DE102007019272A1 - Antenna adapter for card-shaped data carrier, has flexibly designed antenna holder comprising antenna, and antenna connection holder that is formed to cooperate with flat side of data carrier - Google Patents

Abstract

The adapter (1) has a flexibly designed antenna holder (3) comprising an antenna (5) and an antenna connection connected with the antenna, where the antenna connection is arranged in an antenna connection holder (2). The connection holder is formed to cooperate with a flat side of a data carrier and formed as a foil. A data carrier holder is provided with an accommodation area for accommodating the data carrier, where the area is formed as a flat recess. An independent claim is also included for a system comprising a mobile phone and an antenna adapter.

Description

The The invention relates to the technical field of card-shaped data carriers with integrated circuit for contactless functionalities equipped with an antenna. The invention further concerns a system comprising a mobile phone, a SIM card and a such antenna.

Card-shaped disk with integrated circuit, in particular chip cards or smart cards, the one antenna for the contactless communication with the integrated circuit of the disk are in a variety of different embodiments known, for example, as smart cards with contactless functionality for the contactless Payments, for ski passes, for access control or for the use of public transport. Such functionalities can be basically also on SIM cards (subscriber identity module) realize. SIM cards are chip cards in a smaller format, mostly in the format ID-000 according to GSM11.11 and TS102.221 and are used in mobile phones to the Authenticate mobile phone when logging into a mobile network. Since the SIM card is already present in the mobile phone, offers it's about using the SIM's integrated circuit as well, additional contactless functionalities to realize on the mobile phone.

For the contactless functionalities is In addition to appropriate hardware and software adjustments an antenna required. Because of the small format SIM cards do not offer enough space for a built-in antenna with appropriate range. Also can the for the SIM card in front of the installation location in the mobile phone for the antenna unfavorable be, for example because of shielding by neighboring components, such as a rechargeable battery. This problem can in appropriate Also occur with electronic data carriers of other types and forms, in other devices be used.

In the DE 10 2004 029 984 A1 It is proposed to design a portable data carrier, in particular a SIM card for mobile telephones, with an integrated antenna in such a way that the integrated circuit of the data carrier is arranged in a first flat-piece-like region and the antenna in a second flat-like region, wherein the flat-like antenna region is flexible is. The first flat piece-like area has the usual dimensions of a standard SIM card and can be used in a conventional manner in a mobile phone. The flat-piece antenna portion may be bent over, for example, around a battery of the cellular phone, so that the antenna is not unnecessarily shielded by components of the cellular phone. The surface of the flat-piece-like antenna region can accordingly be made substantially larger in area than the first flat-piece-like region containing the integrated circuit.

To make the production of such a data carrier more flexible, is in the DE 10 2004 029 984 A1 proposed to produce the two flat-piece-like areas separately and via a plug-in device 22 to connect with each other. For this purpose, connecting lines are provided in the data carrier, which lead from the integrated circuit to a connection on a side edge of the data carrier to which the sheet-like antenna region is mechanically fixed in order to produce a galvanic connection. The proposed solutions are structurally complex and correspondingly expensive to realize.

The The present invention therefore deals with the problem as much as possible easier and cheaper Way card-shaped disk, which have an integrated circuit, with an antenna equip.

These The object is achieved by an antenna adapter having the features of the claim 1 solved. One A system comprising a mobile telephone, a SIM card and such an antenna adapter, is specified in claim 21. The dependent claims relate to advantageous developments and refinements of the invention.

