KR101288735B1 - RF antenna automatic selecting device of RF terminal and RF antenna automatic selecting method - Google Patents

Abstract

The present invention relates to an RF antenna automatic selection device and an RF antenna automatic selection method of an RF terminal. According to the present invention, a switching is performed according to at least one RF antenna for data communication with an RF card, an RF card module receiving data from the at least one RF antenna, and a sensitivity of receiving data transmitted from the RF card module. A module unit; A reception sensitivity measurement unit for measuring the reception sensitivity of the data transmitted from the switching module unit, and a control unit for controlling the switching module according to the received sensitivity value transmitted from the reception sensitivity measurement unit. According to the present invention as described above, the RF terminal has one or more RF antennas inside the RF terminal, so that data communication with the RF card can be more reliably performed.

RF card, switching module unit, IC interface, reception sensitivity measurement unit

Description

RF antenna automatic selection device and RF antenna automatic selection method of RF terminal

1 is a block diagram illustrating an antenna device of an RF terminal according to the prior art.

2 is a configuration diagram of an RF antenna automatic selection device of an RF terminal according to an embodiment of the present invention.

3 is a flowchart illustrating a method for automatically selecting an RF antenna of an RF terminal according to an exemplary embodiment of the present invention.

4 is a flowchart illustrating a method for automatically selecting an RF antenna of an RF terminal according to another embodiment of the present invention.

5 shows an RF antenna implemented in an RF terminal according to the present invention.

Description of the Related Art [0002]

10: RF antenna 20: RF card module

30: control unit 40: screen display unit

110: RF antenna module 111: the first RF antenna

112: second RF antenna module 120: RF card module

130: control unit 131: central processing unit (CPU)

132: register 140: screen display

150: switching module unit 160: reception sensitivity measurement unit

The present invention relates to an RF terminal, and more particularly, to an RF antenna automatic selection apparatus and an RF antenna automatic selection apparatus of an RF terminal for selecting one or more RF antennas for transmitting and receiving data between the RF terminal and the RF card.

RF stands for Radio Frequency, which means radio frequency, and RF card is a type of IC (Intergrated Circuit) card. It refers to a contactless card that performs data communication with an RF terminal using RFID technology.

The RFID (Radio Frequency Identification System) refers to a system that can transmit and receive various data in a wireless manner using a predetermined frequency band.

There are a number of card terminals that perform data communication with RF cards using such RFID technology. For example, an RF card is a bus card used when using a bus or subway.

1 shows a configuration of an RF antenna automatic selection device according to the prior art. As shown therein, the RF terminal includes an RF antenna 10 inside the RF terminal to perform data communication with the RF card. The RF antenna 10 is connected to the RF card module 20 to perform data communication. The RF card module 20 is provided with an IC interface for transmitting data of an integrated circuit (IC) chip embedded in the RF card to the controller 30 . The IC interface configured in the RF card module 20 transmits data of the IC chip embedded in the RF card to the controller 30.

The controller 30 controls, determines, and processes IC chip data transmitted through the RF card module 20.

The screen display unit 40 is connected to the control unit 30 and outputs a result (for example, a bus subway fare) processed by the control unit 30.

However, the following problems occur in the prior art as described above.

The RF terminal is provided with a single RF antenna 10 has a problem that the contact with the RF card is not good. That is, in transmitting and receiving data in proximity to the RF terminal, the relative position between the RF card and the RF antenna 10 has changed as the size and shape of the RF card is varied. That is, if the size of a specific RF card is smaller than the size of a general RF card, the distance between the RF antenna 10 and the RF card is farther away. Therefore, the relative position between the RF card and the RF antenna (10) is variable, a problem that the reception sensitivity is not good.

