KR101879283B1 - Pci terminal with cover open detection circuit - Google Patents

Abstract

The present invention relates to a Payment Card Industry (PCI) terminal, and more particularly, to a PCI terminal having a cover opening detection circuit for security enhancement.
According to the present invention, there are provided an outer case formed with a pressing projection, a circuit cover positioned on a lower surface of the outer case and being pressed by the pressing projection, a leaf spring formed of a conductor and positioned on the lower surface of the circuit cover, A PCI terminal including a circuit board on a lower surface of a leaf spring and having a conductive track corresponding to the leaf spring is disclosed.

Description

[0001] The present invention relates to a PCI terminal having a cover open detection circuit,

The present invention relates to a Payment Card Industry (PCI) terminal, and more particularly, to a PCI terminal having a cover opening detection circuit for security enhancement.

In recent years, since credit cards have become popular as a third currency, PCI terminal technology for identifying credit cards at merchants of credit card issuers is also developing. Particularly, since a new type of card (hereinafter, IC card) in which an IC chip is embedded in an existing plastic credit card is becoming a common means of payment, a PCI terminal for an IC card has become widespread.

In the PCI terminal, the encrypted master key used for inquiring the information of the IC card is stored in the memory. The conventional PCI terminal can easily access the memory provided in the circuit board inside the PCI terminal when it is opened by an external artificial force so that the master key information stored in the memory can be hacked.

Therefore, in order to solve such a problem, it is necessary to develop a technology for detecting the opening of the PCI terminal due to an external artificial force and for enhancing security inside the PCI terminal.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a PCI terminal with enhanced internal security because it can detect external intrusion.

According to another aspect of the present invention, there is provided a PCI terminal, comprising: an outer case having a pressing projection; a circuit cover disposed on a lower surface of the outer case and being pressed by a pressing projection; And a circuit board which is pressed by the pressing projection and is formed of a conductor and a circuit board which is located on the lower surface of the plate spring and on which a conductive track corresponding to the plate spring is formed.

Preferably, when the assembly of the PCI terminal is disconnected, the leaf spring is not pressed by the pressing projection, and when the assembly of the PCI terminal is completed, the leaf spring is pressed by the pressing projection.

Preferably, when the leaf spring is not pressed, the pin spring is bent into a dome shape so that the end of the leaf spring comes in contact with the conductive track, and when the leaf spring is pressed, the leaf spring is expanded and the end of the leaf spring contacts with the conductive track I never do that.

Preferably, the leaf spring is formed as a single wing or a double wing, the single wing having a single end of the leaf spring contacting the conductive track, the two wing having a tip of the leaf spring in contact with the conductive track It is two personal form.

Preferably, the number of leaf springs is X, which is an integer of 1 or more.

Preferably, the PCI terminal further includes a detection terminal, and when the leaf spring is of the single blade type, when the end of the leaf spring is not in contact with the conductive track, the detection terminal electrically connected to one conductive track corresponding to the leaf spring When the voltage becomes a specific value and the end of the leaf spring contacts the conductive track, the voltage of the detection terminal becomes less than a certain value.

Preferably, the PCI terminal further comprises a detection terminal, the leaf spring is of a double blade type, the detection terminals are connected in parallel to the two conductive tracks corresponding to the leaf spring, and when the ground terminal is connected to the leaf spring, When both ends of the spring are not in contact with two conductive tracks, when the voltage of the detection terminal becomes a specific value and even if one of the two ends of the leaf spring contacts two conductive tracks, Is less than the specified value.

Preferably, the PCI terminal further includes a detection terminal, and when the leaf spring is of the double blade type, the ground terminal is connected to one of the two conductive tracks corresponding to the leaf spring, and the detection terminal is connected to the other one, When one of the two ends of the leaf spring does not contact the two conductive tracks, when the voltage of the detection terminal becomes a specific value and both of the two ends of the leaf spring come in contact with the two conductive tracks, The voltage becomes less than a specific value.

Preferably, when the voltage of the detection terminal is a specific value, it is determined that the assembly of the PCI terminal is completed. If the voltage of the detection terminal is less than the specific value, it is determined that the assembly of the PCI terminal is disconnected.

