JP2004355604A - Ic module for ic card, ic card, and sim - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an IC module for an IC card usable for a contact and non-contact IC card and for an SIM mounted to an apparatus with an antenna; and to provide an IC card and an SIM. <P>SOLUTION: This IC module 4 for an IC card is provided with: a board; an IC chip 3 mounted on one side of the board and having both contact and non-contact interfaces; and a plurality of contact terminal groups mounted on the other side of the board. On the IC chip-side surface of the board, two connecting terminal plates 24 and 25 for connecting an antenna coil in a card base body are mounted on both sides of the IC chip 3; terminals C4 and C8 unused in contact communication out of a plurality of the contact terminals are connected to the connecting terminal plates through wires; and terminals A2 and A1 used in non-contact communication of the IC chip are connected to the terminals C4 and C8 unused in the contact communication through wires, or the terminals used in non-contact communication of the IC chip are connected to the connecting terminal plates are connected through wires. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

The present invention relates to an IC module for an IC card, an IC card, and a SIM.
Specifically, the present invention relates to an IC module for an IC card having a built-in IC chip having both contact and non-contact functions, an IC module having a novel structure that can be used for various purposes, an IC card using the IC module, and a SIM. is there.
Therefore, the field of use of the present invention relates to the field of manufacture of IC modules for IC cards and the field of manufacture and use of IC cards or SIMs.

IC cards for IC cards (hereinafter also referred to as “dual interface IC chips”) having both contact and non-contact interfaces have appeared. Normally, an IC module using this IC chip is connected to a non-contact antenna via an antenna coil connection terminal plate on the back surface of the printed board.
The connection terminal plate and the antenna in the card base are connected by a conductive material, and six to eight ISO7816 contact type terminal groups are provided on the card surface so that both contact and non-contact can be used. Has been.

There are many prior arts describing such a connection method, such as Patent Document 1, Patent Document 2, and the like, and the specific contents of the prior art will be described with reference to the drawings.
8 is a plan view of a conventional contact IC card, FIG. 9 is a plan view of a conventional contact / non-contact IC card, and FIG. 10 is a diagram showing a SIM (UIM), which is a conventional small IC card, 11 is a plan view showing a terminal group of an IC module, FIG. 12 is a view showing a back surface bonding state of a conventional IC card IC module for both contact and non-contact, and FIG. 13 is an IC module mounted on a card substrate. FIG. 14 is a view showing a SIM holder, and FIG. 15 is a view showing the back of a conventional SIM IC module.

A conventional contact IC card 11 is of a known form in which a contact IC card IC module 14 is embedded in a uniform thin plate-like card base 11b as shown in FIG. Based on the ISO standard, the size of the card substrate is 53.98 × 85.60 mm, and the thickness is 1.0 mm or less, usually 0.76 mm.
The contact and non-contact IC card 12 is also a base having the same shape, and has an antenna coil 21 in the card base 12b as shown in FIG. Although the antenna coil 21 is indicated by a broken line, it is not different from the contact IC card 11 in appearance because it is actually embedded in the card base.
Both ends of the antenna coil 21 are connected to the antenna coil connection terminal plate of the IC module 15 for both contact and non-contact IC cards.

A conventional SIM (UIM) 13 has the form shown in FIG.
The size is a thin plate of 15.0 mm × 25.0 mm, and the thickness of the substrate 13 b is the same as that of the contact type IC card 11. The reason why the notch portion 23 is provided is to eliminate a front and back mistake at the time of mounting.
UIM (User Identity Module) is a small IC card that records contractor information issued by a mobile phone company and refers to a security ID module that is incorporated into a mobile phone and used for user identification. .
This is an extension of functionality from a SIM (Subscriber Identity Module) that has the same function. In addition to subscriber information, private information such as a telephone directory and personal identification information for credit settlement can be encrypted and registered. It is possible.

Since it is based on SIM, it is sometimes called USIM (Universal SIM). The SIM is intended to use the GSM mobile phone service, but the UIM is used, for example, by inserting it into an American cdma2000 mobile phone and receiving an international roaming service.
In the present specification, in the following and claims, SIM is a general term for small IC cards including UIM or USIM.

  Although an antenna coil can be provided in the base of the SIM or UIM, since it is usually used by being inserted into a mobile phone, it is often connected to an antenna provided in the case of the mobile phone or using an adapter antenna. It is rare to provide an antenna in a small-size SIM or UIM itself.

