JP5707959B2 - Biometric card - Google Patents

Description

  The present invention relates to a biometric authentication IC card using biometric information for personal identification.

Conventionally, as an authentication card using biometric information as an authentication unit, a biometric authentication IC card including a sensor that reads fingerprint information is known (see Patent Documents 1 and 2).
However, authentication using fingerprints has problems such as being unable to authenticate when the person injured his / her finger, etc., and lowering the accuracy of authentication. In addition, fingerprints are copied using gelatin etc. and authenticated by impersonating the person himself / herself. There was a problem such as.

  On the other hand, as a biometric authentication means that is difficult to improperly authenticate by impersonation, a device using a palm vein, retina or iris pattern is known. However, these devices require a dedicated device, and there is a problem that authentication cannot be performed by a portable device such as a card.

JP 2000-076412 JP 2004-164347 A

  In view of the above problems, an object of the present invention is to provide a biometric authentication card that can prevent spoofing authentication by illegal copying of biometric information, and is small and excellent in portability.

The present invention includes at least a long card base, an IC chip, an external communication element including an external contact terminal connected to the IC chip, a first input electrode and a second input connected to the IC chip. an electrode, the IC chip, have a electrocardiographic sensor function, when divided into the right area and the left area boundary center line in the long side direction, said the external contact terminal, the first input electrode and the The biometric authentication card is characterized in that the two input electrodes are arranged in different areas .

Furthermore, it has a memory .

Further, the display device includes a display portion .

  Furthermore, it has a reference electrode, and the reference electrode is formed on a surface opposite to the surface on which the first input electrode or the second input electrode of the card substrate is formed. To do.

  Further, the reference electrode is arranged so as to overlap at least a part of the first input electrode or the second input electrode in a plan view.

  ADVANTAGE OF THE INVENTION According to this invention, the impersonation authentication by the illegal copy of biometric information can be prevented, and it can be set as the biometrics card which is small and excellent in portability.

It is the schematic which shows an example of the biometrics card | curd of this invention. It is the schematic which shows an example of the biometrics card | curd of this invention. It is sectional explanatory drawing which shows an example of the biometrics card | curd of this invention. It is the schematic which shows an example of the biometrics card | curd of this invention. It is sectional explanatory drawing which shows an example of the biometrics card | curd of this invention.

The present invention will be described below with reference to the drawings.
1 and 2 are schematic views showing a specific example using a contact type IC using an external contact terminal as an external communication element of the present invention, and FIG. 3 is a cross-sectional explanatory view taken along AA ′.
The card substrate 1 is composed of a three-layer substrate sheet.
The base sheet 1a has the reference electrode 6 formed on the outer surface, the wiring 7 is formed on the opposite surface, and the IC chip 2 is connected and mounted on the wiring 7. The wiring 7 and the reference electrode 6 are Conduction is made by a via (through hole) filled with a conductive material. The IC chip 2 has an electrocardiographic sensor function.
In the base material sheet 1b, wirings 7 are formed, and vias (through holes) filled with a conductive material for electrical connection with the wirings formed in the base material sheet 1a are formed. Moreover, the opening for relieving the thickness of IC chip 2 mounted in the base material sheet 1a is formed.
The base sheet 1c has an external contact terminal 3, a first input electrode 4 and a second input electrode 5 formed on the front side surface, each filled with a conductive material for electrical connection with the wiring. Vias (through holes) are formed.
The first input electrode 4 and the reference electrode 6 are formed so as to overlap in a plan view.

The electrocardiogram information is obtained from a potential change accompanying the activity of the heart, and it is necessary to measure a potential difference between at least two points sandwiching the heart.
In the present invention, the potential difference between two points sandwiching the heart can be measured by bringing the fingers of the right hand and the left hand into contact with the first input electrode 4 and the second input electrode 5, respectively. By using the obtained potential difference and processing with an IC chip or an external terminal device, information such as an electrocardiogram waveform and a heart rate can be obtained. Hereinafter, a potential difference between at least two points sandwiching the heart, an electrocardiogram obtained from the potential difference, a heart rate, and the like are referred to as electrocardiographic information.
Since ECG information is biometric information unique to an individual, it can be used for personal authentication, and it cannot be duplicated like a fingerprint, so it cannot be illegally authenticated by impersonation. Become. In addition, measurement is possible if there are electrodes and arithmetic elements for measuring the potential difference, and since a large-scale device is not required, it can be realized even with a card.

