DE102010035312A1 - Portable data carrier medium i.e. smart card, has oscillating circuit whose detuning is caused by magnet read head when reading magnetic strip, where number of detuning of oscillating circuit is realized and processed by evaluation unit - Google Patents

Abstract

The medium has a magnetic strip (2) with data that is selected by a magnet read head (101) of a reader (100). A coil (3) is arranged in the medium below the magnetic strip and formed in such a manner that detuning of an oscillating circuit (4) of the medium is detected. Detuning of the oscillating circuit is caused by a magnet read head when reading the magnetic strip. Number of detuning of the oscillating circuit detected by the coil is realized and processed by an evaluation unit in the reader or provided for processing by the reader. An independent claim is also included for a method for recognizing multiple selection of a magnetic strip of a portable data carrier medium.

Description

The invention relates to a portable data carrier, in particular a chip card with a magnetic strip having stored therein and readable by a magnetic read head of a reader data, wherein below the magnetic strip, a coil is arranged in the data carrier. The invention further relates to a method for detecting the multiple readout of a magnetic stripe of such a data carrier.

From the "Handbuch der Chipkarten" by W. Rankl, W. Effing, 5th edition, Carl Hanser-Verlag, 2008, page 18 ff. It is known that map data is encoded in digital form on a magnetic stripe of a portable data carrier located on the back side of the card. To read the magnetic stripe, it is pulled past a magnetic read head (or read head) by hand or by machine. Subsequently, the read data can be processed by the reading device connected to the reading head. Overall, there may be three tracks on the magnetic strip. Tracks 1 and 2 are specified for the read operation, while track 3 can also be described.

A disadvantage of the magnetic strip technique is that the data stored on the magnetic strip data can be easily changed with a commercially available read / write device. Fraudsters who have obtained valid card data can, for. B. to ATMs simple duplicates of the portable data carrier without others, z. B. visual, security features of the disk must be forged.

The spying on the data stored on a magnetic stripe is often done using the so-called skimming. When skimming is on a reader, z. As the aforementioned ATM, before the actual card slot through which the disk is inserted into the reader, another card slot with an additional scanning unit (magnetic read head) mounted. The further card slot is hardly recognizable to users since it occupies at most the width of the magnetic head, which is less than 1 cm. The scanning unit of the further card slot reads the data stored thereon on all tracks and transmits them, for example using additional communication components, for example via SMS (Short Message Service), to a communication terminal of the fraudster. With this received data, a new data carrier with all magnetic data information can be created.

To handle this problem, it is from the WO 2006/116772 A1 It is known to form a portable data carrier as an emulator card which can combine a plurality of chip cards. Among other things, an ISO chip card with magnetic stripe is "emulated". For this purpose, it has a circuit for a smart card with a smart card processor, a general processor and a magnetic strip emulator for simulating a magnetic stripe card. These components convert digital signals into magnetic pulses and send them to a reader. In this case, sensors are provided in the emulator card, which signal that data to be transmitted to the reader go to a magnetic stripe reader. The skimming described above is therefore no longer possible with such an emulator card.

From the US 2005/0133606 A1 It is known to arrange a plurality of magnetic write heads behind the magnetic strip in the card body of a portable data carrier. The write heads individually change the data on the magnetic strip. A skimming attack is unsuccessful in that each read (scan) of the volume is counted and used as a custom date for the write heads. An inductor disposed below the magnetic stripe is used as a data receiver to describe the magnetic stripe.

To secure portable media against skimming, it is further from the EP 1 852 808 A1 and the WO 2007/149101 A1 it is known to laminate a thin metal plate on the front and back of the card body.

The procedures known from the prior art require profound changes to the structural design of the data carriers.

A simple solution and prevention of skimming is the switching of the communication between terminal and data carrier of magnetic stripe on an integrated semiconductor chip via a contact and / or contactless interface. Communication over the unsafe magnetic strip would be prevented. The conversion to semiconductor chips reading terminals, especially cash dispensers, but is very expensive and not planned in special countries at the present time.

