KR910008433B1 - Method and apparatus for reading eternal signal whitch is for protecting magnetic card from counterfeiting - Google Patents

Abstract

The method for reading the permanent code written on the magnetic layer of the card comprises steps: a) amplifying the signal read by the magnetic head and filtering the high frequency noise; b) differentiating the filtered signal; c) detecting the zero point from the differentiated signal and providing pulse; and d) reproducing the information signal with the pulse.

Description

Method and apparatus for reading permanent signals for preventing magnetic card forgery

1 is a structural diagram of a magnetic card of the present invention.

2 is an output signal waveform when the magnetic flux density of a magnetic card is detected by the head.

3 is a block diagram of an apparatus of the present invention.

4 is a signal waveform diagram in each part of FIG.

* Explanation of symbols for main parts of the drawings

1: amplification and filter circuit 2: differential circuit

3: zero detection circuit 4: data detection circuit

5: clock regeneration circuit

The present invention relates to a method and apparatus for reading a permanent signal for preventing forgery on a magnetic card.

As the field of use of magnetic cards expands, countermeasures against card forgery are also required. As an example, a method of preventing forgery or alteration of recording information of a card by recording permanent information upon application of a magnetic material of a magnetic card has been proposed. An object of the present invention is to provide a method and apparatus for reading permanent information from a magnetic card manufactured in such a manner.

In order to achieve the above object, the present invention provides a device for detecting and reproducing information embedded in a magnetic card composed of two layers of magnetic recording layers for recording permanent information for anti-counterfeiting. Amplifying and removing noise of a high frequency component, differentiating the signal, detecting a zero point of the differentiated signal to form a pulse train, and reproducing an information signal using the pulse train. Doing. In addition, the apparatus of the present invention is a head for sensing information embedded in a magnetic card consisting of two layers of magnetic recording layer for recording the forgery-proof permanent information, to amplify the signal output through the head and to remove noise of high frequency components An amplification and filter circuit for deriving, a differential circuit for differentiating a signal from the amplification and filter circuit, a zero detection circuit for detecting a zero point of the differentiated signal to form a pulse string, and reproducing an information signal from the pulse string It is characterized by consisting of a reproducing means for.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

The card which is the object of the present invention is constructed in the same manner as in FIG. The magnetic recording layer is made of two layers, one of which is used for recording and reproducing signals by a general coating method, and the other layer is used to change the thickness to change the residual magnetic flux density. This pattern arrangement method can be used for recording permanent information. 2 is a waveform of an output signal when the card of FIG. 1 is detected by the head. The signal type is sinusoidal as shown in the figure. The recording method of information is according to ISO 3554 standard.

The present invention is a method and apparatus for making a fine signal obtained from the above-described card into a digital signal in the form of F2F, and its configuration is shown in the block diagram of FIG. 4A is a diagram in which information is recorded on the card by the F2F method, and when it is detected by the head, a signal proportional to the change in magnetic flux is obtained. Since the head output signal is a few mV unit and the noise is mixed, the signal should be amplified to an appropriate size and the noise of the high frequency component should be removed. This function is provided to the amplification and filter circuit 1 of FIG. The signal thus obtained is shown in FIG. 4B. As shown in the figure, the form is sinusoidal and has two frequencies. This signal is passed through the differential circuit 2 of FIG. This signal is equal to the magnetic flux density of the card and reversed in phase. The zero detection circuit 3 is used to obtain the recorded information therefrom. The zero detection circuit 3 detects when the input signal passes 0 volt and generates a pulse. By inputting the signal of Fig. 4c into this circuit, a pulse train as shown in (d) can be obtained. This pulse string is closely related to the information in (a) and is input to the data reproducing circuit 4 and the clock reproducing circuit 5 of FIG. 3 to obtain data and a clock. The data reproducing circuit 4 is composed of a circuit which toggles by the input pulse. In other words, these pulses correspond to the point where the change in the magnetic flux density is the maximum at every cycle, thereby changing the transition to the digital state. Then, the F2F signal can be obtained to determine the data value (0 or 1) with or without the state change in one period. 4e shows this. The clock generation circuit 5 generates a clock which becomes a reference for determining a data value in synchronization with the data signal. The circuit consists of a monostable multivibrator and the 4d degree signal is used as the trigger input. The multivibrator circuit is designed to be triggered only once per cycle. From this, a clock signal as shown in FIG. 4f is obtained. The CPU reads data based on this clock signal.

The present invention is configured as described above and can accurately read the permanent information recorded in the magnetic card.

Claims (4)

A device for detecting and reproducing information embedded in a magnetic card having two layers of magnetic recording layers for recording permanent information for anti-counterfeiting, by amplifying a signal output through the head and removing high frequency noise. And a step of differentiating the signal, detecting a zero point of the differentiated signal to make a pulse train, and reproducing an information signal using the pulse train. The method of claim 1, wherein the reproducing of the information signal comprises a toggle operation according to the pulse train, regenerating data, and regenerating a clock by passing the pulse train through a monostable multivibrator. How to read a permanent signal. Head for sensing information embedded in a magnetic card consisting of two layers of magnetic recording layer for recording the forgery prevention permanent information, Amplification and filter circuit for amplifying the signal output through the head and to remove noise of high frequency components, A differential circuit for differentiating a signal from the amplification and filter circuits, a zero detection circuit for detecting a zero point of the differentiated signal to form a pulse train, and reproducing means for reproducing an information signal from the pulse train. A permanent signal reading device. 4. The device of claim 3, wherein the reproducing means comprises a toggle circuit for reproducing data from the pulse train and a monostable multivibrator for reproducing a clock from the pulse train.

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