JP2002298129A - Fingerprint collating device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To practically perform the fingerprint authentication by suppressing dielectric breakdown even when a fingerprint collator is miniaturized. SOLUTION: A contact detection unit 116 and a collation control unit 117 for controlling the operation of a fingerprint collation circuit 113 by the detection state of the contact detection unit 116 are provided on a back lid 202a of a case 202 of a wrist watch 200.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to a fingerprint collating apparatus used by being attached to a body.

[0002]

2. Description of the Related Art In the progress of the information-oriented society and the environment of the modern society, interest in security technology has been increasing, and many technologies relating to an authentication system for preventing unauthorized use have been reported. Among authentication methods for preventing unauthorized use, there are methods using fingerprints, voice prints, and the like. Among them, many techniques have been developed for fingerprint authentication techniques.

In fingerprint authentication, a fingerprint collation device for reading and collating a fingerprint is used. Fingerprint matching devices use a fingerprint sensor that optically reads the unevenness of a fingerprint, a fingerprint sensor that detects the unevenness of a fingerprint using human electrical characteristics, Some use a pressure-type fingerprint sensor that detects the pressure as a pressure.

A fingerprint collation device using these fingerprint sensors is designed to be miniaturized by simultaneously mounting the fingerprint sensors on the following integrated circuit (LSI) chip. For example, the above-described LSI chip in which a storage unit in which fingerprint data for comparison is stored, a recognition processing unit that compares and compares the fingerprint data prepared in the storage unit with the read fingerprint, and The fingerprint sensor is simultaneously mounted to reduce the size. By configuring the fingerprint matching device on one integrated circuit chip in this manner, it becomes difficult to falsify information in data transfer between the units, and the security maintaining performance can be improved.

[0005]

However, as described above, in a fingerprint collation device designed to be downsized,
There has been a problem that the LSI mounted at the same time is easily damaged by static electricity generated at the time of contact or static electricity charged on the human body. In addition, if it is attempted to further reduce the size, the processing capacity of the popular processing unit installed at the same time cannot be made very high. In general, if the authentication operation is not performed within a few seconds, it will not be practical as a fingerprint collation device.However, as the size is reduced, the fingerprint collation takes a long time due to the above, and it is practical. May disappear.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and it is possible to suppress the electrostatic damage and perform the fingerprint authentication practically even if the fingerprint collation device is downsized. The purpose is to do.

[0007]

According to the present invention, there is provided a fingerprint collating apparatus comprising: a container which can be attached to a body; a fingerprint sensor which is fixed to the container and reads a fingerprint pattern as image data; A storage unit in which the pattern data is stored, and a comparison / matching unit that compares the pattern data of the fingerprint stored in the storage unit with the image data read by the fingerprint sensor and outputs a matching result. , A transmitting unit that is housed in a container and transmits a comparison result output by the comparison and matching unit, a contact detecting unit that is attached to the container and detects a state of contact with human skin, and a contact detection that is housed in the container And a collation operation control unit that controls the operation of the comparison / collation unit according to the detection state of the unit. According to the present invention, fingerprint collation is performed while the fingerprint is attached to the human body.

The fingerprint matching device of the present invention includes a time display unit for displaying time, a fingerprint sensor for reading a fingerprint pattern as image data, a storage unit for storing fingerprint pattern data, and a storage unit for storing the fingerprint pattern data. A sensor chip consisting of a comparison and collation unit that compares and compares the pattern data of a fingerprint with image data read by the fingerprint sensor and outputs a comparison result, a transmission unit that transmits the comparison result, a time display unit, and a transmission unit A watch case made of a conductive member in which the sensor chip is accommodated in a state where the fingerprint sensor is exposed and a contact detection unit attached to the back cover surface of the watch case and detecting a state of contact with human skin. And a collation operation control unit that is housed in a wristwatch case and controls the operation of the comparison and collation unit according to the detection state of the contact detection unit. According to the present invention, fingerprint collation is performed in a state where the fingerprint is attached to the arm of the human body. In the above invention, a cover glass is provided to cover the time display unit and cover the watch case,
The sensor chip is disposed on a cover glass.

