DE10140662C1 - Chip card with integral switch used to enable a transaction, has contacts in cavity bridged by conductive section when card is pressed appropriately - Google Patents

Abstract

The pair of contacts (3) fixed in the cavity, has an associated bridging contact (4). A module projects into the cavity. When external pressure is exerted on the module, the bridge is pressed against the contacts. An Independent claim is also included for the corresponding method of enabling a transaction, especially of wireless electronic payment. Pressing the card produces and sends a pulse to the chip card module. Information conducting the transaction is then issued from the card, preferably in a wireless manner, to a card reader.

Description

The invention relates to a chip card with an integrated switch and a method for Release of a transaction using a chip card, especially for the electronic one Pay.

Various chip cards with integrated switches are from the prior art Known from DE 199 14 587 A1 is a chip card with a keyboard with individual Keypads known. With the help of the individual keypads, the user of the Chip card send the integrated semiconductor device information that  this is then processed and, if necessary, via a data transmission device other complementary institutions.

WO 99/16019 describes a portable data carrier, in particular a chip card Activation switch known. Between an antenna and a semiconductor chip Chip card is a switch operated by a user, so that a Data can only be received after pressing the switch.

DE 197 00 848 C1 describes an electrical switching device for a smart card known. The switching device can be integrated into the smart card so that it is not visible from the outside. On the outside of the housing of the smart card then a mark is made in the area of the switching element so that the User knows where to press to perform a shift ren.

A chip card with an external security switch is known from DE 42 05 556 A1. The switch is built into the chip card so that it can be operated from the outside and it allows the user of the card to intervene in the function of the electronics. With this Switch can be the power source on the card (battery or battery, but also Capacitor) can be switched on and off. In this way, the user can choose when the card emits its signals. This is a defined block and the Ak Activation possible in emergency situations. Two visible on the surface of the card Versions of the switch reveal the switch position for the user.

From DE 199 35 528 A1 a key switch for chip cards is also known, which in a contact area a flexible switching membrane with an electrically conductive contact surface che includes. The contact surface assigns the switching diaphragm in the unloaded state the contact area a distance. The flexible switching membrane has a curvature, For example, an embossed dome that spans the contact area.

The disadvantage of the chip cards with switches known from the prior art is common that two different for the switch and the chip card module Cavities must be present in the chip card. In addition, at least one  Mar marking for the position of the switch on the surface of the chip card, to signal the touch surface and / or the switch position to the user. Thereby is for example for the printing of advertising on the surface of the Chipkar The available area is restricted.

DE 196 45 083 A1 describes a contactless chip card with a transponder coil known. The transponder coil is arranged in the card body and has an on final contact pair on. The chip module of the chip card has a corresponding pair of An terminal areas. Between the connection surfaces of the chip module and the connection contacts is a switching element made of pressure-sensitive conductive rubber mat th.

To operate the switch, the chip module is pressed down so that the Switching element a contact in each case between a connection surface of the chip module and a connection contact of the coil is made. In this way, the Coil connected to an output of the chip module, so that the coil of the chip module can be controlled.

A disadvantage of this known chip card is that contacts both must be arranged within the cavity and on the chip module. This is fer technically very complex and expensive. Another major disadvantage is that the pushbutton switches are constantly pressed to activate the transponder coil got to. However, it is not clear to the user what period of time the submission took place information from the chip module via the transponder coil is required so that it malfunction may occur. Furthermore, there is also the need for the key switch Having to press down for a long time is inconvenient for the user.

The invention is therefore based on the object of an improved chip card with integ switch and an improved method for wireless transmission of an In formation, for example for wireless payment.  

The object underlying the invention is independent with the features of current claims solved in each case.

Preferred embodiments of the invention are in the dependent claims given.

The present invention allows the function of a switch, in particular one To be integrated into the module cavity of a chip card. This has the advantage that the separate installation of a cost-intensive separate element of the card is eliminated len, in which the manufacturing steps of module cavity and probe cavity together be led. Another advantage is that the switch allows for the application available ad surface is not limited becomes.

The invention allows a user, by briefly actuating the switch, d. H. by exerting an external pressure on the module of the chip card, an input undertake, for example, to enter a declaration or declaration of intent. By briefly pressing the button to enter a declaration of intent it is therefore possible that the integrated circuit of the module after receiving an ent speaking impulse releases a transaction and transmits corresponding data.

For example, this can be a wireless transaction. For this is the formation of the chip card according to the invention as a so-called dual interface card advantageous.

