KR102469911B1 - Wireless power transmission module and method for providing service using the same - Google Patents

Abstract

A wireless power transmission module capable of performing information transmission and firmware upgrade using an idle period occurring between transmissions of received power information during charging of a device to be charged and a method of providing a service using the same are proposed. The proposed wireless power transmission module includes a power transmission unit that transmits power to a device to be charged, a first communication unit that transmits and receives data with the device to be charged, a second communication unit that transmits and receives data with an external terminal, and wireless charging and data transmission of the device to be charged. and a control unit for controlling, and the control unit transmits the data received from the external terminal through the second communication unit to the device to be charged in an idle section through the first communication unit.

Description

Wireless power transmission module and service providing method using the same

The present invention relates to a wireless power transmission module and a service providing method using the same, and more particularly, to a wireless power transmission module for transmitting power for wireless charging of automobiles, electronic devices, etc., and a service providing method using the same.

Recently, various types of wireless power transmission technologies have been developed to support wireless charging of devices to be charged, such as mobile terminals and electric vehicles.

The wireless power transmission technology is used to charge the battery by magnetic induction or magnetic resonance between antennas without charging the battery through direct cable connection.

Wireless power transmission technology is divided into a magnetic induction method used by Qi of WPC (Wireless Power Consortium) and Power Matters Alliance (PMA) of Powermat, and a magnetic resonance method used by Alliance for Wireless Power (A4WP).

In general, a wireless power transmission module is configured as shown in FIG. 1 and configured in one of Qi, PMA, and A4WP. The wireless power transmission module installed in the charger transmits power through magnetic induction or magnetic resonance, and the wireless power transmission module installed in the device to be charged receives the transmitted power to charge the battery. At this time, if an error occurs inside the wireless power transmission module, it is independently reset or notified to the user through an error occurrence alarm.

However, in the conventional wireless power transmission module, when an event such as firmware upgrade occurs, a worker stops the wireless power transmission module, and then manually inspects and upgrades the firmware.

In this case, since the downtime of the wireless power transmission module increases, a wireless power transmission module with a built-in communication function is being developed.

Accordingly, the conventional wireless power transmission module has somewhat reduced downtime, but since a large amount of data must be transmitted and received during transmission of inspection information (ie, state information of the wireless power transmission module) or firmware upgrade, the wireless power transmission module is charged and operated. The communication takes place in the interrupted state. That is, when an event such as inspection or firmware upgrade occurs while the charging target device is being charged, the conventional wireless power transmission module stops charging and processes inspection and firmware upgrade.

Accordingly, the conventional wireless power transmission module has a problem in that users' dissatisfaction and charging time increase due to charging interruption.

Korean Patent Publication No. 10-2016-0025200 (Name: Wireless charging system and its control method)

The present invention has been proposed to solve the above-mentioned conventional problems, and a wireless power transmission module for performing status information transmission and firmware upgrade using an idle section occurring between transmission of received power information during charging of a device to be charged, and It is an object of the present invention to provide a service providing method using the same.

In order to achieve the above object, a wireless power transmission module according to an embodiment of the present invention includes a power transmission unit for transmitting power to a device to be charged, a first communication unit for transmitting and receiving data to and from a device to be charged, and transmitting and receiving data with an external terminal. and a control unit for controlling wireless charging and data transmission of the charging target device, and the control unit transmits the data received from the external terminal through the second communication unit to the charging target device in an idle section through the first communication unit. . At this time, the idle section means a time delay section between the received power information received from the device to be charged, and the control unit stores the data received from the external terminal, divides the data into transmittable sizes in the idle section, and transmits the data. .

In order to achieve the above object, a service providing method using a wireless power transmission module according to an embodiment of the present invention includes receiving and storing data from an external terminal, transmitting power to a charging target device approaching for wireless charging. Step, receiving received power information from the device to be charged, and transmitting data received from an external terminal to the device to be charged in an idle section. At this time, the idle period means a time delay period between the received power information received in the step of receiving the received power information, and in the step of storing, the data received from the external terminal through Wi-Fi or power line communication is stored, and the idle section In the step of transmitting to the device to be charged, the stored data is divided into transmittable sizes in an idle section and transmitted.

According to the present invention, a wireless power transmission module and a method of providing a service using the same transmit and receive data with a device to be charged using an idle section that occurs during charging of the device to be charged, thereby providing a wireless power transmission module for wireless charging of vehicles, terminals, etc. It is possible to provide various services such as firmware update by transmitting data through.