In the invention described above, the collation operation control unit stops the operation of the comparison and collation unit when the contact detection unit does not detect the state of contact with the skin. Further, the matching operation control unit causes the comparison and matching unit to output the matching result only when the contact detecting unit detects the state of contact with the skin.

In the invention described above, the fingerprint sensor comprises a plurality of sensor electrodes disposed on an interlayer insulating film on a substrate and each of which is insulated and separated, and the upper surface of each sensor electrode on the interlayer insulating film and Detects the capacitance formed between the sensor electrode and the opposing recognition target surface when a part of the recognition target comes in contact with the passivation film surface and a passivation film composed of a dielectric, which is disposed covering each side surface. Capacitance detecting means comprising an integrated circuit formed under an interlayer insulating film on a substrate to be recognized, and having a capacitance corresponding to each sensor electrode detected by the capacitance detecting means when the recognition target contacts the passivation film surface. The change recognizes the surface shape of the recognition target.

[0011]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a configuration diagram illustrating a configuration of a fingerprint authentication device according to an embodiment of the present invention. The sensor chip 100 includes a substrate 101 having an SOI (Silicon On Insulator) structure, and includes a plurality of sensor cells 111 on the substrate 101. On the substrate 101, a lower insulating film 102 and an interlayer insulating film 104 are formed. On the interlayer insulating film 104, a plurality of 80 μm square sensor electrodes 105 are arranged in a matrix (FIG. 1 (b)). )). The sensor cells 111 are formed in a size such that the plurality of sensor electrodes 105 are covered by the recognition target, and a fingerprint sensor is configured by the plurality of sensor cells 111 arranged in a matrix.

A wiring 103 is formed on the lower insulating film 102 and connected to the sensor electrode 105 via a through hole. On the substrate 101, a capacitance detecting circuit for detecting a capacitance formed on the sensor electrode 105 is provided. 107 is provided. The sensor electrode 105 and the capacitance detection circuit 107 constitute one sensor cell 111. The capacitance detection circuit 107 is connected to the sensor electrode 105 via the wiring 103 described above, is prepared for each sensor electrode 105, and detects a capacitance formed between the sensor electrode 105 and a part of the recognition target.

The sensor electrode 1 constituting the sensor cell 111
Numerals 05 are covered with a passivation film 106 formed on the interlayer insulating film 104 and are arranged at intervals of 150 μm. The sensor electrode 105 is made of, for example, Au and has a thickness of about 1 μm. Since the thickness of the passivation film 106 is about 3 μm, the passivation film 106 exists on the sensor electrode 105 at about 2 (= 3-1) μm. The passivation film 106 is made of an insulator such as polyimide having a relative dielectric constant of about 4.0.

The output of each capacitance detection circuit 107 is processed by the fingerprint image processing circuit 112 and becomes image data obtained by converting the capacitance formed on each sensor electrode 105 into light and shade.
This image data is stored in the storage unit 1 by the fingerprint matching circuit 113.
14 is compared with registered image data. The image data is collated by the fingerprint collation circuit 113, and when the image data is authenticated by matching with the registered image data within a predetermined allowable range, the authentication signal transmitting unit 115 outputs an authentication signal. The capacitance detection circuit 107, the fingerprint image processing circuit 112, the fingerprint collation circuit 113, and the storage unit 114 are arranged on the substrate 101 below the sensor electrode 105, for example. Note that these circuits need not necessarily be monolithically integrated on the substrate 101.

