KR100980052B1 - Power supply and communication branching interface system of mobile device using near field communication - Google Patents

Abstract

PURPOSE: An interface system of a portable device is provided to secure stable operation of the portable device by using electromagnetic energy induced from a non-contact terminal device. CONSTITUTION: An internal power source(100) is a built-in battery. A power converter(200) converts electromagnetic energy induced from a non-contact terminal device into DC power. A power storage unit(300) stores the DC power converted by the power converter. An NFC(Near Field Communication) controller(400) controls communications between the smart card and the non-contact terminal device. An electric energy determining unit(500) generates a signal for controlling the driving of the NFC controller. A power supply converter(600) converts the power connection terminal of the NFC controller according to the signal of the electric energy determining unit.

Description

POWER SUPPLY AND COMMUNICATION BRANCHING INTERFACE SYSTEM OF MOBILE DEVICE USING NEAR FIELD COMMUNICATION}

The present invention relates to an interface system of various mobile handheld devices based on near field communication (NFC), and even when the power amount of the handheld device falls below a minimum level, the present invention provides various functions using a contactless smart card and NFC. The present invention relates to a technology for stably performing a contactless terminal device.

In general, when the capacity of the battery, which is the main power supply source of the mobile device, drops below a certain level, the supply of power provided to the mobile device is cut off and all communication and control functions are stopped. In this case, there is a problem that a contactless smart card (RF / IC, USIM, UICC, etc.) used as a means of user authentication and payment, etc. mounted in the portable device cannot be used.

The present invention has been made in view of the above problems, even when the amount of power of the portable device falls below the minimum level, NFC to enable the non-contact smart card and NFC to perform various functions stably with a non-contact terminal device stably It is an object of the present invention to provide a power supply and communication branch interface system for portable devices.

The present invention for achieving the technical problem, relates to a power supply and communication branch interface system of a portable device using NFC, an internal battery, an internal power supply for supplying power; A power converter which receives an electromagnetic field radiated from an external contactless terminal device through an antenna and converts electromagnetic energy induced by the applied electromagnetic field into DC power; A power storage unit for storing the DC power converted by the power converter; An NFC controller which receives power from the internal power supply or power storage to control various types of communication between an external contactless terminal and a smart card; An amount of power determining unit configured to generate a non-driving signal or a driving enable signal of the NFC controller by checking an amount of power of the internal power supply unit; And a power supply switching unit for switching the power connection terminal of the NFC control unit in accordance with the non-driven signal or the drive enable signal input from the power amount determination unit; Characterized in that it comprises a.

In addition, the NFC control unit, characterized in that for controlling the communication related to data processing, including user confirmation through the ID authentication of the smart card, payment through the user confirmation.

The power amount determining unit may determine whether the amount of power of the internal power supply unit is less than or equal to the amount of power capable of driving the NFC control unit, and when the determination result is less than or equal to the amount of power capable of driving the NFC control unit, generates an NFC control unit disable signal. When the amount of power that can drive the NFC control unit or more, characterized in that for generating a NFC control signal capable drive.

The power supply switching unit may switch the power connection terminal of the NFC control unit to a power storage unit when a driving non-operation signal is input from the power determination unit, and when the driving enable signal is input from the power determination unit, the NFC control unit. Maintain or switch the power connection terminal to the internal power supply.

In addition, the communication branch unit for connecting the antenna to the NFC control unit or the smart card in accordance with the NFC control signal enable or non-driven signal input from the power amount determination unit; It characterized in that it further comprises.

When the NFC control unit driving enable signal is input from the power determination unit, the communication branch unit connects the connection terminal of the antenna to the NFC control unit, and when the NFC control unit driving disable signal is input from the power determination unit, the antenna The connecting end of the smart card is characterized in that directly connected.