With the aid of the antenna adapter according to the invention, conventional card-shaped data carriers with integrated circuit, in particular SIM cards in the form of plug-ins or mini-plug-ins for mobile phones, can be equipped with an antenna for contactless data transfer over medium ranges (for example near field communication NFC). The antenna adapter according to the invention comprises corresponding to the above-described prior art, an antenna which is arranged in a flat piece flexibly formed antenna holder, as well as an antenna terminal connected to the antenna. Unlike in the prior art, however, the antenna terminal is not designed as a plug connection, but in turn is in a flat antenna connector, which is connected to the antenna holder, for example via a cable and which cooperates with a flat side of the card-shaped data carrier, with the integrated circuit to communicate with the disk. In this way, it is possible to use the already present in the disk interface device over which communicates the integrated circuit of the disk with an external device for communication with the antenna, without requiring a Mo the data carrier is required. Rather, conventional data carriers can be upgraded by suitable placement of the antenna adapter on one of its flat sides for additional contactless functionalities.

In usually have such data carriers over Contact field with six or eight contact surfaces for the contact-type data transfer, which are standardized and comply with the standard ISO / IEC 7816-2 with C1 to C8. From these contact surfaces, for example, the contact surfaces C4 and C8 for the antenna contacting can be used. Owns the integrated Circuit of the data carrier an S2C interface (an interface defined by Philips) for NFC devices), so can the connections SIGIN provided therein for the Signal input and SIGOUT for the signal output equally over the Contact surfaces C4 and C8 are addressed. Likewise, the antenna connections of a Dual-interface chips, equipped with a passive RFID interface (radio frequency identification), via the contact surfaces C4 and C8 are contacted. Accordingly, the antenna connector becomes of the antenna adapter over The contact field places a galvanic contact between the antenna connection and the contact surfaces C4 and C8 come about.

Other disk are only or in addition (dual interface card) with a contactless interface for contactless data transfer equipped, z. To ISO / IEC. Also with such an interface, which in usually operates inductively or capacitively, the antenna adapter communicate when the antenna connector corresponding to the contactless data transfer is formed from and in the receive / read area of the interface of disk is placed.

Of the Antenna terminal holder can be easily formed as a foil be, for example, polyimide. A foil contributes to the total thickness of the card-shaped data carrier only insignificant and is usually the use of the disk in the usual device-side Disk recordings are not hinder. Preferably, the antenna connection holder is used as an adhesive label formed, optionally covered by a removable adhesive protective film, so that the antenna connector holder after peeling off the protective film in an uncomplicated way on the flat side of the card-shaped data carrier over the Disk interface can be applied.

Around to facilitate the exact positioning of the antenna connection holder, it is advantageous if the peripheral contour of the antenna connection holder the dimensions of the data carrier equivalent. In the case of a SIM card have the circumferential contours then ID-000 format and in case of a mini-P1ugIns the size of the 3rd form factor.

If by means of the antenna connection holder also contact surfaces of Contact field covered with the communication of the disk with an external device needed be, in particular so the contact fields C1 to C3 and C5 to C7, so it is advantageous in the appropriate places of the antenna connection holder Provide vias, so that contact from outside through the antenna connection holder through to the actual contact surfaces of the Media contact field can be produced.

According to one preferred embodiment of the invention has the antenna adapter a flat-like Disk Holder with a recording area for receiving the data carrier. The flat-piece Disk Holder and the flat-like Antenna holder can also be realized as an integrally formed flat piece. In the latter case, as far as in use, the contact surfaces of disk from the disk holder are covered, serving for external contacting vias the antenna terminal in the serving for receiving the data carrier Recording area of the disk holder.

Of the Recording area of the disk holder can according to a first variant as a shallow depression in the disk holder be educated. Therein, the disk can be used in a simple manner and for example clamped or glued. According to one second variant, the receiving area in the disk holder be formed pocket-like. The disk will be easier then Way inserted into the pocket-like receiving area.

Of the Recording area of the disk holder is preferably designed for receiving a standardized card-shaped data carrier, especially for recording a mini plug-in with the size of 3rd Form factor. The disk holder itself preferably has at least one peripheral contour which the standardized dimensions of a data carrier with an ID format. For example, the perimeter contour of the disk holder ID-000 Have format, so SIM card format, with its recording area is formed, for example, for receiving the aforementioned mini-P1ugIns, its peripheral contour barely over that of the usual Contact field goes out.

