KR102810139B1 - Payment method using magnetic stripe transmission and device for performing the same - Google Patents

Abstract

A payment terminal supporting an MST (magnetic stripe transmission) payment method according to one embodiment may include: a magnetic stripe reader (MSR) head that receives a magnetic field pulse through at least one of a swipe of a payment card and an MST coil of a user terminal; an MST antenna that receives a magnetic field pulse through the MST coil of the user terminal; and a processor that determines which device among the MSR head and the MST antenna the received magnetic field pulse was received from, and performs payment based on the result of the determination.

Description

PAYMENT METHOD USING MAGNETIC STRIPE TRANSMISSION AND DEVICE FOR PERFORMING THE SAME {PAYMENT METHOD USING MAGNETIC STRIPE TRANSMISSION AND DEVICE FOR PERFORMING THE SAME}

The present invention relates to a payment method using an MST payment method and a device for performing the same.

Payment cards that support magnetic stripe payment methods are used for a variety of purposes, such as credit cards, debit cards, gift cards, and coupon cards.

Card data of these payment cards is recorded on the magnetic stripe by alternating the orientation of magnetic particles embedded in the stripe. The card data can be read by swiping the magnetic stripe through a reader (card reader) equipped in the payment terminal.

The reader includes a magnetic head and associated decoding circuitry. As a card passes through the reader, the magnetic stripe moves closer to the magnetic head. The moving magnetic stripe, which contains magnetic domains of alternating polarity, generates a fluctuating magnetic field within a narrow sensing area of the magnetic head.

The reader head converts this fluctuating magnetic field into an equivalent electrical signal. The decoding circuitry amplifies and digitizes this electrical signal, thereby reproducing the same data stream that was originally recorded on the magnetic stripe. The encoding of the magnetic stripe can be performed according to ISO standards 7811 and 7813.

Meanwhile, as the use of smartphones has increased recently, research is actively being conducted to install mobile wallet functions on smartphones. As a result of such efforts, the Magnetic Stripe Transmission (MST) technology has been developed to enable payment through smartphones at POS terminals.

The MST payment method greatly improves the convenience of the payment process, as payment is made by simply holding a smartphone equipped with an MST module to a payment terminal. In addition, the MST payment method has the advantage of using the existing payment infrastructure as is, without additional costs or waste of resources for a new payment method.

Meanwhile, the payment terminal receives the MST signal using the MSR (magnetic stripe reader) head, but the reception sensitivity of this header alone is weak, so a method to compensate for this is needed.

The problem to be solved by the present invention is to provide a method for performing payment using an MST payment method using an MSR header and an MST antenna.

However, the problems to be solved by the present invention are not limited to those mentioned above, and other problems to be solved that are not mentioned will be clearly understood by a person having ordinary skill in the art to which the present invention pertains from the description below.

A payment terminal supporting an MST (magnetic stripe transmission) payment method according to one embodiment may include: a magnetic stripe reader (MSR) head that receives a magnetic field pulse through at least one of a swipe of a payment card and an MST coil of a user terminal; an MST antenna that receives a magnetic field pulse through the MST coil of the user terminal; and a processor that determines which device among the MSR head and the MST antenna the received magnetic field pulse was received from, and performs payment based on the result of the determination.

A payment method using an MST payment method performed by a payment terminal including an MSR (magnetic stripe reader) head which receives a magnetic field pulse through at least one of a swipe of a payment card and an MST coil of a user terminal according to another embodiment, an MST (magnetic stripe transmission) antenna which receives a magnetic field pulse through the MST coil of the user terminal, and a processor may include a step of receiving a magnetic field pulse; a step of determining from which device among the MSR head and the MST antenna the magnetic field pulse was received; and a step of performing a payment according to a result of the determination.

According to an embodiment of the present invention, contactless payment can be performed using both an MSR header and an MST antenna, thereby improving the reception performance of contactless payment.

In addition, according to an embodiment of the present invention, by connecting the MSR header and the MST antenna with different lines, the path along which the magnetic field pulse is received can be accurately detected.