In other words, the RF transceiver of the RF terminal uses a carrier amplitude of about 13 MHz. The carrier amplitude received at the RF antenna of the RF terminal decreases as the proximity of the RF card gets closer to the RF antenna. Therefore, the larger the attenuation amount of the carrier amplitude transmitted to the RF antenna, the smaller the amplitude of the carrier amplitude. In addition, the recognition distance of the RF card that performs data communication with the RF card in the RF terminal is shortened. As a result, the RF terminal has a problem that the reception sensitivity is lowered when performing data communication between the RF terminal and the RF card.

Accordingly, the present invention is to solve the problems of the prior art as described above, the present invention is an RF antenna automatic selection apparatus and RF of the RF terminal for performing data by selecting one of a plurality of antennas according to the reception sensitivity of the signal An object of the present invention is to provide an automatic antenna selection method.

According to a feature of the present invention for achieving the above object, a plurality of RF antennas for data communication with the RF card; An RF card module for receiving data from the plurality of RF antennas; A reception sensitivity measurement unit for measuring reception sensitivity of data received by the RF card module; A control unit which outputs a switching signal for selecting any one RF antenna according to the reception sensitivity transmitted from the reception sensitivity measurement unit; And a switching module unit configured to perform a switching operation to connect any one RF antenna by the switching signal, wherein the plurality of RF antennas include a first RF antenna having a rectangular shape and an inner region of the first RF antenna. It is provided, and comprises a second RF antenna having a circular shape or a rectangular shape smaller than the first RF antenna.

delete

delete

delete

The control unit includes a central processing unit for comparing, storing and processing the reception sensitivity values measured by the reception sensitivity measurement unit.

A storage unit is provided in the control unit to store reception sensitivity values measured in the one or more RF antennas.

According to another feature of the invention, the present invention, the terminal device, receiving a RF signal through a plurality of RF antenna; Comparing the reception sensitivity of the received RF signal; And selecting and connecting an RF antenna having the highest reception sensitivity, wherein the plurality of RF antennas are provided in a first RF antenna having a rectangular shape and an inner region of the first RF antenna. And a second RF antenna having a circular shape or a rectangular shape smaller than the first RF antenna.

The control unit may temporarily store the reception sensitivity value.

According to another feature of the invention, the present invention provides a terminal device having a plurality of RF antenna, receiving an RF signal from any one of the RF antenna; Receiving an RF signal through another RF antenna when the reception sensitivity of the RF signal is less than or equal to a preset level; And comparing the received RF signals and selecting and connecting an RF antenna having a relatively high reception sensitivity. The plurality of RF antennas may include a first RF antenna having a rectangular shape and an inner side of the first RF antenna. It is provided in the area, and comprises a second RF antenna that is configured in a circular shape or a rectangle smaller than the first RF antenna.

If the received sensitivity of the received RF signal is higher than the set level, the step of connecting to the corresponding RF antenna.

According to the present invention having such a configuration, the RF terminal can select the RF antenna corresponding to the reception sensitivity of the RF card. Therefore, the RF terminal can reliably perform data communication with the RF card.

Hereinafter, the RF antenna automatic selection apparatus and the RF antenna automatic selection method of the RF terminal according to the present invention will be described in detail with reference to the preferred embodiment shown in the accompanying drawings.

Figure 2 shows the configuration of a preferred embodiment of the RF antenna automatic selection device of the RF terminal according to the present invention, Figure 3 is a flow chart showing a preferred embodiment of the RF antenna automatic selection method of the RF terminal according to the present invention have. 5 illustrates an RF antenna of an RF terminal constituting an embodiment of the present invention.

As shown in these figures, the RF antenna module 110 is composed of a first RF antenna 111 and a second RF antenna 112, the first RF antenna 111 and the second RF antenna 112 is shown in FIG. Is shown. The first RF antenna 111 is formed in a rectangular shape similar to the shape of the RF card, the second RF antenna 112 is provided in the inner region of the first RF antenna 111, a circular shape or the first RF antenna 111 It is composed of smaller rectangles.

