JPH06187617A - Magnetic card reader sensor - Google Patents

Abstract

PURPOSE:To make an insertion confirming sensor for a magnetic card reader unnecessary. CONSTITUTION:An MR element 1 is contained in a socket S at a point close to a magnetic card slit. A resistance R is connected in series to the element 1 and this series circuit is connected to a point between a constant voltage source Vcc and GND. The terminal voltage Va of the element 1 is amplified by an AC amplifier 2. The output voltage Vb of the amplifier 2 is compared with the reference voltage Vr by a comparator 3. The output of the comparator 3 is defined as the detected voltage V1. Thus, the constitution of a magnetic card reader is simplified and miniaturized.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnetic card reader sensor, and more particularly to a magnetic card reader sensor for reading data written on a magnetic card using an MR element.

[0002]

2. Description of the Related Art FIG. 4 shows an example of a conventional magnetic card reader sensor 501. In this magnetic card reader sensor 501, MR elements 1a and 1b are provided near the magnetic card insertion / ejection slit in the socket S in parallel with the moving direction of the magnetic card C. The MR elements 1a and 1b are connected in series, and the series circuit has a constant voltage power supply Vcc-GND.
Is connected in between. Then, the voltage Vp at the connection point between the MR elements 1a and 1b is amplified by the AC amplifier 2, and the AC
The output voltage Vq of the amplifier 2 is set to the reference voltage V by the comparator 3.
In comparison with s, the output of the comparator 3 is set to the detection voltage V0. Further, above the socket S, an insertion confirmation sensor 5 (photo interrupter or the like) for detecting the completion of insertion of the magnetic card C is attached. The reference voltage Vs is used as the AC amplifier 2 when the magnetic card C is pulled out.
Is set to be slightly lower than the peak of the output voltage Vq.

Next, the magnetic card reader sensor 50 is used.
The operation of No. 1 will be described. When the magnetic card C is inserted,
The voltage Vp at the connection point has the waveform shown in FIG. Therefore, the output voltage Vq from the AC amplifier 2 has the waveform shown in FIG. Since this output voltage Vq has two peaks of the same height, the reference voltage Vs of the comparator 3 is set higher than those peaks in order to avoid malfunction. Therefore, the output of the comparator 3 is always "L" as shown in FIG.

When the magnetic card C is completely inserted into the socket S, the insertion confirmation sensor 5 detects completion of insertion of the magnetic card C, outputs an insertion confirmation signal CI to the outside, and writes to the magnetic card C. To perform.

When the magnetic card C is pulled out, the voltage Vp at the connection point has the waveform shown in FIG. Therefore,
The output voltage Vq from the AC amplifier 2 has a waveform shown in FIG. The detection voltage V0 from the comparator 3 is
It becomes "H" only while the output voltage Vq from the AC amplifier 2 is higher than the reference voltage Vs. As a result, the magnetic card C
The data written in is read.

[0006]

In the above-mentioned conventional magnetic card reader sensor 501, since the detection voltage V0 is not output when the magnetic card C is inserted, the insertion confirmation sensor 5 is attached to detect the completion of the insertion of the magnetic card C. ing. However, when the insertion confirmation sensor 5 is provided, the configuration becomes complicated and the magnetic card reader becomes large in size.
Therefore, an object of the present invention is to provide a sensor for a magnetic card reader that does not require an insertion confirmation sensor.

[0007]

SUMMARY OF THE INVENTION In a first aspect, the present invention relates to one MR element which changes its resistance value by changing the magnetic field strength at the time of inserting / removing a magnetic card, and the MR element in series. The connected resistance, a constant voltage source for supplying a current to the MR element and the resistance, and the terminal voltage of the MR element are AC.
Provided is a sensor for a magnetic card reader, comprising an AC amplifier for amplification and a comparator for comparing the output voltage of the AC amplifier with a reference voltage.

According to a second aspect of the present invention, the present invention comprises one MR element for changing the resistance value by changing the magnetic field strength when inserting / removing a magnetic card, and a constant current source for supplying a constant current to the MR element. , A for AC amplifying the terminal voltage of the MR element
A sensor for a magnetic card reader comprising a C amplifier and a comparator for comparing the output voltage of the AC amplifier with a reference voltage.

[0009]

In the magnetic card reader sensor of the present invention according to the first aspect, a constant voltage is divided by one MR element and a resistor. The resistance value of the MR element increases both when the magnetic card is inserted and when the magnetic card is pulled out, and the terminal voltage of the MR element changes in the same way. The detection signal can be obtained both at the time of extraction. Therefore, the completion of the insertion of the magnetic card can be detected without the insertion confirmation sensor. In addition, the data can be read at the time of inserting or pulling out.