Figure 1 illustrates the MST payment system.
FIG. 2 is a block diagram showing a payment terminal according to one embodiment.
FIG. 3 is a drawing illustrating a portion of a payment terminal according to one embodiment.
Figure 4 is a block diagram of a detailed configuration of a payment terminal according to one embodiment.
Figure 5 is a flowchart for explaining a payment method using the MST payment method according to one embodiment.
FIG. 6 is a flowchart for explaining a payment method using an MST payment method performed by a payment terminal according to one embodiment.

The advantages and features of the present invention, and the methods for achieving them, will become clear with reference to the embodiments described in detail below together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and the present embodiments are provided only to make the disclosure of the present invention complete and to fully inform those skilled in the art of the scope of the invention, and the present invention is defined only by the scope of the claims.

In describing embodiments of the present invention, if it is judged that a detailed description of a known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, the terms described below are terms defined in consideration of functions in embodiments of the present invention, and these may vary depending on the intention or custom of the user or operator. Therefore, the definitions should be made based on the contents throughout this specification.

Figure 1 illustrates the MST payment system.

Referring to FIG. 1, the MST payment system (1) may include a payment terminal (10) and a user terminal (20).

The payment terminal (10) is an electronic device that combines the functions of a cash register and a computer terminal, and can settle sales amounts or collect and process various information and data required for retail management. Depending on the embodiment, the payment terminal (10) may be a POS (Point of Sale) terminal, a CAT (Credit Authorization Terminal) terminal, etc.

According to an embodiment, the payment terminal (10) may include a payment terminal, a store controller, a host computer, etc. In addition, the payment terminal (10) may further include a barcode reader, which is an automatic product code (bar code) reading device. In addition, the payment terminal (10) may provide a tool that enables the sales flow of the company's products to be identified by item, and the sales trends and time zones of new and promotional products, products with poor sales, sales trends with similar or competitive products, etc. may be identified in detail.

Meanwhile, the payment terminal (10) may include a reader (or reader, card reader) (11) that reads payment information of the user terminal (20). In this case, the reader (11) may include a magnetic stripe reader (MSR) head (111).

Specifically, when a payment card is swiped through a reader (or reader unit) (11), the magnetic stripe moves in proximity to the magnetic stripe reader head (111). The movement of the magnetic stripe, including the crossing polarities of the magnetic domains, generates a magnetic field variation in a narrow sensing aperture of the magnetic stripe reader head (111). In this case, the magnetic stripe reader head (111) can convert the magnetic field variation into an equivalent electrical signal.

The user terminal (20) can support the MST payment method.

Specifically, the user terminal (20) may include an MST unit (21). In this case, the MST unit (21) may include an MST coil (211).

The user terminal (20) can drive the MST coil (211) to generate a magnetic field pulse. Here, the magnetic field pulse is track data of a payment card, and the induced magnetic field pulse can be transmitted to the magnetic stripe reader head (111).

In this case, a contactless wireless payment can be made by transmitting a signal similar to a direct swipe of a payment card to the magnetic stripe reader head (111).

The above-described MST payment method has the advantage of being able to be used as is without changing the payment terminal (10) and payment system that swipes the magnetic strip of the existing payment card.

FIG. 2 is a block diagram showing a payment terminal according to one embodiment, and FIG. 3 is a drawing showing a part of a payment terminal according to one embodiment.

Referring to FIGS. 2 and 3, the payment terminal (100) may include a memory (110), a reader (120), an MSR head (121), an MST antenna (130), and a processor (140).

The memory (110) may include volatile random access memory (RAM), nonvolatile read only memory (ROM), nonvolatile magnetoresistive RAM (MRAM), and/or other types of memory. The memory (110) may include a data storage for storing data (e.g., payment information, etc.) and instructions executable by the controller/processor (e.g., instructions for performing processes performed by the payment terminal (100), as described herein).

The data storage may include one or more types of non-volatile storage, such as magnetic storage, optical storage, solid-state storage, etc.

The MSR head (121) can receive a magnetic field pulse associated with the magnetic stripe data of a payment card when the payment card is swiped through the reader (120). Alternatively, the MSR head (121) can receive a magnetic field pulse generated by an MST coil of an external user terminal when the external user terminal approaches within a predetermined distance.