The card substrate used in the present invention may be a single layer or may be composed of a plurality of substrate sheets.
As will be described later, when the electrodes and wiring are formed by etching, the technique of a multilayer wiring board can be used. An example of this is a glass epoxy substrate.
In addition, polyester base materials such as polyethylene terephthalate (PET) and amorphous polyethylene terephthalate (PETG), polycarbonate (PC) base materials, polyethylene naphthalate (PEN) base materials, polyethylene (PE) base materials, acrylic base materials, A vinyl chloride base material etc. can be used.

In the present invention, an IC chip, a first input electrode, a second input electrode, a reference electrode, an external electrode, an antenna coil, and the like described later are connected by wiring.
The wiring can be formed by a known technique.
For example, as described above, when using the technique of the multilayer wiring board, a substrate sheet made of glass epoxy or the like having a conductive thin film such as copper foil on one side or both sides is formed by forming a wiring pattern by an etching method, Vias (through holes) formed by a laser or the like can be stacked by plating or filling the inner wall with a conductive material such as copper. During the formation, components such as an IC chip can be mounted or connected to electrodes or the like. By using a multilayer wiring board, a complicated wiring pattern can be formed.
Also, using a wiring sheet in which wiring is formed on both sides of a plastic sheet such as PET, the base sheet is bonded from above and below, and the opening is formed so that the wiring of the wiring sheet is exposed by counterboring (milling) the base sheet. An IC chip, an electrode, etc. may be embedded and disposed. As the wiring sheet, an aluminum thin film or a copper thin film patterned by etching may be used, or a printed pattern using conductive ink or a wiring pattern formed by arranging winding coils may be used.
The wiring generally has a thickness of about 0.05 to 1000 μm.

The IC chip 2 has an electrocardiographic sensor function. As used herein, the electrocardiographic sensor function refers to obtaining a potential difference value between a right finger and a left hand finger via a first input electrode and a second input electrode described later, and storing the obtained potential difference value. Or it is a function which calculates an electrocardiogram, a heart rate, etc. by calculating. As such, IBA 200 manufactured by Idecia Corporation can be used.
When the technique of the multilayer wiring board is used, the IC chip 2 can be mounted on the base sheet and connected to the wiring in the formation process of the multilayer wiring board as described above. Mounting and connection can be performed using solder or the like. After mounting the IC chip, it can be covered with a resin cover or the like. Moreover, you may bond together the other base material sheet which formed the recessed part or the hole in the position corresponding to an IC chip.
Also, when using a laminate of a wiring sheet and a base sheet provided on the top and bottom, an IC module in which the base sheet is provided with openings by counterboring (milling) processing and integrated with external contact terminals described later on the base sheet May be embedded and connected to the wiring of the wiring sheet.

The first input electrode and the second input electrode make it possible to capture potential difference information between two points sandwiching the human heart by bringing the finger of the right hand and the finger of the left hand into contact with each other. Therefore, the first input electrode and the second input electrode are made of a conductive member such as metal and can be used with a size of about 0.5 cm × 0.5 cm to 3 cm × 3 cm.
Note that the first input electrode and the second input electrode may function as a switch when the human body touches the potential change.
When the multilayer wiring board technology is used, the first input electrode and the second input electrode are formed into an electrode shape when forming the outermost base sheet simultaneously with the formation of the multilayer wiring board. Conductivity can be achieved through wiring and vias formed on the base sheet.
Moreover, when using the laminated body of the wiring sheet and the base material sheet provided up and down, the base material sheet is provided with an opening by counterboring (milling) processing, and an electrode made of a conductive material is embedded in the base material sheet, and wiring is performed. You may connect with the wiring of a sheet.