The RF antenna module 110 receives the data of the IC chip embedded in the RF card. The RF antenna module 110 is connected to the RF card module 120, the data received from the RF card is transmitted to the RF card module 120.

The RF card module 120 converts the data transmitted from the RF card to the original frequency. In addition, the data converted by the RF card module 120 is transmitted to the switching module 150 through an IC interface (not shown). The IC interface is an RS-232C (Recommended Standard-232C) scheme that is an interface standard for interconnecting a computer, a peripheral device, or a data terminal equipment (DTE) and a data communication equipment (DTE). Use The RF card module 120 is connected to the switching module unit 150.

The switching module unit 150 is composed of a switching circuit that performs a selection and switching function using a switching device, the switching device is composed of a transistor and a diode. The switching module unit 150 is connected to the reception sensitivity measurement unit 160.

The reception sensitivity measuring unit 160 is composed of an RF transmission and reception circuit for measuring reception sensitivity, and the RF transmission and reception circuit uses a carrier wave of 13.45 MHz. The reception sensitivity measuring unit 160 temporarily stores the measured reception sensitivity of the antenna module 110 in the control unit 130. The reception sensitivity measuring unit 160 is connected to the control unit 130.

The controller 130 receives the received sensitivity values measured by the central processing unit 131 and the received sensitivity measurer 160 to store, compare and process the received sensitivity values of the signals received through the RF antenna module 110. It consists of a register 132 for storing the.

The control unit 130 controls the switching module 150 by comparing and processing the received sensitivity values received by the reception sensitivity measurement unit 160. In addition, the controller 130 is connected to the screen display unit 140.

The screen display unit 140 may be configured as a liquid crystal display device. The screen display unit 140 outputs a result (for example, bus fee use amount and remaining amount after use) for the amount used by the RF card user.

Hereinafter, a method of automatically selecting an RF antenna of an RF terminal according to the present invention having the configuration as described above will be described in detail.

3 is a flowchart illustrating a method of automatically selecting an RF antenna of an RF terminal according to an exemplary embodiment of the present invention.

When power is applied to the RF terminal, the system of the RF terminal is initialized. When the system of the RF terminal is initialized and ready to use, the user approaches the RF card to the RF terminal (S200).

The RF antenna module 110 is sequentially connected to the RF antenna embedded in the RF card. The RF card signal received through the first RF antenna 111 is transmitted to the switching module 150 through the IC interface of the RF card module 120 (S201).

The RF signal transmitted from the switching module 150 through the first RF antenna 111 is transmitted to the reception sensitivity measuring unit 160. The reception sensitivity measuring unit 160 measures the carrier amplitude of the received data (for example, the amplitude of the carrier decreases as the distance from the RF card decreases and the amplitude of the carrier decreases). Reference numeral 160 measures that the magnitude of the carrier amplitude decreases and examines the amount of attenuation of the carrier. Therefore, the reception sensitivity measurement unit 160 measures the reception sensitivity value by using the attenuation amount irradiated. (S202) The reception sensitivity value measured by the reception sensitivity measurement unit 160 is transmitted to the control unit 130 to receive the central processing unit. It is temporarily stored in the register 132 provided in 131.

The RF terminal performs data communication through the second RF antenna 112 of the RF antenna module 110. The RF card signal received through the second RF antenna 112 is transmitted to the switching module 150 through the IC interface of the RF card module 120 (S203).

The switching module 150 transmits the RF signal transmitted through the second RF antenna 112 to the reception sensitivity measurement unit 160. The reception sensitivity measuring unit 160 measures the carrier amplitude of the received data. That is, the reception sensitivity measuring unit 160 measures the decrease in the amplitude of the carrier amplitude and examines the amount of attenuation of the carrier. Therefore, the reception sensitivity measurement unit 160 measures the reception sensitivity value by using the irradiated attenuation amount. (S204) The reception sensitivity value measured by the reception sensitivity measurement unit 160 is transmitted to the control unit 130 to be processed. It is temporarily stored in the register 132 provided in 131.