It is therefore an object of the present invention to provide a portable data carrier and a method by which fraudulent readout of a magnetic stripe of the portable data carrier can be detected in a simple manner.

These objects are achieved by a portable data carrier according to the features of Claim 1 and a method according to the features of claim 13.

The invention provides a portable data carrier, in particular a chip card, having a magnetic strip with data stored therein and readable on a magnetic read head of a reading device, wherein a coil is arranged in the data carrier below the magnetic strip. According to the invention, the coil is designed to detect a detuning of a resonant circuit of the data carrier, which is caused by a magnetic read head during reading of the magnetic stripe. The number of detunements detected by the coil since insertion into the reading device is detected by an evaluation unit and processed or provided for further processing by the reading device.

A detuning of the resonant circuit comprising the coil of the data carrier according to the invention not only by a designated reader, such as a cash dispenser or the like, brought about, but also by such other readers, which are connected upstream or downstream of a designated reader for the purpose of data spying. If a respective magnetic read head (the intended reader and the other reader used for fraudulent purposes) moves over the magnetic strip, this not only leads to a respective readout of the data stored on the magnetic strip, but also to a detuning of the oscillatory circuit caused by both readers. Since only a single read operation and thus a single detuning of the resonant circuit takes place in the case of an intended system consisting of data carrier and reading device, a manipulation can be inferred in the detection of a multiple detuning since the data carrier was inserted into the reading device. The knowledge of a manipulation allows various countermeasures.

Although a data carrier according to the invention can thus not prevent a skimming attack, the user of the data medium can be informed that a skimming attack took place. This allows timely initiation of countermeasures, such as locking the volume.

Conveniently, the resonant circuit has a resonant frequency in the range of the resonant frequency of the magnetic read head of the reading device, in particular between 55 and 60 kHz, particularly preferably at 56 kHz. If the resonant circuit is constructed such that its resonant frequency lies in the region of the resonant frequency of the magnetic read head, then the best coupling of the magnetic read head into the resonant circuit and thus a simple detectable detuning is produced.

Preferably, the orientation of the spool is such that a spool axis is parallel to the direction of movement of the magnetic read head relative to the magnetic stripe during the read operation. The orientation results from the commonly used construction of the magnetic read head. The magnetic read head consists of a coil with an approximately 5 μm wide air gap and Kupferabwicklungen to its tap. Thus, the magnetic resistance of the magnetic head can be kept very small, this usually consists of a MU metal, z. As a nickel-iron alloy. In contrast, the magnetic strip consists of a plastic carrier and of a magnetizable material composed of iron oxide and chromium dioxide. This material is evenly distributed on the magnetic strip. When the magnetic read head moves across the magnetic stripe, the magnetic particles induce a magnetic flux in the toroidal core, with the change in the magnetic flux over time producing in turn a voltage in the coil proportional to the rate of change. In order to be able to detect the magnetic head from the underside of the magnetic strip, the coil of the oscillating circuit consisting of at least one capacitor and the coil, as described above, is arranged such that a coil axis is parallel to the direction of movement of the magnetic reading head relative to the magnetic strips during the reading process.

In particular, the detection of a two-time detuning within a predetermined period of time leads to a signaling. A signaling is understood to be the processing of the number of detunements detected by the coil by the evaluation unit of the data carrier and an optional display unit present on the data carrier and the optical and / or acoustic signaling by the data carrier and / or the reading device.

Advantageously, the data carrier comprises a power supply, in particular a battery or a capacitor or an antenna for coupling energy from the field of an antenna of the reading device, which ensures the operation of the data carrier during a collection process in the reader. In particular, during the collection process in which the portable data carrier is drawn into the intended reading device or manually drawn by a device containing the magnetic reading head, supplied with energy, so that the detuning of the resonant circuit is detectable and processable.

The energy storage, such as capacitor, battery of the data carrier in particular the contact-based and / or contactless interfaces expediently present on the data carrier, for example by transactions of the data carrier with other terminals, in particular contactless transactions.

