KR101477146B1 - Method for Processing Near Field Communication - Google Patents

Abstract

According to the proximity communication processing method of the present invention, an RF module for transmitting and receiving a radio frequency signal to and from a nearby RF device is provided in a slot of a wireless terminal through a serial communication, And an input unit for processing a user input, the proximity communication processing method comprising: receiving activation information for setting the RF module to be activated through the input unit or deactivating the RF module to be inactivated Wherein the control unit controls the RF module to be activated by providing an activation command to the RF module through the serial communication when the activation information is input, If the RF module is deactivated by providing an inactive command with the RF module Wherein the activation command is a command for allowing the RF module to form a wireless field for transmitting and receiving a radio frequency signal using the power of the wireless terminal, To be automatically detected.

Description

Field of the Invention [0001]

An RF module for transmitting and receiving a radio frequency signal to and from an RF device at a nearby location is detached from a slot of a wireless terminal through a serial communication and processes user input Wherein the RF module receives activation information for setting the RF module to be activated through the input unit or deactivation information for setting the RF module to be inactivated, Wherein the control unit controls the RF module to be activated by providing an activation command to the RF module through the serial communication when the activation information is input and controls the activation of the RF module through the serial communication when the activation information is input, And controls the RF module to be deactivated, , The RF module forms a wireless field for transmitting and receiving a radio frequency signal using the power of the wireless terminal and controls to automatically detect the type of data to be exchanged with the RF device in the proximity position using the radio frequency signal And a method for processing a proximity communication.

BACKGROUND ART In general, RFID (Radio Frequency Identification) refers to an automatic recognition technology that transmits and receives predetermined data stored in a label, card, tag or the like with a built-in microchip to a reader using a radio frequency. Recently, , Obstacle penetration function, read / write function (reusable) It has the advantages of recognition on the move, semi-permanent use, high reliability of data processing, eliminating the defects of existing bar code and magnetic recognition device, The application range has been drastically increased due to changes in method, changes in consumer consciousness, and advances in culture and technology.

The passive type is affected by the size of the tag and the reader, but generally has a short read range of 2 ~ 70cm and can produce the tag at low price. And is widely used in logistics, manufacturing fields, and the like.

In addition, the active type has a built-in battery in the tag, which makes it possible to transmit and receive data over a long distance, but it is expensive and is limited due to the limited lifetime of the battery.

In addition, although the RFID has high permeability and relatively high application fields according to the frequency band, the RFID has a relatively high production cost, a low frequency (less than 125 kHz) in which the tag is damaged and a recognition speed is slow, It can be produced as a thin plate type and can be classified into a low production cost and a high frequency type (13.56 Mhx or more) capable of transmitting and receiving a large amount of data.

These RFIDs operate in conjunction with various types of RF readers for predetermined data processing. However, since the RF reader for processing the RFID is spread in the RFID-enabled merchant store or the distribution center, the spread of the RF reader has not reached the user.

Accordingly, there is a need for a predetermined RF Reader terminal device for enabling users to use RF related products more efficiently and effectively.

An object of the present invention is to provide a wireless communication system including a base station on a mobile communication network and a radio processing unit for forming a radio section and an RF module for transmitting and receiving a radio frequency signal to and from a nearby RF device is detached from a slot of a radio terminal through serial communication, The method comprising: receiving activation information for setting the RF module to be activated through the input unit or receiving deactivation information for setting the RF module to be inactivated; Wherein the control unit controls the RF module to be activated by providing an activation command to the RF module through the serial communication when the activation information is input and controls the activation of the RF module through the serial communication when the activation information is input, A step of providing an inactive command to control the RF module to be inactivated Wherein the activation command is a command for allowing the RF module to form a wireless field for transmitting and receiving a radio frequency signal using the power of the wireless terminal, Type of the mobile communication terminal to be automatically detected.

A method for processing a near field communication according to the present invention includes a base station on a mobile communication network and a radio processing unit for forming a radio section, and an RF module for transmitting and receiving a radio frequency signal to and from an RF device in a close proximity And an input unit for processing a user input, the proximity communication processing method comprising: receiving activation information for setting the RF module to be activated through the input unit or deactivating the RF module to be inactivated Receiving the information, and controlling the RF module to be activated by providing an activation command to the RF module through the serial communication when the activation information is input, and when the inactivation information is input, Providing an inactivation command to the RF module to deactivate the RF module; Wherein the activation command causes the RF module to form a radio field for transmitting and receiving a radio frequency signal using the power of the radio terminal and to transmit the RF signal to a nearby RF device And to automatically detect the type of data to be exchanged.