In addition, in the present embodiment, as shown in FIG. 1C, the sensor chip 100 is disposed on the cover glass 201 of the wristwatch 200, and the wristwatch 200 is provided with a fingerprint authentication device. The wristwatch 200 accommodates a movement (not shown) in a case 202 made of a conductive material such as a metal member, and has an hour hand 204, a minute hand 205, and a second hand 206 on a dial 203. The hour hand 204 and the minute hand 205 can change the designated time position by operating the crown 207. The cover glass 201 is fixed to the case 202 by a cover edge 208. The sensor chip 100 is a wiring made of a transparent electrode or the like (not shown), and the authentication signal transmitting unit 1 disposed in the case 202 from the edge of the cover glass 201.
15.

Further, in the present embodiment, the contact detecting section 116 (FIG. 1) is attached to the back cover 202a of the case 202 of the wristwatch 200.
(D)) and a collation operation control unit 117 that controls the operation of the fingerprint collation circuit 113 based on the detection state of the contact detection unit 116, and detects that the wristwatch 200 is attached to the wrist. The contact detecting section 116
If 0 is attached to the arm, the state of contact with the skin that is in contact with the back cover 202a is detected.

The collation operation control unit 117 includes the contact detection unit 11
The detection state of No. 6 is monitored, and when the contact detection unit 116 no longer detects the state of contact with the skin, the fingerprint matching circuit 113 is controlled to stop outputting the matching result. Therefore, the fingerprint matching device of the present embodiment has
If the user does not detect the contact state of the skin, the collation cannot be performed. The contact detection unit 116 may use, for example, a mechanical switch or a sensor that detects conductivity, capacitance, and the like.
When the contact detection unit 116 does not detect a contact state, the collation operation control unit 117 may stop all operations of the fingerprint collation circuit 113.

The user attaches the wristwatch 200 to his / her wrist,
The above-described authentication operation is performed by placing the fingertip of the hand without the wristwatch 200 on the sensor chip 100. When the user is authenticated by the authentication operation,
An authentication signal is wirelessly transmitted from authentication signal transmitting section 115 arranged in case 202 of wristwatch 200. On the other hand, in a place where authentication is necessary, if the authentication signal is received, the person wearing the wristwatch 200 can be authenticated.

Therefore, it is not necessary to perform a new collation at a place where the authentication is required, and the collation can be performed in advance, so that the collation does not need to be completed in a short time. In other words, for example, the fingerprint image processing circuit 112 does not need to be an integrated circuit having many elements that can perform high-speed matching processing, and the size of the sensor chip 100 can be easily reduced. Also,
Since the case 202 is made of a conductive member, static electricity generated at the time of contact flows from the case 202 to the arm,
Other integrated circuits constituting the sensor chip 100 are protected from electrostatic breakdown.

When the wristwatch 200 is removed from the arm, the contact detection unit 116 cannot detect the contact state of the skin, and the collation result in the fingerprint collation circuit 113 is erased under the control of the collation operation control unit 117. Even if another person replaces the wristwatch 200, it cannot be spoofed. In addition, the fingerprint matching circuit 113 cannot perform matching unless the contact detection unit 116 detects the contact state of the skin, so that the reliability of authentication can be further improved.

In the above description, the wristwatch incorporates a sensor chip for fingerprint collation, but the present invention is not limited to this. The same effect can be obtained if the sensor chip, the authentication signal transmitting unit, and the contact detecting unit are provided in a device attached to an arm or the like. For example, a sensor chip and an authentication signal transmitting unit on decorations such as bracelets,
A contact detection unit may be provided.

[0022]

As described above, according to the present invention,
Since the fingerprint collation device is incorporated into a wristwatch or other device that is attached to the body and the state of contact with the body (skin) is detected, even if the fingerprint collation device is downsized, electrostatic breakdown is suppressed and spoofing is performed. It is possible to obtain an excellent effect that fingerprint authentication can be practically performed, for example, it is difficult.

[Brief description of the drawings]

FIG. 1 is a configuration diagram, a plan view, and a side view showing a configuration of a fingerprint matching device according to an embodiment of the present invention.