On the other hand, the present invention relates to a power supply switching method using a power supply and communication branch interface system of a portable device using NFC, the method comprising: (a) operating the portable device by supplying power to the internal power supply; (b) determining, by the power amount determining unit, the power amount of the internal power supply unit to determine whether the power amount is less than or equal to the power amount capable of driving the NFC control unit; (c) when the determination result of step (b) is less than or equal to the amount of power capable of driving the NFC control unit, generating an NFC control unit non-driven signal by the power amount determination unit; And (d) switching the power connection terminal of the NFC control unit to a power storage unit when the power supply switching unit receives a non-driven signal from the power amount determining unit. Characterized in that it comprises a.

And (e) when the determination result of step (b), if the amount of power that can drive the NFC control unit, the step of determining the power amount of the NFC control unit drive enable signal; And (f) maintaining the power connection terminal of the NFC control unit as an internal power supply unit when the power supply switching unit receives a driving enable signal from the power amount determining unit. It characterized in that it further comprises.

The present invention relates to a communication branch method using a power supply and communication branch interface system of a portable device using NFC, the method comprising: (a) receiving a non-driven signal or a drive enable signal from a power branch determining unit; (b) determining whether the signal inputted by the communication branch unit is a non-driven signal; (c) if the NFC control unit disable signal is input from the power determination unit as a result of the determination of step (b), directly connecting the connection end of the antenna to the smart card by the communication branch unit; And (d) the smart card communicating directly with the contactless terminal using the electromagnetic field radiated from the contactless terminal. Characterized in that it comprises a.

And (e) when the NFC controller drive enable signal is input from the power determination unit as a result of the determination of step (b), connecting the connection branch of the antenna to the NFC controller; And (f) controlling the smart card to communicate with the contactless terminal device by using the power of the internal power supply unit by the NFC control unit. It characterized in that it further comprises.

According to the present invention as described above, all mobile devices using an NFC control unit, a contactless smart card (eg, USIM, UICC, etc.) can overcome the limitation on the use of the function according to the exhaustion of the power of its own battery. It has an effect. That is, by converting and storing electromagnetic energy induced from an external contactless terminal device into DC power, various functions using a contactless smart card and NFC can be achieved even when the amount of power of the internal power supply unit falls to a minimum level that enables the portable device to be driven. It has the effect of stable and continuous progress.

In addition, according to the power amount of the internal power supply unit, by branching the antenna connection terminal to the NFC control unit or the smart card, there is an effect that can be directly activated the smart card and various data processing functions with the outside through NFC.

1 is an overall configuration diagram conceptually showing a power supply and communication branch interface system of a portable device using NFC according to the present invention.
2 is a flowchart illustrating a power supply switching method using a power supply and communication branch interface system of a portable device using NFC according to the present invention.
3 is a flowchart illustrating a communication branch method using a power supply and communication branch interface system of a portable device using NFC according to the present invention.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. In the meantime, when it is determined that the detailed description of the known functions and configurations related to the present invention may unnecessarily obscure the subject matter of the present invention, it should be noted that the detailed description is omitted.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

The power supply and communication branch interface system of a portable device using NFC according to the present invention will be described with reference to FIG. 1 as follows.

1 is an overall configuration diagram conceptually showing a power supply and communication branch interface system (S) of a portable device using NFC according to the present invention, as shown in the internal power supply unit 100, power conversion unit 200, It includes a power storage unit 300, NFC control unit 400, power amount determination unit 500, the power supply switching unit 600 and the communication branch 700.

Specifically, the internal power supply unit 100 is a built-in battery which is a main power supply of the portable device, and performs a function of supplying power.

In addition, the power converter 200 receives an electromagnetic field radiated from the external contactless terminal device 20 through the antenna 10 and performs a function of converting electromagnetic energy induced by the applied electromagnetic field into DC power. .

In addition, the power storage unit 300 stores the DC power converted by the power converter 200.

In addition, the NFC controller 400 is a chip for operating the RF short-range communication method, and receives the power from the internal power supply unit 100 or the power storage unit 300 of the external contactless terminal 20 and the smart card 30 It performs a function to control various communication.

The communication control is a communication control for connecting the smart card 30 and the external contactless terminal 20 to perform various services provided by the smart card 30, the NFC control unit 400 is a smart card 30 Controls communication regarding data processing, such as user verification through ID authentication and payment through user verification.