In the proximity communication processing method according to the present invention, in order to detect each type when the RF module is activated, the RF module controls the transmission and reception of the radio frequency signals corresponding to each type alternately through the serial communication The method comprising the steps of:

The method may further include the steps of controlling to confirm whether the detected type of data is exchangeable when a result of sensing each type from the RF module through the serial communication is received, And controlling the RF device and the detected type of data transmission / reception to be performed through the RF device.

In the proximity communication processing method according to the present invention, the data transmission / reception operation may include receiving data from the RF device through the RF module, transmitting data to the RF device through the RF module, And an operation of receiving data from the RF device through the RF device and an operation of transmitting data to the RF device.

The proximity communication processing method according to the present invention is characterized in that the activation command controls the anti-collision processing according to the detected type through the RF module.

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According to the present invention, since the wireless terminal is provided with an RF reader interlocked with at least one RF card and / or an RF tag and communicating with the wireless terminal controller (for example, a central processing unit or the like) through a serial interface, The RF reader receives only the information processing result from the RF reader without any additional control of the RF reader. Therefore, the RF reader can be applied to the wireless terminal without major modification of the software in the existing wireless terminal.

1 is a simplified block diagram of a wireless terminal having an RF reader according to the present invention.
FIG. 2 is a simplified block diagram of an RF reader included in a wireless terminal according to the present invention.
3 is a simplified flow diagram according to a preferred embodiment of the present invention.
4 is a simplified block diagram of an RF reader according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals are assigned to components shown in the drawings. It should be noted, however, that the same reference numerals are used for the same components shown in the different drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. For example, the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It will be obvious to those skilled in the art.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a simplified block diagram of an RF reader-controlled wireless terminal 100 according to the present invention.

The wireless terminal 100 for a predetermined wireless communication function on the wireless network preferably includes a control unit 105 (e.g., a second control unit or a terminal control unit), a screen output unit 125, a key input unit 130, The wireless terminal 100 shown in FIG. 1 further includes an RF reader 140 interlocked with an external RF card and / or an RF tag, and / or a voice processor 115 according to the present invention. do.

More specifically, the control unit 105 (e.g., the second control unit or the terminal control unit) of the wireless terminal 100 can perform various functions (e.g., wireless communication, wireless data transmission and reception, key input, , Audio output function, etc.). The control unit 105 (for example, the second control unit or the terminal control unit) controls the booting and OS (Operating System) control management program of the wireless terminal 100 and predetermined agents or application programs installed in the wireless terminal 100 . Particularly, according to the present invention, the control unit 105 (for example, the second control unit or the terminal control unit) receives a predetermined information processing result from the RF Reader 140 provided in the wireless terminal 100, And delivers the received information processing result through an execution unit.

It is preferable that the control unit 105 (e.g., the second control unit or the terminal control unit) and the RF Reader 140 communicate with each other by serial communication.

The wireless processing unit 110 in the wireless terminal 100 transmits a code generated by the control unit 105 (for example, the second control unit or the terminal control unit) to the wireless terminal 100 in order to perform predetermined wireless communication on the wireless network. ) Into a radio frequency (RF) signal including a voice channel and / or a data channel, and wirelessly transmits / receives the signal to a server or an apparatus connected to the mobile communication network through the mobile communication network. Particularly, according to the present invention, the radio processor 110 is characterized in that the RF Reader 140 receives predetermined data received from the outside and provides the processed data to an associated server or device on the mobile communication network.

For example, the radio processing unit 110 may include a Radio Frequency (RF) processor, an IF (Intermediate Frequency) processor and a baseband processor based on a Code Division Multiple Access (CDMA) ) Includes at least one base station transceiver subsystem (BTS) on a wireless network, a base station controller (BSC) connected to at least one base station through a wire section, And a voice channel is connected to another wireless terminal 100 through a Mobile Switching Center (MSC) that performs call processing based on the CDMA stack.

Preferably, the data channel is connected to a communication session according to a call processing procedure specific to the mobile communication, and transmits / receives data to / from the server or the device through the connected communication session.

The voice processing unit 115 of the wireless terminal 100 encodes a voice signal input from a microphone and transmits the encoded voice signal to the wireless processing unit 110 through a control unit 105 (for example, a second control unit or a terminal control unit) And a function of decoding a signal received through the processing unit 110 and outputting it as a voice signal to a speaker through a control unit (for example, a second control unit or a terminal control unit). In particular, the voice processing unit 115 may perform a predetermined voice output to notify the process of transmitting and receiving data of the RF reader 140 according to the present invention.

The memory unit 120 of the wireless terminal 100 may include a predetermined program code for controlling the overall operation of the wireless terminal 100 and information and / or data to be input and / or output when the operation by the program code is performed. A read only memory such as a ROM (Read Only Memory), a read / write memory such as an EEPROM (Electrically Erasable and Programmable Read Only Memory) or an FM (Flash Memory), and the like The wireless terminal 100 may be connected to the Internet.

