DE19633923A1 - Chip card with an induction coil and process for its manufacture - Google Patents

Abstract

The invention relates to a contactless chip card and a method for its manufacture. The chip card presents a semi-conducting chip, an induction coil(4) consisting of a spiral shaped conductor path segment and at least one other passive component. According to the invention all passive components i.e. induction coil (4), capacitor (2,2'), resistance (3) are manufactured directly on the body base of the card in one operation in the form of two dimensional structures e.g. by printing or inlay-etching technology. The passive components are defined by the arrangement and geometric form of the conductor path segments. A module (1) supporting the semi-conducting chip presents bridging webs (5, 6,..., 9) enabling the production of connections to the components.

Description

The invention relates to a chip card with a basic card body by and with at least one semiconductor component, an inductor tion coil for data and energy exchange and at least one another passive component. The invention further relates to a Method for producing such a chip card.

In addition to chip cards with a contact field consisting of six to eight elec trical contact areas via which a connection to the data and Energy transmission is established by means of a card reader, so-called contactless chip cards are also known. It is an induction coil is provided in the chip card, with which the transfer is carried out contactlessly. The induction coil is part of a resonant circuit, in which as another passive components a capacitor and an ohmic resistor lie. As a capacitor for the exact frequency tuning surface mounted capacitors set. They often have such a height that this leads that these contactless chip cards are made relatively thick det. It is therefore not possible to match that in one the ISO standard given external dimensions of the chip card hold, which sets the card height to a maximum of 0.84 mm.

The invention has for its object a Chipkar te of the type mentioned to create the particularly flat and which are manufactured using a simple process can.

The object is achieved in that all passive components the resonant circuit, d. H. Induction coil as well as at least one  Capacitor and a resistor, together in a single process in the form of two-dimensional conductor track structures the card body are manufactured. That has the advantage, that no more assembly of discrete passive components must be done, what is more, the warehousing makes redundant, accelerates the production process and the Reliability increased.

The passive components are all geometrical Structures formed side by side on one level. they wear practically not in height, so that the chip card as a whole is hardly thicker than the basic map. The corresponding The ISO standard can therefore be easily complied with.

These conductor track structures are preferably produced by printing an electrically conductive material or a Inlay etching technique on a metal layer. Thus, the Structures quickly, on the one hand, and with the required precision in a single layer or level be fathered.

An advantageous development of the invention consists in that the ohmic resistance in the form of a conductor track section with a reduced cross-sectional area, preferably an on lacing of the width, is present. In this way, the Resistance value in a particularly simple way by the geome trie of the conductor track can be determined.

The induction coil is according to a preferred embodiment the invention by a spiral-shaped conductor track educated. This trace can be of a sufficiently large size Inside diameters can be arranged along the edges of the card. The beginning and end of the spiral are with contact surfaces Chen to provide an easy connection with to enable the semiconductor device.  

It is particularly advantageous that the capacitor is divided by two spaced and electrically insulated opposite conductors is formed. You can use it as a blind wind or two be formed against the induction coil. The capacitor area can be increased in that the opposite Lei tracks additionally have fingers or teeth that are in contact with each other of combing or interlocking.

The semiconductor component is preferably on a chip carrier is also referred to as a module, which electrical Has connections for contacting the passive components. These connections are expediently designed as webs det, up to the contact surfaces of the passive components lead. This makes it a particularly simple assembly possible that the webs as bridges to the electrically insulated Bridging conductor track sections are formed. The also has the advantage that the geometry and the course of the Traces for the passive components largely without back view of the contact points.

It is advisable that the bridges on the side that the bridging conductor track sections facing an elek trically insulating layer and on the opposite opposite side are electrically conductive, and that the associated contacting areas as plated-through holes are formed. Common materials and techni ken can be used for manufacturing and assembly.

It is particularly simple that the bridges as glass epoxy supports are formed with a copper structure on one side. After a be preferred alternatives are the bridges as webs of a metallic rule lead frame with one-sided paint insulation det. The lead frame can also further webs and fin ger with which other connections of the chip verbun they are.

The invention is explained in more detail below on the basis of an exemplary embodiment shown in the drawing. The schematic representation in the single figure shows
a partial plan view of a basic card body of a chip card in the area of an assembled module.

In the representation of the figure, the plane of the drawing corresponds to a surface of a basic card body (ticking) which is glued to a further layer to form an operational chip card. The area shown comprises a module 1 , which carries a semiconductor chip (not shown). The module can be designed as a metal leadframe carrier (leadframe carrier) or as a glass epoxy carrier. It is inserted in a recess 40 of the chip card flush with the surface and is glued on.

Passive components are printed on the surface of the basic card body by two-dimensional geometric structures of a metallic conductive material, for example aluminum, or applied by a deposit-etching technique. The passive components are two condensers 2 , 2 'and a resistor 3 in the immediate vicinity of the module 1 and an induction coil 4 , which is only shown in the neighboring area of the module 1 . The coil 4 ver runs along the outer circumference of the basic card body. The induction coil 4 is used for the contactless transmission of data and energy from an external laser (not shown) to the semiconductor chip on the module 1 . The capacitors 2 , 2 ', resistor 3 and induction coil 4 form a resonant circuit connected to the semiconductor module 1 .

One capacitor 2 is formed by two parallel, spaced-apart conductor track sections 20 , 21 , each of which has a plurality of fingers spaced apart from one another perpendicularly to it. The fingers 14 form two comb-like structures with the conductor track sections 20 , 21 , the fingers 14 of one structure engaging in the interstices of the other structure. The capacitance is formed in the manner of a multilayer plate capacitor by the fingers 14 lying opposite one another.