By providing a contact communication type external contact terminal, electrocardiographic information can be exchanged with the outside using a contact type IC card reader.
For example, a potential difference value acquired by a biometric card can be read from an external contact terminal by a contact type IC card reader and processed by the external terminal to obtain an electrocardiogram or the like, and further, diagnosis and result storage can be performed. Further, the potential difference value may be converted into an electrocardiogram or the like using a biometric authentication card, or the diagnosis result may be read from an external contact terminal by a contact type IC card reader and recorded on the external terminal.
The acquisition of the potential difference value may be performed by electric power from a battery, which will be described later, or may be performed by receiving electric power while being inserted into a contact type IC card reader.
A diagnosis can be made by recording an electrocardiogram for reference in the external terminal in advance and comparing it with the obtained electrocardiogram information.

  The position of the contact type external contact terminal is defined by JIS X6303. The position of the external contact terminal is in a region on the left side of the center line in the long side direction when the card is placed so that the external contact terminal can be seen. Therefore, when the first input electrode and the second input electrode are placed so that the external contact terminal can be seen, the area on the right side of the center line in the long side direction (opposite to the area where the external contact terminal is arranged) It is possible to measure electrocardiographic information while inserting it into a contact type IC card reader.

In the present invention, a reference electrode may be provided. The reference electrode is formed on the opposite surface of the card substrate with respect to either the first input electrode or the second input electrode provided on one surface of the card substrate. In this way, when the reference electrode and the first input electrode or the second input electrode are sandwiched between the thumb, the index finger, the middle finger, the ring finger, or the little finger of the right hand or the left hand, the thumb, the index finger, the middle finger, the ring finger Alternatively, a potential is generated between the little finger and it can be used as a switch.
Further, by using the reference electrode, potential difference information between two points sandwiching the human heart can be measured by a so-called differential input method. That is, between the two points between the reference electrode and the input electrode that do not sandwich the human heart due to the potential difference of the electrode between the two points that sandwich the human heart (for example, between the right or left finger and the left or right finger). By taking the difference in the potential difference between the electrodes (for example, between the fingers of the right hand or between the fingers of the left hand), the potential difference between two points across the human heart that is not affected by noise can be measured. .

  As described above, the first input electrode and the second input electrode may be used as a switch function by changing the potential when the human body touches them. Is preferred. This is because when the reference electrode is used, the passage distance of electricity passing through the human body can be shortened and the potential change becomes remarkable, so that the on / off reference value can be easily set. In addition, when the first input electrode and the second input electrode for measuring electrocardiogram information are provided with a switching function, the potential difference value is obtained using the same first input electrode and second input electrode after activation. Although the program becomes complicated, the program can be simplified by providing a separate on / off reference electrode.

The reference electrode is preferably disposed so as to at least partially overlap the first input electrode or the second input electrode in plan view. Specifically, it is preferable that 50% or more, more preferably 80% or more of each area overlap in plan view.
With such a positional relationship, the thumb and the index finger, middle finger, ring finger, or little finger are easily pinched.

  The on / off switch can start the IC chip when the electrical resistance value between the electrodes becomes a certain value or less, and can stop the IC chip when the value returns to a certain value or more. Specifically, for example, the IC chip can be started when the electrical resistance value between the electrodes becomes smaller than 2.5Ω, and the IC chip can be stopped when it becomes 3.5Ω or more.

In the present invention, a memory may be further provided. It is possible to record the electrocardiogram information for reference in the memory and make a diagnosis or save the diagnosis result. The reference electrocardiogram information in the memory can be updated.
It is also possible to record electrocardiographic information for reference in a memory area in the IC chip and save the diagnosis result.