The memory unit 120 may include predetermined information for the wireless terminal 100 to communicate with at least one RF card and / or an RF tag according to the present invention.

The screen output unit 125 displays various types of information extracted and / or generated in the control process of the control unit 105 (e.g., the second control unit or the terminal control unit) and at least one key data generated in the key input unit 130 And outputs a signal to a screen (for example, an LCD (Liquid Crystal Display)) provided in the wireless terminal 100. In accordance with the present invention, the RF reader 140 performs a series of processes (Or data) on the screen to smooth the user interface.

The key input unit 130 includes a plurality of numeric keys, a character key for inputting characters, at least one function key, and the like, (Key Data) when the key is pressed and provides the generated key data to the control unit 105 (e.g., the second control unit or the terminal control unit).

The RF Reader 140 of the wireless terminal 100 recognizes at least one or more RF cards and / or RF tags to be accessed and acquires and processes predetermined data included in the RF card and / or the RF tag, , And transmits the processing result to the control unit 105 (e.g., the second control unit or the terminal control unit) of the wireless terminal 100.

2 is a simplified block diagram of an RF reader 140 included in a wireless terminal 100 according to the present invention.

This figure is a preferred embodiment of each component constituting the RF Reader 140 included in the wireless terminal 100 in order for the wireless terminal 100 to interoperate with the RF tag and / or the RF card. The RF reader 140 includes an RF controller 145, a RF transmitter 205, an RF receiver 210, and an RF interface 200. The RF controller 140 may include an RF controller (e.g., a first controller)

The RF controller 145 included in the RF reader 140 does not depend on the control unit 105 (for example, the second control unit or the terminal control unit) of the wireless terminal 140, Reader 140 and reads and writes information of the RF card and / or the RF tag through the serial interface with the control unit 105 of the wireless terminal 100. For example, the RF controller 145 (e.g., the first controller) may be a program code memory for controlling the RF interface 200, and may include a 64 Kbyte flash memory and a 1 KB SRAM for data.

The RF controller 145 (for example, the first controller) transmits the processed result through the RF reader to the controller 105 of the wireless terminal 100 through the serial interface.

The RF transmitter 205 of the RF reader 140 may be an RF tag and / or an RF card (for example, an RF tag and / or an RF card not including a separate power source) existing in a radio frequency (RF) (E. G., A clock signal) to the RF card and / or the RF tag to transmit the synchronization to the RF card and / or the RF tag. And transmits the modulated or demodulated frequency to the RF card and / or the RF tag via the RF interface 200 described below.

The RF receiver 210 of the RF reader 140 receives and filters predetermined data (frequency) responded from an external RF card and / or an RF tag to process the data by the RF interface 200, To the control unit 145 (e.g., the RF control unit or the first control unit) in the RF reader 140. [

The RF interface 200 processes frequency modulation and demodulation for data transmission / reception with an external RF card and / or RF tag. According to the present invention, the RF interface 200 encodes data transmitted from the control unit 145 (for example, the RF control unit or the first control unit) to a designated carrier wave (for example, 125 KHz or 16.58 MHz) And carries the data on the carrier wave. In addition, it decodes the data received from the external RF card and / or the RF tag and transmits the decoded data to the controller 145 (for example, the RF controller or the first controller).

The interface 215 of the RF reader 140 connects the RF transmitter 205 and the RF receiver 210 with the loop antenna and may include an impedance matching circuit for maximum power to the loop antenna. The RF reader 140 of the wireless terminal 100 can reduce the reflection due to the mutual impedance difference generated when the RF reader 140 of the wireless terminal 100 and the external RF card and / And the external RF card and / or the RF tag.

Figure 3 is a simplified flow diagram according to a preferred embodiment of the present invention.

(Second control unit) of the radio terminal 100 via the key input unit (or the voice processing unit) of the radio terminal 100 The control unit 105 of the wireless terminal 100 transmits a predetermined command for activating the RF Reader 140 provided in the wireless terminal 100 to the controller of the RF Reader 140 through a serial interface The control unit 145 of the RF reader 140 initializes the RF reader 140 (step 305).

When the RF reader 140 is initialized, the RF controller 145 transmits a RF field forming command for sensing and activating at least one RF card in proximity to the RF interface 200 (310) The RF interface 200 allows the RF transmitter 205 to form a wireless field for communicating with the RF card and / or the RF tag. For example, a wireless field in combination with the RF card may be modulated for communication between the RF reader 1400 and the RF card, and may also serve as an energy source for supplying predetermined power to the RF card.

If at least one RF card (or RF tag) is accessed (315) by the RF reader 140 activated through the above process, the RF card transmits a radio frequency (RF) (320) within the Operating Field.