The resistor 3 is formed in that a Leiterbahnab cut over a predetermined length with a cross-sectional reduction or a constriction 30 is provided. The counter stood 3 is defined by the conductor cross-section.

The coil 4 consists of a spiral-shaped conductor track section several times, the two end sections in the figure having flat contacting areas 10 , 11 in the vicinity of the module 1 . In the figure, cutouts 41 of the coil conductor are also shown.

The other capacitor 2 'of this circuit example is formed by two blind turns 42 of the coil 4 . The blind windings 42 represent extensions of the coil ends at the contact regions 10 , 11. They run parallel and at a predetermined distance from one another over a predetermined length along the conductor track sections of the coil 4 .

The capacitor 2 and the resistor 3 are connected to an end section of the coil 4 adjacent to the coil contacting region 10 by T-shaped branches 22 and 31 of the relevant conductor track sections. The other connection of the capacitor 2 is formed by a flat contacting area 12 . In the same way, the other connection of the resistor 3 has a flat contact area 13 .

All contacting areas 10 to 13 of the passive components 1 , 2 , 3 are produced in the same way as the conductor track sections as two-dimensional structures directly on the card base body together with the conductor track sections. You are connected to the module 1 via connecting webs 5 , 6 , 7 electrically lei tend. The connecting webs 5 , 6 , 7 are formed in one piece with the carrier material of the module 1 . Accordingly, they have an electrically insulating metallic lead frame carrier or a glass epoxy carrier, depending on the carrier material of module 1 . Furthermore, they have an electrically conductive layer which runs on the side of the electrically insulating carrier facing away from the conductor track sections. The electrically conductive layers of the connecting webs 5 to 7 are provided on the card base body-side contacting areas 10 to 13 with plated-through holes, so that when assembling the module 1, an electrically conductive connection can be made in a simple manner by soldering or with electrically conductive adhesive.

The connecting webs 5 and 7 are designed as bridges 8 , 9 for electrically insulating bridging of conductor track sections of the capacitor 2 or the coil 4 . Via the web 5 , the contacting area 12 of the capacitor 2 and the contacting area 11 of the coil 4 are connected to the module 1 , the relevant connections of the capacitor 2 and the coil 4 being connected to a common one by the electrically conductive layer of the web 5 Connection point.

As an alternative to the exemplary embodiment shown, a connecting web or a bridge can be provided with a plurality of electrically insulated metal layers, so that contact areas on the chip card side can also be connected to the module 1 with a web or a bridge, which should not be brought together to form a common connection point. For example, the two connecting webs 5 and 6 form a common electrically insulating carrier layer on which, at a distance from one another, an electrically conductive layer leads on the one hand to the contacting area 10 and on the other hand to the contacting areas 12 and 11 .

Claims (15)

1. chip card with a card body and with at least one semiconductor component, an induction coil for data and energy exchange and at least one further passive component ( 2 , 2 ', 3 ), characterized in that all passive components ( 2 , 2 ', 3 , 4 ) are formed from two-dimensional conductor track structures directly on the basic card body. 2. Chip card according to claim 1, characterized in that an ohmic resistor ( 3 ) is formed by a conductor track section with a reduced cross-sectional area. 3. Chip card according to claim 2, characterized in that the reduced cross-sectional area is formed by a constriction ( 30 ) of the width of the conductor track section. 4. Chip card according to one of the preceding claims, characterized in that the coil ( 4 ) is formed by a spiral-shaped conductor track. 5. Chip card according to one of the preceding claims, characterized in that a capacitor ( 2 ) by two electrically insulated from each other, opposite at a predetermined distance Lei terbahn sections ( 20 , 21 ) is formed. 6. Chip card according to claim 5, characterized in that the opposite conductor track section ( 20 , 21 ) of the capacitor ( 2 ) have fingers ( 14 ) or teeth which mesh with each other. 7. Chip card according to claim 5, characterized in that the opposite conductor track sections of the capacitor Kon ( 2 ') are formed by blind turns ( 42 ) of the coil ( 4 ). 8. Chip card according to one of the preceding claims, characterized in that the semiconductor module is placed on a module ( 1 ) with connecting webs ( 5 , 6 , 7 ) with contacting areas ( 10 , 11 , 12 , 13 ) for the passive components ( 2 , 3 , 4 ) are provided. 9. Chip card according to claim 8, characterized in that connecting webs ( 5 , 7 ) as bridges ( 8 , 9 ) for electrically isolated bridging of conductor track sections are formed. 10. Chip card according to claim 9, characterized in that the bridges ( 8 , 9 ) have on the side to be bridged conductor sections facing an electrically insulating layer and are electrically conductive on the opposite side, and that the associated contacting areas Kon ( 10 , 11 , 12 , 13 ) are designed as plated-through holes. 11. Chip card according to claim 10, characterized in that the bridges ( 8 , 9 ) are designed as a glass epoxy carrier with a copper structure on one side. 12. Chip card according to claim 10, characterized in that the bridges ( 8 , 9 ) are designed as webs of a metallic connecting frame with one-sided lacquer insulation. 13. Method of making a contactless, a card basic body-containing chip card, which is a semiconductor module, one essentially made up of a spiral shape fenden trace existing induction coil and at least has a further passive component, characterized, that all passive components together in one operation Shape of two-dimensional conductor track structures directly on the Map bodies are generated. 14. The method according to claim 13, characterized, that the two-dimensional structures of the passive components be printed on. 15. The method according to claim 13, characterized, that the two-dimensional structures of the passive components can be produced using a deposit etching technique.