KR101654081B1 - Wireless charging device and method for transmitting wireless charging power based on the rating - Google Patents

Abstract

Disclosed is a wireless charging apparatus and method capable of transmitting a differential wireless charging power by class. The embodiments of the present invention provide a MAC address of a user terminal encrypted with a specific public key for a user terminal based on a user class, and when a user adjoins the user terminal to a wireless charging device, Of the plurality of private keys stored in the database is a decrypted private key of the MAC address encrypted with the specific public key, and transmits the decrypted private key to the user terminal in accordance with the wireless charging power value corresponding to the private key. By transmitting the charging power, it is possible to provide a wireless charging service differentiated according to the user's rating in a coffee shop or the like.

Description

TECHNICAL FIELD [0001] The present invention relates to a wireless charging apparatus and method capable of transmitting a differential wireless charging power by class,

Embodiments of the present invention are directed to a wireless charging apparatus and method capable of differently setting a magnitude value of wireless charging power based on a user's rating.

Currently, most of the general portable devices that are being introduced are those in which a predetermined charging cable is connected to a portable device so that the battery mounted in the portable device can be charged by wire.

In recent years, however, wireless charging technology has been introduced to charge a battery of a portable device in a wireless manner, since such a wired charging technique hinders the user's convenience.

As such wireless charging technology, a wireless charging technique based on electromagnetic induction and a wireless charging technique based on magnetic resonance exist. Both the wireless charging technique based on electromagnetic induction and the wireless charging technique based on magnetic resonance use a nonradiative attenuated alternating current signal present around the coil in the near field. That is, a method of charging a battery without using a contact terminal is introduced by using inductive coupling between a primary coil of a wireless charger and a secondary coil of a portable device.

With the introduction of the wireless charging technology, an attempt has recently been made to utilize the wireless charging service for portable devices for business purposes.

For example, by installing a wireless charger on a table at a coffee shop or the like, it is possible to increase the number of coffee shop users by providing a service that enables coffee shop users to charge their portable devices through a wireless charger installed on a table Service.

However, if the service is configured only by installing a wireless charger on a table, a user who visits the coffee shop may use only the wireless charger installed on the table without consuming the coffee, In order to encourage shoppers to buy real coffee, it is necessary to introduce a differentiated service among coffee shop users so that the person who buy the actual coffee can charge the wireless more quickly.

Therefore, in order to provide wireless charging service differentiated to users in a coffee shop or the like, it is necessary to study a system that can classify the user's rating and adjust the size of the wireless charging power transmitted from the wireless charger according to the rating.

The embodiments of the present invention provide a MAC address of a user terminal encrypted with a specific public key for a user terminal based on a user class, and when a user adjoins the user terminal to a wireless charging device, Of the plurality of private keys stored in the database is a decrypted private key of the MAC address encrypted with the specific public key, and transmits the decrypted private key to the user terminal in accordance with the wireless charging power value corresponding to the private key. By transmitting the charging power, a coffee shop or the like can provide a wireless charging service differentiated according to the user's rating.

A wireless charging apparatus capable of transmitting a differential wireless charging power according to an embodiment of the present invention includes a plurality of private keys and a plurality of wireless charging power magnitude values having different magnitude values corresponding to each other (MAC) address encrypted with the first public key is received from the user terminal through an NFC (Near Field Communication) communication module when the user terminal capable of wirelessly charging the battery is recognized A decryption unit for decrypting a MAC address encrypted with the first public key using the plurality of private keys, a decryption unit for decrypting a MAC address encrypted using the first public key, a MAC address for the user terminal from the central management terminal, The MAC address for the user terminal and the first A decryption deciding unit for deciding whether a decrypted private key for a MAC address encrypted with the first public key is successful among the plurality of private keys by comparing decryption result values for a MAC address encrypted with a public key, The method comprising the steps of: if it is determined that the decrypted private key of the MAC address encrypted with the first public key is the first private key, extracting a first wireless charging power magnitude value And a wireless charging unit that wirelessly charges the battery of the user terminal by transmitting wireless charging power according to the extracted first wireless charging power level value to the user terminal.