Preferably, the leaf spring further comprises an end fixed to the circuit board without contacting the conductive track.

Preferably, the end fixed to the circuit board is soldered to the circuit board and fixed.

Preferably, an end fixed to the circuit board is soldered to the circuit board through the circuit board.

According to the PCI terminal of the present invention, it is possible to detect an external intrusion to the PCI terminal, thereby enhancing the security of information stored in the PCI.

1 (a) and 1 (b) are schematic cross-sectional views of a PCI terminal according to an embodiment of the present invention.
1 (c) is a perspective view of a leaf spring according to an embodiment of the present invention.
2 is a schematic circuit diagram of a PCI terminal according to an embodiment of the present invention.
3 (a) - (b) are schematic cross-sectional views of a PCI terminal according to an embodiment of the present invention.
3 (c) is a perspective view of the leaf spring according to an embodiment of the present invention.
4A and 4B are schematic circuit diagrams of a PCI terminal according to an embodiment of the present invention.
5 (a) to 5 (b) are schematic cross-sectional views of a leaf spring according to an embodiment of the present invention.

In describing the present invention, the names of the individual components to be defined are defined in consideration of the functions of the present invention. Therefore, the present invention should not be construed as limiting the technical elements of the present invention. Further, the respective names defined for each component may be referred to by other names in the art.

A PCI terminal according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 (a) and 1 (b) are schematic cross-sectional views of a PCI terminal according to an embodiment of the present invention. 1 (c) is a perspective view of a leaf spring according to an embodiment of the present invention.

1 (a) and 1 (b), a PCI terminal according to an embodiment includes an outer case 100 formed with a pressing projection 110, a pressing projection 110 positioned on a lower surface of the outer case, A plate spring 300 which is placed on the lower surface of the circuit cover and is pressurized by the pressurized circuit cover when the circuit cover is pressed by the press protrusion 110, And a circuit board 400 on which tracks are formed.

1 (a) is a cross-sectional view of a PCI terminal in which the leaf spring 300 is not pressed by the pressing protrusion 110 because the outer case 100 is not coupled.

The outer case 100 is formed with a pressing protrusion 110 for pressing the circuit cover 200. For example, the pressing protrusion 110 may be formed in a column shape on the lower surface of the inside of the outer case 100. When the pressing protrusion 110 presses the circuit cover 200, it is when the external case 100 is pressed by an external force, typically when the PCI terminal is assembled. Therefore, the PCI terminal in Fig. 1 (a) in which the pressing projection 110 does not press the circuit cover 200 shows a state in which the assembly is separated.

The circuit cover 200 is for protecting the circuit board and is located on the lower surface of the outer case 100. The circuit cover 200 sufficiently pressurizes the pressing protrusion 110 of the outer case 100 while preventing the circuit board 400 from being directly impacted by the pressure from the pressing protrusion 110. [

Further, although not shown in the drawings, the circuit cover 200 may be formed of, for example, a mesh circuit. That is, the surface of the circuit cover 200 may be formed of an array of wiring traversing the surface, thereby effectively shielding the surface of the circuit cover 200. Therefore, it is possible to immediately detect an external trespass action accompanying breakage of the circuit cover 200 from whether or not the surface wiring of the circuit cover 200 is disconnected.

The leaf spring 300 changes its shape depending on whether the outer case 100 is pressed by an external force. As shown in FIG. 1 (a), in a state where the assembly of the PCI terminal is separated, the leaf spring 300 is not pressurized and is bent into a dome shape.

The end 310 of the unpressurized leaf spring 300 is in contact with the conductive track 410 on the circuit board 400. 1 (a), if the end 310 is in contact with the conductive track 410, a current can flow from the conductive track 410 to the leaf spring 300 have.

An end 320 that is not in contact with the conductive track 410 of the leaf spring 300 is fixed to the circuit board 400. The end 320 in Fig. 1 (a) is fixed to the circuit board 400 by soldering.

1B is a cross-sectional view of a PCI terminal in which the outer case 100 is engaged and the leaf spring 300 is pressed by the pressing protrusion 100. As shown in FIG.

