JP2013109490A - Ic card - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an IC card having an external contact terminal, capable of reducing squeezing-out of an adhesive agent used at mounting without spoiling an appearance.SOLUTION: An IC card includes: a card base material; a first recess formed in the card base material and having an opening, a sidewall and a bottom; a second recess formed in the bottom of the first recess and having an opening, a sidewall and a bottom; and an IC module having an external terminal, fixedly arranged at and inside the first recess. In the IC card, the IC module includes: a module substrate having the external terminal; an IC chip mounted on the module substrate and electrically connected to the external terminal; and a resin seal part sealing the IC chip. An angle formed by a card-surface side of and a side face of the module substrate is smaller than 90°.

Description

  The present invention relates to an IC card having an external contact terminal.

Conventionally, in a contact IC card having an external contact terminal or a so-called dual IC card capable of contact and non-contact communication, an IC chip is mounted on a substrate having a conductive member functioning as an external terminal, An IC module with an external contact terminal having a structure in which conductive members are connected by wire bonding or the like and the IC chip and wire bonding are sealed with resin or the like is used.
When such an IC module is mounted on a card, a recess for embedding the IC module is formed in the card base, and the IC module with external contact terminals is embedded in the recess.
Since this IC module has a generally convex shape because the width of the substrate and the width of the resin sealing portion are different, the concave portion formed on the card base is also matched with the width of the IC module and the width of the resin sealing portion. A step-shaped one is used. The recess formed in the card base is performed by milling or the like.

Then, an adhesive or an adhesive sheet is provided on the bottom of the first step of the recess formed on the card base, and the IC module is placed in the recess using a pickup device or the like, and the base and the IC module are bonded and fixed by hot press. .
Usually, a mounting apparatus that mounts an IC module in a recess of a card substrate has variations in positional accuracy. For this reason, the concave portion is not the same as the size of the IC module, and is formed so that a slight gap is formed.
The first-stage recess is formed so as to have a gap that does not impair the appearance when the IC module is mounted. The gap is usually formed to have a size of 0.05 to 0.1 mm. However, since the gap is small, a defect may occur that the adhesive used when mounting the IC module protrudes to the surface.

JP2010-011127A JP2009-086914

  An object of the present invention is to reduce the protrusion of an adhesive used for mounting without impairing the appearance of an IC card having external contact terminals.

The present invention has a card base, a first recess having an opening, a side wall, and a bottom formed on the card base, and an opening, a side wall, and a bottom formed on the bottom of the first recess. In an IC card comprising a second recess, an IC module with external terminals fixedly disposed in the first recess and the first recess, the IC module includes a module substrate having external terminals, and a module substrate. An IC chip that is mounted and electrically connected to an external terminal, and a resin sealing portion that seals the IC chip, and the angle formed by the card surface side and the side surface of the module substrate is less than 90 ° An IC card characterized by
The clearance between the card base, the first recess, and the opening of the first recess of the IC module with an external terminal fixedly disposed in the first recess is 0.1 mm or less.
Further, the angle formed between the bottom of the second recess and the side wall is larger than 90 °, and the side wall is inclined.
Further, the angle formed between the bottom of the second recess and the side wall is in the range of 100 to 120 °.

In the present invention, in an IC card having an external contact terminal, it is possible to reduce the protrusion of the adhesive used at the time of mounting without deteriorating the appearance.
In addition, the gap between the concave portion provided in the card base and the IC module can be reduced without causing defects.

It is sectional drawing which shows an example of the card | curd of this invention. It is sectional drawing which shows an example of the card | curd of this invention. It is a section explanatory view showing an example of an IC module of the present invention. It is sectional explanatory drawing which shows an example of mounting of the IC module of this invention. It is a schematic explanatory drawing which shows an example of mounting of the IC module of this invention. It is sectional explanatory drawing which shows an example of mounting of the conventional IC module.

The present invention will be described below with reference to the drawings.
1 and 3 are cross-sectional views showing an example of a cross section of the IC card of the present invention.
The card substrate 1 used in the present invention is not particularly limited as long as it functions as a card substrate. As the card base material, a single-layer base material or a laminate of a plurality of base materials may be used. When laminating a plurality of base materials, for example, as shown in FIG. 2, a laminate in which an exterior base material 1 b is laminated on both surfaces of a core base material 1 a having about one layer or two layers can be used.