In the magnetic card reader sensor of the present invention according to the second aspect, a constant current is passed through one MR element.
The resistance value of the MR element increases both when the magnetic card is inserted and when the magnetic card is pulled out, and the terminal voltage of the MR element changes in the same way. The detection signal can be obtained both at the time of extraction. Therefore, the completion of the insertion of the magnetic card can be detected without the insertion confirmation sensor. In addition, the data can be read at the time of inserting or pulling out.

[0011]

The present invention will be described in more detail with reference to the embodiments shown in the drawings. The present invention is not limited to this.

First Embodiment FIG. 1 is an explanatory view showing one embodiment of the magnetic card reader sensor of the present invention. In this magnetic card reader sensor 101, the MR element 1 is internally provided in the socket S near the magnetic card insertion / ejection slit. MR element 1
Is connected in series with a resistor R, and the series circuit is connected between the constant voltage power supply Vcc and GND. Then, the terminal voltage Va of the MR element 1 is amplified by the AC amplifier 2,
The output voltage Vb of the C amplifier 2 is compared with the reference voltage Vr by the comparator 3, and the output of the comparator 3 is set as the detection voltage V1. The reference voltage Vr is the magnetic card C
Is set to be slightly lower than the peak of the output voltage Va from the AC amplifier 2 at the time of inserting / pulling in.

At the front end of the magnetic card C, an insertion completion identification flag for detecting the completion of insertion is written. The insertion completion identification flag is a code that can prevent erroneous detection when the magnetic card C is pulled out during insertion.

Next, the magnetic card reader sensor 10 is used.
The operation of No. 1 will be described. When the magnetic card C is inserted,
The voltage Va at the connection point has a waveform with one peak, as shown in FIG. Therefore, the output voltage Vb from the AC amplifier 2 has the waveform shown in FIG.
The detection voltage V1 from the comparator 3 becomes "H" only while the output voltage Va from the AC amplifier 2 is higher than the reference voltage Vr. As a result, the data written in the magnetic card C is read.

When the magnetic card C is completely inserted into the socket S, the comparator 3 outputs the pattern of the insertion completion identification flag. As a result, it is determined that the insertion of the magnetic card C is completed, and the magnetic card reader performs writing on the magnetic card C.

When the magnetic card C is pulled out, the waveform of each part becomes the same as that at the time of insertion, so that the data written in the magnetic card C is also read.

Since data can be read both at the time of insertion and at the time of extraction, this may be used for verification.

According to the first embodiment described above, the completion of insertion of the magnetic card C can be detected without the insertion confirmation sensor. Therefore, the structure is simplified and the magnetic card reader can be miniaturized.

-Second Embodiment- FIG. 3 is a view corresponding to FIG. 1 of a magnetic card reader sensor 201 according to a second embodiment of the present invention. This magnetic card reader sensor 201 has substantially the same configuration as the magnetic card reader sensor 101 according to the first embodiment, but differs from the first embodiment in that a constant current is supplied to the MR element 1 by the constant current source 4. .

The operation and effects of the magnetic card reader sensor 201 of the second embodiment are the same as those of the magnetic card reader sensor 101 of the first embodiment.

[0021]

According to the magnetic card reader sensor of the present invention, the completion of the insertion of the magnetic card can be detected without the insertion confirmation sensor such as the photo interrupter. Therefore, the structure is simplified and the magnetic card reader can be downsized.

[Brief description of drawings]

FIG. 1 is an explanatory view showing a magnetic card reader sensor of a first embodiment of the present invention.

FIG. 2 is a signal waveform diagram of each part of the sensor for magnetic card reader of FIG.

FIG. 3 is an explanatory diagram showing a magnetic card reader sensor of a second embodiment of the present invention.

FIG. 4 is an explanatory diagram showing an example of a conventional magnetic card reader sensor.

5 is a signal waveform diagram of each part of the magnetic card reader sensor of FIG.

FIG. 6 is another signal waveform diagram of each part of the sensor for magnetic card reader of FIG.

[Explanation of symbols]

 101, 201, 501 Magnetic card reader sensor 1, 1a, 1b MR element 2 AC amplifier 3 Comparator 4 Constant current source 5 Insertion confirmation sensor R resistance C Magnetic card S socket Vcc constant voltage power supply

Claims (2)

[Claims] 1. An MR element that changes a resistance value by changing a magnetic field strength when a magnetic card is inserted / removed, a resistor connected in series with the MR element, and a current flows through the MR element and the resistor. A sensor for a magnetic card reader, comprising: a constant voltage source, an AC amplifier that AC-amplifies the terminal voltage of the MR element, and a comparator that compares the output voltage of the AC amplifier with a reference voltage. 2. An MR element for changing a resistance value by changing a magnetic field strength at the time of inserting / removing a magnetic card, a constant current source for supplying a constant current to the MR element, and a terminal voltage of the MR element. A magnetic card reader sensor comprising an AC amplifier for AC amplification and a comparator for comparing the output voltage of the AC amplifier with a reference voltage.