The pressing protrusion 110 of the outer case 100 presses the circuit cover 200 when the outer case 100 is pressed by an external force, typically when the PCI terminal is assembled. 1 (b), in which the pressing protrusion 110 of the outer case 100 presses the circuit cover 200, indicates the completion of assembly

The circuit cover 200 sufficiently transfers the pressing force from the pressing protrusion 110 of the outer case 100 to the leaf spring 300 in a state where the assembling of the PCI terminal is completed.

The leaf spring 300 changes its shape depending on whether the outer case 100 is pressed by an external force. As shown in FIG. 1 (b), in a state where the assembling of the PCI terminal is completed, the leaf spring 300 is pressed and spreads widely. At this time, the conductive track 410 is fixed on the circuit board 400.

As the leaf spring 300 is expanded, the end 310 of the pressurized leaf spring 300 is not in contact with the conductive track 410 fixed on the circuit board 400. 1 (a), current can flow from the conductive track 410 to the plate spring 300, which is a conductor, when the assembly of the PCI terminal is separated. However, when the assembly of the PCI terminal is completed as shown in FIG. 1 (b), no current flows from the conductive track 410 to the leaf spring 300.

1 (c) is a perspective view of the leaf spring 300 used in Figs. 1 (a) to (b). An end 310 of the leaf spring 300 is used to contact the conductive track 410 and one end 320 is used to secure the circuit board 400. The end 310 contacting the conductive track 410 has a wing shape but the end 320 fixed to the circuit board 400 has a flat shape.

2 is a schematic circuit diagram of a PCI terminal according to an embodiment of the present invention.

2, a PCI terminal according to an embodiment of the present invention includes a detection terminal 600, and determines whether the assembly of the PCI terminal is completed based on the voltage of the detection terminal 600 according to the state of the switch 510 Or whether it has been separated. Specifically, the detection terminal 600 has the same voltage as the input voltage terminal 700 when the switch 510 is opened, that is, VDD, but has a voltage of 0 [V] when the switch 510 is closed. Accordingly, when the voltage detected by the detecting terminal 600 is VDD, it is possible to detect that the outer case 100 of the PCI terminal is in the closed state. When the voltage detected by the detecting terminal 600 is 0 [V] It is possible to detect that the outer case 100 of the PCI terminal is open.

In implementing the circuit diagram of FIG. 2, the end 310 of the leaf spring 300 may serve as a switch 510 on the circuit by contacting or not contacting the conductive track 410. 2 is connected to the conductive track 410, and the ground terminal on the circuit diagram of Fig. 2 is connected to the leaf spring 300. In Fig.

If the assembly of the PCI terminal is disconnected so that the end 310 of the leaf spring 300 does not contact the conductive track 410, then the circuit diagram switch 510 of FIG. 2 is open and is connected to the conductive track 410 The detection terminal 600 has a voltage of the same magnitude as the input voltage terminal 700, that is, VDD. When the end 310 of the leaf spring 300 contacts the conductive track 410 when the assembly of the PCI terminal is completed and the circuit diagram switch 510 shown in FIG. 2 is closed, The connected detection terminal 600 has a voltage of 0 [V].

When the detection terminal 600 has a value specified by the input voltage terminal 700, that is, a voltage of VDD, it is determined that the assembly of the PCI terminal is completed, and the detection terminal 600 is controlled by the input voltage terminal 700 If it has a specified value, that is, a voltage lower than VDD, it can be determined that the assembly of the PCI terminal is disconnected.

It is preferable that the number of the leaf springs 300 sufficient to determine whether or not the intrusion is intruded can be determined as the number of the switches 510 implemented by the leaf spring 300 and the conductive track 410 can be accurately determined. And a corresponding conductive track 410 are disposed.

3 (a) - (b) are schematic cross-sectional views of a PCI terminal according to an embodiment of the present invention. 3 (c) is a perspective view of the leaf spring 300 according to an embodiment of the present invention.

The leaf spring 300 of Figures 3 (a) - (c) contacts the two conductive tracks 410, 420 and includes two ends 310, 330 for contacting the conductive tracks 410, 420 do. An end 320 that is not in contact with the conductive tracks 410, 420 is used to secure the leaf spring 300.

