DE19542900A1 - Contactless record carrier with loop antenna for transmission - Google Patents

Abstract

The record carrier is a chip card (10) carrying a module (2) connected to the data transmission antenna (3) coiled in one plane (4). Behind or in front of the plane, an additional coil (5) is short-circuited by a switch (9) between its ends (11). The coil comprises more turns than the antenna and is part of an auxiliary package (12) with electrically insulating spacing layers (7) containing the coil and switch. The card is attached to a metallic article with a reflector package containing a ferrite layer between additional coils.

Description

The invention relates to a contactless data carrier ger with coil-shaped antenna for elektromag netic data and / or energy transmission.

Contactless data carriers are e.g. B. in the form of contactless chip cards for a variety of uses offer used. They allow a touch loose data exchange between the data carrier and a writing or reading station. The data transfer takes place by transmission by means of an elek tromagnetic field without direct electrical Contact. Within the respective working distance between data carrier and read or write station it is possible to exchange data, without the card in a writing or reading device must be inserted.

There is a risk of unintentional Surrender of data or an unwanted change Information stored in the data carrier because there is a hidden read / write Stations or by unintentional approach Read or write stations of the data carriers read  or its data can be changed without the user notices this.

To protect the data carrier against unwanted reading it is known through temporary Isolate the disk with metallic foils etc. drastically limit the range.

However, this has the disadvantage that shielding ele elements such as flaps, sliders, panels or the like at each the intended use of the data carrier in ih situation must be changed. Still is by the presence of the protective cover or of the partitioning element near the data carrier in most cases a reduction in Read or write range of the data carrier can not be avoided.

On the other hand, increasing the range is desirable worth it because the maximum write or read range of contactless data carriers for Writing and / or reading station due to tolerances the manufacture of the data carrier (e.g. by Anten tolerances and capacities) and environmental influences, e.g. B. by metallic parts nearby of the contactless data carrier, through humans body, through clothing, through fasteners means of transport or transportation, by temperature influences and the like is reduced.

The invention is based, which Read or write range of the data carrier too  change without shielding or filtering elements to have to move.

The object is achieved by a con tactless disk with the specified in claim 1 characteristics resolved. Advantageous design conditions are specified in the subclaims.

This is done directly on the data carrier or in a Distance to disk or depending on the size of the Da carrier parallel to the plane or almost parallel to the plane lel to the coil-shaped antenna of the data carrier at least one additional coil with open ends arranges.

This additional coil will change the Disk oscillation circuit causes the purpose moderate dimensioning of the data carrier antenna and the additional antenna and the choice of a customized one Distance from disk antenna and the addition coil to a general increase in writing or Read range of the disk leads.

By arranging one additional coil each each side of the disk antenna can have a ver strengthening of this effect can be achieved.

Be the ends with at least one additional coil connected to each other or at least part of the Additional coil shorted and leaves this Connection or this short circuit through a scarf ting or tactile element permanently or time open wisely, is achieved on the one hand that the send or receive signals in the short circuit wrestle are almost completely absorbed that so the transmission or reception range ver  is wrestled and that on the other hand when open Additional coil short circuit the otherwise achievable maxi male read and / or write range of the data carrier gers is restored.

This gives the advantage that the data eng when intended use Record range-free data carriers increased range and if the data carrier is not used, none or only has a very small range. When using z. B. by pressing one opening pushbutton switch for maximum range be switched.

Another embodiment of the invention Arrangement results from the fact that parallel to Disc antenna level at certain intervals the one or more additional coils preferably be arranged on one side to the antenna carrier and that additionally at a certain distance min at least a ferrite layer plane and if necessary another additional coil is arranged.

This will increase the range enough. This is especially true for use cases partial, where a disk directly on egg metallic object or very close to it to be arranged. The change begins special one if the metallic object approximately occupies the area size of the data carrier or exceeds this. Through energy absorption, that originate from the metallic object is called, the read or write range of the disk significantly reduced. The shich  arrangement of additional antenna and additional a ferrite layer and optionally a white tere additional coil allows the range of the data carrier is only slightly restricted. Especially if their area size is the area Disk antenna size exceeds. Here the additional layers lie between the data carriers tenne and metal surface or metallic counter was standing.

It is particularly advantageous that this more layer structure much easier and in its Total layer thickness is much thinner than one Layer structure consisting only of ferrites. In addition, the range elimination results from temporarily short-circuiting at least one additive reel another benefit.

On the one hand, the invention enables writing and / or Read range of contactless data carriers too increase or the read and / or write range even if unfavorable transmission or Reception conditions not significantly reduced like, on the other hand, the writing and / or Reading range can also be drastically reduced, if this is necessary or desirable.

For the data carriers according to the invention there are many embodiments possible.

To generate different ranges e.g. B. the additional coils in the same direction or in opposite directions be wound to the antenna coil of the data carrier. It is also possible that the coil and the Ferrite layer electrically insulated from one another  and / or that several additional coils in a row are arranged.

The turns of the additional coils can ge stalten that the additional coil is a winding pitch equal to / greater than that of the antenna coil points and / or that the winding surface of the additive coil equal to / larger than the winding area of the antenna is coil.