In step S204, the controller 130 compares and processes the reception sensitivity of the signal transmitted from the first RF antenna 111 and the second RF antenna 112 by the reception sensitivity measurement unit 160 and measures the received sensitivity value. (S205)

In step S205, if the sensitivity of the signal received from the first RF antenna 111 of the received sensitivity transmitted to the control unit 130, the control module unit for switching the signal for connecting the first RF antenna 111 Transfer to 150. Therefore, the switching module unit 150 is automatically connected to the first RF antenna 111. (S206)

In step S206, the RF terminal performs data communication with the RF card through the selected first RF antenna 111. (S207) Accordingly, the RF terminal performs data communication with the RF card and displays a result of the amount used. After outputting to 140, it ends. (S208)

If the sensitivity of the signal received from the second RF antenna 112 of the reception sensitivity transmitted to the control unit 130 in step S205, the control unit 130 switches the signal for connecting the second RF antenna 112 Transfer to 150. Therefore, the switching module unit 150 is automatically connected to the second RF antenna 112 (S209).

In step S209, the RF terminal performs data communication with the RF card through the selected second RF antenna 112. (S207) Therefore, the RF terminal performs data communication with the RF card and the result of the amount used (eg For example, the bus fare used amount and the remaining amount after use) are output to the screen display unit 140, and then ends. (S208)

4 is a flowchart illustrating a method for automatically selecting an RF antenna of an RF terminal according to another embodiment of the present invention.

When the power of the RF terminal is applied, the system of the RF terminal is initialized. When the system of the RF terminal is initialized and ready to use, the user approaches the RF card to the RF terminal (S300).

The RF terminal sequentially connects the RF antenna module 110. The RF card signal received through the first RF antenna 111 is transmitted to the switching module 150 through the IC interface of the RF card module 120 (S301).

The switching module 150 transmits the RF signal transmitted through the first RF antenna 111 to the reception sensitivity measurement unit 160. The reception sensitivity measuring unit 160 measures the carrier amplitude of the received data. That is, the reception sensitivity measuring unit 160 measures the decrease in the amplitude of the carrier amplitude and examines the amount of attenuation of the carrier. Therefore, the reception sensitivity measuring unit 160 measures the reception sensitivity value using the irradiated attenuation amount. If the reception sensitivity value measured by the reception sensitivity measurement unit 160 is greater than or equal to a predetermined level (S302), the RF terminal performs data communication with the RF card through the selected first RF antenna 111 (S307). When the sensitivity value is higher than or equal to a predetermined level, the reception sensitivity of data transmitted through the RF antenna means an optimized level capable of performing data communication with the RF terminal. Therefore, the RF terminal performs data communication with the RF card, and ends after outputting the result (for example, bus fee usage amount and remaining amount after use) on the used amount to the screen display unit 140. (S308)

If the reception sensitivity value does not satisfy a predetermined level in step S302, the reception sensitivity measurement unit 160 transmits the measured reception sensitivity value to the control unit 130, and registers 132 provided in the central processing unit 131. Temporarily stored in

The RF terminal performs data communication through the second RF antenna 112 of the RF antenna module 110. The RF card signal received through the second RF antenna 112 is transmitted to the switching module 150 through the IC interface of the RF card module 120 (S303).

The switching module 150 transmits the RF signal transmitted through the second RF antenna 112 to the reception sensitivity measurement unit 160. The reception sensitivity measuring unit 160 measures the carrier amplitude of the received signal. In other words, the reception sensitivity measuring unit 160 measures that the magnitude of the carrier amplitude decreases and examines the amount of attenuation of the carrier. Therefore, the reception sensitivity measurement unit 160 measures the reception sensitivity value using the irradiated attenuation amount. (S304) The reception sensitivity value measured by the reception sensitivity measurement unit 160 is transmitted to the control unit 130, and the central processing is performed. It is temporarily stored in the register 132 provided in the unit 131.