According to a further embodiment, the data carrier comprises a reference resonant circuit, which is arranged in an area outside of the magnetic strip to detect structural features of the reading device during the collection process or during the reading process, which entail a detuning of the resonant circuit. If, for example, a detuning is carried out by the housing of the intended reading device, this detuning acts on the resonant circuit with the coil as well as on the reference resonant circuit with the further coil in the same way. In this case, it can be provided, in particular, that the detuning of the coil and the further coil is only perceived when a very strong magnetic field or a magnetic material rests directly on the card body (that is, at a distance of less than 10 μm).

In order to be able to detect such external influences as best as possible, it is provided that the orientation of the further coil of the reference resonant circuit corresponds to the orientation of the coil.

Furthermore, it is provided that the evaluation unit is designed such that a detuning is counted when a difference between the detuning of the resonant circuit and the reference resonant circuit has been detected. Only upon detection of such a difference, a signal is transmitted to the evaluation unit, which represents a detuning of the resonant circuit.

According to a further expedient embodiment, the number of detuning of the resonant circuit by the reader via a wireless or a contact-type interface of the data carrier from the disk read out. The number of upsets can be done, for example, from a memory of the evaluation unit or another memory that can be read directly on the reader. In this embodiment variant processing of the number of upsets by the intended reader is possible, which can inform the owner of the portable data carrier about a possible manipulation. It is also possible that the portable data carrier is retained by the intended reader or locked in a background system. Another countermeasure could be that the intended reader is disabled in the detection of a skimming attack, so that no further skimming attacks against other introduced into the intended reader data carrier can be made.

In another embodiment, the data carrier comprises a display element which can be activated by the evaluation unit, by way of which a multiple readout of the magnetic strip can be signaled from the reading device after it has been output. Such a data carrier requires neither on the part of the disk nor on the part of the intended reader corresponding communication interfaces through which the number of upsets of the resonant circuit can be replaced. In this embodiment variant, a skimming attack can be signaled to a user of the data carrier according to the invention via the display element, in particular a low-energy light-emitting diode, by lighting or blinking, for example. The power supply for the evaluation and signaling receives the disk in an advantageous manner by a battery, capacitor or other rechargeable energy storage, which is located on the disk. The charging and storage of energy takes place, for example, via an antenna of a near field communication or a contact interface in an earlier transaction at another terminal. In this case, the data carrier is preferably equipped as a dual interface data carrier. As a result of this refinement, a conversion of the terminal, such as cash dispensers, etc., which is undesirable due to the high costs, can be omitted since the data carrier can carry out the evaluation and signaling independently of the terminal.

In the data carrier according to the invention, the magnetic strip is preferably according to ISO / IEC 7811 educated. Preferably, the coil is arranged below track 3 of the magnetic strip, since in track 3, the clock track is stored and thus a constant flow change is given.

The invention further provides a method for detecting the multiple readout of a magnetic strip of a portable data carrier, in particular a chip card, in which a coil is arranged below the magnetic strip. In the method according to the invention a detuning of a resonant circuit of a data carrier is detected by the coil, which is caused by a magnetic read head during reading of the magnetic strip, wherein the number of detunements detected by the coil since being inserted into the reading device is detected and processed or for further processing provided by the reader.

The method according to the invention has the same advantages as described above in connection with the data carrier according to the invention.

The invention will be explained in more detail below with reference to exemplary embodiments. Show it:

1 a schematic representation of a portable data carrier according to the invention in the form of a chip card, which is arranged close to a magnetic read head of a (magnetic) reading device,

2 the frequency responses of a magnetic read head arranged in a reading device, an unsocial oscillating circuit of a data carrier according to the invention and of the resonant circuit in the event of detuning,

3 a schematic representation of a data carrier according to the invention according to a first embodiment, and

4 a schematic representation of a data carrier according to the invention according to a second embodiment variant.