3 (a) is a cross-sectional view of a PCI terminal in which the leaf spring 300 is not pressed.

The description of the outer case 100 and the circuit cover 200 is the same as in Fig. 1 (a).

The shape of the leaf spring 300 changes depending on whether the outer case 100 is pressed by an external force. In the state where the assembly of the PCI terminal is separated, the leaf spring 300 is not pressed, State is the same as Fig. 1 (a).

3 (a), the unsprung leaf spring 300 has two ends 310, 330 contacting each corresponding conductive track 410, 420. Since the plate spring 300 is made of a conductor, if the two ends 310 and 330 are in contact with the conductive tracks 410 and 420 as shown in FIG. 3A, A current can flow from the corresponding conductive track 410, 420.

The end 320 of the leaf spring 300 which is not in contact with the conductive tracks 410 and 420 is fixed to the circuit board 400. The end 320 in Fig. 3 (a) is fixed to the circuit board 400 by soldering.

3 (b) is a cross-sectional view of a PCI terminal in which the leaf spring 300 is in a pressed state.

The pressing protrusion 110 of the outer case 100 presses the circuit cover 200 and the circuit cover 200 presses the pressing protrusion 110 of the outer case 100 And is transmitted to the leaf spring 300. When the leaf spring 300 is pressed, the leaf spring 300 is expanded in the same manner as in Fig. 1 (b). At this time, the conductive track 410 is fixed on the circuit board 400.

3 (b), the two ends 310 and 330 of the leaf spring 300 are both pressed against the corresponding conductive tracks 410 and 420 on the corresponding circuit board 400, Or one of the two may be in contact and the other may not.

Current does not flow from the conductive tracks 410 and 420 to the leaf spring 300 when both ends 310 and 330 of the leaf spring 300 are not in contact with the respective corresponding conductive tracks 410 and 420 .

However, only one end 310 or 330 of the two ends 310 and 330 of the leaf spring 300 contacts the corresponding conductive track 410 or 420 and the other end 330 or 310 contacts the corresponding conductive track 410 or 420, In the case of not contacting the track 420 or 410, current may or may not flow to the leaf spring 300 depending on the arrangement of the circuit. This will be described later with reference to FIG.

Fig. 3 (c) is a perspective view of the leaf spring 300 used in Figs. 3 (a) to 3 (b). Two ends 310 and 320 are used to contact the conductive tracks 410 and 420 and one end 320 is used to secure the circuit board 400. The two ends 310 and 320 are subjected to a strong pressing force exerted on only one of the two ends 310 and 320 depending on the strength to which the external force is exerted and the direction of the pressing and the relative position of the leaf spring 300 And may be in contact with one of the high conductive tracks 410 or 420. Therefore, when two ends 310 and 330 are used to contact the conductive tracks 410 and 420, when only one end 310 is used as in FIGS. 1 (a) and (b) It is possible to accurately determine whether the PCI terminal is pressurized or not, and further determine whether the PCI terminal is intruded outside.

4A and 4B are schematic circuit diagrams of a PCI terminal according to an embodiment of the present invention.

4A is a schematic circuit diagram according to an embodiment in which two ends 310 and 320 are used to contact the conductive tracks 410 and 420 in a PCI terminal.

4A, a PCI terminal according to an embodiment of the present invention includes a detection terminal 600 and detects a voltage of the detection terminal 600 from the voltage of the detection terminal 600 according to the states of the switches 510 and 520, It is possible to judge whether the assembly of the first embodiment is completed or disassembled. Specifically, due to the parallel-connected switches 510 and 520, the detection terminal 600 has a voltage of the same magnitude as the input voltage terminal 700, that is, VDD when both the switches 510 and 520 are open, And has a voltage of 0 [V] when any one of the switches 510 and 520 is closed.

In implementing the circuit diagram of FIG. 4 (a), the ends 310 and 330 of the leaf spring 300 are in contact with or not in contact with respective corresponding conductive tracks 410 and 420, 520). The switches 510 and 520 connected in parallel are connected in parallel to ground terminals at two ends 310 and 320 and the detection terminals 600 are connected in parallel to the two conductive tracks 410 and 420.