Card base materials include vinyl chloride, vinyl chloride-vinyl acetate copolymer, terephthalic acid, cyclohexanedimethanol and ethylene glycol copolymer, terephthalic acid, isophthalic acid and ethylene glycol copolymer, or Amorphous polyester comprising a polymer alloy of a copolymer and polycarbonate and / or polyarylate, polyethylene terephthalate, polybutylene terephthalate, ABS resin, paper, impregnated paper and the like.
Especially, the structure using the amorphous polyester-type resin which does not contain chlorine as a core base material and an exterior base material is preferable from the point of environmental consideration.

These card base materials can be white or transparent.
The thickness of the card substrate is not particularly limited, but a total thickness of 0.76 ± 0.08 mm or less is preferable because it satisfies JISX6301 and can be applied to credit cards, cash cards, ID cards, and the like.

In the present invention, a contact type IC module 2 having an external contact terminal is embedded in the surface of the card base.
As a contact type IC module having an external contact terminal, an IC chip 7 is mounted on a module substrate 5 having an external terminal 6 made of a conductive member for contact communication with an external reader as shown in FIG. An IC module with an external contact terminal having a structure in which the chip 7 and the external terminal 6 are connected by a connecting member 8 such as wire bonding and the IC chip 7 and the wire bonding are sealed with resin or the like is used.

As the IC module, for example, one manufactured by the following process can be used.
The module substrate 5 can use glass-epoxy, polyimide, or the like.
The thickness of the module substrate is about 100 to 170 μm, and the vertical and horizontal sizes are about 11.8 × 13 mm.
The module substrate 5 is formed with holes for conducting to the external terminals 6 by punching or the like. A pattern is formed on the external terminal 6 through copper lamination and etching, and the external terminal 6 is plated with nickel, gold, or silver. The plating material is not particularly limited, and palladium or the like may be deposited.
Also, depending on the form of the IC module, when it is for contact (when it is a contact IC module), it may be a module substrate having a conductive member as the external terminal 6 on one side, or when it is used both as contact and non-contact In the case of a dual IC module), a conductive member to be the external terminal 6 can be provided on one side, and a conductive member for connecting to the antenna coil can be formed on the opposite side.

The IC chip 7 is formed by forming a circuit on a Si wafer and polishing the Si wafer so that the thickness of the wafer becomes a specified thickness, and the IC chip 7 is cut and manufactured as a single IC chip by a dicing apparatus. .
The IC chip 7 is mounted using an adhesive for mounting the IC chip 7 on the module substrate 5 described above. Then, after the IC chip 7 is mounted, it is electrically connected to the external terminal 6. Specifically, wire bonding is performed to make each terminal of the IC chip conductive to the external terminal 6. As this wire, a gold wire is usually used, but other wire materials such as copper and aluminum may be used.

  After the wire bonding step, sealing with a resin for protecting the IC chip is performed. As a sealing method, there are a transfer molding method, a potting method, a printing method and the like, but the method is not limited. The sealing material is a thermoplastic resin, a thermosetting resin, an ultraviolet curable resin, or the like. The IC module is manufactured by curing the sealing resin in each method. At this time, it is desirable to make the mold resin have a taper angle.

Moreover, since the area of the resin sealing part 9 which protects an IC chip is smaller than the area of the module substrate 5 in the cross section, the external shape of the IC module 2 is a convex shape.
The resin sealing portion 9 is usually formed so that the vertical and horizontal sizes of the resin sealing portion surface 9b are smaller than the vertical and horizontal sizes of the module substrate side surface 9a in the cross section. The shape is inclined so as to narrow toward the surface of the sealing portion. The angle 11 formed by the resin sealing portion surface 9b and the side wall 9c of this IC module is about 100 to 110 °. In addition, the resin sealing part 9 may have a shape with no inclination.

Furthermore, the present invention is characterized in that the side surface of the module substrate 5 is inclined. Specifically, the angle 12 formed by the card surface side surface 5a of the module substrate 5 and the module substrate side surface 5b forms an acute angle of less than 90 °. In addition, since the external terminal 6 has the same area as the module substrate 5 in a plan view, in such a case, the angle 12 including the angle formed by the surface side surface 6a of the external terminal 6 and the external terminal side surface 6b is less than 90 °. An acute angle of is formed.
Specifically, the angle 12 is preferably between 70 ° and 50 °.
With this shape, the gap between the module substrate and the first recess can be reduced on the card surface, and a space is formed in the gap with the module substrate near the bottom of the first recess. It is possible to reduce the trouble that the space becomes a refuge for excess adhesive and protrudes to the surface.

  As a method of inclining the module substrate, when the IC module is formed by using a reel-shaped substrate and then processed by punching into individual pieces, the side surface of the substrate is inclined in the punching process. can do. Moreover, you may give inclination after punching.