A preferred application for this is wireless payment, for example for the payment of the fare in local public transport. First, the Chip card loaded with a cash credit via its contact interface. The The fare is then paid when a corresponding wireless pass is made Card reader when the switch is pressed briefly by the user is done. This has the advantage that, for. B. when it passes several times or different card readers by the user the fare is not repeated  is debited automatically, but only after confirmation of the transaction by Drü on the part of the user.

However, the invention is in no way limited to such wireless applications. Rather, the invention also allows the integrated switch in the chip card activate or deactivate any other card functions, for example Display devices, the power supply, sensor functions etc.

A particular advantage of the present invention is that only one contact pair either fixed within the cavity or on the module itself for the Realization of the switching function is necessary. This has great manufacturing in particular technical advantages. When running the module in flip-chip technology it is particularly advantageous to integrate the contact pair on the underside of the module in which it is arranged, for example, in a metallization layer of the chip carrier becomes. This allows a particularly inexpensive and flat design of the with Integrated button module.

Hereinafter, a preferred embodiment of the invention will be referenced described on the drawings. Show it:

Fig. 1 A first embodiment of the invention in which the pair of contacts ty in the Kavi is arranged,

Fig. 2 shows a second embodiment of the invention in which the pair of contacts is arranged on the module,

Fig. 3 shows a preferred embodiment of an inventive method for inputting information into the chip card.

Fig. 1 shows a module 1 which is in the cavity of a card body 2 of a chip card is arranged. Different types of modules can be used, for example so-called TAB modules, chip-on-flex modules or flip-chip modules. Such modules are known per se from the state of the art, in this regard compare "Handbook of Chip Cards", Wolfgang Ranke, Wolfgang Effing, Karl-Hanser Verlag 1999 , in particular chapter 3.2.2, page 71 ff.

A contact bridge is located below the module 1 in the cavity. In the example of FIG. 1, the contact bridge is formed by a metal bracket 4 which is closed by silicone 5 . The silicone 5 is an isotropically conductive silicone conformal part.

Alternatively, an isotropically conductive molded rubber part can be used to embed the metal bracket 4 . It is also possible to dispense with the metal bracket 4 , so that the contact bridge is formed only by the isotropically conductive silicone or rubber material. It is also possible to implement the contact bridge only with a metal bracket.

On the bottom of the cavity of the card body 2 there are two contacts 3 , which form a pair of contacts.

To operate the key switch, the user exerts pressure on the surface of the module 1 , so that the contact bridge, ie the metal bracket 4 embedded in the silicone 5 , is pressed against the contacts 3 . This creates a conductive connection between the contacts 3 , ie the contacts 3 are short-circuited.

The short-circuit of the contacts 3 generates a pulse which triggers corresponding actions, for example a transaction, by input into the integrated electronic circuit of the module 1 . The pulse can be entered by a line connection (not shown in FIG. 1) from the contacts 3 to the module 1 .

FIG. 2 shows an alternative embodiment of the invention. Elements of FIG. 2 that correspond to elements of FIG. 1 are identified by the same reference numerals.

In contrast to the module of FIG. 1, module 1 of FIG. 2 is implemented in so-called flip-chip technology; for flip-chip technology, see "Handbuch der Chipkarten", Wolfgang Ranke, Wolfgang Effing, Carl-Hanser Verlag 1999 , pages 572, 573.

In contrast to the embodiment of FIG. 1, contacts 6 are on the module 1 . The contacts 6 can be implemented, for example, in a metallization level of the carrier of the chip of the module 1 , or can be applied in a separate manufacturing step to the side of the chip facing the contact bridge or to the material encasing the chip.

When pressure is exerted on the module 1 to actuate the button, the contacts 6 are pressed against the contact bridge, ie against the metal bracket 4 embedded in the silicone 5 . This creates a conductive connection between the contacts 6 , ie they are short-circuited.

A pulse can be generated by this short circuit. To generate the impulse in the embodiment shown in FIG. 2, the contacts 6 are connected via conductors on a metallization level of the carrier to an input of the chip. The short circuit between contacts 6 generated by depressing module 1 is then input as an input pulse into the integrated circuit of the chip of module 1 . For example, changing the input impedance in the integrated circuit results in the generation of a corresponding pulse. Thereupon, a program-controlled action can be triggered by the integrated circuit, for example for the release and / or execution of a transaction.

A particular advantage of the embodiment in FIG. 2 is that the use of flip-chip technology allows a particularly flat structure of the module and the switch. This also allows further molded parts for the button function and / or other functions to be accommodated in the cavity.