That is, the MSR head (121) can receive a magnetic field pulse generated through contact payment using a swipe of a payment card or contactless payment using an MST coil of a user terminal.

The MSR head (121) can transmit the received magnetic field pulse to the processor (140).

The MST antenna (130) can receive a magnetic field pulse generated by the MST coil of an external user terminal when the external user terminal approaches within a predetermined distance. That is, the MST antenna (130) can receive a magnetic field pulse generated through contactless payment using the MST coil of the user terminal.

The MST antenna (130) can transmit the received magnetic field pulse to the processor (140).

According to an embodiment, the MSR head (121) and the MST antenna (130) may be positioned within a predetermined reference distance. This is because, if the MSR head (121) and the MST antenna (130) are not positioned close to each other, the magnetic field pulse may be received by only one of the MSR head (121) and the MST antenna (130) depending on the location of the user terminal. Therefore, in order to improve the reception sensitivity of the magnetic field pulse, the MSR head (121) and the MST antenna (130) may be positioned within a predetermined reference distance.

The processor (140) can control the overall operation of the payment terminal (100).

The processor (140) can receive a magnetic field pulse (or data decoded from the magnetic field pulse) from the MSR head (121) and/or the MST antenna (130).

According to an embodiment, the processor (140) may identify from which device the magnetic field pulse was received among the MSR head (121) and/or the MST antenna (130). For example, the processor (140) may be connected to the MSR head (121) through a first line and to the MST antenna (130) through a second line, and may identify from which device the magnetic field pulse was received by distinguishing between the magnetic field pulse received through the first line and the magnetic field pulse received through the second line.

In an embodiment, if a magnetic field pulse is received through the first line but no magnetic field pulse is received through the second line, the processor (140) determines that a contact payment using a payment card is requested and may perform payment using payment information obtained through the magnetic field pulse (i.e., payment information obtained by decoding the magnetic field pulse).

Or, according to an embodiment, when a first magnetic field pulse is received through a first line and a second magnetic field pulse is received through a second line simultaneously with or within a predetermined time interval of the reception of the first magnetic field pulse, the processor (140) may determine that a contactless payment using an MST coil of the user terminal is requested and may perform payment using payment information acquired through the magnetic field pulse. At this time, the processor (140) may add an identifier indicating that the payment is made using contactless payment to the payment approval request and transmit it to a payment server (not shown).

Or, according to an embodiment, if a magnetic field pulse is not received through the first line but a magnetic field pulse is received through the second line, the processor (140) may determine that a contactless payment using the MST coil of the user terminal is requested, and may perform payment using payment information acquired through the magnetic field pulse. At this time, the processor (140) may add an identifier indicating that the payment is made using contactless payment to the payment approval request and transmit it to a payment server (not shown).

Meanwhile, according to an embodiment, when a first magnetic field pulse is received through a first line and a second magnetic field pulse is received through a second line simultaneously with or within a predetermined time interval of the reception of the first magnetic field pulse, the processor (140) may perform payment using the second payment information acquired through the second magnetic field pulse. That is, when the processor (140) receives the first magnetic field pulse and the second magnetic field pulse simultaneously, the processor (140) may give priority to processing the second magnetic field pulse received through contactless payment. This is because the MSR head (121) can be used for both contact payment and contactless payment.

At this time, if the payment performed using the second payment information is not approved, the processor (140) can perform the payment again using the first payment information acquired through the first magnetic field pulse. Since the payment using the second payment information is a contactless payment, the processor (140) adds an identifier indicating that the payment is a contactless payment to the payment approval request, but since the payment using the first payment information corresponds to a contact payment, a separate identifier may not be added to the payment approval request.

Figure 4 is a block diagram of a detailed configuration of a payment terminal according to one embodiment.

Referring to FIG. 4, the payment terminal (400) includes a communication unit (410), a storage unit (420), and a processor (430).

The communication unit (410) performs communication. The communication unit (410) can perform communication with external electronic devices through various communication methods such as BT (BlueTooth), WI-FI (Wireless Fidelity), ZigBee, IR (Infrared), NFC (Near Field Communication), etc.