Also, a wireless charging method capable of transmitting a differential wireless charging power according to an embodiment of the present invention includes a plurality of wireless charging power magnitude values having different magnitude values for a plurality of private keys and the plurality of private keys Receiving a MAC address encrypted with a first public key from the user terminal through an NFC communication module when a user terminal capable of wireless charging to a battery is recognized, The method comprising: attempting to decrypt a MAC address encrypted with the first public key using private keys; receiving a MAC address for the user terminal from the central management terminal; Address and a MAC address encrypted with the first public key using the plurality of private keys Determining whether a decrypted private key exists for the MAC address encrypted with the first public key among the plurality of private keys by comparing the decryption result with the first private key, Extracting a first wireless charging power value stored in association with the first private key on the database if the decoded private key of the MAC address is determined to be the first private key, And wirelessly charging the battery of the user terminal by transmitting the wireless charging power according to the extracted first wireless charging power level value.

The embodiments of the present invention provide a MAC address of a user terminal encrypted with a specific public key for a user terminal based on a user class, and when a user adjoins the user terminal to a wireless charging device, Of the plurality of private keys stored in the database is a decrypted private key of the MAC address encrypted with the specific public key, and transmits the decrypted private key to the user terminal in accordance with the wireless charging power value corresponding to the private key. By transmitting the charging power, it is possible to provide a wireless charging service differentiated according to the user's rating in a coffee shop or the like.

FIG. 1 is a system conceptual diagram schematically illustrating a wireless charging service system that enables differential wireless charging power transmission according to an embodiment of the present invention.
2 is a diagram illustrating a structure of a wireless charging device capable of transmitting a differential wireless charging power according to an exemplary embodiment of the present invention.
FIG. 3 is a flowchart illustrating a wireless charging method capable of transmitting a differential wireless charging power according to an exemplary embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

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

FIG. 1 is a system conceptual diagram schematically illustrating a wireless charging service system that enables differential wireless charging power transmission according to an embodiment of the present invention.

Referring to FIG. 1, a wireless charging service system according to the present invention includes a wireless charging device 110, a user terminal 120, and a central management terminal 130.

Hereinafter, the present invention will be described on the assumption that a wireless charging service system capable of transmitting differential wireless charging power by class according to an embodiment of the present invention is installed in a coffee shop. At this time, the wireless charging device 110 may be installed on the table of the coffee shop, and the central management terminal 130 may be installed on the counter of the coffee shop.

First, the wireless charging device 110 includes a database in which a plurality of private keys and a plurality of wireless charging power values having different size values for the plurality of private keys are stored corresponding to each other.

At this time, information of the form shown in Table 1 below may be stored in the database.

Plural Private keys Wireless charging power magnitude values Private key 1 2W Private key 2 3W Private Key 3 4W Private key 4 5W

The central management terminal 130 includes a key database in which a plurality of public keys corresponding to the plurality of private keys are stored.

Here, the plurality of private keys and the plurality of public keys are related to a PKI (Public Key Infrastructure) -based private key and a public key, and the data encrypted with the 'private key 1' Public key 1 ', which is a public key corresponding to' private key 1 ', among the public keys, and conversely, data encrypted with' public key 1 'among the plurality of public keys is decrypted by using' Private key 1 'which is a private key corresponding to the public key 1'.

If the user 121 holds the portable device 120 and visits the coffee shop to order coffee, the manager of the central management terminal 130 receives the portable device 120 from the user 121, And can be adjacent to the management terminal 130.

At this time, the central management terminal 130 transmits a MAC (Media Access Control) message to the user terminal 120 from the user terminal 120 through an NFC (Near Field Communication) communication module mounted on the central management terminal 130, A specific public key for encrypting the MAC address of the user terminal 120 among the plurality of public keys stored in the key database of the central management terminal 130 after receiving the address.

At this time, the administrator can select a specific public key for encrypting the MAC address for the user terminal 120 according to the price of the coffee ordered by the user 121 among the plurality of public keys.