As shown in FIG. 11, the terminal group of the conventional contact IC card IC module 14 has eight terminals C1 to C8 defined by the ISO 7816 standard.
C1 is VCC (supply voltage), C2 is RST (reset signal), C3 is CLK (clock signal), and C5 is a GND (ground) terminal, which is usually electrically connected to the central part of the terminal plate of the IC module 14. Has been. C6 is VPP (variable supply voltage; program supply voltage, etc.), and C7 is I / O (data input / output).
C4 and C8 are RFUs (reserved terminals) and are not currently used.

The bonding state on the back surface of the conventional IC module 15 for both contact and non-contact IC cards is as shown in FIG. A wire bonding substrate side pad 26 is formed on the insulating substrate on the back surface of the C1, C2, C3, C5, C7 terminal plate, and bonding wires are respectively connected to connection terminals (pads) on the IC chip 3 side through the pads. 27. Since the C4 and C8 terminal boards are spare terminals, no board-side pads are provided. C6 VPP is often not used.
The antenna coil connection terminal plates 24 and 25 are provided by using the back surfaces of the C2, C3 terminals and the C6, C7 terminals, and the non-contact interface portion A1 of the IC chip 3 through a circuit passing through the back surfaces of the C4, C8 terminals. , A2 are bonded.
The IC chip 3 and the bonding wire 27 portion of the IC module are resin-molded and mounted.

FIG. 13 is a cross-sectional view of a contact / non-contact IC card in which the IC module 15 is mounted on the card base 12b. A cross section along the bonding wire 27 is shown across the antenna coil connection terminal plates 24 and 25.
The IC module 15 has a contact terminal group on the card surface side of the printed circuit board 8 and the IC chip 3 and a wire bonding part on the card inner surface side.
For mounting the IC module, first, the IC module mounting recess 5 is excavated so that the connection terminal surfaces at both ends of the antenna coil appear from the surface of the card base 12b in which the antenna coil 21 is previously formed and embedded.
Next, the IC module 15 is loaded into the mounting recess 5, and the conductive adhesive 6 is used to connect the connection terminal surface and the antenna coil connection terminal plates 24, 25 on the IC module 15 side. At the same time, the IC module is fixed in the mounting recess 5 by using the conductive adhesive or a normal adhesive in combination. The resin mold portion 7 of the IC module 15 is adapted to fit into the central portion of the mounting recess 5 that has been cut deeper.

Recently, it has been proposed to use an IC module with a dual interface IC chip mounted on a GSM / 3GPP standard SIM instead of a card (Patent Document 3, Patent Document 4, etc.).
In this case, an antenna coil can be provided in a device such as an adapter or SIM holder to which the SIM is mounted without using an antenna on the SIM base.
In this case, the non-contact interface portion of the IC chip 3 is wire-bonded as the terminals for connecting the spare terminals C4 and C8 to the antenna.

FIG. 14 is a view showing a SIM holder, and FIG. 15 is a view showing the back of a conventional SIM IC module. Both are proposed in Patent Document 3 and the like.
In the case of FIG. 14, the SIM 2 is inserted from the insertion port 35 of the SIM holder 31 and is fixed under the terminal board 32. An antenna coil 31a is formed in the SIM holder 31 and both ends thereof are connected to the C4 and C8 terminals of the IC module 15 of the SIM2 via contact pins (not shown) protruding from the back surface of the terminal plate 32. Has been.
Thereby, since the SIM 2 is connected to the antenna coil 31a, non-contact communication is possible even when the SIM 2 itself does not have an antenna coil.
The SIM holder 31 is formed of an upper lid portion 38, a lower case portion 39, and the like, and an antenna coil 31a is formed on the inner surface of the casing.

In the case of the above application, the back surface of the SIM IC module 15 is connected as shown in FIG. That is, the C8 and C4 terminals of the IC module 15 are respectively connected to the non-contact communication function units A1 and A2 of the IC chip 3 on the back side.
Thereby, non-contact communication function part A1, A2 connects to the antenna coil 31a via the terminal board 32 of a SIM holder, and non-contact communication with SIM2 and an external apparatus is attained.

JP-A-9-123654 Japanese Patent Laid-Open No. 11-328355 Japanese Patent Application No. 2002-244613 Japanese Patent Application No. 2002-300072

As described above, the contact and non-contact IC module for SIM has C4 and C8 terminals connected to the non-contact interface portion of the IC chip, so that an antenna such as a SIM (UIM) holder is provided via the terminal plate. It is convenient to connect to.
However, when there is an antenna coil in the card base, there is a problem that it is difficult to use because there is no antenna coil connection terminal plate to connect to the antenna coil.
On the other hand, the conventional contact / non-contact IC card IC module 15 shown in FIG. 12 has a problem that it cannot be connected to the antenna of the SIM holder.
Accordingly, the present invention has been completed by studying the structure of an IC module for both contact and non-contact IC cards that can be used for both of these purposes.