In addition, a wireless power transmission module and a service providing method using the same transmits/receives data with a device to be charged using an idle period that occurs during charging of the device to be charged, thereby downloading firmware and communicating data only between wireless power receivers placed on top of a wireless power transmitter. so that security can be maximized.

In addition, the wireless power transmission module and the service providing method using the same can maximize security because the connected communication is disconnected when the wireless power receiver is quickly moved to another wireless power transmitter.

In addition, the wireless power transmission module and the service providing method using the same are PLC or WIFI connected to the wireless power transmitter, so external access is possible through TCP / IP or UDP from the equipment connected to the wireless power receiver, so that various services can be provided. It works.

1 is a diagram for explaining a wireless power transmission module of Dongrae;
2 and 3 are views for explaining a wireless power transmission module according to an embodiment of the present invention.
4 to 7 are views for explaining a service providing method using a wireless power transmission module according to an embodiment of the present invention.

Hereinafter, the most preferred embodiment of the present invention will be described with reference to the accompanying drawings in order to explain in detail to the extent that those skilled in the art can easily practice the technical idea of the present invention. . First, in adding reference numerals to components of each drawing, it should be noted that the same components have the same numerals as much as possible even if they are displayed on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description will be omitted.

A wireless power transmission module according to an embodiment of the present invention will be described with reference to FIGS. 2 and 3 as follows.

The wireless power transmission module is installed on the transmission side for wireless charging of the vehicle or mobile terminal, and the wireless power reception module is installed in the vehicle or mobile terminal. The wireless power transmission module includes a power transmission unit 100 that transmits power to the wireless power transmission module installed in the charging target device, a first communication unit 200 that transmits and receives information with the charging target device, and an external terminal (eg, a management server). etc.) and a second communication unit 300 and a control unit 400 for transmitting and receiving data.

The power transmitter 100 includes a power input circuit, a DC power supply circuit, a power supply circuit, an RF power amplifier circuit, a low-pass filter ), and a resonance circuit (RESONATOR).

The power transmission unit 100 transmits power to the device to be charged when the device to be charged approaches within a predetermined area for charging. Accordingly, the wireless power reception module installed in the charging target device transmits charging-related information such as advertising data, unique information of the wireless power transmission module installed in the charging target device, received power information, and charging information.

The first communication unit 200 is composed of a short-distance communication module such as BLE or Zigbee. The first communication unit 200 receives charging related information transmitted from a device to be charged. The first communication unit 200 transmits the received charging-related information to the control unit 400 . Here, in FIG. 2, the first communication unit 200 is configured as a BLE communication module and is shown as being included in the power transmission unit 100, but may be configured as an independent module from the power transmission unit 100. The first communication unit 200 may include the function of the control unit 400 when the function of the MCU is built-in.

The first communication unit 200 transmits charging-related information such as a communication connection request, unique information of the wireless power transmission module, and charging permission information under the control of the control unit 400 . At this time, the first communication unit 200 transmits and receives charging related information (ie, received power information of the device to be charged) with the device to be charged while the power transmission unit 100 is charging the device to be charged.

In this process, the first communication unit 200 transmits the data stored in the storage unit to the device to be charged under the control of the control unit 400 . That is, when receiving a data transmission request from the controller 400, the first communication unit 200 transmits the data stored in the storage unit to the device to be charged. At this time, the first communication unit 200 transmits data to the device to be charged through an idle section. Here, as shown in FIG. 4 , the first communication unit 200 receives received power information from the device to be charged until charging of the device to be charged is completed. The first communication unit 200 transmits data stored in the storage unit to a device to be charged using an idle period, which is a time between receiving the received power information and before receiving the next received power information, or transmits other data between wireless power transmission and reception modules. send and receive

For example, the first communication unit 200 transmits the firmware update file stored in the storage unit to the charging target device through an idle section. At this time, the first communication unit 200 transmits the firmware update files divided into a plurality of data to the charging target device one by one for each idle section. Of course, when a single firmware update file is stored, the first communication unit 200 may divide the firmware update file into a size that can be transmitted through an idle section, and then transmit the divided files one by one for each idle section.

Accordingly, the wireless power transmission module installed in the charging target device stores the firmware update file received from the first communication unit 200, and performs a firmware update when all firmware update files are transmitted. When updating firmware, the device to be charged transmits an update signal to the wireless charging transmission module, and the wireless charging transmission module transmits the received firmware update signal to the controller 400.