For example, if the price of the coffee ordered by the user 121 is less than or equal to 2,000 won, the administrator can select 'public key 1'. If the price of the coffee ordered by the user 121 is more than 2,000 won and less than 3,000 won, Public key 2 'can be selected. If the price of the coffee ordered by the user 121 is over 3,000 won and 4,000 won or less,' public key 3 'can be selected.

With respect to the selection method of the public key, information on a predetermined price range corresponding to each of the plurality of public keys is stored on the key database of the central management terminal 130 as shown in Table 2 below, When the administrator inputs only the price information of the coffee ordered by the user 121 to the central management terminal 130, the central management terminal 130 may be configured to automatically select a public key corresponding to the corresponding coffee price.

A plurality of public keys Price range Public key 1 2,000 won or less Public key 2 More than 2,000 won, less than 3,000 won Public key 3 More than 3,000 won, less than 4,000 won Public key 4 More than $ 4

When the price information of the coffee ordered by the user 121 is input to the POS terminal in cooperation with a POS (Point Of Sales) terminal, the central management terminal 130 automatically transmits the price information And to select a specific public key for encrypting the MAC address of the user terminal 120 among the plurality of public keys by referring to the information on the key database.

In this embodiment, assuming that the user 121 ordered the coffee corresponding to 2,500 won, the central management terminal 130 may be referred to as a public key for encrypting the MAC address for the user terminal 120 among the plurality of public keys, Assume that the public key 2 'is selected.

When the 'public key 2' is selected, the central management terminal 130 encrypts the MAC address for the user terminal 120 with the 'public key 2' and transmits the MAC address encrypted with the 'public key 2' To the user terminal (120).

After the MAC address encrypted with the 'public key 2' is transmitted to the user terminal 120, the user 121 completes the order for the coffee and sits on the table in which the wireless charging device 110 is installed, When the user terminal 120 is adjacent to the wireless charging device 110 on the table to charge the user terminal 120, the wireless charging device 110 recognizes the user terminal 120, The MAC address of the user terminal 120 encrypted with the 'public key 2' from the user terminal 120 through the NFC communication module included in the NFC communication module.

Then, the wireless charging device 110 may try to decrypt the MAC address encrypted with the 'public key 2' based on the plurality of private keys, referring to the database storing the information as shown in Table 1 have.

At this time, the wireless charging device 110 receives the MAC address of the user terminal 120 before being encrypted with the 'public key 2' from the central management terminal 130, and transmits the MAC address to the user terminal 120 The MAC address for the public key 120 and the decryption result for the MAC address encrypted with the public key 2 using the plurality of private keys can be compared.

Thereafter, the wireless charging device 110 can determine whether there is a decrypted private key for the MAC address encrypted with the 'public key 2' among the plurality of private keys based on the above-described comparison result .

In this embodiment, when the private key corresponding to the 'public key 2' is assumed to be 'private key 2', the wireless charging device 110 transmits the private key 2 ' You can check 'private key 2' with the key.

When the verification of the 'private key 2' is completed, the wireless charging device 110 can extract '3W', which is the wireless charging power magnitude value stored corresponding to the 'private key 2', on the database.

The wireless charging device 110 may then wirelessly charge the battery of the user terminal 120 by transmitting the wireless charging power to the user terminal 120 at the size of the extracted '3W'.

As a result, the wireless charging service system according to the present invention provides the MAC address of the user terminal 120 encrypted with the specific public key to the user terminal 120 based on the money the user has paid for, When the user 121 adjoins the user terminal 120 to the wireless charging device 110, the wireless charging device 110 decrypts the MAC address encrypted with the specific public key among the plurality of private keys stored in the database And transmits the wireless charging power to the user terminal 120 according to the wireless charging power value corresponding to the corresponding private key.

As a result, if the user who bought expensive coffee is provided with a wireless charging service with a high charging power, rapid charging to the user terminal can be made possible, and for a user who has bought cheap coffee, By providing a service, it is possible to induce a slow charging of the user terminal.