1 shows a schematic representation of a portable data carrier according to the invention 1 in the form of a chip card. The chip card 1 has a magnetic strip in a known manner 2 on. The magnetic strip 2 can be arranged in a known manner on the bottom. Likewise, in a modification thereof would be an arrangement of the magnetic strip 2 on the visible side, ie the front, the chip card possible. The magnetic strip 2 consists of a plastic carrier and a magnetizable material. As the magnetizable material, a composition of iron oxide and chromium dioxide is usually used. This material is particulate and uniform over the entire magnetic strip 2 distributed. Preferably, the magnetic strip corresponds to Standard ISO / IEC 78111 , so that a total of three tracks can be on the magnetic strip. Tracks 1 and 2 are specified for the read operation, while track 3 can also be described. Further information on these referred to as magnetic stripe cards chip cards, for example, the "Manual of Chip Cards" on page 18 ff. be removed.

An in 1 also schematically illustrated magnetic read head 101 a reader, not shown 100 consists of a coil 103 which is about a core 104 is wound. The latter has an air gap 105 on, which is about 5 microns wide. About (copper) windings is a tap of the coil 103 , So that the magnetic resistance of the magnetic read head 101 can be kept small, consists of this, or its core 104 , made of a MU metal, for example, a nickel-iron alloy. A magnetic read head scanning a magnetic stripe is often called a "listening head". Moves the magnetic read head 101 along with the reference numeral 102 marked direction over the magnetic strip 2 , so the magnetic particles of the magnetic strip induce 2 a magnetic flux in the toroidal core. The temporal change of the magnetic flux produces a voltage in the coil that is proportional to the rate of change.

Usually, the magnetic read head is 101 stuck in the reader 100 Installed. The reader 100 is for example a cash dispenser (ATM). The passing of the magnetic head over the magnetic strip is thereby by the insertion of the chip card 1 effected in a designated card slot. The movement can be automated by the reader itself or by a manual movement of the chip card 1 respectively.

Below the magnetic strip 2 is a coil according to the invention 3 arranged, which together with a capacitor, not shown, (and proportionally other components) a resonant circuit 4 forms. An arrangement "below the magnetic strip" is understood to mean that the coil 3 inside the card body of the data carrier 1 below the magnetic strip 2 is located.

A coil axis 9 the coil 3 lies parallel to the direction of movement of the magnetic read head 101 relative to the magnetic stripe 2 when reading the same. Due to the mentioned orientation is the coil 3 in the line of force of the magnetic read head. Now drives the magnetic read head 101 , z. B. in a collection process of the disk 1 into the reading device, over the spool 3 , so the magnetic flux in the coil changes. As a result, the resonant circuit is passively detuned. The resonant circuit 4 is preferably implemented such that its resonant frequency in the region of the resonant frequency of the magnetic read head 101 lies. Usually, the resonance frequency of a magnetic read head is in the range between 55 and 60 kHz, preferably in the range at 56 kHz. If the resonance frequency of the resonant circuit is in the range of the resonant frequency of the magnetic read head, the best coupling of the magnetic read head into the resonant circuit is achieved. This results in a detectable in a simple manner detuning the voice circle.

2 illustrates the frequency response of the magnetic read head MLK, the non-detuned resonant circuit CK and detuned by the magnetic read head resonant circuit V. The figure is readily apparent that the resonant frequencies of magnetic read head MLK (see f _res ) and non-tuned resonant circuit CK are close to each other. At a detuning of the resonant circuit CK reduces the maximum amplitude, while lower and upper limit frequency compared the magnitude of the unsatisfied resonant circuit CK distance from the resonant frequency.

The 3 and 4 show two embodiments only schematically illustrated embodiments of the portable data carrier according to the invention. Both variants have one, with the resonant circuit 4 coupled evaluation unit 5 , an optional display element 8th , For example, an LED and the like, a contact-type or contactless interface 11 as well as a power supply 12 ,

Through the evaluation unit 5 will be the number of times through the coil 3 detected detunements since insertion into the reader or pulling through the reader detected. The number of upsets can be processed by them or the intended magnetic reading head 101 provided reading device for further processing. In a proper use of the portable data carrier usually takes place only a single read the on the magnetic strip 2 stored data. In the skimming attack described in the introduction, the coil becomes due to the further reading device upstream of the intended reader 3 of the resonant circuit 4 excited twice during insertion into the intended reader or when pulling through the intended reader, whereby the voice is detuned twice.