  The first of the gist of the present invention for solving the above problems is that an IC chip having both contact and non-contact interfaces is provided on one side surface of the substrate, and ISO 7816 is defined on the other side surface of the substrate. In the IC module having eight contact terminal groups, each connection terminal used for contact communication of the IC chip and the back surface of each terminal plate of the contact terminal group are wire-connected through a hole formed in the insulating layer of the substrate, Each connection terminal used for non-contact communication is connected to the back surface of the C4 and C8 terminal plate of ISO7816 through a hole formed in the insulating layer of the substrate, and further, an IC chip for connecting to an antenna coil in the IC card base An IC characterized in that two connection terminal boards provided opposite to both sides of the C4 and the C8 C8 terminal board are connected by wire through the holes. IC module for over de, located in.

  In the second aspect of the present invention, an IC chip having both contact and non-contact interfaces is provided on one side surface of the substrate, and eight contact terminal groups defined by ISO7816 are provided on the other side surface of the substrate. In the IC module having, each connection terminal used for contact communication of the IC chip and the back surface of each terminal plate of the contact terminal group are wire-connected through a hole formed in an insulating layer of the substrate, and each connection used for non-contact communication The terminals are connected by wire to two connection terminal plates provided opposite to both sides of the IC chip for connection to the antenna coil in the IC card base, and the two connection terminal plates and C4 of ISO7816 The IC card IC module is characterized in that the back surface of the C8 terminal plate is wire-connected through the hole.

  A third aspect of the present invention is a substrate, an IC chip provided on one side of the substrate and having both contact and non-contact interfaces, and a plurality of contact terminal groups provided on the other side of the substrate. In the IC module provided with the above, on the side of the IC chip of the substrate, two connection terminal plates for connecting to the antenna coil in the card base are provided on both sides of the IC chip. Of these, a terminal that is not used for contact communication is connected to a wire between the connection terminal plate, and a terminal used for non-contact communication of an IC chip and a terminal that is not used for contact communication, or when non-contact communication of an IC chip is performed. An IC module for an IC card is characterized in that a wire connection is made between a terminal to be used and a connection terminal plate.

  According to a fourth aspect of the present invention, an IC module embedding recess is excavated in an IC card base on which an antenna coil is formed, and both ends of the antenna coil and the IC card IC according to claim 1 or 2 are used. An IC card is characterized in that the module is mounted in the embedding recess so that the two connection terminal plates of the IC module are electrically connected.

  According to a fifth aspect of the present invention, there is provided a substrate, an IC chip having both contact and non-contact interfaces provided on one side of the substrate, and a plurality of contact terminal groups provided on the other side of the substrate. And two connection terminal plates for connecting to the antenna coil in the card base are provided on both sides of the IC chip on the side of the IC chip of the substrate. Sometimes a terminal that is not used is connected to the terminal plate for connection, and further, a terminal that is used for non-contact communication of the IC chip and a terminal that is not used for contact communication, or a terminal used for non-contact communication of the IC chip is connected. An IC module for an IC card with a wire connection between the terminal boards for the IC card is excavated into the IC card base on which the antenna coil is formed, and an IC module embedding recess is excavated. And parts, the two connecting terminals plate so as to be electrically conductive, there an IC module wherein IC card IC card, characterized in that attached to the burying the recess, the.

  According to a sixth aspect of the present invention, an IC module embedding recess is excavated in a SIM card base on which an antenna coil is formed, and both ends of the antenna coil and the IC card IC according to claim 1 or 2 are used. The SIM is characterized in that the module is mounted in the embedding recess so that the two connection terminal plates of the IC module are electrically connected.

  Seventh of the gist of the present invention is a substrate, an IC chip having both contact and non-contact interfaces provided on one side of the substrate, and a plurality of contact terminal groups provided on the other side of the substrate. And two connection terminal plates for connecting to the antenna coil in the card base are provided on both sides of the IC chip on the side of the IC chip of the substrate. Sometimes a terminal that is not used is connected to the terminal plate for connection, and further, a terminal that is used for non-contact communication of the IC chip and a terminal that is not used for contact communication, or a terminal used for non-contact communication of the IC chip is connected. An IC module for an IC card having a wire connection between the terminal plates for the IC card is excavated into a concave portion for embedding the IC module in the SIM card base on which the antenna coil is formed. And the end, the two connection terminals plate so as to be electrically conductive, there an IC module wherein IC card SIM, characterized in that attached to the burying recess.

