiconductor type fingerprint reading sensor is designed so that the surface of a semiconductor element sensitive to voltage and current is brought into direct contact with the human body. Therefore, there is a drawback that it is easily damaged by static electricity of the human body, and the service life is short because the mechanical strength of the internal structure is small. On the other hand, the optical fingerprint reading sensor has an advantage that the strength of the constituent members is larger than that of the semiconductor type fingerprint reading sensor.
In order to explain an example of an optical fingerprint reading sensor,
Since the light source 910, the prism 920, the lens 930, and the optical sensor 940 are arranged at a certain distance and angle, the thickness is larger than that of the semiconductor fingerprint recognition sensor, and the thickness can be reduced technically. However, there is a disadvantage that it is difficult.

On the other hand, recently, a lot of research has been conducted on a technique of attaching a fingerprint reading sensor to a portable information terminal such as a mobile phone or a notebook personal computer so that the information can be used only by registered users. However, portable information terminals, such as mobile phones and laptop computers,
Since it is necessary to make accessories small to enhance the convenience of carrying and make the appearance beautiful, a semiconductor fingerprint reading sensor with a thinner thickness is adopted than a relatively thick optical fingerprint reading sensor. That is the fact. However, as described above, the semiconductor fingerprint reading sensor is
The internal structure is durable and has a short service life, making it unsuitable for use in portable devices such as mobile phones and laptops.However, the optical fingerprint sensor has a large thickness. However, this also has a problem that it is difficult to adopt the above-mentioned portable device.

An optical fingerprint reading sensor using a part of a liquid crystal display device as a planar light source with a shutter is proposed in Japanese Patent Publication No. 7-62865. However, there is a problem that special optical parts are required as optical means. Also, since optical elements such as optical fibers provided for irradiating fingerprints from a planar light source and image sensors such as CCDs are alternately provided in a plane, the distance between the CCDs becomes large and there is a problem in improving the resolution of images. there were.

[0005]

An object of the present invention is to reduce the thickness of an optical fingerprint reading sensor so that the optical fingerprint reading sensor can be easily installed and used in portable electronic devices such as portable telephone terminals and notebook computers. It is an object of the present invention to provide a type fingerprint reading sensor, and in particular, to provide a thin optical fingerprint reading sensor arranged on a display surface of a flat display device. It is an object of the present invention to provide a thin optical fingerprint reading sensor without using it.

[0006]

SUMMARY OF THE INVENTION It is an object of the present invention to provide an optical fingerprint reading sensor provided on a display surface of a flat display device, wherein a surface parallel to the display surface of the flat display device has a first inclined surface. A trapezoidal prism having a side surface and a second side surface opposite to the first side surface and perpendicular to the display surface is mounted on the display surface of the flat display device, and the trapezoidal prism flat display device is provided. Provided on a surface parallel to the display surface of the finger is a finger mounting portion on which a fingerprint is read, a first side surface is provided with a reflective film, and a second side surface is irradiated with light incident from a flat display device. ,
An optical fingerprint reading sensor in which an optical system for guiding a fingerprint image reflected on a first side surface to an optical sensor is arranged. The flat display device is a liquid crystal display device, and the above-mentioned optical fingerprint reading sensor using a backlight provided in the liquid crystal display device as a light source. The flat panel display is the above-mentioned optical fingerprint reading sensor provided with two kinds of light sources, a display light source and a fingerprint reading light source. The optical system is the above-mentioned optical fingerprint reading sensor having a lens and a reflecting mirror. The flat-panel display device is the above-mentioned optical fingerprint reading sensor having a means for displaying a placement position of a fingerprint reading finger. The optical fingerprint reading sensor is mounted on a display surface of a portable device.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An optical fingerprint reading sensor according to the present invention is provided with a trapezoidal prism on the display surface of a flat display device such as a liquid crystal display device, and a fingerprint image from the end face of the trapezoidal prism. To realize an optical fingerprint reading sensor that is small in size and small in thickness. That is, the optical fingerprint reading sensor of the present invention uses the light emission of the self-luminous type flat display device, or the backlight provided on the back of the flat display device as a light source, and the trapezoid type on the surface of the flat display device. A fingerprint is read by arranging a prism and guiding reflected light of the fingerprint taken out from the end face of the prism to an optical sensor using ordinary optical means such as a lens.