In order to ensure detuning monitoring of the chip card during the feeding phase into the reading device, the chip card is powered by the data carrier's own power supply 12 energized. The power supply can be provided for example in the form of a battery or a capacitor in the disk. The power supply can also be done by means of a contactless field by an antenna of the data carrier 1 draws the energy from the field of an antenna of the reader when the disk is inserted into the reader.

The energy supply 12 may alternatively from time to time via other terminals, the contact-based or the contactless interface 11 of the disk 1 use, be charged.

Contains the volume 1 , as in the embodiments according to the 3 and 4 shown the display element 8th , it can be concluded in a two-time detection of the detuning of the resonant circuit to a manipulated reader. The display element then lights up when removing the chip card. An advantage of this approach is that the readers (eg cash dispensers) do not need to be retooled. The chip card completely brings with it the necessary countermeasure for the detection of a skimming attack. The customer thus learns immediately that the reader used by him was manipulated. A possible call to the appropriate bank, etc., can cause a blocking of the reader and / or the data carrier. A disadvantage, however, is that the transaction itself can not be prevented.

About with the reference 11 provided contactless or contact-type interface, the number of the evaluation by the unit 5 Detected detunctions are also transmitted to the reader. For example, for this purpose, the reader has an NFC device via which the reader with the contactless interface 11 the chip card can communicate. Optionally, the NFC device may also be used to power the smart card. An advantage of this approach is that the reader learns in real time if it is being manipulated. This allows automatic countermeasures such. As the locking of the reader and / or the smart card initiated. However, this procedure requires the presence of a corresponding communication interface, via which the number of detunements can be transmitted since the chip card was pulled into the reading device.

If the reading device is able to read out a chip integrated in the chip card, the transmission of the information can also be effected via the contact-type interface 11 respectively.

While the chip card in the first embodiment according to 3 just over the coil 3 below the magnetic strip 2 has, points the chip card 1 in the second embodiment according to 4 in addition a reference resonant circuit 6 with another coil 7 on. Hereby, structural features of the reader can be compensated, the resonant circuit change of the resonant circuit 4 could result. The further coil 7 of the reference resonant circuit 6 is in the same orientation as the coil 3 of the resonant circuit 4 but is outside the magnetic stripe in the card body of the smart card 1 arranged. The same orientation of coil 3 and another coil 7 means that their coil axes 9 . 10 parallel to each other. Preferably, the coils are arranged at the same height.

Resulting from the structural peculiarities of the reader a detuning of the resonant circuit 4 , this detuning acts in the same way on the resonant circuit 4 and the reference resonant circuit 6 one. Is by the evaluation a difference between the moods between the resonant circuit 4 and the reference resonant circuit 6 determined, so is a detuning by the evaluation 5 counted.

Alternatively, the signals can also be counted in a separate counter and by the evaluation unit 5 be read out later. In a further embodiment of the invention, the reader can directly read the meter reading from the counter, without having to query the evaluation unit. The counter can be read out, for example, via a contactless field or via unused port pin (s) of the evaluation unit. For this example, a 1-wire single-wire bus can be used. This approach has the advantage that both the power supply and the send / receive line go through this port.

The invention offers the advantage that the data carrier can actively perform a check of the magnetic strip with respect to a successful scanning by a magnetic read head. It is thus possible either for the user or, in the context of a communication between the data carrier and the reading device, to inform the reading device that two scans have been carried out with the aid of a respective magnetic reading head during a feeding operation of the data carrier. If the user such a multiple readout of the magnetic strip signaled, so this can take appropriate precautions. If the corresponding information is transmitted directly from the data carrier to the reading device, then the reading device can retain and / or block the data carrier and / or switch off itself in order to prevent further skimming attacks.