As shown in FIG. 4, in embedding the IC module 2, first, a recess for taking the IC module is formed on the card base material by milling, cutting or the like. When milling is performed, the end mill can be selected as appropriate and processed.
Since the IC module 2 has a convex shape as described above, the first recess 3 corresponding to the size of the module substrate 5 and the size of the resin sealing portion 9 on the bottom 3b of the first recess 3 are as follows. A corresponding second recess 4 is formed, and a two-step recess is formed.

The first recess 3 is formed in such a size that the gap 14 with the module substrate 5 is 0.1 mm or less when the IC module 2 is mounted. If it is in this range, it is preferable in appearance, and there will be no defect due to protrusion of the adhesive or mounting of the module when mounting the module, but if it is less than 0.05, it is more preferable in appearance.
The depth of the first recess 3 is set in consideration of the thickness of the external terminals 6 and the module substrate 5. Note that the adhesive 10 used when mounting the module is compressed and spread by heat and pressure from the top when the module is mounted, so the thickness at that time may or may not be considered.

The second concave portion 4 may have an inclined shape, or may have a shape similar to a conventional one without an inclination.
Preferably, the shape of the second concave portion 4 is also inclined, that is, the angle formed between the bottom surface of the second concave portion 4 and the side wall 4c is preferably larger than 90 °. If the second concave portion 4 is inclined, when the IC module is mounted, the opening 4a of the second concave portion is larger than the resin sealing portion surface 9a of the IC module. When a part of the resin enters the recess, and then the slope serves as a guide and the surface of the resin sealing portion of the IC module reaches the bottom 4b of the second recess, the size of the resin sealing portion surface 9a of the IC module and the second Since the sizes of the bottoms of the recesses are approximately equal, the IC module can be automatically fixed and arranged. In particular, when the resin sealing part itself of the IC module is provided with an inclination, the IC module can be smoothly provided by providing the second recess with an inclination equivalent to or slightly larger than the inclination of the resin sealing part. Can be fixed.

Specifically, in the cross section, the vertical and horizontal sizes of the opening 4a of the second recess 4 are set to be the same as or slightly larger than the vertical and horizontal sizes of the resin sealing portion 9 on the module substrate 5 side. Specifically, the gap 15 between the second recess 4 and the resin sealing portion 9 is formed to be 0.3 mm or less.
The vertical and horizontal sizes of the bottom portion 4b of the second recess 4 are equal to the vertical and horizontal sizes of the surface of the resin sealing portion 9 or are such that a slight gap can be formed. Note that it is more preferable that the gap at the bottom is smaller because the IC module can be fixed. Specifically, the gap 16 between the second concave portion 4 and the resin sealing portion 9 at the bottom is formed to be 0.2 mm or less.
The angle 13 formed by the bottom surface of the second recess 4 and the side wall 4c is about 100 to 120 °.
The angle 13 formed by the bottom surface of the second recess 4 and the side wall 4c is preferably not less than the angle 11 formed by the resin sealing portion surface 9b and the side wall 9c, and particularly preferably larger than the angle 11. This makes it easy to mount and fix the module.

  The IC module is mounted in the recess provided on the card base by placing an adhesive sheet or applying an adhesive on the bottom of the first recess 3, placing the IC module in the recess using a pickup device, etc. It can be fixedly arranged by pressing. Alternatively, an adhesive sheet may be temporarily attached to the IC module in advance, and the IC module may be placed in the recess by a pickup device or the like, and fixedly placed by hot pressing from above.

  In addition, when using a so-called dual IC module that is both in contact and non-contact as the IC module, for example, both sides of the antenna sheet in which an antenna coil is formed on a base material sheet such as polyethylene terephthalate (PET) are each a single layer or a multilayer. An IC module can be provided in the same manner as described above by forming a concave portion in a card base material using a laminated base material and using a card base material. When forming the recess in the card base, the connection part of the antenna coil or the connection part of the connection member that connects the antenna coil and the IC module is exposed, and the connection part or connection of the antenna coil when the IC module is mounted. It can connect with the connection part of a member. Alternatively, a coupling coil may be provided in the IC module, a coupling coil that is electrically connected to the antenna coil may be provided, and the coupling may be established by electromagnetic coupling via the coupling coils.

  Further, a protective layer, a picture layer, and a magnetic recording layer may be formed on the card substrate. The protective layer, the pattern layer, and the magnetic recording layer can be provided by a known method.