In addition, the power amount determination unit 500 checks the power amount of the internal power supply unit 100 to perform a function of generating a non-driven signal or a driveable signal for the NFC controller 400.

Specifically, the power amount determination unit 500 determines whether the power amount is less than the amount of power capable of driving the NFC control unit 400.

As a result, when the amount of power that can drive the NFC control unit 400 or less, when the power amount determination unit 500 generates a non-driven signal to the NFC control unit 400, and the power amount that can drive the NFC control unit 400, The NFC controller 400 generates a driveable signal.

In addition, the power supply switching unit 600 converts the power connection terminal 410 of the NFC control unit 400 to the power storage unit 300, when a non-driven signal is input from the power amount determination unit 500, When the drive enable signal is input, it maintains or switches the power connection terminal 410 of the NFC controller 400 to the internal power supply unit 100.

In addition, the communication branch unit 700 receives the NFC controller 400 driving enable signal or a driving non-operation signal from the power amount determining unit 500, and the antenna 10 is connected to the NFC controller 400 or the smart card 30. Performs the function of connecting to.

In detail, the communication branch unit 700 connects the connection terminal 11 of the antenna 10 to the NFC control unit 400 when a signal capable of driving the NFC control unit 400 is input from the power determination unit 500. Let's do it.

Accordingly, the NFC controller 400 may control the smart card 30 to communicate with the contactless terminal device 20 by using the power of the internal power supply unit 100.

On the other hand, the communication branch unit 700 when the non-driving signal of the NFC control unit 400 is input from the power determination unit 500, the connection terminal 11 of the antenna 10 without passing through the NFC control unit 400. ) Directly to the smart card (30).

Accordingly, the smart card 30 directly communicates with the contactless terminal device 20 using the electromagnetic field radiated from the contactless terminal device 20.

For reference, the smart card 30 (RF / IC, USIM, UICC, etc.) is an IC chip used for various purposes such as user authentication and payment of a portable device. Recently, one IC chip has a Combi type that operates two types of I / Os in contact and non-contact type.

The smart card 30 used in the present invention is a smart card of Combi (Dual Interface) type using all I / Os of contact type and contactless type, and uses contact type I / O through NFC. Data processing (ex: payment, user authentication, etc.) with the outside including the function of the mobile terminal is carried out, and through the contactless I / O, the connection with the RF antenna is not directly performed without using the function of the mobile terminal. It can be used for data processing with external terminal (eg transportation card, etc.).

Hereinafter, an interface method using the power supply and communication branch interface system S of the portable device using NFC as described above will be described with reference to FIGS. 2 to 3.

2 is a flowchart illustrating a power supply switching method using a power supply and a communication branch interface system of a portable device using NFC according to the present invention, in which the internal power supply unit 100 supplies power to operate the portable device as shown. In the state (S2), the power amount determination unit 500 checks the power amount of the internal power supply unit 100, and determines whether or not the amount of power that can drive the NFC control unit 400 (S4).

As a result of the determination in step S4, when the amount of power that can drive the NFC control unit 400 is less than or equal to, the power amount determination unit 500 generates a non-driven signal to the NFC control unit 400 (S6), the power supply switching unit 600 ) Receives the driving non-operation signal from the power amount determining unit 500, switches the power connection terminal 410 of the NFC control unit 400 to the power storage unit 300 (S8).

On the other hand, when the determination result of step S4, when the amount of power that can drive the NFC control unit 400 or more, the power amount determination unit 500 generates the NFC control signal 400 driveable signal (S10), the power supply switching unit When receiving the driving enable signal from the power amount determining unit 500, 600 maintains the power connection terminal 410 of the NFC control unit 400 as the internal power supply unit 100 (S12).

3 is a flowchart illustrating a communication branch method using a power supply and a communication branch interface system of a portable device using NFC according to the present invention, and as shown, the communication branch unit 700 cannot be driven from the power amount determination unit 500. A signal or a driveable signal is input (S14), and it is determined whether the input signal is a non-driven signal (S16).