The IC module for IC card of the present invention can be used for both a contact and non-contact IC card, and even if it is used for an IC card or SIM having no antenna coil, if it is used for a SIM holder with an antenna, etc., C4 , C8 terminal can be contactless communication.
The IC card of the present invention can be used as a contact or non-contact IC card when used for an IC card substrate having an antenna coil. Even if it is mounted on an IC card substrate without an antenna coil, the IC card with an antenna or an adapter If used in a holder or the like, non-contact communication can be performed via the C4 and C8 terminals.
The SIM of the present invention can have an antenna coil in the SIM itself, but even if it is attached to a SIM that does not have an antenna coil, if it is used in a SIM holder with an antenna, etc., it is non-contact via the C4 and C8 terminals. Can communicate.

The IC card IC module, IC card, and SIM of the present invention will be described below with reference to the drawings.
FIG. 1 is a rear view showing a first embodiment of an IC card IC module.
FIG. 2 is a cross-sectional view showing a connection state of the non-contact interface unit.
FIG. 3 is a rear view showing a second embodiment of the IC module for IC card.
FIG. 4 is a cross-sectional view showing a connection state of the non-contact interface unit.
FIG. 5 is a diagram showing a process of mounting the IC module on the card base.
FIG. 6 is a diagram illustrating a process of forming a SIM from an IC card substrate.
FIG. 7 shows a SIM having an antenna coil.

First, the IC card IC module of the present invention will be described.
The first embodiment of the IC module for an IC card according to the present invention is described in the scope of claims as the invention of claim 1, and the second embodiment is described as invention of claim 2. The invention of claim 3 includes the IC modules of both the first embodiment and the second embodiment.

As shown in FIGS. 1 and 2, the first embodiment of the IC module 4 for IC card of the present invention (the invention of claim 1) has holes on the insulating base of the printed circuit board 8 on the back of the C4 and C8 terminals. The wire bonding substrate side pads (holes) 26a and 26b are formed.
Two antenna coil connection terminal plates 24 and 25 are provided opposite to both sides of the IC chip 3. The pad 26a and the antenna coil connection terminal plate 24 are connected by wire bonding, and are further wire-bonded to the A2 pad (connection terminal used for non-contact communication) of the IC chip 3. On the other hand, the pad 26b and the antenna coil connection terminal plate 25 are connected by wire bonding and further wire-bonded to the A1 pad of the IC chip 3 (connection terminal used for non-contact communication).

The same applies to the second embodiment (the invention of claim 2), but as shown in FIGS. 3 and 4, wire bonding substrate side pads (holes) 26a and 26b are formed on the back surface of the C4 and C8 terminals. . The pad 26a and the antenna coil connection terminal plate 24 are connected by wire bonding, and the A2 pad of the IC chip 3 and the antenna coil connection terminal plate 24 are wire bonded. On the other hand, the pad 26b and the antenna coil connection terminal plate 25 are connected by wire bonding, and the A1 pad of the IC chip 3 and the antenna coil connection terminal plate 25 are wire bonded.
In both the first embodiment and the second embodiment, the wire bonding portion, the pad portion, and the IC chip 3 are resin-molded after connection.

Since the IC card IC module 4 of the present invention has the antenna coil connection terminal plates 24 and 25 as described above, it can be directly connected to the antenna coil in the IC card substrate. In this case, it can be used as an IC card for both contact and non-contact use.
On the other hand, when an antenna such as a mobile phone or a SIM (UIM) holder is used for the SIM, even if the SIM itself does not have an antenna coil, the IC chip is not connected via the C4 and C8 contact terminal plates. It can be connected to the contact interface section.
In other words, there is an advantage that when the dual interface IC chip is modularized, it can be used in one form.

  Such an IC module is manufactured by preparing the IC module printed board 8 first. For this, the substrate 8 is manufactured by using through holes (holes) formed in advance at each position of the substrate-side pad 26 of the insulating base material of the substrate 8. As the insulating substrate, for example, a glass epoxy film, a polyester film, a polyimide film, a bismaleide-triazine resin film or the like having a thickness of about 75 to 100 μm and a thermosetting adhesive sheet are used.