The second communication unit 300 is composed of a long-distance communication module such as a Wi-Fi communication module and a power line communication module. At this time, the second communication unit 300 may be composed of a combination of one or more of the remote communication modules.

The second communication unit 300 transmits and receives data with an external terminal (eg, a management server, etc.) located in a remote location. That is, the second communication unit 300 receives the state information request signal from the management server and transmits it to the control unit 400 . The second communication unit 300 receives a firmware update signal from the management server and transmits it to the control unit 400 . The second communication unit 300 receives data (ie, a firmware file) for firmware update from the management server under the control of the control unit 400 . The second communication unit 300 transmits the received data to the storage unit.

As shown in FIG. 3, the control unit 400 includes a storage module 420 for storing data to be transmitted to the charging target device, a determination module 440 for determining whether to transmit data stored in the storage module 420, and wireless power It consists of a control module 460 that controls overall operation control and data transmission of the transmission module.

The storage module 420 stores data (ie, a firmware file) received from the second communication unit 300 . At this time, since the wireless power transmission module transmits data to the device to be charged using the idle section, the data is divided into sizes that can be transmitted within the idle section and transmitted.

The determination module 440 determines whether data is transmitted to the charging target device based on the data stored in the storage module 420 . For example, when data for firmware update is stored in the storage module 420, the determination module 440 determines whether to update the firmware of the wireless power transmission module installed in the device to be charged based on the information related to charging from the device to be charged. . At this time, the determination module 440 determines that data is transmitted when the firmware of the device to be charged is an earlier version than the firmware stored in the storage module 420 .

The control module 460 transmits a data transmission request to the first communication unit 200 when the determination module 440 determines that the data is transmitted. That is, when the determination module 440 determines that the firmware update of the device to be charged is necessary, the control module 460 controls the first communication unit 200 to download the firmware update file stored in the storage module 420 through an idle section. It is transmitted to the charging target device.

When receiving a firmware update signal from the first communication unit 200, the control module 460 controls the power transmission unit 100 to retransmit the charging power for update purposes after a predetermined time after stopping the transmission of the charging power. That is, the control module 460 controls the charging power transmission of the power transmission unit 100 until the firmware update of the device to be charged is completed. At this time, the control module 460 controls the power transmission unit 100 to retransmit charging power for a predetermined period of time. The control module 460 controls the power transmission unit 100 to stop and resume the transmission of charging power to the device to be charged when the firmware update is completed in the device to be charged (that is, when charging power is transmitted for a certain period of time). .

As described above, the wireless power transmission module transmits data using an idle period occurring during charging of the device to be charged.

That is, when the wireless reception/transmission module installed in the device to be charged receives transmission power from the wireless power transmission module (i.e., a resonance type wireless power transmitter) and enters a power reception state, wireless power transmission periodically receives power information through a BLE message. report to the module.

At this time, the device to be charged reports the received power information after a time delay of a certain section between the previous report and the current report.

Accordingly, the wireless power transmission module defines a time delay period between the previous report and the current report as an idle period. Here, the idle period may be set within a maximum of 200 ms according to the resonant type wireless charging specifications.

The wireless power transmission module may implement other additional functions other than wireless charging to the charging target device by using data transmission and reception through the above-described idle section.

For example, the wireless power transmission module can update the firmware of the wireless power transmission module installed in the charging target device at the same time as charging the charging target device, and transmits and receives additional information through data transmission and reception with the charging target device to create new services. It is possible.

As such, the wireless power transmission module may transmit/receive various data with the device to be charged through an idle section in a charging state of the device to be charged.

Accordingly, the wireless power transmission module has excellent security because it downloads firmware and communicates data only between wireless power receivers placed on top of the wireless power transmitter, and when the wireless power receiver is quickly moved to another wireless power transmitter, the connected communication is disconnected, so it has excellent security. And, since the PLC or WIFI is connected to the wireless power transmitter, external access is possible through TCP/IP or UDP from the equipment connected to the wireless power receiver, so that various services can be created.

Referring to FIGS. 4 and 5, an idle section of a service providing method using a wireless power transmission module according to an embodiment of the present invention will be described below.

