EP1269411A1

EP1269411A1 - Production method for laminated chip cards

Info

Publication number: EP1269411A1
Application number: EP01931412A
Authority: EP
Inventors: Erik Heinemann; Frank PÜSCHNER
Original assignee: Infineon Technologies AG
Current assignee: Infineon Technologies AG
Priority date: 2000-04-04
Filing date: 2001-04-04
Publication date: 2003-01-02
Also published as: CN1184595C; RU2230362C1; DE10016715C1; CN1422413A; US20030064544A1; TW543007B; US7069652B2; JP2003529856A; WO2001075788A1

Abstract

The invention relates to laminated chip cards and to a corresponding production method. According to the invention, the chip card is laminated using at least two layers (1, 2) made of paper or film that serve as supporting material, whereby one layer supports the semiconductor chip (6) and the second layer comprises terminal contacts (3) and conductor tracks or external terminal faces (4). The contacts of the semiconductor chip are connected in an electrically conductive manner (7) to the terminal contacts (3) of the second layer. No chip modules are required for producing the inventive chip cards. Supporting material in continuous roll format which is provided with integrated circuits and contacts can be laminated using the same techniques as those used in the production of paper.

Description

description

Manufacturing process for laminated chip cards

The present invention relates to a particularly cost-effective production method for a chip card laminated from paper or film.

Chip cards are now also used for applications that are limited to a certain time or in which the chip card can only be used a few times. An example of this is a telephone prepaid card, in the chip of which a certain number of telephone units are stored for consumption. Since the individual chip card does not provide any independent use in such applications and has only a memory content of low value, the chip card itself may only make up a small part of the purchase price, which is to be kept low, for reasons of economy. It is therefore sought for card material, card structure and manufacturing methods with which the chip card can be manufactured as inexpensively as possible.

W095 / 21423 describes chip cards that can be produced from paper, in which a chip card module is laminated into paper layers. The chip card module contains at least one semiconductor chip with an integrated circuit and its electrical connections according to the chip card standard. In the case of contactlessly operating chip cards, conductor tracks functioning as antennas are attached in the chip card module and are electrically conductively connected to the semiconductor chip. The production of the laminate uses the usual techniques of paper production. The different layers are glued and pressed together; Cutouts in the paper are punched or milled to accommodate the chip card module. The chip card module, including the connection contacts and a carrier element for the semiconductor chip, is produced independently of the paper layer laminate.

WO 97/18531 describes a chip card in which a plastic layer with an IC chip laminated therein is connected to an insulating layer as a substrate printed on both sides with conductors such that the connections of the IC chip with the conductors facing it on the insulating layer are electrically connected.

EP 0 706 152 A2 describes a chip card and a production method in which the chip is mounted on conductors which are attached to a film and is built into a core film and on the back without producing a module using flip-chip technology an outer film is laminated. Vias to external contacts are present in the film.

WO 97/27564 describes a chip card with a laminated chip module, which is produced by means of heatable laminating roller pairs.

The object of the present invention is to provide a production method with which the inexpensive production of chip cards in large numbers is possible.

This object is achieved with the method having the features of claim 1. Refinements result from the dependent claims.

The chip card produced according to the invention is made of at least two layers of a thin carrier material such as. B. laminated paper or foil, one layer each carrying the semiconductor chip provided for a chip card and the second layer having connection contacts and conductor tracks or external connection surfaces which are provided for signal and energy transmission. The semiconductor chips are attached in one layer so that their contacts the other Layer facing. The layers are connected to one another in such a way that the contacts of the semiconductor chips are electrically conductively connected to the connection contacts of the other layer. In the case of a chip card provided with external connection surfaces, these are for contacting the

Semiconductor chips provided connection contacts and the external connection surfaces arranged on two opposite sides of a layer. An electrically conductive connection between them takes place through cutouts or openings in the carrier material of this layer. The chip cards can thus be produced without inserting a chip card module, the carrier materials in particular being unwound as strips or webs of rolls and being fed to a device for producing laminates which is known in principle from paper production.

The following is a more detailed description of examples of the production method according to the invention with reference to FIGS. 1 and 2.

FIG. 1 schematically shows an arrangement for producing a chip card with external connection areas.

Figure 2 shows schematically an arrangement for producing a contactless chip card.

In FIG. 1, the carrier materials 1, 2 provided for the at least two layers are shown in a side view in an arrangement for producing the chip cards. A semiconductor chip 6 is used in the first carrier material 1, which is provided for the first layer of the chip card. In a preferred production method, a multiplicity of chip cards are produced from a strip or a web of the carrier material, which are only separated after the carrier materials 1, 2 have been connected. For the sake of simplicity, an arrangement with only one semiconductor chip 6 in the first carrier material 1 is drawn in cross section in FIG. This semiconductor chip 6 is to be thought of to the left and right and possibly also into the drawing plane adjacent to further semiconductor chips, which are each provided for further chip cards. Each semiconductor chip 6 is arranged in the first carrier material 1, preferably inserted into a recess. This cutout can completely break through the thin carrier material 1; or there is only one recess which leaves the rear upper side 11 of the first carrier material 1 intact. Further layers for covering the semiconductor chip from the back can also be applied to this rear upper side 11 or can be applied in a final manufacturing step.