The storage unit (420) can store O/S (Operating System) software modules for driving the payment terminal (400), data for configuring various UI screens provided in the display area, etc. In addition, the storage unit (420) can read and write as described above.

The processor (430) controls the overall operation of the payment terminal (400) using various programs stored in the storage unit (420).

Specifically, the processor (430) includes a RAM (431), a ROM (432), a main CPU (433), a graphics processing unit (434), first to nth interfaces (435-1 to 435-n) and a bus (436).

Here, RAM (431), ROM (432), main CPU (433), graphic processing unit (434), first to nth interfaces (435-1 to 435-n), etc. can be connected to each other through a bus (436).

The first to nth interfaces (435-1 to 435-n) are connected to the various components described above. One of the interfaces may be a network interface that connects to an external device via a network.

A set of commands for system booting, etc. are stored in ROM (432). When a turn-on command is input and power is supplied, the main CPU (433) copies the O/S stored in the storage unit (420) to RAM (431) according to the command stored in ROM (432) and executes the O/S to boot the system.

When booting is complete, the main CPU (433) copies various stored application programs to RAM (431) and executes the application programs copied to RAM (431) to perform various operations.

The main CPU (433) accesses the storage (420) and performs booting using the O/S stored in the storage (430). Then, the main CPU (433) performs various operations using various programs, contents, data, etc. stored in the storage (430).

The graphics processing unit (434) uses the calculation unit and the rendering unit to create a screen including various objects such as icons, images, and text.

Figure 5 is a flowchart for explaining a payment method using the MST payment method according to one embodiment.

Referring to FIGS. 2, 3, and 5, when a magnetic field pulse is received, the processor (140) can determine which device among the MSR head (121) and the MST antenna (130) the received magnetic field pulse was received from (S510).

If the magnetic field pulse is received through the first line connected to the MSR head (121), the processor (140) determines that a contact payment using a payment card is requested (S520) and can perform payment using the payment information obtained through the magnetic field pulse (S550).

Alternatively, if a first magnetic field pulse is received through the first line and a second magnetic field pulse is received through the second line connected to the MST antenna (130) simultaneously with or within a predetermined time interval of receiving the first magnetic field pulse, the processor (140) determines that a contactless payment using the MST coil of the user terminal is requested (S530) and may perform payment using the second payment information acquired through the second magnetic field pulse (S550). At this time, if the payment performed using the second payment information is not approved, the processor (140) may perform payment again using the first payment information acquired through the first magnetic field pulse.

Or, according to an embodiment, if the magnetic field pulse is received through the second line, the processor (140) determines that a contactless payment using the MST coil of the user terminal is requested (S540), and may perform payment using payment information obtained through the magnetic field pulse (S550).

FIG. 6 is a flowchart for explaining a payment method using an MST payment method performed by a payment terminal according to one embodiment.

Referring to FIGS. 2, 3, and 6, when a magnetic field pulse is received (S610), the payment terminal (100) can determine which device among the MSR head (121) and the MST antenna (130) the magnetic field pulse was received from (S620).

The payment terminal (100) can perform payment based on the result of the judgment (S630).

According to an embodiment of the present invention, contactless payment can be performed using both an MSR header and an MST antenna, thereby improving the reception performance of contactless payment.

In addition, according to an embodiment of the present invention, by connecting the MSR header and the MST antenna with different lines, the path along which the magnetic field pulse is received can be accurately detected.

The combination of each block of the block diagram and each step of the flow diagram attached to the present invention may be performed by computer program instructions. These computer program instructions may be installed in an encoding processor of a general-purpose computer, a special-purpose computer, or other programmable data processing equipment, so that the instructions executed by the encoding processor of the computer or other programmable data processing equipment create a means for performing the functions described in each block of the block diagram or each step of the flow diagram. These computer program instructions may also be stored in a computer-available or computer-readable memory that can be directed to a computer or other programmable data processing equipment to implement the functions in a specific manner, so that the instructions stored in the computer-available or computer-readable memory can also produce an article of manufacture that includes an instruction means for performing the functions described in each block of the block diagram or each step of the flow diagram. Since the computer program instructions can also be installed on a computer or other programmable data processing apparatus, a series of operational steps are performed on the computer or other programmable data processing apparatus to create a computer-executable process, and the instructions that cause the computer or other programmable data processing apparatus to perform the steps for executing the functions described in each block of the block diagram and each step of the flowchart can also provide steps for executing the functions described in each block of the block diagram and each step of the flowchart.