For example, the frequency fc of the radio frequency operating range is preferably 13.56 MHz ± 7 KHz, and the RF Reader may set a field that does not exceed the minimum Hmin value and the maximum Hmax in the position (operating range, operating volume) specified by the manufacturer And it is also apparent that the RF card must be able to be powered at the specified location.

Preferably, the RF reader 140 can alternately operate the modulation scheme to detect the type of the accessed RF card (e.g., Type A or Type B).

When the activation of the accessed RF card is started within the radio frequency operating range of the RF reader 140, the controller 145 of the RF reader 140 transmits a predetermined request command The RF Reader 140 transmits a Request Commands to the RF Reader 140 through the RF Receiver 210 and checks whether an Answer To Request is received from at least one RF card 330).

If there is a response from two or more RF cards (or RF tags) (335), the RF Reader 140 preferably performs a collision avoidance process for the plurality of RF cards (340).

For example, the controller 145 of the RF reader 140 assigns a code for a selected collision avoidance type and a CLn (Cascade level) to a SEL (Select Command), adds '20' to the NVB (Number of Valid Bits) And transmits the SEL and the NVB to the wireless station through the RF transmitter 205 of the RF reader so that at least one RF card in the wireless field of the RF reader 140 of the wireless terminal 100 The valid bit value of the UID CLn received before the collision is reassigned to the NVB and is transmitted again by confirming the collision on the basis of the value of the UID CLn responded to by the UID CLn, And only the RF card with which it is responding. (Repeated until the collision does not occur, for example, up to about 32 times)

On the other hand, if there is a response from one RF card, or if one RF card is selected through the anti-collision loop (345), the RF Reader control unit 145 controls the radio field formed with the RF card A SELECT command is transmitted to the RF card via an RF field and authentication is performed between the RF reader and the RF card to establish a basis for data communication with the RF card at step 355.

Upon completion of the authentication operation between the RF reader 140 and the RF card, the RF reader 140 receives predetermined data from the RF card through the RF field and / And the RF controller 145 of the RF reader 140 transmits the data processing history to the radio terminal controller 105 through the serial interface so that the radio terminal controller 105 transmits The processing details are expressed in association with a function performing unit (e.g., a screen output unit, an audio output unit, and the like) (365). (E.g., a display, etc.)

When the RF reader 140 completes a series of operations between the RF reader 140 and the RF card, the RF reader 140 converts the RF card into the HALT state by transmitting a predetermined command for deactivating the RF card 370).

4 is a simplified block diagram of an RF reader 140 according to another preferred embodiment of the present invention.

The figure shows an example in which the RF reader 140 is located outside the wireless terminal 100 and can be detached from the wireless terminal 100 through a predetermined slot (a slot capable of serial interface communication, etc.) And an RF reader 140 capable of being detached through an external slot of the wireless terminal 100 when the RF reader 140 module can not be mounted due to a problem such as a narrow space inside the wireless terminal 100 will be.

100: wireless terminal 105: control unit (second control unit)
110: radio processing unit 115: audio processing unit
120: memory unit 125: screen output unit
130: key input unit 135: power supply unit
140: RF Reader 145: RF Reader control unit (first control unit)
200: RF interface 205: RF transmitter
210: RF receiver 215: interface

Claims (6)

An RF module for transmitting and receiving a radio frequency signal to and from an RF device at a nearby position, which is provided with a base station on a mobile communication network and a radio processing section for forming a radio section, is detached from a slot of a radio terminal through serial communication and has an input section for processing user input 1. A proximity communication processing method executed in a wireless terminal,
Receiving activation information for setting the RF module to be activated through the input unit or receiving deactivation information for setting the RF module to be inactivated; And
And controlling the RF module to be activated by providing an activation command to the RF module through the serial communication when the activation information is inputted, and controlling the activation of the RF module by the RF module through the serial communication, And controlling the RF module to be inactivated,
The activation command is a command for the RF module to form a wireless field for transmitting and receiving a radio frequency signal using the power of the wireless terminal and to automatically transmit the type of data to be exchanged with the nearby RF device Wherein the control unit controls the communication unit so as to detect the communication unit.
The method according to claim 1,
And controlling the RF module to repeatedly transmit and receive RF signals corresponding to each type through the serial communication in order to detect each type when the RF module is activated A method for processing proximity communication.
The method according to claim 1,
Controlling to confirm whether the detected type of data is exchangeable when a result of sensing each type from the RF module is received through the serial communication; And
Further comprising: controlling the RF device to perform a data transmission / reception operation of the detected type through the serial communication.
The data transmission / reception method according to claim 3,
Receiving data from the RF device via the RF module,
Transmitting data to the RF device through the RF module,
And at least one of an operation of receiving data from the RF device through the RF module and an operation of transmitting data to the RF device.
2. The method of claim 1,
And performs collision avoidance processing according to the detected type through the RF module.
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