According to an embodiment of the present invention, when the user terminal 120 is adjacent to the wireless charging device 110 installed on the table, It is determined that the decrypted private key for the MAC address of the user terminal encrypted with the predetermined public key of the plurality of private keys does not exist due to failure to receive the MAC address of the user terminal 120 encrypted with the public key of the user terminal 120 The wireless charging device 110 may transmit the wireless charging power to the user terminal 120 according to the lowest wireless charging power value preset by the administrator.

For example, if the user 121 does not order coffee and sits on the table to adjoin the wireless charging device 110 to the user terminal 120, since the user does not greatly contribute to the sales of the coffee shop, 110 may transmit the wireless charging power to the user terminal 120 in accordance with the lowest wireless charging power level value preset by the administrator (e.g., '1W') to guide the charging to be very slow.

In addition, according to an embodiment of the present invention, when the wireless charging device 110 starts to transmit wireless charging power to the user terminal 120, The wireless charging elapsed time can be measured.

Each time the wireless charging device 110 starts to exceed the predetermined charging time, the wireless charging device 110 converts the size value of the wireless charging power transmitted to the user terminal 120 to a predetermined size Value.

For example, when the wireless charging device 110 starts to transmit wireless charging power to the user terminal 120 in a size of '3W', the wireless charging device 110 may transmit the wireless charging power to the user terminal 120 120) can be measured.

At this time, assuming that the selected wireless charging time is 30 minutes, the wireless charging device 110 calculates the size of the wireless charging power transmitted to the user terminal 120 every time the elapsed time of the wireless charging exceeds 30 minutes The user 121 can be guided not to be in the long time table by slightly decreasing the charging speed for the battery of the user terminal 120 by decreasing the value by the predetermined size value.

In this case, according to an embodiment of the present invention, the database of the wireless charging device 110 may store the predetermined wireless charging time for each of the plurality of private keys.

For example, as shown in Table 3 below, the database may store the predetermined wireless charging time for each of the plurality of private keys.

Plural Private keys Wireless charging power magnitude values Selected wireless charging time Private key 1 2W 15 minutes Private key 2 3W 20 minutes Private Key 3 4W 30 minutes Private key 4 5W 60 minutes

At this time, when the wireless charging device 110 starts to transmit the wireless charging power to the user terminal 120, the wireless charging device 110 can measure the wireless charging elapsed time from the time when the wireless charging power starts to be transmitted to the user terminal 120 , Extracts a stored wireless charging time corresponding to the private key used to decrypt the MAC address of the encrypted user terminal 120 from the database, and then, whenever the wireless charging elapsed time starts to exceed the extracted wireless charging time , It is possible to reduce the size value of the wireless charging power transmitted to the user terminal 120 by the predetermined size value.

When the wireless charging device 110 starts to transmit a wireless charging power of '3W' size to the user terminal 120, the wireless charging device 110 transmits the wireless charging progress from the time when the wireless charging power starts to be transmitted 20 minutes', which is a wireless charging time stored in correspondence with the 'private key 2', from the database, and when the wireless charging elapsed time starts to exceed '20 minutes', the user By reducing the size value of the wireless charging power transmitted to the terminal by the predetermined size value, the wireless charging power to be transmitted to the user terminal 120 is made different according to the amount of the user's payment, The time interval at which this is reduced can also be set differently.

2 is a diagram illustrating a structure of a wireless charging device capable of transmitting a differential wireless charging power according to an exemplary embodiment of the present invention.

2, a wireless charging apparatus 210 capable of transmitting a differential wireless charging power according to an embodiment of the present invention includes a database 211, an address receiving unit 212, a decoding attempt unit 213, An extracting unit 215, and a wireless charging unit 216. The wireless transmitting /

The database 211 stores a plurality of private keys and a plurality of wireless charging power values having different size values for each of the plurality of private keys corresponding to each other.

The address receiving unit 212 receives a MAC address encrypted with the first public key from the user terminal 220 via the NFC communication module when the user terminal capable of wirelessly charging the battery is recognized.

The decryption attempt unit 213 attempts to decrypt the MAC address encrypted with the first public key using the plurality of private keys.