If the antenna connection holder is not realized together as an integrally formed flat piece with the disk holder, the An th nenanschlusshalter, for example, in film design, attached at a suitable location on a flat side of the arranged in the receiving area of the card carrier holder data carrier. The disk holder and the antenna connector holder can form a pocket for the disk. In particular, it is within the scope of the invention if the antenna connection holder is connected to the disk holder after the insertion of the data carrier into the receptacle of the disk holder, for example, glued.

Of the The antenna-carrying antenna holder is designed to be much larger in terms of area as the antenna connector holder and the disk holder. The antenna holder an antenna adapter for a SIM card of a mobile phone is accordingly larger than the SIM card itself, but preferably smaller than the largest side surface of a Batteries of a mobile phone, so that the antenna holder on a Side of the battery can be placed while the SIM card, for example, under or next to the battery.

Antennenhalter and antenna connection holders are connected to each other via a cable. It is advantageous for manufacturing reasons, if all three components - antenna holder, Cable, antenna connector - off one piece are made, for example, based on a single polyimide film or other foil.

Around to prevent the performance of the antenna from being disturbed, as for example by the battery of a mobile phone, can the antenna is specially shielded. These are preferably on the antenna connector a very thin copper layer and a Applied ferrite layer, for example, glued in foil form. The Copper layer ver unifies any interference, as for example batteries different mobile phones can cause different interference. The Ferrite layer shields the antenna. The layer structure is therefore as follows: copper layer - ferrite layer - polyimide layer with the antenna, wherein in the installed state, the copper foil the battery a mobile phone faces. The antenna itself is preferably formed by one or preferably several antenna turns. But Other antenna types, for example dipole antennas, can also be used in the Framework of the invention are used.

Because of for example for an antenna for a SIM card provided installation between the battery of the mobile phone and the battery cover, however, does not have enough room in some cases for one Such shielding with sufficient thickness. Furthermore, form and / or material of the shielding layer depending on the type of mobile telephone, in which the antenna is to be used to choose different, which a cost effective, uniform production is prevented. To account for this circumstance To carry the antenna adapter, even in tight installation conditions to be usable, according to a preferred embodiment of the invention include a circuit which together with the antenna and the integrated circuit of the disk forms an actively transmitting transponder unit. The circuit is coupled with the antenna and the antenna connector. In this way may alternatively and / or additionally to the shielding layer of a range limitation of the antenna by any Counteracted disturbances become. In a preferred embodiment, the circuit is flat formed and arranged on the antenna holder of the antenna adapter. The circuit needed practically no additional Space and thus can be used advantageously.

Becomes a system consisting of a mobile phone, a SIM card, an antenna adapter according to the invention and a circuit described above, so can in one embodiment such a system integrates the circuit in the disk be, so for example in the plastic module of the SIM card. The circuit needed here, too, practically no additional Room.

following the invention will be described with reference to the accompanying drawings. Show:

1 a first embodiment of an antenna adapter according to the invention with SIM card schematically in plan view,

2 the antenna adapter with SIM card according to 1 in cross section,

3 A second embodiment of an antenna adapter according to the invention with SIM card schematically in plan view,

4 A third embodiment of an antenna adapter according to the invention in SIM card format with mini plug-in schematically in plan view,

5 A fourth embodiment of an antenna adapter according to the invention, similar to that in 4 with a circuit for actively transmitting a signal,

6 purely schematically a transponder unit, and

7 a fifth embodiment of an antenna adapter with a device port.

The 1 and 2 show a first embodiment of an antenna adapter according to the invention 1 schematically in plan view and in cross section in connection with a SIM card 20 in ID-000 format, which is an integrated circuit 21 owns that in the body of the sim card 20 is integrated as a chip module. In the plan view in 1 is from the chip module 21 the contact field 22 visible, which, however, because it is under an antenna connector 2 of the antenna adapter 1 is shown by dashed lines. The contact field 22 has contact pads C1 to C8 for contact-type communication with external interfaces.