Further, a battery, a storage battery, or a solar battery may be provided. By having the battery, the potential difference value can be measured and calculated even when the external communication element is not operated.
Furthermore, a display unit such as a liquid crystal element, an electroluminescence element, or an electronic paper element may be provided to display electrocardiographic information and diagnosis results.

FIG. 4 is a schematic view showing another specific example using a non-contact type IC using an antenna coil as an external communication element of the present invention, and FIG.
The card substrate 1 is composed of a three-layer substrate sheet.
In the base sheet 1a, the switch electrode 6 is formed on the outer surface, the wiring 7 and the antenna coil 8 are formed on the opposite surface, the IC chip 2 is connected to the antenna coil 8, and the wiring 7 It is connected to the. The wiring 7 and the reference electrode 6 are electrically connected by a via (through hole) filled with a conductive material. The IC chip 2 has an electrocardiographic sensor function.
In the base material sheet 1b, wirings 7 are formed, and vias (through holes) filled with a conductive material for electrical connection with the wirings formed in the base material sheet 1a are formed. Moreover, the opening for relieving the thickness of IC chip 2 mounted in the base material sheet 1a is formed.
The base sheet 1c has a first input electrode 4 and a second input electrode 5 formed on the surface on the front side, and vias (through-holes) filled with a conductive material for electrical connection with the wiring, respectively. ) Is formed.
The first input electrode 4 and the reference electrode 6 are formed so as to overlap in a plan view.

By providing the antenna coil 8, electrocardiographic information can be exchanged with the outside by a non-contact type IC card reader.
For example, a potential difference value acquired by a biometric card can be read from an external contact terminal by a non-contact type IC card reader and processed by an external terminal to obtain an electrocardiogram or the like, and further diagnosis and storage of results can be performed. . Further, the potential difference value may be converted into an electrocardiogram or the like with a biometric authentication card, or the diagnosis result may be read from an external contact terminal with a non-contact type IC card reader and recorded on the external terminal.
Note that the acquisition of the potential difference value or the like may be performed by power from a battery described later, or may be performed by receiving power supply while communicating with a non-contact type IC card reader.
A diagnosis can be made by recording an electrocardiogram for reference in the external terminal in advance and comparing it with the obtained electrocardiogram information.

When using the technique of the multilayer wiring board, the antenna coil 8 can be formed together with the wiring 7 in the process of forming the multilayer wiring board as described above.
Also, an antenna coil pattern may be formed by etching a base material (base material sheet) on which an aluminum thin film or a copper thin film is formed, printing with conductive ink on the base material (base material sheet), or winding coil An antenna coil pattern may be formed by arrangement.

  In this embodiment, the card base, the first input electrode 4, the second input electrode 5, the wiring 7, and the reference electrode 6 can be the same as those described above.

  The biometric card of the present invention may be a so-called dual IC card having an IC chip, an external contact terminal connected to the IC chip, and an antenna coil.

DESCRIPTION OF SYMBOLS 1 ... Card base material 1a ... Base material sheet 1b ... Base material sheet 1c ... Base material sheet 2 ... IC chip 3 ... External contact terminal 4 ... 1 input electrode 5 ... second input electrode 6 ... reference electrode 7 ... wiring 8 ... antenna coil

Claims (5)

At least a long card base, an IC chip, an external communication element composed of an external contact terminal connected to the IC chip, and a first input electrode and a second input electrode connected to the IC chip ,
The IC chip has an electrocardiographic sensor function,
The external contact terminal, the first input electrode and the second input electrode are arranged in different regions when divided into a right region and a left region with a center line in the long side direction as a boundary, To biometric authentication card.   The biometric card according to claim 1, further comprising a memory.   The biometric card according to claim 1, further comprising a display unit.   In addition, it has a reference electrode,
  4. The reference electrode according to claim 1, wherein the reference electrode is formed on a surface opposite to a surface on which the first input electrode or the second input electrode of the card substrate is formed. Biometric card.   The biometric authentication card according to claim 4, wherein the reference electrode is disposed so as to overlap at least a part of the first input electrode or the second input electrode in a plan view.

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