It is also advantageous that the flip-chip technology allows the short-circuiting contacts 6 to be produced by means of screen printing on the back of the chip.

In both the embodiment of FIG. 1 and FIG. 2, the activation of the integrated circuit can be carried out, for example, to release a transaction both as "active high" or as "active low". This means that, depending on the embodiment, the integrated circuit can be activated either when the button is pressed (active high) or when the button is not pressed (active low).

Fig. 3 shows a flowchart for entering information in a chip card according to the invention for an electronic transaction. In step 30 , the switch is first actuated by the user, for example to confirm his will to release a specific transaction, for example the payment of a fare. A brief actuation of the switch is sufficient here, ie it is not necessary for him to keep the switch pressed until the transaction is completed. However, a long-term operation of the switch does not hurt, since in each case only an electrical signal, e.g. B. a single pulse is generated in the subsequent step 31 .

The pulse is preferably generated by the Mo's integrated circuit duls itself, if one of its inputs is short by pressing the switch is closed. Such a short circuit will cause information, for example se entered the said expression of will of the user, so that the integrated Circuit releases a corresponding transaction.

In step 32 , a corresponding action is triggered in the integrated circuit to carry out the transaction. To carry out the transaction, for example in step 33 after starting a corresponding program module of the integrated circuit, which can be designed, for example, as a microcontroller, corresponding data are preferably transmitted wirelessly in order to be received and evaluated by a receiver, for example a card reader.

LIST OF REFERENCE NUMBERS

1

module

2

card body

3

contacts

4

metal bracket

5

silicone

6

contacts

Claims (15)

1. Chip card with integrated switch
a cavity,
a pair of contacts ( 3 ) fixed in the cavity,
a contact bridge ( 4 ) arranged in the cavity for closing a contact between the contact pair ( 3 ),
a module protruding into the cavity,
so that when an external pressure is exerted on the module, the contact bridge ( 4 ) is pressed against the contact pair ( 3 ). 2. Chip card with integrated switch according to claim 1, wherein the contact pair ( 3 ) is arranged in a lower region of the cavity. 3. Chip card with integrated switch
a cavity,
a module protruding into the cavity,
a pair of contacts ( 6 ) fixed to the module,
a contact bridge arranged in the cavity for closing a contact between the contact pair,
so that when an external pressure is exerted on the module ( 1 ), the contact bridge ( 4 ) is pressed against the contact pair ( 6 ). 4. Chip card with an integrated switch according to claim 3, wherein the module ( 1 ) is designed as a flip chip module. 5. Chip card with integrated switch according to claim 3 or 4, wherein the contact pair ( 6 ) is formed on a metallization level of a carrier of the module ( 1 ). 6. Chip card with an integrated switch according to claim 3 or 4, wherein the contact pair ( 6 ) is formed on the side facing the contact bridge of the chip or on the material encasing the chip. 7. Chip card with integrated switch according to one of the preceding claims 1 to 6, in which the contact bridge ( 4 ) is designed as a metal bracket. 8. Chip arte with integrated switch according to one of the preceding claims 1 to 6, in which the contact bridge ( 4 , 5 ) is formed as an isotropically conductive silicone or rubber molded part. 9. Chip arte with an integrated switch according to one of the preceding claims 1 to 6, in which the contract bridge ( 4 , 5 ) is formed by a metal bracket ( 4 ) embedded in an isotropically conductive silicon or rubber molded part ( 5 ). 10. Chip card with integrated switch according to one of the preceding claims 1 to 9 with means for generating an electrical signal, for example one Impulse when closing or opening the switch. 11. Chip card with an integrated switch according to claim 10 with means for input of the electrical signal in an integrated electronic circuit of the Mo duls.   12. Chip card with an integrated switch according to claim 11, wherein the integrated e electronic circuit of the module for automatic triggering of an action is formed after input of the electrical signal. 13. Chip card with an integrated switch according to claim 12, wherein the integrated e electronic circuit Computer program means for outputting information to a receiver after receiving the electrical signal. 14. Chip card with integrated switch according to claim 12 or 13 with wireless Ü bertragungsmitteln. 15. A method for releasing a transaction, in particular for wireless electronic payment, with the following steps:

• - Actuation of a switch integrated into a chip card according to one of the preceding claims 1 to 14 by a user to generate an electrical signal, for example a pulse,
• Input of the electrical signal into a module of the chip card,
• - Output of information for processing the transaction from the chip card, the output of the information preferably being wireless to a card reader.