First, with reference to the flowchart of the general wireless charging method shown in FIG. 4, an idle period of a service providing method using a wireless power transmission module according to an embodiment of the present invention is defined as follows. Here, since the wireless charging method shown in FIG. 4 is a commonly used technology, a detailed description thereof will be omitted and steps necessary for defining an idle period will be mainly described.

The wireless power transmission module performs steps S10 to S75 to wirelessly charge the device to be charged (ie, the receiver).

At this time, when charging of the device to be charged is allowed (S55), the wireless power transmission module receives the charging state and received power information of the device to be charged (S60).

The wireless power transmission module receives charging state and received power information from the device to be charged at predetermined intervals until charging of the device to be charged is completed.

At this time, in the service providing method using the wireless power transmission module according to an embodiment of the present invention, the interval at which the wireless power transmission module receives the received power information (ie, the time at which the nth received power information is received in the period of receiving the received power information) ) is defined as an idle period. That is, as shown in FIG. 5, a delay time (ie, x ms) between charging information messages from a device to be charged (ie, a receiver) is defined as an idle period.

Referring to FIG. 6, a service providing method using a wireless power transmission module according to an embodiment of the present invention will be described below. Hereinafter, a firmware update of a wireless power transmission module installed in a device to be charged in an idle section will be described as an example.

When first charging information (ie, received power information) is received from the device to be charged (S100; Yes), the wireless power transmission module requests firmware information from the device to be charged (S150). That is, the wireless power transmission module transmits firmware information to the wireless power transmission module (hereinafter referred to as receiver) installed in the charging target device in the first idle period (ie, between receiving the first received power information and the second received power information). request. Accordingly, the receiver detects firmware information and transmits it to the wireless power transmission module.

The wireless power transmission module determines whether to update the firmware based on the firmware information received from the receiver. That is, the wireless power transmission module stores the firmware update file received from the management server. The wireless power transmission module compares the version of the stored firmware update file with the firmware version included in the firmware information received from the receiver to determine whether to update the firmware of the receiver. At this time, the wireless power transmission module determines that the receiver's firmware is updated if the firmware version of the receiver is earlier than the firmware version of the stored firmware update file. If it is determined that the receiver's firmware is updated (S200; Yes), the wireless power transmission module detects a pre-stored firmware update file (S250). At this time, the detected firmware update file may be composed of one file or divided into a plurality of files.

The wireless power transmission module determines whether the size of the detected firmware update file can be transmitted within one idle period. That is, when the firmware update file is composed of a single file, it is difficult to transmit the firmware update file within an idle section, so transmission within one idle section is impossible. On the other hand, when the firmware update file is divided into a plurality of files, transmission is possible within an idle section. Based on this, the wireless power transmission module determines whether the transmission of the firmware update file is possible.

Of course, the wireless power transmission module may determine whether the transmission of the firmware update file is possible by calculating the transmission time using the size and transmission speed of the firmware update file and comparing the calculated transmission time with the idle section (i.e., time). have.

If it is determined that it is difficult to transmit the firmware update file within one idle section (S300; Yes), the wireless power transmission module divides the firmware update file into a plurality of files (S350).

The wireless power transmission module transmits a plurality of firmware update files to the charging target device through an idle section (S400). This will be described with reference to the accompanying FIG. 7 as follows.

The wireless power transmission module transmits a download reception preparation request signal to the device to be charged (S410). That is, the wireless power transmission module transmits a download reception preparation request signal to the charging target device in order to request preparation for downloading the firmware update file using the idle period.

Accordingly, the charging target device prepares to download the firmware update file using the idle period, and transmits a download preparation completion signal to the wireless power transmitter when the preparation is completed. Upon receiving a download ready signal from the device to be charged (S420; Yes), the wireless power transmission module transmits one firmware update file in each idle section (S430). At this time, the wireless power transmission module transmits the firmware update files according to the order (or priority) set for each of the firmware update files. That is, the wireless power transmission module transmits the m-th firmware update file after receiving n-th received power information from the device to be charged. The wireless power transmission module transmits the m+1th firmware update file after receiving the n+1th received power information from the device to be charged. Accordingly, the device to be charged stores the firmware update file received from the wireless power transmission module.

When the transmission of all firmware update files is completed (S440; Yes), the wireless power transmission module transmits a firmware update file transmission completion signal to the charging target device (S450). Accordingly, the device to be charged transmits a firmware update start signal to the wireless power transmission module, and then reboots to perform firmware upgrade.