After a through hole (hole) is formed at a predetermined position, a copper foil is bonded and integrated on both surfaces of the insulating base material by heat press. This is patterned by forming the front side terminal groups (C1 to C8) and the rear side antenna coil connection terminal plates 24 and 25 by a normal photoetching method. The copper foil layer has a thickness of about 18 to 30 μm.
After stripping the resist, nickel plating and gold plating are performed on the front-side terminal group and the rear antenna coil connection terminal plates 24 and 25 using the remaining copper foil layer as an electrode.

The dual interface IC chip 3 is die-bonded to the printed board 8 with an epoxy die adhesive, and wire bonding is performed between each connection terminal (pad) of the IC chip 3 and each pad (hole) 26 on the board side.
Finally, the IC chip 3 and the bonding wire 27 are resin-molded by a transfer molding method, a casting method, or the like, and the back side is polished and the thickness is adjusted as necessary to complete the IC module 4 for the IC card.
The contents related to the above manufacturing method are also described in Japanese Patent Publication No. 2904785.

In each of the above embodiments, instead of the wire bonding board side pads (holes) provided in each terminal, it is also possible to connect with through holes. However, in this case, the following problems occur.
(1) The manufacturing process becomes complicated and the manufacturing cost also increases.
(2) Since the through hole is provided, when the sealing resin is filled, the resin oozes out to the terminal surface side, and it becomes easy to cause a conduction failure, and the yield and reliability are lowered.

Next, the manufacture of the IC card and SIM of the present invention will be described with reference to FIG.
In manufacturing the IC card, first, the antenna sheet 10a is manufactured. This step is a step of forming the antenna coil 21 and the antenna coil connection end portion on the surface of one core sheet 10a. Usually, a resist film is formed on a core sheet laminated with a metal foil such as aluminum or copper, and the required pattern is often formed by photoetching. However, printed wiring with conductive ink or coating of coated copper wire The method of fixing a copper wire to a card | curd base | substrate may be sufficient, melt | dissolving.

  Next, the card base 10 before the IC module is mounted is manufactured. In this step, the antenna sheet 10a, the other core sheet 10b, and the oversheets 10c and 10d are laminated (FIG. 5A), and then introduced into a press machine, and the base material is fused or bonded by applying hot pressure. Bond and integrate (FIG. 5B). Thereafter, punching to a card size is performed (FIG. 5C).

Next, the IC module mounting recess 5 is excavated using a counterbore machine. As shown in FIG. 5C, the mounting recess 5 has a first recess 51 having a size and a depth for suspending the printed circuit board 8 portion of the IC module 4 and a size and depth for embedding the resin mold portion 7 of the IC module. The second recess 52 is formed. During the cutting of the first recess 51, excavation for exposing the connection end portions 211 and 212 of the antenna coil 21 is simultaneously performed.
However, as in the embodiments described later, the connection end portions 211 and 212 may be positioned deeper than the first recess surface, and a small-diameter conduction recess reaching the antenna coil connection end portion from the first recess surface may be excavated. . In this case, the antenna coil 21 of the antenna sheet 10a may be disposed so as to face the core sheet 10b side.

Apply conductive adhesive to the exposed end of the antenna coil connection or apply anisotropic conductive adhesive tape 9 (FIG. 5D), and load IC module 4 for both contact and non-contact IC cards. (FIG. 5E).
Thereafter, an IC module seal for pressure bonding is performed. Module sealing is performed by applying hot pressure to the surface of the contact terminal plate 12 with a heater block.
After the IC module mounting IC card 4 is mounted on the IC module mounting recess 5, the state shown in FIG. 13 is obtained.
After mounting the IC module, the IC chip characteristics and the like are inspected. Next, an issuing process step for writing data is performed according to the use of the IC card. As described above, a contact and non-contact IC card is completed.

When manufacturing a SIM, the following steps are performed.
The completed contact / non-contact IC card is subjected to finishing processing such as formation of peripheral slits 2s and bridges 2b as shown in FIG. The peripheral slit 2s forms the outer shape of the SIM2. Further, the SIM2 is not easily pulled out by connecting the two to three portions by the bridge 2b, but a half-cut line 2h is provided in the bridge portion so that it can be broken. The half cut line 2h where the antenna coil connection line of the bridge 2b passes is set to a depth that does not cut the connection line.
As described above, these processes are performed by half cut processing, perforation processing, counterbore processing by an end mill, groove punching processing, and combination processing thereof.
Note that this step may be performed continuously with the excavation step of the IC module mounting recess 5.