The antenna adapter 1 consists of the antenna connection holder 2 , an antenna holder 3 and one the antenna connector 2 with the antenna holder 3 connecting footbridge 4 that z. B. are formed from a common polyimide film. The jetty 4 can also be made wider and, for example, the width of the SIM card 2 correspond. The antenna holder 3 carries a coil antenna 5 with several turns, and the antenna connector 2 carries one out of two contacts 6 and 7 formed antenna connection with the antenna 5 via a two-core connection cable 8th is galvanically connected.

The peripheral contour of the antenna connection holder 2 corresponds to the shape of the SIM card 20 in ID-000 format. It can also be made smaller and at least be designed so that they with their contact terminals 6 . 7 over the contact surfaces C4, C8 of the contact field 22 attachable. The antenna connection holder 2 is formed in the illustrated embodiment as an adhesive label, so that it with the upper flat side of the SIM card 20 over an adhesive layer 9 is firmly connected. The adhesive layer 9 is penetrated by the contact terminals 6 . 7 so that they have the contact pads C4, C8 of the SIM card 20 to contact. At the other contact surfaces C1 to C3 and C5 to C7 are plated-through holes 10 in the antenna connection holder 2 present, allowing a contacting of the SIM card 20 with external interfaces remains possible. That is, the top of the foil repaints the covered SIM contacts so that the SIM card in the mobile phone is functioning properly.

To contact the contact field 22 to improve the SIM card, points the antenna connector 2 at the appropriate places small bumps that can be produced in the film, for example by embossing, before the antenna adapter with the SIM card 20 is connected.

3 shows a second embodiment of an antenna adapter according to the invention 1 , Here is the antenna connector 2 Pocket-like designed to hold the SIM card 20 can be inserted. On the adhesive bond 9 can then be dispensed with. Also, a replacement of the SIM card 20 is made easier. The antenna connection holder 2 is again formed by a film that is sufficiently thin that the SIM card 20 with the pocket-shaped antenna connection holder 2 Can be used in a mobile phone, without having to change the device. It may be appropriate to form the bag open on two sides and possibly the SIM card 20 transversely, as in 3 to insert longitudinally.

The pocket-shaped antenna connection holder 2 but can also, similar to the example described below 4 be formed larger than the volume to be included therein, and for example, even have SIM card format or another standardized card format, in the bag then a disk is recorded with a correspondingly smaller format.

So it is in the embodiment according to 4 , In this case, the antenna adapter has 1 one separately to the antenna connection holder 2 trained disk holder 11 with a reception area 12 , which is not pocket-shaped here, but provided as a shallow depression. The disk holder 11 itself is the size of a standard SIM card in ID-000 format, but could have a different format. In the recording area 12 is a mini plugin 30 used with the size of the 3rd form factor. A mini-plug-in consists essentially only of a chip module and has dimensions that are only slightly larger than the standard dimensions of the contact field 22 are.

The antenna connection carrier 12 is here formed comparatively small and covered by the contact surfaces of the contact field 22 only the areas C4 and C8 with its contact terminals 6 and 7 , It spans the lower part of the recording area 12 , so that here again a kind of bag for receiving the mini plug-in 30 results.

In the embodiment according to 4 are the antenna connector 2 and the antenna holder 3 separately formed and via two separate cables 14 connected with each other. This allows the antenna holder 3 be installed more flexibly in a mobile phone.

For shielding purposes, the antenna adapter 1 the described embodiments, at least in the region of the antenna holder 3 be formed multi-layered and, for example, on a side facing the installation a disturbing influence side first a copper foil and then have a ferrite film. Such an antenna adapter is then particularly suitable, for example to be folded around the battery of a mobile phone. The SIM card 20 or the MiniPlugIn 30 then lie below the battery and the large-area antenna holder 3 on the opposite side of the battery. When the battery and the SIM card 20 or the MiniPlugIn 30 within the mobile phone instead are arranged side by side, it may, depending on the situation, whether the antenna holder 3 should be located above or below the battery, be expedient, the aforementioned shielding additional layers on the other side of the antenna holder 3 provided.