4B is a schematic circuit diagram according to an embodiment in which two ends 310 and 320 are used to contact the conductive tracks 410 and 420 in a PCI terminal.

4B is a schematic circuit diagram according to an embodiment in which two ends 310 and 320 are used to contact the conductive tracks 410 and 420 in the PCI terminal as shown in FIG.

4 (b), a PCI terminal according to an embodiment of the present invention includes a detection terminal 600 and detects a voltage of the detection terminal 600 from the voltage of the detection terminal 600 according to the states of the switches 510 and 520, It is possible to judge whether the assembly of the first embodiment is completed or disassembled. More specifically, due to the series-connected switches 510 and 520, the detection terminal 600 has a voltage of the same magnitude as the input voltage terminal 700, that is, VDD when either of the two switches 510 and 520 is opened When both switches 510 and 520 are closed, they have a voltage of 0 [V].

In implementing the circuit diagram of FIG. 4 (b), the ends 310 and 330 of the leaf spring 300 are in contact with or not in contact with respective corresponding conductive tracks 410 and 420, 520). The series-connected switches 510 and 520 are connected such that the ground terminal is connected to one conductive track 410 or 420 while the two ends 310 and 320 are connected in series as the leaf spring 300, And the detection terminal 600 is connected to the first and second electrodes 420 and 410, respectively.

4 (a) and 4 (b), if the detection terminal 600 has a value specified by the input voltage terminal 700, that is, a voltage of VDD, as shown in FIG. 2, It can be determined that the intrusion is made when the detection terminal 600 has a value specified by the input voltage terminal 700, that is, a voltage lower than VDD.

However, depending on the serial parallel connection of the switches 510 and 520, the degree of the judgment as to whether or not an intrusion has been made may vary. Specifically, in some cases, the two ends 310, 320 are pressed against only one of the two ends 310, 320 in accordance with the strength to which the external force is applied, the direction of the pressing and the relative position of the leaf spring 300. [ May be applied and make contact with one of the conductive tracks 410 or 420. Therefore, the detection result of the series or parallel connection may be different for the same intensity or the same direction of pressure. In the case of the parallel connection shown in FIG. 4 (a), even if only one of the switches is opened, the external case 100 is detected as being opened. However, (100) can be detected as being opened. Therefore, when the user selects one of the circuit connection methods shown in FIGS. 4 (a) and 4 (b), it is determined whether or not the PCI terminal has received an external intrusion by using only one circuit switch There is an effect that can be made more carefully or delicately.

The more the number of the switches 510 and 520 implemented by the leaf spring 300 and the conductive tracks 410 and 420 is, the more accurately the intrusion can be determined. Therefore, The spring 300 and the corresponding conductive tracks 410 and 420 are disposed.

5 (a) to 5 (b) are schematic cross-sectional views of a leaf spring according to an embodiment of the present invention.

The end 320 used for fixing the circuit board 400 of the leaf spring 300 is expanded as shown in FIGS. 5 (a) to 5 (b) 400, as shown in Fig. In this case, the plate spring 400 can be easily fixed only by soldering. At this time, depending on the shape of the end 320, the soldering portion may be changed.

As shown in FIG. 5A, when the terminal 320 is flattened, the circuit board 400 may be soldered at the top of the circuit board 400. That is, soldering can be performed only on one surface. In this case, the end 320 can be easily fixed by soldering only on the circuit board 400 without being physically fixed.

5, the end 320 may be bent and soldered to the circuit board 400 in a state of being embedded in the circuit board 400. As shown in FIG. In this case, the plate spring 300 can be fixed to the correct position on the circuit board 400 without being pressed against the pressure plate, even when compared with the case shown in Figs. 1 (a) to (b). In addition, when the end 320 is penetrated through the circuit board 400 while being stuck on the circuit board 400, soldering can be performed to both the upper and lower ends of the circuit board 400. Therefore, the soldering can be performed more, and the plate spring 300 can be more firmly fixed.