The decryption decision unit 214 receives the MAC address for the user terminal 220 from the central management terminal 230 and transmits the MAC address for the user terminal 220 received from the central management terminal 230, Decryption result of the MAC address encrypted with the first public key using the keys is compared to determine whether a decrypted private key for the MAC address encrypted with the first public key exists among the plurality of private keys.

If it is determined that the decrypted private key of the MAC address encrypted with the first public key is the first private key among the plurality of private keys, the extracting unit 215 extracts the corresponding private key corresponding to the first private key from the database 211 And extracts the stored first wireless charging power magnitude value.

The wireless charging unit 216 transmits wireless charging power according to the extracted first wireless charging power level value to the user terminal 220 to perform wireless charging of the battery of the user terminal 220. [

In this case, according to an embodiment of the present invention, the central management terminal 230 stores a plurality of public keys corresponding to the plurality of private keys on the key database, and the NFC When the user terminal 220 is adjacent to a point where communication via the communication module is possible, the MAC address for the user terminal 220 from the user terminal 220 through the NFC communication module mounted on the central management terminal 230 After encrypting the MAC address of the user terminal 220 with the first public key selected by the administrator of the central management terminal 230 among the plurality of public keys, (220).

Also, according to an embodiment of the present invention, when it is determined that the decrypted private key of the MAC address encrypted with the first public key does not exist among the plurality of private keys, The wireless charging power can be transmitted to the user terminal 220 according to the minimum wireless charging power value preset by the user terminal 220. [

In addition, according to an embodiment of the present invention, the wireless charging device 210 capable of transmitting a differential wireless charging power by class may further include a time measuring unit 217.

The time measurement unit 217 measures a wireless charging elapsed time from the time when the wireless charging power is started to be transmitted to the user terminal 220 when the wireless charging power starts to be transmitted to the user terminal 220.

At this time, the wireless charging unit 216 may reduce the size of the wireless charging power transmitted to the user terminal 220 by a predetermined size value each time the wireless charging elapsed time starts to exceed the predetermined wireless charging time have.

At this time, according to an embodiment of the present invention, the database 211 may store the predetermined wireless charging time differently for each of the plurality of private keys.

At this time, the wireless charging unit 216 extracts a predetermined first wireless charging time stored in association with the first private key from the database 211, and then the wireless charging elapsed time exceeds the predetermined first wireless charging time The amount of the wireless charging power transmitted to the user terminal 220 may be decreased by the predetermined size value.

The wireless charging device 210 capable of transmitting the differential wireless charging power according to the embodiment of the present invention has been described above with reference to FIG. Here, the wireless charging device 210 capable of transmitting the differential wireless charging power according to the embodiment of the present invention can correspond to the configuration of the wireless charging device 110 described with reference to FIG. 1, A detailed description thereof will be omitted.

FIG. 3 is a flowchart illustrating a wireless charging method capable of transmitting a differential wireless charging power according to an exemplary embodiment of the present invention.

In step S310, a plurality of private keys and a plurality of wireless charging power values having different size values for the plurality of private keys are stored corresponding to each other.

In step S320, when a user terminal capable of wirelessly charging the battery is recognized, the MAC address encrypted with the first public key is received from the user terminal through the NFC communication module.

In step S330, an attempt is made to decrypt the MAC address encrypted with the first public key using the plurality of private keys.

In step S340, the MAC address of the user terminal is received from the central management terminal, and the MAC address of the user terminal received from the central management terminal and the MAC address encrypted with the first public key using the plurality of private keys And determines whether a decrypted private key for the MAC address encrypted with the first public key exists among the plurality of private keys.

In step S350, if it is determined that the decrypted private key of the MAC address encrypted with the first public key is the first private key among the plurality of private keys, it is stored in association with the first private key on the database And extracts a first wireless charging power magnitude value.

In step S360, the user terminal is wirelessly charged with the battery of the user terminal by transmitting the wireless charging power according to the extracted first wireless charging power value.