As a result of the determination in step S16, when the non-driving signal of the NFC controller 400 is input from the power determination unit 500, the communication branch 700 does not pass through the NFC controller 400 and the antenna 10 The connection end 11 of the direct connection to the smart card 30 (S18).

Thereafter, the smart card 30 directly communicates with the contactless terminal device 20 using the electromagnetic field radiated from the contactless terminal device 20 (S20).

On the other hand, when the determination result of step S16, when the NFC controller 400 driving signal is input from the power determination unit 500, the communication branch 700 is connected to the connection terminal 11 of the antenna 10 Connect to the NFC control unit 400 (S22).

Thereafter, the NFC control unit 400 controls the smart card 30 to communicate with the contactless terminal device 20 by using the power of the internal power supply unit 100 (S24).

As described above and described with reference to a preferred embodiment for illustrating the technical idea of the present invention, the present invention is not limited to the configuration and operation as shown and described as described above, it is a deviation from the scope of the technical idea It will be understood by those skilled in the art that many modifications and variations can be made to the invention without departing from the scope of the invention. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

100: internal power supply unit 200: power conversion unit
300: power storage unit 400: NFC control unit
500: power amount determination unit 600: power supply switching unit
700: communication branch 10: antenna
20: contactless terminal device 30: smart card

Claims (10)

An internal battery, the internal power supply unit 100 for supplying power;
A power converter 200 receiving an electromagnetic field radiated from the external contactless terminal device 20 through the antenna 10 and converting electromagnetic energy induced by the applied electromagnetic field into DC power;
A power storage unit 300 for storing the DC power converted by the power converter 200;
NFC control unit 400 for receiving power from the internal power supply unit 100 or the power storage unit 300 to control various types of communication between the external contactless terminal 20 and the smart card 30;
A power amount determination unit 500 for generating a non-driven signal or a driveable signal for the NFC controller 400 by checking the power amount of the internal power supply unit 100; And
A power supply switching unit 600 for switching the power connection terminal 410 of the NFC control unit 400 according to a driving non-operation signal or a driving enable signal input from the power amount determination unit 500; Power supply and communication branch interface system of a portable device using NFC, comprising a.
The method of claim 1,
The NFC control unit 400,
Power supply and communication branch interface system of a portable device using NFC, characterized in that for controlling the communication related to the data processing, including user confirmation through the ID authentication of the smart card 30, payment through the user confirmation.
The method of claim 1,
The power amount determination unit 500,
It is determined whether the amount of power of the internal power supply unit 100 is less than or equal to the amount of power capable of driving the NFC control unit 400. When the determination result is less than or equal to the amount of power capable of driving the NFC control unit 400, the NFC control unit 400 is driven. The power supply and communication branch interface system of the portable device using NFC, which generates a disable signal and generates an NFC control unit 400 enable signal when the amount of power capable of driving the NFC control unit 400 is greater.
The method of claim 1,
The power supply switching unit 600,
When the non-driving signal is input from the power amount determination unit 500, the power connection terminal 410 of the NFC control unit 400 is switched to the power storage unit 300,
When the drive enable signal is input from the power determination unit 500, the portable terminal using NFC, characterized in that to maintain or switch the power connection terminal 410 of the NFC control unit 400 to the internal power supply unit 100. Power supply and communication branch interface system.
The method of claim 1,
The communication branch unit 700 connecting the antenna 10 to the NFC control unit 400 or the smart card 30 according to the NFC control unit 400 driving enable signal or a driving non-operation signal input from the power amount determining unit 500. ); Power supply and communication branch interface system of a portable device using NFC further comprising a.
The method of claim 5, wherein
The communication branch 700,
When the NFC controller 400 driving enable signal is input from the power determination unit 500, the connection terminal 11 of the antenna 10 is connected to the NFC controller 400.
When the non-driving signal of the NFC control unit 400 is input from the power determination unit 500, the portable terminal using the NFC, characterized in that directly connecting the connection terminal 11 of the antenna 10 to the smart card 30 Power supply and communication branch interface system of the device.
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