After mounting the IC module, the IC chip characteristics and the like are inspected. When the antenna coil 21 is not provided in the SIM base, the non-contact communication function cannot normally be inspected. However, the SIM manufactured as described above has an advantage that the non-contact communication function of the IC chip can be inspected at this stage. is there.
Next, an issuance processing step for writing data is performed according to the use of the SIM2. As described above, a contact and non-contact SIM is completed.

  When the SIM2 of FIG. 6 is folded from the card base 10, the connection portion of the antenna coil 21 is cut at the same time as the half-cut line 2h is folded. Therefore, the SIM2 itself does not have an antenna coil. There is an advantage that the non-contact function can be tested in the state of the IC card before folding. However, it is of course possible to use a SIM in which no antenna coil is formed from the beginning.

Even if the SIM itself does not have an antenna coil, as described above, non-contact communication can be performed via the C4 and C8 terminals if the SIM is mounted on a SIM holder having an antenna.
Further, as shown in FIG. 7, the antenna coil 21 of the SIM card base may be shaped so as to fit within the outer shape of the SIM (15 mm × 25 mm), and the SIM 2 itself may have the antenna coil 21 as a matter of course. That's it. In that case, both the antenna coil of the SIM itself and the antenna of the mobile phone or SIM holder function as an antenna via the C4 and C8 terminals.

Embodiments of the present invention will be described below with reference to the drawings as appropriate.
<Preparation of IC module for IC card>
Copper foil was bonded to both surfaces of an insulating base material (glass epoxy base material, thickness of 100 μm) 8 in which through holes (holes) for the wire bonding substrate side pads 26, 26a, and 26b were previously formed by heat press. Integrated. The front side terminal group (C1 to C8) and the rear side antenna coil connection terminal plates 24 and 25 were formed by a normal photoetching method (see FIGS. 1 and 2).
The contact / non-contact type IC chip 3 is die-bonded to the printed circuit board 8 with an epoxy die adhesive, and between each connection terminal (pad) of the IC chip 3 and each pad (hole) 26 on the board side, Wire connection is made between the non-contact interface portion A1 and the pad 26b, between A2 and the pad 26a, and between the connection terminal plates 24 and 25 and the pads 26a and 26b as shown in FIG.

A COT (Chip On Tape; thickness 160 μm) IC chip 3 on which the contact / non-contact type IC chip was mounted and a wire bonding portion were surrounded and an epoxy resin was dropped and molded. However, the two antenna coil connection terminal plates (size 2 mm × 3 mm) 24 and 25 were exposed from the resin mold portion.
The size of the IC module substrate was 13.0 mm × 11.8 mm, the resin mold portion 7 was 8.0 mm × 8.0 mm, and the height of the resin mold portion 7 not including the substrate thickness was 440 μm.

On the back surface of the COT (opposite surface of the terminal plate), except for the resin mold portion 7 and the antenna coil connection terminal plates 24 and 25, the first recess (in the IC module mounting recess and the contact terminal plate is placed). The conductive heat-reactive adhesive tape (polyester resin system, thickness 50 μm) 9 was punched out and laminated so that the part in contact with the part) was covered.
The pressing conditions were 130 ° C. and time 5 seconds. During the lamination, the adhesive tape 9 was compressed by about 10 μm.

<Manufacture of antenna sheet>
As a card substrate antenna sheet, a base material in which a 35 μm thick aluminum foil was laminated on a 360 μm thick white hard vinyl chloride sheet was used, and the antenna coil 21 and the antenna coil connecting end portions 211 and 212 were formed by photoetching ( See FIG.
The connection wiring portion where the antenna coil 21 comes out of the outer shape of the SIM 2 has a wiring pattern shape that is located on the bridge 2b.

<Preparation of IC card base>
A sheet of white hard vinyl chloride sheet with a thickness of 360 μm is combined with this antenna sheet with the antenna coil 21 inside, and these two sheets are used as a core sheet, and two sheets of a transparent vinyl chloride sheet with a thickness of 50 μm on both sides. After temporarily fixing a total of four sheets arranged on the upper and lower surfaces of the core sheet, they are fused by applying hot pressure (150 ° C., 0.03 MPa, time 40 minutes), and the antenna card embedded IC card 10 base Prepared.
In this state, the antenna coil connection end portions 211 and 212 are present in the range of 410 μm to 445 μm from the card surface.