In this case, according to an embodiment of the present invention, the central management terminal stores a plurality of public keys corresponding to the plurality of private keys on the key database, and transmits the public keys through the NFC communication module When receiving the MAC address for the user terminal from the user terminal through the NFC communication module mounted on the central management terminal, when the user terminal is adjacent to a point where communication is possible, Encrypt the MAC address for the user terminal with the first public key selected by the administrator of the terminal, and transmit the MAC address encrypted with the first public key to the user terminal.

According to an embodiment of the present invention, in step S360, when it is determined that there is no decrypted private key for the MAC address encrypted with the first public key among the plurality of private keys, The wireless charging power can be transmitted to the user terminal according to a preset minimum wireless charging power value.

According to an embodiment of the present invention, when the wireless charging power is transmitted to the user terminal after the step S360, Measuring a wireless charging elapsed time from a point in time at which the wireless charging power starts to be transmitted; and measuring a value of the wireless charging power transmitted to the user terminal every time the wireless charging elapsed time starts exceeding the predetermined wireless charging time May be reduced by a predetermined magnitude value.

According to an embodiment of the present invention, the database may store the predetermined wireless charging time for each of the plurality of private keys, and may store the wireless charging power value to a predetermined size Wherein the step of extracting the selected first wireless charging time corresponding to the first private key from the database extracts the first wireless charging time stored in the database every time the wireless charging elapsed time starts exceeding the predetermined first wireless charging time , It is possible to reduce the size value of the wireless charging power transmitted to the user terminal by the predetermined size value.

The wireless charging method capable of transmitting the differential wireless charging power by class has been described above with reference to FIG. Here, the wireless charging method capable of transmitting the differential wireless charging power by class according to an embodiment of the present invention is similar to the wireless charging apparatus 110 described with reference to FIG. 1 and the differential wireless charging power transmission by class It is possible to correspond to the configuration of the wireless charging apparatus 210 as much as possible, so a detailed description thereof will be omitted.

A wireless charging method capable of transmission of a differential wireless charging power according to an exemplary embodiment of the present invention can be realized by a computer program stored in a storage medium for execution through a combination with a computer.

In addition, a wireless charging method capable of transmission of a differential wireless charging power according to an embodiment of the present invention may be implemented in a form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

110: wireless charging device 120: user terminal
121: user 130: central management terminal
210: Differential wireless charging by rating Wireless charging device capable of transmitting power
211: database 212: address receiver
213: decoding attempt section 214:
215: Extracting unit 216: Wireless charging unit
217: time measuring unit
220: user terminal
230: central management terminal

Claims (12)