What has been described above includes examples of one or more embodiments. It is, of course, not possible to describe all possible combinations of components or methods for purposes of describing the embodiments described, but one of ordinary skill in the art may recognize that many further combinations and permutations of various embodiments are possible. Accordingly, the described embodiments are intended to embrace all such alterations, modifications and variations that fall within the spirit and scope of the appended claims. Furthermore, to the extent that the term "comprises" is used in the detailed description or the claims, such terms are intended to be inclusive in a manner similar to "consisting" .

100: outer case
110: pressing projection
200: Circuit cover
300: leaf spring
310, 330: Ends in contact with the conductive track of the leaf spring
320: the end fixed to the circuit board of the leaf spring
400: circuit board
410, 420: Conductive track
510, 520: switch
600: Detection terminal
700: Input voltage terminal

Claims (12)

In a Payment Card Industry (PCI) terminal,
An outer case having a pressing projection formed therein;
A circuit cover located on a lower surface of the outer case and being pressed by the pressing protrusion;
A leaf spring which is disposed on a lower surface of the circuit cover and is pressed by the pressing projection and is made of a conductor; And
And a circuit board located on a lower surface of the leaf spring and having a conductive track corresponding to the leaf spring,
When the assembly of the PCI terminal is disconnected, the leaf spring is not pressed by the pressing projection,
When the assembly of the PCI terminal is completed, the leaf spring is pressed by the pressing projection,
When the leaf spring is not pressed, the leaf spring is bent into a dome shape so that an end of the leaf spring contacts the conductive track,
Wherein when the leaf spring is pressed, the leaf spring is expanded so that an end of the leaf spring does not contact the conductive track.
PCI terminal. delete delete The method according to claim 1,
Wherein the leaf spring is formed as a single blade or a double blade,
Wherein the single blade has one end of the leaf spring in contact with the conductive track,
The two wing tips being in the form of two ends of the leaf spring contacting the conductive track,
PCI terminal. 5. The method of claim 4,
Wherein the number of the leaf springs is X, which is an integer of 1 or more.
PCI terminal. 5. The method of claim 4,
Wherein the PCI terminal further comprises a detection terminal,
When the leaf spring is the single blade type:
When the end of the leaf spring is not in contact with the conductive track, the voltage of the detection terminal electrically connected to one conductive track corresponding to the leaf spring becomes a specific value,
Wherein when the end of the leaf spring contacts the conductive track, the voltage of the detection terminal becomes less than a specified value.
PCI terminal. 5. The method of claim 4,
Wherein the PCI terminal further comprises a detection terminal,
Wherein the plate spring is of the double blade type and the detection terminals are connected in parallel to two conductive tracks corresponding to the leaf spring and the ground terminal is connected to the leaf spring:
When the two ends of the leaf spring are not in contact with the two conductive tracks, the voltage of the detection terminal becomes a specific value,
Wherein a voltage of the detection terminal is less than the specific value when at least one of the two ends of the leaf spring contacts the two conductive tracks.
PCI terminal. 5. The method of claim 4,
Wherein the PCI terminal further comprises a detection terminal,
When the leaf spring is of the double blade type and the ground terminal is connected to one of the two conductive tracks corresponding to the leaf spring and the detection terminal is connected to the other one of the two conductive tracks,
When one of the two ends of the leaf spring does not contact the two conductive tracks, the voltage of the detection terminal becomes a specific value,
Wherein when the two ends of the leaf spring contact the two conductive tracks, the voltage of the detection terminal becomes less than the specific value.
PCI terminal. 9. The method according to any one of claims 6 to 8,
When the voltage of the detection terminal is the specific value, it is determined that the assembling of the PCI terminal is completed,
And determines that the assembly of the PCI terminal is disconnected when the voltage of the detection terminal is less than the specific value.
PCI terminal. The method according to claim 1,
Wherein the leaf spring further comprises an end fixed to the circuit board without contacting the conductive track.
PCI terminal. 11. The method of claim 10,
And an end fixed to the circuit board is soldered to the circuit board.
PCI terminal. 11. The method of claim 10,
And an end fixed to the circuit board is soldered to the circuit board through the circuit board.
PCI terminal.

Images