The present invention will be described below with reference to the drawings.
FIG. 1 is a view for explaining an embodiment of the present invention, and is a view showing a cross section of an optical fingerprint reading sensor of the present invention, and is a view for explaining an example in which it is arranged on a liquid crystal display device. In the fingerprint reading sensor 1 of the present invention, a trapezoidal prism 100 is provided on a liquid crystal display device 200. In addition, the liquid crystal display device 200 includes a control module 210, a backlight module 220, and a liquid crystal display element panel 230. In the fingerprint reading operation, when the finger 10 is placed on the prism 100, the liquid crystal shutter of a predetermined portion of the liquid crystal display panel 230 is opened, and the finger is irradiated from the light source 240 at a predetermined position in the backlight module 220.

Next, the reflected light of the finger 10 is reflected by the reflecting surface 120 which is the first side surface of the prism, and the focus adjusting member 300 provided on the end surface 130 of the prism which is the second side surface.
The light enters the optical sensor 700 through the optical filter 400, the lens 500, and the reflecting mirror 600, and senses that a finger has been placed at a predetermined location based on a change in light intensity. When a finger is detected, a finger detection signal 710 is input to the liquid crystal control module 210, the liquid crystal shutters of the liquid crystal display panel 230 are sequentially opened, and light from the backlight module 210 scans the fingerprint surface of the finger 10. The light reflected by the fingerprint is reflected by the reflecting surface 120, which is the second side surface of the prism 100, enters the focus adjusting member and the like from the second side surface, and
0 is read as a fingerprint image.

The focus adjusting member 300 passes only a necessary portion of the image input through the prism 100, and can use a pinhole, an iris, or the like. The optical filter 400 filters an image that has passed through the focus adjustment member 300, passes only necessary light, and removes noise due to unnecessary light. In addition, the lens 500 adjusts the fingerprint image filtered through the optical filter 400 to a size that matches the image forming area of the optical sensor 700. Also, the reflecting mirror 600
Is installed to shorten the optical distance between the lens 500 and the optical sensor 700 and to shorten the length of the fingerprint reading sensor according to the present invention.
Is a device that converts an image input through the lens 500 into a digital signal and outputs the digital signal.
For example, an image sensor composed of an image sensor and the like can be used.

In the present invention, the backlight module 210 includes a light source, such as a green or white light source, which makes it easy to visually recognize the display surface of the liquid crystal as the illumination light of the liquid crystal display panel 230 and causes little eye fatigue. It is preferable to dispose two types of light sources that are relatively high-luminance red light sources suitable for reading fingerprints. By doing so, it is possible to increase the visibility of the display surface and the accuracy of fingerprint reading. When a light-emitting diode or a light-emitting diode array is used as a light source, two kinds of light-emitting diodes are arranged at substantially the same position, and a light-emitting diode or a light-emitting diode having a common electrode of one polarity. Arrays can be used.

Further, in the present invention, the trapezoidal prism disposed on the liquid crystal display device has a prism, because the bottom surface, that is, the surface mounted on the surface of the liquid crystal display device is parallel to the fingerprint mounting surface. Is present, the image on the liquid crystal display device can be viewed without distortion.

FIG. 2 is a view for explaining a trapezoidal prism used in the optical fingerprint reading sensor of the present invention. In the trapezoidal prism 100, one of two parallel flat surfaces is placed on a flat display device, and the other surface is used for placing a fingerprint. Of the side surfaces of the prism 100, the remaining side surfaces excluding the inclined surfaces a and b and c, which are the first side surfaces, that is, the d surface which is the second side surface which is the end surface on which the focus adjustment member is disposed, are light. Is formed. As the inclination of the inclined surface a becomes larger,
The image that appears through the second side where the focus adjustment member is installed is a small image that is input through a relatively narrow area of the prism upper surface, and if the inclination of the inclined surface a that is the first side of the prism becomes smaller, the prism becomes smaller. A large image is input through a relatively large area on the top surface.