Upon receiving the firmware update start signal (S500; Yes), the wireless power transmission module stops power transmission to the device to be charged, and then retransmits power for a certain period of time for the purpose of updating firmware (S550). At this time, the wireless power transmission module transmits power to the device to be charged for a predetermined time after a delay time in consideration of the rebooting time of the device to be charged.

Thereafter, the wireless power transmission module resumes charging of the device to be charged by performing it again from step S10 described above.

As described above, the wireless power transmission module and the service providing method using the same transmit/receive data with the device to be charged using an idle section that occurs during charging of the device to be charged, so that the wireless power transmission module for wireless charging of vehicles, terminals, etc. It is possible to provide various services such as firmware update by transmitting data through.

In addition, a wireless power transmission module and a service providing method using the same transmits/receives data with a device to be charged using an idle period that occurs during charging of the device to be charged, thereby downloading firmware and communicating data only between wireless power receivers placed on top of a wireless power transmitter. so that security can be maximized.

In addition, the wireless power transmission module and the service providing method using the same can maximize security because the connected communication is disconnected when the wireless power receiver is quickly moved to another wireless power transmitter.

In addition, the wireless power transmission module and the service providing method using the same are PLC or WIFI connected to the wireless power transmitter, so external access is possible through TCP / IP or UDP from the equipment connected to the wireless power receiver, so that various services can be provided. It works.

Although the preferred embodiments according to the present invention have been described above, modifications can be made in various forms, and those skilled in the art can make various modifications and variations without departing from the scope of the claims of the present invention. It is understood that this can be done.

100: power transmission unit 200: first communication unit
300: second communication unit 400: control unit
420: storage module 440: determination module
460: control module

Claims (10)

a power transmission unit that transmits power to a device to be charged;
a first communication unit that transmits and receives data with the device to be charged;
A second communication unit for transmitting and receiving data with an external terminal; and
A control unit for controlling wireless charging and data transmission of the charging target device,
The control unit controls the first communication unit to transmit data to the charging target device during an idle period, which is a time delay period between received power information received from the charging target device. According to claim 1,
The first communication unit divides the data received from the external terminal into a plurality of data having a transmittable size in the idle period, and transmits the plurality of data to the charging target device through a plurality of idle periods. A wireless power transmission module that does. According to claim 1,
The second communication unit receives a firmware update file of the charging target device from the external terminal,
The first communication unit receives firmware information from the charging target device in the idle section,
The control unit,
a storage module for storing the firmware update file transmitted from the second communication unit; and
a determination module for determining that the firmware of the charging target device is an update if the firmware of the charging target device received from the first communication unit is an older version than the firmware update file stored in the storage module; and
A wireless power transmission module including a control module for controlling the first communication unit to transmit the firmware update file stored in the storage module to the charging target device through the idle period when the determination module determines that the firmware is updated. According to claim 3,
The first communication unit receives a firmware update signal from the charging target device that has received the firmware update file,
The control module controls the power transmission unit to stop power transmission to the charging target device for a set time when the firmware update signal is transmitted through the first communication unit. According to claim 3,
The storage module divides and stores the firmware update file into a plurality of files having a size capable of being transmitted in the idle section. In the service providing method performed by the wireless power transmission module,
Receiving data from an external terminal;
Transmitting power to a charging target device approaching for wireless charging;
receiving received power information from the device to be charged;
And transmitting the data received in the step of receiving the data to the device to be charged during an idle period, which is a time delay period between the received power information received in the step of receiving the received power information. A service providing method using a wireless power transmission module. According to claim 6,
The step of transmitting the data is,
Dividing the data received in the step of receiving the data into a plurality of data having a transmittable size in the idle period; and
A service providing method using a wireless power transmission module comprising the step of transmitting the plurality of data divided in the dividing step to the charging target device through a plurality of idle sections. According to claim 6,
In the receiving of the data, a service providing method using a wireless power transmission module for receiving a firmware update file of the charging target device from the external terminal. According to claim 8,
If the firmware version of the charging target device is an earlier version than the firmware update file received in the data receiving step prior to the transmitting of the data, determining that the firmware is updated;
In the step of transmitting the data, if it is determined that the firmware is updated in the step of determining, during the idle period
A service providing method using a wireless power transmission module for transmitting the firmware update file to the charging target device. According to claim 9,
A service providing method using a wireless power transmission module further comprising stopping power transmission to the charging target device for a set time when receiving a firmware update signal from the charging target device after the step of transmitting the data.

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