It is also possible that the area of the additive coil equal to or larger than the area of the antenna is coil.

Furthermore, the area of the ferrite layer can be the same or larger the area of the antenna coil be.

It is also expedient that the area of the zu set coil (s) and, if applicable, the area of the fer ritschicht (s) are larger than the area of the An tennis coil and / or that the additional antenna, ferrite layers, short-circuit switch as additional package or arranged as a reflector package or as a data carrier are.

With these design options, he can suffice that on the one hand an optimization of the Zu set coils and ferrite layers in relation to the type tennis circuit and on the other hand a cheap one application-specific arrangement of additional coils, Ferrite layers and data carriers are possible.

The invention is based on an off management example explained in more detail.  

In the accompanying drawing:

Fig. 1 shows a design option for data carriers and additional coil, the additional coil ends are shorted to the switch and

Fig. 2 shows a design option for the arrangement of a data carrier according to the invention on a metal object in section.

Fig. 1 illustrates the configuration of the data carrier 1, which is in the described example is a contactless IC card 10. On or in this chip card 10 there is a module 2 , which is connected to the data carrier antenna 3 . The data carrier antenna 3 is wound so that it forms the antenna level 4 . Behind or in front of this level 4 , the additional coil 5 is angeord net with the coil ends 11 , which are short-circuited by the switch 9 . In the example shown, the additional coil 5 has more turns than the data carrier antenna 3 . Additional coil 5 and switch 9 are located in electrically insulating spacer layers 7 and together form a data carrier additional package 12 . The data carrier add-on package 12 is congruent under the chip card 10 .

Fig. 2 illustrates an arrangement which is mounted on a metal object 8 . On this metal object 8 , the reflector package 13 and above the data carrier 1 as a chip card 10 is net angeord. The reflector package 13 consists of several spacer layers 7 , between which the ferrite layer 6 and additional coils 5 are arranged.

Reference list

1 disk
2 module
3 data carrier antenna
4 antenna level
5 additional spool
6 ferrite layer
7 spacer layer
8 metal object
9 switches
10 chip card
11 coil ends
12 disk add-on package
13 reflector package

Claims (13)

1. Contactless data carrier with a coil-shaped antenna for electromagnetic data and / or energy transmission, characterized in that on the data carrier ( 1 ) parallel to the plane ( 4 ) of the antenna coil ( 3 ) at least one open additional coil ( 5 ) is arranged . 2. Contactless data carrier of claim 1, since by in that on both sides coil for antenna (3) of the data carrier (1) depending on an open auxiliary coil (5) is at least parallel to the plane (4) of the antenna coil (3). 3. Contactless data carrier according to claim 1 or 2, characterized in that on the data carrier 1 at least one switch ( 9 ) is arranged with which at least one additional coil ( 5 ) can be short-circuited in whole or in part. 4. Contactless data carrier according to one of claims 1 to 3, characterized in that at least one additional coil ( 5 ) is wound in opposite directions to the antenna coil ( 3 ) of the data carrier ( 1 ). 5. Contactless data carrier according to one of claims 1 to 4, characterized in that an additional coil ( 5 ) and subsequently a ferrite layer ( 6 ) are arranged parallel to the plane ( 4 ) of the antenna coil ( 3 ) of the data carrier ( 1 ). 6. Contactless data carrier according to one of claims 1 to 5, characterized in that the antenna coil ( 3 ), the additional coils ( 5 ) and the ferrite layer ( 6 ) are separated from one another by electrically insulating spacer layers ( 7 ). 7. Contactless data carrier according to one of Ansprü che 1 to 6, characterized in that the fer ritschicht ( 6 ) is arranged only on one side to the data carrier ( 1 ) and on the side facing away from the transmitter. 8. Contactless data carrier according to one of Ansprü che 1 to 7, characterized in that on the side of the data carrier ( 1 ) facing away from the transmitter, a plurality of additional coils ( 5 ) and at least one ferrite layer plane ( 6 ) are arranged. 9. Contactless data carrier according to one of Ansprü che 1 to 8, characterized in that the Fer ritschichtenebenen ( 6 ) are separated by additional coils ( 5 ). 10. Contactless data carrier according to one of Ansprü che 1 to 9, characterized in that additional coil ( 5 ) and short-circuit switch ( 9 ) and / or further additional coils ( 5 ) and / or ferrite layers ( 6 ) are elements of a data carrier. 11. Contactless data carrier according to one of the claims che 1 to 10, characterized in that the Da Carrier holder is a protective chip card. 12. Contactless data carrier according to one of claims 1 to 11, characterized in that data carrier ( 1 ), additional coil ( 5 ) and / or short-circuit switch ( 9 ) and / or further additional coils ( 5 ) and / or ferrite layer (s) ( 6 ) are connected to a one-piece compact data carrier. 13. Contactless data carrier according to one of claims 1 to 12, characterized in that additional coil ( 5 ) and short-circuit switch ( 9 ) and / or further additional coils ( 5 ) and / or ferrite layer (s) ( 6 ) ele ments of a data carrier with the same surface area additional package ( 12 ) are.