A database in which a plurality of wireless charging power magnitude values having different magnitude values for a plurality of private keys and the plurality of private keys are stored corresponding to each other;
An address receiver for receiving a Media Access Control (MAC) address encrypted with a first public key from the user terminal through an NFC (Near Field Communication) communication module when a user terminal capable of wireless charging to the battery is recognized;
An attempt to decrypt a MAC address encrypted with the first public key using the plurality of private keys;
A decryption result for a MAC address encrypted with the first public key using the MAC address for the user terminal and the plurality of private keys received from the central management terminal from the central management terminal And determining whether a decrypted private key for the MAC address encrypted with the first public key exists in the plurality of private keys by comparing the decrypted private key with the decrypted private key;
If it is determined that the decrypted private key of the MAC address encrypted with the first public key is the first private key, An extraction unit for extracting a power magnitude value;
A wireless charging unit that wirelessly charges the battery of the user terminal by transmitting wireless charging power according to the extracted first wireless charging power value to the user terminal; And
A time measurement unit for measuring a wireless charging elapsed time from a time point at which the wireless charging power is started to be transmitted to the user terminal when the wireless charging power is started to be transmitted to the user terminal,
Lt; / RTI >
The wireless charging unit
Wherein each time a wireless charging elapsed time starts exceeding a predetermined wireless charging time, a differential wireless charging power transmission by a grade that reduces the magnitude of the wireless charging power transmitted to the user terminal by a predetermined magnitude value Possible wireless charging devices. The method according to claim 1,
The central management terminal
When a plurality of public keys corresponding to the plurality of private keys are stored in the key database and the user terminal is adjacent to a point where communication is possible through the NFC communication module mounted on the central management terminal, The method comprising: receiving a MAC address for the user terminal from the user terminal through an NFC communication module mounted on the terminal; receiving, by the first public key selected by the administrator of the central management terminal, And transmitting the MAC address encrypted by the first public key to the user terminal after encrypting the MAC address. The method according to claim 1,
The wireless charging unit
When it is determined that a decrypted private key for a MAC address encrypted with the first public key does not exist among the plurality of private keys, A wireless charging device capable of transmitting differential wireless charging power by class to transmit wireless charging power. delete The method according to claim 1,
In the database,
Wherein the predetermined wireless charging time is stored differently for each of the plurality of private keys,
The wireless charging unit
After extracting a predetermined first wireless charging time stored in association with the first private key from the database, transmitting the first wireless charging time to the user terminal every time the wireless charging elapsed time starts exceeding the predetermined first wireless charging time Wherein the mobile wireless terminal is capable of transmitting a differential wireless charging power according to a rating by which a magnitude value of the wireless charging power is reduced by the predetermined magnitude value. Maintaining a database in which a plurality of wireless charging power magnitude values having different magnitude values for a plurality of private keys and the plurality of private keys are stored corresponding to each other;
Receiving a Media Access Control (MAC) address encrypted with a first public key from the user terminal through an NFC (Near Field Communication) communication module when a user terminal capable of wireless charging to the battery is recognized;
Attempting to decrypt a MAC address encrypted with the first public key using the plurality of private keys;
A decryption result for a MAC address encrypted with the first public key using the MAC address for the user terminal and the plurality of private keys received from the central management terminal from the central management terminal Determining whether there is a decrypted private key for the MAC address encrypted with the first public key among the plurality of private keys by comparing the values of the plurality of private keys;
If it is determined that the decrypted private key of the MAC address encrypted with the first public key is the first private key, Extracting a power magnitude value;
Performing wireless charging for the battery of the user terminal by transmitting wireless charging power according to the extracted first wireless charging power level value to the user terminal;
Measuring a wireless charging elapsed time from a time when the wireless charging power is started to be transmitted to the user terminal when the wireless charging power starts to be transmitted to the user terminal; And
Decreasing a size value of the wireless charging power transmitted to the user terminal by a predetermined size value each time the wireless charging elapsed time starts exceeding a predetermined wireless charging time
Wherein said wireless charging method comprises the steps of: The method according to claim 6,
The central management terminal
When a plurality of public keys corresponding to the plurality of private keys are stored in the key database and the user terminal is adjacent to a point where communication is possible through the NFC communication module mounted on the central management terminal, The method comprising: receiving a MAC address for the user terminal from the user terminal through an NFC communication module mounted on the terminal; receiving, by the first public key selected by the administrator of the central management terminal, And transmitting the MAC address encrypted by the first public key to the user terminal after encrypting the MAC address. The method according to claim 6,
The step of performing the wireless charging
When it is determined that a decrypted private key for a MAC address encrypted with the first public key does not exist among the plurality of private keys, Differential Wireless Charging by Class to Transmit Wireless Charging Power Wireless charging method capable of transmitting power. delete The method according to claim 6,
In the database,
Wherein the predetermined wireless charging time is stored differently for each of the plurality of private keys,
The step of reducing the magnitude value of the wireless charging power by a predetermined magnitude value
After extracting a predetermined first wireless charging time stored in association with the first private key from the database, transmitting the first wireless charging time to the user terminal every time the wireless charging elapsed time starts exceeding the predetermined first wireless charging time Wherein the mobile terminal is capable of transmitting a differential wireless charging power according to a rating by which a magnitude value of the wireless charging power is reduced by the predetermined magnitude value. A computer-readable recording medium recording a program for performing the method of any one of claims 6, 7, 8, and 10. A computer program stored in a storage medium for executing the method of any one of claims 6, 7, 8, or 10 in combination with a computer.

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