  In the card of the present invention, post-processing is performed such as embossing of letters, numbers, figures, etc., and foil pressing such as hologram foil. These processes can be formed by a known method. It is assumed that the embossed area / shape is defined by JIS X 6302-1. Suitable foil pressing conditions are a temperature of 120 to 180 ° C., a pressure of 1.0 to 10 MPa, and a time of 0.5 to 3.0 sec.

Moreover, in this invention, you may card | curd by punching in a card | curd piece after mounting an IC module using the sheet | seat base material of a multi-sided sheet.
For cutting out into small card pieces, punching with a male / female die attached to a press or a hollow blade is generally used.

<Example 1>
A two-layer core base material made of amorphous polyester having a thickness of 0.6 mm and an outer base material made of amorphous polyester having a thickness of 0.1 mm on both surfaces of the core base material are bonded together by heat lamination to form a card base material. Created.

  Next, a first recess was formed on the card base material by milling, in a rectangular shape with rounded corners of length 12 mm × width 13.2 mm and a depth of 0.23 mm. Next, a second recess having an opening of 8.5 mm × width of 8.2 mm, a bottom of 8.04 mm × width of 7.74 mm, a depth of 0.63 mm, and an angle of 110 ° is formed by milling. did.

An adhesive was provided in the first recess with a thickness of 0.05 mm, and an IC module was placed in the recess using a pickup device, and mounted by hot pressing to obtain a contact IC card.
The IC module used has a rectangular shape with external terminals having a size of 11.8 mm in length × 13 mm in width and rounded corners, and the thickness of the module substrate with external terminals is 0.16 mm. The angle formed is 70 °, the cross-sectional shape on the substrate side of the resin sealing part is 8 mm long × 7.7 mm wide, the surface side shape is 7.68 mm long × 7.38 mm wide, the depth is 0.44 mm, and the angle is What consists of 110 degrees was used.
Five contact IC cards were prepared and used as samples of Example 1.

<Comparative Example 1>
A contact-type card was obtained in the same manner as in Example 1 except that the IC module of Example 1 and the second recess were changed to the following shapes. Five contact IC cards were prepared and used as samples of Comparative Example 1.
(IC module shape)
The IC module of Example 1 was the same as that of Example 1 except that the side surface of the module substrate was not inclined.
(Shape of second recess)
A recess having no inclination and having an opening, a bottom of 9.0 mm × width of 8.7 mm and a depth of 0.23 mm was formed.

<Evaluation>
The presence or absence of the protrusion of the adhesive agent was confirmed in the gap between the card base material and the IC module of the samples of Examples and Comparative Examples.
The results are shown in Table 1.

Example 1 also had no adhesive sticking in all samples.
On the other hand, in Comparative Example 1, the adhesive protruded in 3 out of 5 samples.

DESCRIPTION OF SYMBOLS 1 ... Card base material 2 ... IC module 3 ... 1st recessed part 4 ... 2nd recessed part 5 ... Module substrate 5a ... Module substrate card surface side surface 5b・ ・ ・ Module substrate side surface 6 ・ ・ ・ External terminal 6 a ・ ・ ・ External terminal card surface side surface 6 b ・ ・ ・ External terminal side surface 10 ・ ・ ・ Adhesive or adhesive sheet 11 ・ ・ ・ Resin sealing surface of IC module The angle formed between the side surface of the resin sealing portion and the side surface of the module substrate card. The angle formed between the side surface of the module substrate card and the side surface. The angle formed between the bottom surface of the second recess 4 and the side surface of the module substrate. A gap 15 between the recess of the second substrate and the module substrate ... a gap 16 between the opening of the second recess and the module-side resin sealing portion ... between the bottom of the second recess and the surface-side resin sealing portion Gap 17 ... adhesive adhesive

Claims (4)

A card substrate;
A first recess having an opening, a side wall, and a bottom formed in the card substrate;
A second recess formed at the bottom of the first recess and having an opening, a side wall, and a bottom;
In an IC card comprising an IC module with external terminals fixedly arranged in the first recess and the first recess,
The IC module has a module substrate having external terminals, an IC chip mounted on the module substrate and electrically connected to the external terminals, and a resin sealing portion for sealing the IC chip,
An IC card, wherein an angle formed between a surface of the module substrate on the card surface side and a side surface is less than 90 °.   2. The gap in the opening of the first recess of the IC module with an external terminal fixedly disposed in the card base, the first recess, and the first recess is 0.1 mm or less. IC card of description.   3. The IC card according to claim 1, wherein an angle formed between the bottom of the second recess and the side wall is larger than 90 °, and the side wall is inclined.   The IC card according to any one of claims 1 to 3, wherein an angle formed between the bottom of the second recess and the side wall is within a range of 100 to 120 °.