[Explanation of symbols]

REFERENCE SIGNS LIST 100 sensor chip, 101 substrate, 102 lower insulating film, 103 wiring, 104 interlayer insulating film, 105 sensor electrode, 106 passivation film, 107 capacitance detection circuit, 111 sensor cell, 112 fingerprint image processing Circuit, 113: Fingerprint matching circuit, 114: Storage unit, 115:
Authentication signal transmission unit, 116: contact detection unit, 117: collation operation control unit, 200: wristwatch, 201: cover glass, 2
02: case, 202a: back cover, 203: dial, 20
4: hour hand, 205: minute hand, 206: second hand, 207: crown, 208: cover edge.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hiroki Shuto 2-3-1 Otemachi, Chiyoda-ku, Tokyo Nippon Telegraph and Telephone Corporation (72) Inventor Shinnori Konaka 2-chome, Otemachi, Chiyoda-ku, Tokyo No.3-1 Nippon Telegraph and Telephone Corporation F term (reference) 4C038 FF01 FF05 FG00 5B047 AA25

Claims (6)

[Claims] 1. A container that can be attached to a body, a fingerprint sensor fixed to the container and reads a fingerprint pattern as image data, a storage unit that is stored in the container and stores fingerprint pattern data, A comparison matching unit that compares the pattern data of the fingerprint stored in the storage unit and the image data read by the fingerprint sensor and outputs a comparison result, and the comparison unit that is stored in the container and A transmitting unit that transmits a verification result output by the comparison / verification unit; a contact detection unit that is attached to the container and detects a state of contact with human skin; and a detection of the contact detection unit that is housed in the container. A fingerprint matching device comprising: a matching operation control unit that controls an operation of the comparison matching unit according to a state. 2. A time display unit for displaying time, a fingerprint sensor for reading a fingerprint pattern as image data, a storage unit for storing fingerprint pattern data, and a fingerprint pattern data stored in the storage unit. A sensor chip comprising a comparison and collation unit for comparing and collating the image data read by the fingerprint sensor and outputting a collation result, a transmission unit for transmitting the collation result, the time display unit and the transmission unit are accommodated; A watch case made of a conductive member in which the sensor chip is accommodated in a state where the fingerprint sensor is exposed; and a contact detection unit attached to a back cover surface of the watch case and detecting a state of contact with human skin. And a collation operation control unit that is housed in the wristwatch case and controls the operation of the comparison / collation unit based on the detection state of the contact detection unit. That fingerprint verification device. 3. The fingerprint matching device according to claim 2, further comprising a cover glass that covers the time display unit and covers the wristwatch case, wherein the sensor chip is arranged on the cover glass. Characteristic fingerprint matching device. 4. The fingerprint collation device according to claim 1, wherein the collation operation control unit is configured to control the comparison / collation unit when the contact detection unit does not detect a contact state with the skin. A fingerprint collation device that stops operation. 5. The fingerprint matching device according to claim 1, wherein the matching operation control unit performs the comparison and matching only when the contact detection unit detects a state of contact with the skin. A fingerprint collation device for outputting a collation result of a part. 6. The fingerprint matching device according to claim 1, wherein the fingerprint sensor comprises a plurality of sensor electrodes disposed on an interlayer insulating film on a substrate and each of which is insulated and separated. A passivation film which is disposed on the interlayer insulating film and covers the upper surface and side surfaces of each of the sensor electrodes, respectively, and is made of a dielectric; and the sensor electrode is contacted when a part of a recognition target comes into contact with the surface of the passivation film. A capacitance detecting means comprising an integrated circuit formed under the interlayer insulating film on the substrate for detecting a capacitance formed between the recognition target surface and the recognition target surface, wherein the recognition target is the passivation. It is characterized in that the surface shape of the recognition target is recognized by a change in capacitance corresponding to each of the sensor electrodes detected by the capacitance detecting means when the surface of the film is in contact with the film surface. Fingerprint matching device to.