<Cutting of IC module mounting recess>
The concave portion of the IC module mounting portion was formed by NC cutting of a counterbore machine.
First, the first recess 51 was cut to a depth corresponding to the total thickness of the IC module substrate (contact terminal plate) and the adhesive tape 9.
The size of the first recess at this stage was 13.1 × 11.9 mm (corner radius of curvature 2.5 mm), and the depth was 200 μm. This size is an opening about 0.1 mm larger than the actual terminal board size.

Further, the second recess 52 (the deepest part at the center of the IC module mounting recess) 52 for accommodating the resin mold portion 7 of the IC module 4 has a size of 8.2 mm × 8.2 mm, a depth of 640 μm from the card surface, and the first recess surface. Then, excavation was further carried out so as to be 440 μm deep.
Finally, two conducting recesses (diameter 2 mm) for conducting the antenna coil connecting terminal plates 24 and 25 of the IC module 4 and the antenna coil connecting end portions 211 and 212 in the card base are provided as the first. Drilled from the surface of the recess. The depth was excavated to be about 430 μm from the card surface.

<Installation of IC module>
A liquid conductive thermosetting resin is applied on the antenna coil connection end portions 211 and 212 exposed by the recesses for conduction, and the previously prepared IC module 4 laminated with the conductive thermoreactive adhesive tape 9 is COT. Then, the IC module was fixed by melting the adhesive tape 9 by applying hot pressure (150 ° C., time 5 seconds).
As a result, both the adhesion between the IC module and the IC card substrate and the electrical connection between the IC module and the antenna coil in the card substrate were completed.
In this state, it can be used as a wallet-sized contact and non-contact IC card, and can also be used with a wallet-size IC card adapter having an antenna.

<Finishing for making SIM>
The outer shape was formed by the peripheral slit so that the size of the SIM 2 was 25 mm for the long side and 15 mm for the short side, and the notch 23 was provided at one corner.
The peripheral slit 2s is made to have a width of 1.5 mm by cutting with an end mill, and two bridges 2b are provided on the long left and right sides for convenience, and the bridge portion is provided from the upper and lower surfaces of the IC card base 10. Half-cut wire 2h was inserted with a punching blade so that the center layer remained about 0.4 mm (see FIG. 6).
The bridge 2b is provided with a connection portion with an antenna coil and puts a half cut line 2h. However, since the depth is about 0.2 mm from the top and bottom, the connection line is not cut by the half cut. However, the antenna connection line is thin enough to be easily broken.

The IC card 1 completed through the above steps is highly convenient because the IC chip characteristic inspection can be performed by using a conventional IC card inspection apparatus without breaking the SIM 2 from the peripheral slit or bridge. Met.
Further, in the state before the SIM2 is folded, it can be used as a normal contact / non-contact IC card, and if it is folded, it can be used as a SIM for a mobile phone or the like.

It is a rear view which shows 1st Embodiment of the IC module for IC cards. It is sectional drawing which shows the connection state of the non-contact interface part. It is a rear view which shows 2nd Embodiment of the IC module for IC cards. It is sectional drawing which shows the connection state of the non-contact interface part. It is a figure which shows the process of mounting | wearing a card | curd base | substrate with an IC module. It is a figure which shows the process of forming SIM from an IC card base. It is a figure which shows SIM which has an antenna coil. It is a top view of the conventional contact-type IC card. It is a top view of the conventional contact and non-contact IC card. It is a figure which shows the conventional SIM (UIM). It is a top view showing the terminal group of an IC module. It is a figure showing the bonding state of the back surface of the conventional IC module for contact and non-contact IC cards. It is sectional drawing of the IC card for both contact and non-contact which mounted | worn the IC module to the card base. It is a figure which shows a SIM holder. It is a figure which shows the back surface of the conventional IC module for SIM.

Explanation of symbols

2 SIM (UIM)
2s Peripheral slit 2b Bridge 2h Half cut wire 3 IC chip 4 IC module for IC card for both contact and non-contact 5 IC module mounting recess 6 Conductive adhesive 7 Resin mold part 8 Printed circuit board, insulating base material 9 Adhesive tape 10 IC card base 11 Contact type IC card 12 Contact and non-contact IC card 13 SIM (UIM)
14 IC module for contact type IC card 15 IC module for IC card for both contact and non-contact use 21 Antenna coil 23 Notch part 24, 25 Terminal board for antenna coil connection 26 Wire bonding board side pad 26a, 26b Hole part, wire bonding board Side pad 27 Bonding wire 31 SIM holder 32 Terminal board 35 Insertion slot 38 Upper lid part 39 Lower case part