A further embodiment, shown here on the basis of the embodiment according to 4 , is in 5 to see and includes a circuit 100 that together with the antenna 5 and the integrated circuit of the Mini-P1ugIn 30 forms an actively transmitting transponder unit. The circuit 100 is flat and on the antenna holder 3 arranged. It is also possible the circuit 100 into the plastic module of the antenna adapter 1 to be coupled to the data carrier ( 20 ; 30 ) to integrate. In this way, as an alternative and / or in addition to the shielding layer, a range limitation of the antenna can be counteracted by any disturbing influences.

The Transponder unit sends a signal to a reader for data transmission, which the reader as a signal of a transponder can evaluate the load modulation of the field of the reader performs. Unlike conventional transponders, the the field of the reader to a modulated reader field The transponder unit modulates, generates and sends its own modulated field as the signal of data transmission. The transponder unit thus uses its own energy for the purpose of data transmission.

6 schematically shows the actively transmitting transponder unit 120 , The transponder unit has a power supply 102 , the antenna 5 as well as the electronic circuit 100 , The circuit 100 consists essentially of three functional blocks: a receiver 104 , a controller 105 and a transmitter 106 , A switch 107 serves to switch the antenna 5 between the receiver 104 and the transmitter 106 , The energy supply 102 Usually takes place via the battery of the mobile phone in which the data carrier to be coupled with the antenna adapter is inserted. But even a simple battery can serve.

The recipient 104 is intended to demodulate a signal transmitted by the reader to extract data therefrom. The extracted data will be sent to the controller 105 forwarded, which it processes and generates to the reader to be sent data. Furthermore, the controller transmits 105 a control signal on the switch 107 which between reception and transmission operation of the transponder unit 120 switches. However, it may instead be provided for sending a separate antenna. The control 105 can be, for example, part of the operating system 105 ' the SIM card 30 be supported or replaced.

The transmitter 106 consists of an oscillator 108 , a modulator 109 and a power amplifier 110 , Furthermore, the transmitter 106 to an electronic assembly 111 for generating and modulating a subcarrier signal to facilitate data transfer from the transponder unit 120 to perform the reader by means of the subcarrier signal. Depending on the use of the transponder unit, the subcarrier signal may have different frequencies, and may even be omitted altogether.

In the in 6 shown transponder unit 120 is provided that the assembly 111 by means of a frequency divider 112 divides the oscillator frequency by a certain factor, for example by binary division. The subcarrier signal generated thereby is combined with the data to be transmitted, which the module 111 from the controller 105 be fed, modulated.

The modulation of the subcarrier in the assembly 111 takes place for example in an AND gate 113 by a so-called 100% amplitude key shift (ASK). In this case, the amplitude of the signal generated by frequency division is switched on the basis of the data to be transmitted between two states ON and OFF. Alternatively, a (B) PSK modulation (binary phase key shifting), for example according to ISO 14443 type B, or an FSK modulation (frequency key shifting) can take place.

Both the oscillator signal and that in the module 111 generated ASK-modulated signal are the modulator 109 fed. The modulator 109 can be used as a ring modulator, for example 109 be educated.

The ring modulator 109 has the special feature that it performs a special form of amplitude modulation. As with the usual amplitude modulation, two spectral lines in the frequency spectrum considered at a distance of the frequency of the ASK-modulated signal to the frequency of the oscillator signal, the so-called carrier frequency generated. In the case of amplitude modulation in the ring modulator 109 the carrier frequency of the strong and high-energy oscillator signal is largely under suppressed. The data to be transmitted contained in the ASK-modulated signal are located after the amplitude modulation in the ring modulator 109 in sidebands around the two spectral lines of the auxiliary frequency. Such a modulation is called double-side-band (DSB) modulation or double-side-band supressed carrier (DSSC) modulation. The carrier frequency does not transmit data. Rather, by the use of the ring modulator 109 , which suppresses the carrier frequency, achieves the goal of being able to send data to the reader either at low transmit power or at a much higher range. The increased range is especially possible if the entire transmission power is plugged into the sidebands in which the data to be sent are located. Although the carrier frequency is basically needed for demodulation of the signal to the reader of the transponder unit 120 to extract transmitted data. Since the carrier frequency is present anyway in the reader, it is not necessary that the transponder signal itself contains this frequency.