In step S304, the control unit 130 compares and processes the reception sensitivity values received from the reception sensitivity measurement unit 160 with the reception sensitivity transmitted from the first RF antenna 111 and the second RF antenna 112. S305)

In step S305, if the sensitivity of the signal received from the first RF antenna 111 of the received sensitivity transmitted to the control unit 130, the control module unit (1) to connect a signal for connecting the first RF antenna (111) ( 150). Therefore, the switching module unit 150 is automatically connected to the first RF antenna 111 (S306).

In step S306, the RF terminal performs data communication with the RF card through the selected first RF antenna 111. (S307) Therefore, the RF terminal performs data communication with the RF card, and the result of the amount used (for example, For example, the bus fare used amount and the remaining amount after use are output to the screen display unit 140, and then ends. (S308)

If the sensitivity of the signal received from the second RF antenna 112 among the received sensitivity transmitted to the control unit 130 in step S305 is good, the control unit 130 switches the signal for connecting the second RF antenna 112 Transfer to 150. Therefore, the switching module unit 150 is automatically connected to the second RF antenna 112 (S309).

In step S309, the RF terminal performs data communication with the RF card through the selected second RF antenna 112 (S307). Thus, the RF terminal performs data communication with the RF card and displays a result of the amount used. 140) and ends (S308).

As described in detail above, the present invention configures one or more RF antennas inside the RF terminal, and thus, there is an advantage of using the RF card without limitation in size and shape.

In addition, since one or more antennas are provided inside the RF terminal, it is possible to obtain an effect of smoothly communicating data with various types of RF cards.

As described above, it has been described with reference to the illustrated embodiment of the present invention, which is merely exemplary, and those skilled in the art to which the present invention pertains various modifications without departing from the spirit and scope of the present invention. It will be apparent that other variations and equivalent embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (10)

A plurality of RF antennas for data communication with the RF card; An RF card module for receiving data from the plurality of RF antennas; A reception sensitivity measurement unit for measuring reception sensitivity of data received by the RF card module; A control unit which outputs a switching signal for selecting any one RF antenna according to the reception sensitivity transmitted from the reception sensitivity measurement unit; And It includes a switching module unit for performing a switching operation to connect any one of the RF antenna by the switching signal, The plurality of RF antennas, the first RF antenna is configured in a rectangular shape, And a second RF antenna provided in an inner region of the first RF antenna and configured to have a circular shape or a rectangular shape smaller than the first RF antenna. delete The apparatus of claim 1, The RF antenna automatic selection device of the RF terminal, characterized in that it further comprises a storage unit for storing the reception sensitivity value of the data measured by the reception sensitivity measurement unit. Terminal equipment, Receiving an RF signal through a plurality of RF antennas; Comparing the reception sensitivity of the received RF signal; And As a result of the comparison, selecting and connecting an RF antenna having the highest reception sensitivity; The plurality of RF antennas, the first RF antenna is configured in a rectangular shape, And a second RF antenna provided in an inner region of the first RF antenna and configured to have a circular shape or a rectangular shape smaller than the first RF antenna. A terminal device having a plurality of RF antennas, Receiving an RF signal from one RF antenna; Receiving an RF signal through another RF antenna when the reception sensitivity of the RF signal is less than or equal to a preset level; And Comparing the received RF signals and selecting and connecting an RF antenna having a relatively high reception sensitivity; The plurality of RF antennas, the first RF antenna is configured in a rectangular shape, An RF antenna automatic selection method of an RF terminal provided in an inner region of the first RF antenna, and comprising a second RF antenna having a circular shape or a rectangle smaller than the first RF antenna. 6. The method of claim 5, The RF antenna automatic selection method of the RF terminal, characterized in that for selecting and connecting the RF antenna when the signal received through any one of the RF antenna or more than a predetermined level. delete delete delete delete

Images