Claims (8)

In an IC module having an IC chip having both contact and non-contact interfaces on one side of the substrate, and having eight contact terminal groups defined by ISO7816 on the other side of the substrate,
The connection terminals used for contact communication of the IC chip and the back surfaces of the terminal plates of the contact terminal group are wire-connected through holes formed in the insulating layer of the substrate, and the connection terminals used for non-contact communication and C4 of ISO7816. , C8 terminal board back surface is wire-connected through a hole formed in the insulating layer of the substrate, and two connections provided opposite to both sides of the IC chip to connect to the antenna coil in the IC card base An IC module for an IC card, wherein the terminal board for wire and the back surface of the C4, C8 terminal board are wire-connected through the hole. In an IC module having an IC chip having both contact and non-contact interfaces on one side of the substrate, and having eight contact terminal groups defined by ISO7816 on the other side of the substrate,
Each connection terminal used for contact communication of the IC chip and the back surface of each terminal plate of the contact terminal group are wire-connected through a hole formed in an insulating layer of the substrate, and each connection terminal used for non-contact communication is an IC card base. Wire connection is made to two connection terminal plates provided on both sides of the IC chip so as to be connected to the antenna coil in the body, and further between the two connection terminal plates and the back surface of the C4 and C8 terminal plates of ISO7816. Is an IC module for an IC card, which is wire-connected through the hole. In an IC module comprising a substrate, an IC chip provided on one side of the substrate and having both a contact and non-contact interface, and a plurality of contact terminal groups provided on the other side of the substrate, Two connection terminal plates for connecting to the antenna coil in the card base are provided on both sides of the IC chip on the side of the IC chip of the substrate, and a plurality of contact terminals that are not used at the time of contact communication Wire connection between the connection terminal plates, and further, between a terminal used for non-contact communication of an IC chip and a terminal not used during contact communication, or between a terminal used for non-contact communication of an IC chip and a connection terminal plate An IC module for an IC card, characterized by being wire-connected. 4. The IC card IC module according to claim 3, wherein the terminals not used at the time of contact communication are C4 and C8 terminals among eight terminals C1 to C8 defined by ISO7816. An IC module embedding recess is excavated in an IC card base on which an antenna coil is formed, and both ends of the antenna coil and the IC card IC module according to claim 1 or 2 are connected to the 2 of the IC module. An IC card, wherein two connection terminal plates are mounted in the burying recess so as to be electrically conductive. A substrate, an IC chip provided on one side of the substrate and having both contact and non-contact interfaces, and a plurality of contact terminal groups provided on the other side of the substrate, the IC of the substrate Two connection terminal plates for connecting to the antenna coil in the card base are provided on both sides of the IC chip on the side of the chip. Among the plurality of contact terminals, a terminal that is not used during contact communication and the connection terminal An IC in which a board is connected by wire, and a terminal used for non-contact communication of an IC chip and a terminal not used at the time of contact communication, or a terminal used for non-contact communication of an IC chip and a connection terminal board are connected by wire. An IC module for a card is excavated into a concave portion for embedding an IC module in an IC card base on which an antenna coil is formed, and both ends of the antenna coil are connected to the two connections. IC card terminal plate so as to be electrically conductive, characterized in that the IC module wherein IC card attached to the burying recess. The concave portion for embedding the IC module is excavated in the SIM card base on which the antenna coil is formed, and both end portions of the antenna coil and the IC card IC module according to claim 1 or 2 are connected to the 2 of the IC module. A SIM, wherein two connection terminal plates are mounted in the embedded recess so as to be electrically conductive. A substrate, an IC chip provided on one side of the substrate and having both contact and non-contact interfaces, and a plurality of contact terminal groups provided on the other side of the substrate, the IC of the substrate Two connection terminal plates for connecting to the antenna coil in the card base are provided on both sides of the IC chip on the side of the chip. Among the plurality of contact terminals, a terminal that is not used during contact communication and the connection terminal An IC in which a board is connected by wire, and a terminal used for non-contact communication of an IC chip and a terminal not used at the time of contact communication, or a terminal used for non-contact communication of an IC chip and a connection terminal board are connected by wire. The IC module for card is excavated from the concave portion for embedding the IC module in the SIM card base on which the antenna coil is formed, and the both ends of the antenna coil are connected to the two contacts. SIM to use the terminal plate so as to be electrically conductive, characterized in that the IC module wherein IC card attached to the burying recess.

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