At the output of the ring modulator 109 Then there is an output signal which contains the two modulation sidebands and with a signal generated by load modulation or Rückstrahlquerschnittsmodulation (sufficiently accurate) matches. The output signal generated by the ring modulator can then be amplified by means of an amplifier 110 possibly be strengthened and the switch 107 which is controlled by a signal 105 on transmission operation of the transponder unit 120 is switched, the antenna 5 be sent to send the data to be sent.

The transponder unit 120 is operated in a first (active) mode of operation as an actively transmitting transponder unit. In a second (passive) mode of operation, however, the transponder unit operates like an ordinary passive transponder performing load modulation on the field of the reader. For example, the recipient 104 in addition, as a conventional, through the controller 105 be designed controlled load modulator. The controller then either switches the transmitter 106 on and off the load modulator or the transmitter 106 from and the load modulator. The desk 107 will be switched accordingly. As a criterion for switching from a passive to an active operating state, for example, the received signal strength, the presence and / or sufficiency of an external power supply or the sufficiency of an internal power supply serve. It is thus possible, for example, a transponder unit 120 to operate passively and to switch to, for example, unintentionally increasing distance to the reader in an active operating mode. It can also be provided that the switching depends on the height of one at the antenna 5 induced voltage, for example, automatically, when the induced voltage exceeds or falls below a certain value.

The type of application for which the data is transmitted may also be a criterion for the operating mode. So should the transponder unit 120 For safety-critical applications, only work in passive mode. In contrast, a non-critical application will generally operate in the active mode of operation. A means is provided for manual, non-automatic switching between the active and passive modes of operation, for example, to protect privacy and actively prevent long range readings of sensitive data.

Furthermore, the circuit 100 have a voltage limiter, which is provided at the antenna 5 to limit voltage induced by the reader. Thus, among other things, an overload problem can be avoided if the transponder unit 120 and the reader are located at a small distance from each other. As a voltage limiter, for example, a shunt regulator can be used.

In WO 2006/000446 A1 discloses a transponder unit and a circuit described as used here. Regarding further circuitry Embodiments and alternatives are related to the named font taken.

7 illustrates a further embodiment of the antenna adapter 1 , In it are the antenna holder 3 and the disk holder 11 integrally formed. The circuit 100 is again flat and on the antenna holder 3 arranged. The recording area 12 of the disk holder 11 is as a socket for holding a SIM card 30 designed in the size of a mini plug-in. The design of the receiving area 12 for receiving card-shaped media of other formats is also possible. A device connection 50 that with the reception area 12 of the disk holder 11 via flexible separate cables 14 is connected instead of the SIM card in the mobile phone and has accordingly SIM card format. About the flexible cables 14 receives the SIM card 30 the necessary signals for operation, such. VCC, GND, I / O, RESET, CLK, from the device port 50 , The circuit 100 is via the device connection 50 powered by the battery of the mobile phone.

Although the invention has been exemplified using a SIM card or a SIM module for a mobile phone. However, the invention is adapted accordingly antenna adapter also in connection with other electronic data carriers and / or other electronic devices applicable.