Connection contacts 3 with which the contacts of the semiconductor chip 6 in the manufacture of the laminate via electrical Conductive connections 7 (eg so-called bumps made of a soft solder such as NiAu) are connected in or on the side of the second carrier material 2 facing the semiconductor chip 6. In the exemplary embodiment in FIG. 1 there are connection surfaces 4 which are for external

Contacting the chip card z. B. are provided with the connection contacts of a terminal, on the outer top 11 facing away from the semiconductor chip 6 of the second carrier material 2. For an electrically conductive connection 5 there is electrically conductive material in openings which are in the second carrier material 2 before the application of the the connection contacts and the connection surfaces 4 provided electrically conductive materials are produced. After the chip cards have been separated, the first carrier material 1 forms a first layer with the semiconductor chips 6 mounted therein and the second carrier material 2 forms the second layer 2 with the connection contacts 3 provided for electrical connections, the electrically conductive connections 5 provided in the openings and the external connection surfaces 4th

The carrier materials 1, 2 are unwound in the arrangement of rolls 12 shown in FIG. 1, as is also the case with paper and cardboard production with so-called endless roll formats. The further transport of the interconnected carrier materials is indicated in FIG. 1 by the rollers 13 shown, which press the laminate consisting of the layers together during transport and which are preferably arranged at different points along the path of the carrier material in the device. These rollers can be provided with heating devices which heat the carrier material in such a way that an adhesive layer, for example an adhesive layer, is applied between the carrier materials. B. an adhesive layer, better adhesion is achieved. For the production of the electrically conductive connections 7 between the contacts of the semiconductor chip 6 and the connection contacts 3, heating can also take place via a heating part pressed on from the outside, here also preferably a rolling heating roller. The chip card produced according to the invention is therefore composed of at least two layers, although modifications with a larger number of layers are within the scope of the invention. It is essential that the semiconductor chip is integrated directly into a layer as an IC chip. The electrical conductors for the connection are installed in or on a further layer. Paper or film in continuous roll format is particularly suitable as the carrier material. The connection contacts and / or connection surfaces provided on the second layer can preferably be produced in an endless screen printing process, with which, for example, an electrically conductive paste is applied in a thin layer and thereby structured. The connection of the contacts of the IC to the connection contacts of the second layer is carried out similarly to the method of flip chip mounting of semiconductor chips known per se.

In order to improve the electrically conductive connections 7 produced with the contact pads or soft solder lumps (bumps), a filling compound 8 (underfill) can be present between the semiconductor chip 6 and the second layer formed by the second carrier material 2, which preferably consists of an anisotropically electrically conductive material is formed. The material is aligned in such a way that the greatest conductivity is present in the direction of the intended conductive connections 7, while the conductivity transverse to this direction, that is to say in the plane of the connection of the carrier materials 1, 2, is as low as possible in order to avoid short circuits between the to avoid different contacts. Isotropically conductive or insulating fillers 8 can also be used, it being advantageous if these fillers undergo at least a slight shrinkage after the application and connection of the carrier materials 1, 2, so that the electrically conductive connections 7 to the contacts of the semiconductor chip 6 and the connection contacts 3 of the second layer 2 are pressed on and in this way a sufficiently strong ke, non-positive electrically conductive connection 7 is achieved.

A contactless chip card can be produced according to the invention in a manner analogous to this exemplary embodiment. Then, instead of the connection surfaces 4 applied to the second carrier material 2, a conductor track 10 (see FIG. 2) is applied and structured on the inner surface provided with the connection contacts 3. Such a conductor track 10 can be designed spirally as a coil, which is provided as an antenna for signal transmission and energy transmission. The other components and the manufacturing method of this chip card according to FIG. 2 correspond to the chip cards previously shown with reference to FIG. 1. The second carrier material 2 is preferably only on the

Semiconductor chip 6 facing side with an electrically conductive structuring. As in the exemplary embodiment described above, the laminate can consist of more than two layers. In principle, however, the configurations according to FIGS. 1 and 2 can also be combined with one another, for example if a chip card is desired that is suitable for both external electrical connection and contactless use.

Claims

claims

1. A method for producing a chip card, in which, in a first step, a first carrier material (1) is provided with at least one semiconductor chip (6) provided for a respective chip card, which contains an integrated circuit and has at least one contact, and a second carrier material (2) is provided with at least one connection contact (3) provided for a respective chip card, strips or webs of paper or film which are provided for a plurality of chip cards being used as carrier materials, and in a second step the carrier materials ( 1, 2) are permanently connected to one another by pressure and / or gluing, the contact of the semiconductor chip being connected in an electrically conductive manner to the connection contact, and in a third step the respective chip cards are separated by cutting or punching.

2. The method according to claim 1, wherein the carrier materials are provided and transported by means of rollers (12) or rollers (13).

3. The method according to claim 1 or 2, in which the second carrier material (2) is provided with openings before the first step and in the first step the second carrier material (2) for forming the at least one connection contact (3) provided for a respective chip card. and at least one connection surface (4) arranged on the opposite side of the second carrier material is coated on both sides with an electrically conductive material in an intended structure, an electrically conductive connection (5) between the respective connection contact (3) and the respective connection surface in the openings (4) is manufactured.

4. The method according to any one of claims 1 to 3, in which, in the first step, the second carrier material (2) for forming the at least one connection contact (3) provided for a respective chip card and at least one interconnect (10) connected thereto with an electrically conductive Material is coated in an intended structure.