FIG. 3 is a diagram illustrating an example in which the fingerprint reading sensor of the present invention is mounted on a liquid crystal display device of a mobile phone. As shown in FIG. 3A, when a function selection button 251 of the mobile phone 250 is pressed, a function selection menu 25 is pressed.
2 is displayed. Next, when the fingerprint reading menu is selected from the function selection menu, as shown in FIG. 3B, a display indicating that the fingerprint reading operation is being performed is displayed on the display screen together with a frame indicating the fingerprint reading position 253. Then, the backlight light of the liquid crystal display device changes to a color such as red suitable for fingerprint reading. When a finger is placed at the fingerprint reading position 253, the placement of the finger is detected based on a change in the amount of light reflected by the finger, and a fingerprint sensing signal is input to the liquid crystal control module.

Next, the liquid crystal shutters are sequentially opened, the fingerprint is scanned by the light for fingerprint reading, the fingerprint image is detected by the optical sensor, and the fingerprint is read. When the fingerprint is read normally, FIG.
As shown in (C), while the display of the completion of fingerprint reading is displayed, the display screen changes to a light source for normal display.

[0016]

According to the present invention, a fingerprint is read using a trapezoidal prism arranged on the display surface of the flat display device by utilizing the light emission or the backlight of the flat display device. It is possible to obtain an optical fingerprint reading sensor having a simple configuration, a small thickness, and easy to attach to various portable electronic devices.

[Brief description of the drawings]

FIG. 1 is a diagram for explaining an embodiment of the present invention.

FIG. 2 is a diagram illustrating a trapezoidal prism used in the optical fingerprint reading sensor of the present invention.

FIG. 3 is a diagram illustrating an embodiment of the present invention.

FIG. 4 is a diagram illustrating a conventional optical fingerprint reading sensor.

[Explanation of symbols]

Reference numeral 10: finger, 100: prism, 110: inclination of the inclined surface a, 120: reflection surface of the prism, 130: end surface of the prism, 200: liquid crystal display device, 210: control module,
220: backlight module, 230: liquid crystal display panel, 240: light source, 250: mobile phone, 251
… Function selection button, 252… Function selection menu, 253
... Fingerprint reading position, 300 ... Focusing member, 400 ... Optical filter, 500 ... Lens, 600 ... Reflector, 700
... optical sensor, 710 ... finger sensing signal, 910 ... light source, 9
20: prism, 930: lens, 940: optical sensor

Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat II (Reference) G09F 9/00366 G09F 9 / 00366G H04N 5/225 H04N 5/225 D

Claims (5)

[Claims] 1. An optical fingerprint reading sensor provided on a display surface of a flat display device, a surface parallel to the display surface of the flat display device, a first inclined side surface, and a side opposite to the first side surface. A trapezoidal prism provided with a second side surface perpendicular to the display surface is placed on the display surface of the flat display device,
On a surface parallel to the display surface of the trapezoidal prism flat display device, a finger mounting portion for reading a fingerprint is provided, a reflection film is provided on a first side surface, and a flat display device is provided on a second side surface. An optical fingerprint reading sensor, comprising: an optical system that guides a fingerprint image illuminated with light incident from the first side and reflected on a first side surface to an optical sensor. 2. The flat display device is a liquid crystal display device,
2. The optical fingerprint reading sensor according to claim 1, wherein a backlight provided on the liquid crystal display device is used as a light source. 3. The flat display device according to claim 1, further comprising two types of light sources: a display light source and a fingerprint reading light source.
Or the optical fingerprint reading sensor according to 2. 4. The optical fingerprint reading sensor according to claim 1, wherein the optical system has a lens and a reflecting mirror. 5. The optical fingerprint reading sensor according to claim 1, wherein the flat display device has means for displaying a placement position of a fingerprint reading finger.