LIST OF REFERENCE NUMBERS

1

disk

2

magnetic stripe

3

Kitchen sink

4

resonant circuit

5

evaluation

6

Reference oscillator

7

Another coil

8th

display element

9

coil axis

10

coil axis

11

Contact-based or contactless interface

12

power supply

100

reader

101

Magnetic read head

102

Direction of movement relative to the magnetic strip

103

Kitchen sink

104

Plunger

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2006/116772 A1 [0005]
• US 2005/0133606 A1 [0006]
• EP 1852808 A1 [0007]
• WO 2007/149101 A1 [0007]

Cited non-patent literature

• "Handbuch der Chipkarten" by W. Rankl, W. Effing, 5th edition, Carl Hanser-Verlag, 2008, page 18 et seq. [0002]
• ISO / IEC 7811 [0025]
• Standard ISO / IEC 78111 [0033]
• "Manual of Chip Cards " on page 18 ff. [0033]

Claims (13)

Portable data carrier ( 1 ), in particular chip card, with a magnetic strip ( 2 ) with stored therein and by a magnetic read head ( 101 ) of a reader ( 100 ) readable data, below the magnetic strip ( 2 ) a coil ( 3 ) in the volume ( 1 ), characterized in that the coil ( 3 ) is adapted to detune a resonant circuit ( 4 ) of the data carrier ( 1 ) detected by a magnetic read head ( 101 ) when reading the magnetic strip ( 2 ), the number of times through the coil ( 3 ) detected detunements since insertion into the reader ( 100 ) by an evaluation unit ( 5 ) is detected and processed or provided for further processing by the reader. Data carrier according to claim 1, characterized in that the resonant circuit ( 4 ) a resonant frequency in the region of the resonant frequency of the magnetic read head ( 101 ) of the reader ( 100 ), in particular between 55 and 60 kHz, particularly preferably at 56 kHz. A data carrier according to claim 1 or 2, characterized in that the orientation of the coil ( 4 ) is such that a coil axis ( 9 ) parallel to the direction of movement ( 102 ) of the magnetic read head ( 101 ) relative to the magnetic stripe during the read operation. Data carrier according to one of the preceding claims, characterized in that the detection of a two-time detuning within a predetermined period leads to a signaling. Data carrier according to one of the preceding claims, characterized in that the data carrier is a power supply ( 12 ), in particular a battery or a capacitor or an antenna for coupling energy from the field of an antenna of the reader ( 100 ), which ensures the operation of the data carrier during a collection process in the reader. Data carrier according to one of the preceding claims, characterized in that the data carrier is a reference resonant circuit ( 6 ) located in an area outside the magnetic strip ( 2 ) is arranged to detect structural characteristics of the reader during the collection process or during the reading process, which a detuning of the resonant circuit ( 4 ). A data carrier according to claim 6, characterized in that the orientation of another coil ( 7 ) of the reference resonant circuit ( 6 ) the orientation of the coil ( 2 ) corresponds. Data carrier according to claim 6 or 7, characterized in that the evaluation unit is designed such that a detuning is counted when a difference between the detuning of the resonant circuit and the reference resonant circuit has been detected. Data carrier according to one of the preceding claims, characterized in that the number of detuning of the resonant circuit ( 4 ) by the reader ( 100 ) via a wireless or contact-type interface of the data carrier from the data carrier ( 1 ) is readable. Data carrier according to one of the preceding claims, characterized in that the data carrier ( 1 ) one of the evaluation unit ( 5 ) controllable display element ( 8th ), via which a multiple readout of the magnetic strip ( 2 ) after being ejected from the reader ( 100 ) can be signaled. Data carrier according to one of the preceding claims, characterized in that the magnetic strip is designed in accordance with ISO / IEC 7811. Data carrier according to one of the preceding claims, characterized in that the coil ( 4 ) below track 3 of the magnetic strip ( 2 ) is arranged. Method for detecting the multiple reading out of a magnetic strip ( 2 ) of a portable data carrier ( 1 ), in particular a chip card, in which below the magnetic strip ( 2 ) a coil ( 3 ) is arranged, in which by the coil ( 3 ) a detuning of a resonant circuit ( 4 ) of the data carrier ( 1 ) detected by a magnetic read head ( 101 ) when reading the magnetic strip ( 2 ), the number of times through the coil ( 3 ) detected detunements since insertion into the reader ( 100 ) by an evaluation unit ( 5 ) is detected and processed or provided for further processing by the reader.

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