Additionally, each block or step may represent a module, segment, or portion of code that includes one or more executable instructions for performing a specified logical function(s). It should also be noted that in some alternative embodiments, the functions mentioned in the blocks or steps may occur out of order. For example, two blocks or steps depicted in succession may in fact be performed substantially concurrently, or the blocks or steps may sometimes be performed in reverse order, depending on the functionality they serve.

The above description is merely an illustrative description of the technical idea of the present invention, and those skilled in the art will appreciate that various modifications and variations may be made without departing from the essential quality of the present invention. Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to explain it, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within a scope equivalent thereto should be interpreted as being included in the scope of the rights of the present invention.

10: Payment System
100: Payment Terminal
110: Memory
120: Reader
121: MSR Head
130: MST antenna
140: Processor

Claims (12)

In a payment terminal that supports MST (magnetic stripe transmission) payment method,
A magnetic stripe reader (MSR) head that receives magnetic field pulses through at least one of a swipe of a payment card and an MST coil of a user terminal;
An MST antenna that receives a magnetic field pulse through the MST coil of the user terminal; and
Including a processor that determines from which device among the MSR head and the MST antenna the received magnetic field pulse was received, and performs payment based on the result of the determination.
The above processor,
A payment terminal that performs a contactless payment using the MST antenna when a magnetic field pulse is received through both the MSR head and the MST antenna, but performs a contactless payment using the MSR head when the contactless payment using the MST antenna is not approved. In the first paragraph,
The above processor,
A payment terminal that determines that a contact-type payment using the payment card has been requested and performs the contact-type payment when it is determined that a magnetic field pulse has been received through the MSR head.
delete In the first paragraph,
The above processor,
A payment terminal that performs contact payment using the MSR head when the above contactless payment is not approved.
delete In the first paragraph,
The above processor,
A payment terminal that transmits a payment authorization request including an identifier indicating the above contactless payment to a payment server. In the first paragraph,
The above MSR head is connected to the processor via the first line,
The above MST antenna is connected to the processor through a second line that is distinct from the first line,
A payment terminal, wherein the processor determines that the magnetic field pulse received through the first line is received from the MSR head, and determines that the magnetic field pulse received through the second line is received from the MST antenna. A payment method using an MST payment method performed by a payment terminal including an MSR (magnetic stripe reader) head that receives a magnetic field pulse through at least one of a swipe of a payment card and an MST coil of a user terminal, an MST (magnetic stripe transmission) antenna that receives a magnetic field pulse through the MST coil of the user terminal, and a processor,
A step of receiving a magnetic field pulse;
a step of determining from which device among the MSR head and the MST antenna the magnetic field pulse was received; and
Including a step of performing payment based on the result of the above judgment,
The steps to perform the above payment are:
A payment method using an MST payment method, wherein a contactless payment is performed using the MST antenna when a magnetic field pulse is received through both the MSR head and the MST antenna, but a contactless payment is performed using the MSR head when the contactless payment using the MST antenna is not approved. In Article 8,
The above judging steps are:
A payment method using an MST payment method, comprising a step of determining that a contact payment is requested when the magnetic field pulse is received by the processor through the first line connected to the MSR head.
In Article 8,
The above judging steps are:
A payment method using an MST payment method, comprising a step of determining that a contactless payment is requested when a first magnetic field pulse is received by the processor through a first line connected to the MSR head, and a second magnetic field pulse is received by the processor through a second line connected to the MST antenna and separated from the first line.
In Article 10,
The steps to perform the above payment are:
A payment method using an MST payment method, comprising a step of performing a contact payment using the MSR head when the contactless payment is not approved.
In Article 8,
The above judging steps are:
A payment method using an MST payment method, comprising a step of determining that a contactless payment is requested when the magnetic field pulse is received by the processor through a second line connected to the MST antenna.