Claims (37)

Antenna adapter ( 1 ) for a card-shaped data medium ( 20 ; 30 ), comprising a flat, flexibly formed antenna holder ( 3 ) with an antenna ( 5 ) and one with the antenna ( 5 ) connected antenna connector ( 6 ; 7 ), whereby the antenna connection ( 6 ; 7 ) in a flat antenna connector ( 2 ), which is formed with a flat side of a card-shaped data carrier ( 20 ; 30 ) to cooperate. Antenna adapter ( 1 ) according to claim 1, characterized by a flat piece of disk holder ( 11 ) with a receiving area ( 12 ), for receiving a card-shaped data carrier ( 20 ; 30 ), the disk holder ( 11 ) and the antenna connector ( 2 ) may optionally be implemented as an integrally formed sheet. Antenna adapter ( 1 ) according to claim 2, characterized in that the receiving area ( 12 ) for receiving a standardized card-shaped data carrier ( 20 ; 30 ) is trained. Antenna adapter ( 1 ) according to claim 3, characterized in that the receiving area ( 12 ) for recording a mini plug-in ( 30 ) is formed with the size of the 3rd form factor. Antenna adapter ( 1 ) according to one of claims 2 to 4, characterized in that the receiving area ( 12 ) as a shallow depression in the disk holder ( 13 ) is trained. Antenna adapter ( 1 ) according to one of claims 2 to 4, characterized in that the receiving area ( 12 ) in the disk holder ( 11 ) is formed pocket-like. Antenna adapter ( 1 ) according to one of claims 2 to 6, characterized in that at least the peripheral contour of the disk holder ( 11 ) corresponds to the standardized dimensions of a data carrier with an ID format. Antenna adapter ( 1 ) according to claim 7, characterized in that the peripheral contour of the disk holder has ID-000 format. Antenna adapter ( 1 ) according to one of claims 1 to 8, characterized in that the antenna connection holder ( 2 ) is formed as a film. Antenna adapter ( 1 ) according to one of claims 1 to 9, characterized in that the antenna connection holder ( 2 ) is designed as an adhesive label. Antenna adapter ( 1 ) according to one of claims 1 to 10, characterized in that the antenna connection holder ( 2 ) Contact pads ( 6 ; 7 ) has positions which make contact with the C4 and C8 contact surfaces of a data carrier ( 20 ; 30 ) with integrated circuit ( 21 ). Antenna adapter ( 1 ) according to claim 11, characterized in that the antenna connection holder ( 2 ) Vias ( 10 ) at positions C1, C2, C3, C5, C6 and C7 relative to the contact pads ( 6 ; 7 ) at positions C4 and C8. Antenna adapter ( 1 ) according to claim 11 or 12, characterized in that the contact pads ( 6 ; 7 ) from a surface of the antenna connection holder ( 2 ) protrude. Antenna adapter ( 1 ) according to one of claims 1 to 13, characterized in that the peripheral contour of the antenna connection holder ( 2 ) corresponds to the dimensions of a standardized card-shaped data carrier. Antenna adapter ( 1 ) according to claim 14, characterized in that the peripheral contour of the antenna connection holder ( 2 ) matches the dimensions of a Mini-P1ugIn with the size of the 3rd form factor. Antenna adapter ( 1 ) according to claim 15, characterized in that the peripheral contour of the antenna connection holder corresponds to the ID-000 format. Antenna adapter ( 1 ) according to one of claims 1 to 16, characterized in that the antenna connection holder ( 2 ) with the antenna holder ( 3 ) via a cable ( 4 ; 14 ) connected is. Antenna adapter ( 1 ) according to claim 17, characterized in that the antenna holder ( 3 ), the cable ( 4 ) and the antenna connector ( 2 ) are made in one piece. Antenna adapter ( 1 ) according to one of claims 1 to 18, characterized in that the antenna ( 5 ) comprises several antenna turns. Antenna adapter ( 1 ) according to one of claims 1 to 19, characterized in that at least the antenna holder has a multi-layered shield comprising a copper layer and an overlying ferrite layer. Antenna adapter ( 1 ) according to one of Ansprü 1 to 20, characterized by a circuit ( 100 ), which is set up together with the antenna ( 5 ) and an integrated circuit of the antenna adapter ( 1 ) to be coupled card-shaped data carrier ( 20 ; 30 ) an actively transmitting transponder unit ( 120 ) to build. Antenna adapter ( 1 ) according to claim 21, characterized in that the circuit ( 100 ) is configured to transmit a signal which is evaluable to an external reader as a modulation by a transponder to transmit data in a first mode of operation to the reader. Antenna adapter ( 1 ) according to claim 21 or 22, characterized in that the circuit ( 100 ) is adapted to modulate the field of an external reader to transmit data in a second mode of operation to the reader. Antenna adapter ( 1 ) according to claims 22 and 23, characterized in that the circuit ( 100 ) is set to use the second operating mode within a communication range of an external reader and the first operating mode outside the communication range. Antenna adapter ( 1 ) according to one of claims 21 to 24, characterized in that the circuit ( 100 ) via a power supply independent of an external reader ( 102 ). Antenna adapter ( 1 ) according to one of claims 21 to 25, characterized in that the circuit ( 100 ) a receiver ( 104 ) for demodulating a signal received from an external reader to extract data therefrom; 105 ) arranged to process the extracted data and to generate data to be sent to the reader. Antenna adapter ( 1 ) according to one of claims 21 to 26, characterized in that the circuit ( 100 ) comprises a load or return cross-section modulator and a switching device which is set up, depending on the height of one at the antenna ( 5 ) induced voltage between the load or Rückstrahlquerschnittsmodulator and a circuit arrangement for generating an output signal to switch. Antenna adapter ( 1 ) according to claim 27, characterized in that the switching means is adapted to automatically switch from the circuit arrangement to the load or Rückstrahlquerschnittsmodulator when the induced voltage exceeds a predetermined value. Antenna adapter according to one of Claims 26 to 28, characterized in that the circuit ( 100 ) an oscillator ( 108 ) for generating an oscillator signal and a modulator ( 109 ) which is adapted to modulate the oscillator signal by means of data to be transmitted and to generate an output signal therefrom. Antenna adapter according to claim 29, characterized in that the circuit ( 100 ) an electronic assembly ( 111 ) for modulating a subcarrier signal having a certain frequency by means of in the controller ( 105 ) to send data to the modulator ( 109 ) to supply the data to be transmitted as a modulated subcarrier signal. Antenna adapter ( 1 ) according to one of claims 21 to 30, characterized in that the circuit ( 100 ) comprises means for temporarily deactivating the active transmission of a signal. Antenna adapter ( 1 ) according to one of claims 21 to 31, characterized in that the circuit ( 100 ) a voltage limiter for limiting one at the antenna ( 5 ) induced stress. Antenna adapter ( 1 ) according to one of claims 21 to 32, characterized in that the circuit ( 100 ) formed flat on the antenna holder ( 3 ) is arranged. Transponder unit ( 120 ) comprising a data carrier ( 20 ; 30 ) with an integrated circuit and a transponder antenna coupled thereto, characterized by an antenna adapter ( 1 ) according to any one of claims 21 to 33. System comprising a mobile telephone, a SIM card ( 20 ; 30 ) and an antenna adapter ( 1 ) according to one of claims 1 to 33, wherein the antenna holder ( 2 ) of the antenna adapter ( 1 ) is larger than the SIM card ( 20 ; 30 ). System according to claim 35, characterized that the SIM card is smaller is considered the largest side surface of a Batteries of the mobile phone. System comprising a mobile telephone, a SIM card ( 20 ; 30 ) with integrated circuit, an antenna adapter ( 1 ) according to one of claims 1 to 20 and a circuit ( 100 ), which together with the antenna ( 5 ) of the antenna adapter ( 1 ) and the integrated circuit of the SIM card ( 20 ; 30 ) an actively transmitting transponder unit ( 120 ), the circuit ( 100 ) in the card-shaped data carrier ( 20 ; 30 ) is arranged integrated.