KR20220086190A - Wirelss power measuring device and operating method of the same - Google Patents

Abstract

Disclosed are a wireless power measuring apparatus and an operating method thereof according to an embodiment. The wireless power measuring device may include: a first storage unit configured to store a first wireless communication protocol stack and a second wireless communication protocol stack; By loading the first wireless communication protocol stack according to the first communication mode and operating in the first frequency band, rebooting is executed when a mode change command is input, and loading the second wireless communication protocol stack according to the second communication mode. a control unit controlling to operate in a second frequency band; a second storage unit configured to store the first wireless communication protocol stack or the second wireless communication protocol stack loaded according to the first communication mode or the second communication mode; a first communication unit operating in the first frequency band; and a second communication unit operating in the second frequency band.

Description

WIRELSS POWER MEASURING DEVICE AND OPERATING METHOD OF THE SAME

The embodiment relates to a wireless power measuring apparatus of a power system and an operating method thereof.

Since the wireless power measuring devices of the existing power system generally support a single wireless communication protocol for a single frequency band, they only support communication with a data collection device or a personal terminal such as a mobile phone. One data cannot be transmitted to a personal terminal.

The main reason for this is that, in the case of a low-cost small microcontroller including a wireless communication function, the memory size for operating the wireless communication protocol stack is small, so it is impossible to operate two wireless communication protocol stacks at the same time.

Therefore, if you want to read the data acquired from the wireless power measuring device of the power system, you must access the website of a power company that provides related services or use a separate terminal device to view it. It is impossible to read data in the environment.

The embodiment may provide a wireless power measuring apparatus of a power system and a method of operating the same.

A wireless power measuring apparatus according to an embodiment includes a first storage unit for storing a first wireless communication protocol stack and a second wireless communication protocol stack; By loading the first wireless communication protocol stack according to the first communication mode and operating in the first frequency band, rebooting is executed when a mode change command is input, and loading the second wireless communication protocol stack according to the second communication mode. a control unit controlling to operate in a second frequency band; a second storage unit configured to store the first wireless communication protocol stack or the second wireless communication protocol stack loaded according to the first communication mode or the second communication mode; a first communication unit operating in the first frequency band; and a second communication unit operating in the second frequency band.

The wireless power measuring device further includes an input unit for outputting a mode change command according to a user's menu or key manipulation, and the controller executes a reboot by a reset function when the mode change command is output to the second storage unit It is possible to delete the first wireless communication protocol stack stored in the , load the second wireless communication protocol stack and store it in the second storage unit.

The wireless power measuring device further includes an input unit for outputting a mode change command according to the user's motion detection, and the controller executes a reboot by a reset function when the mode change command is output to store the second storage unit. The first wireless communication protocol stack may be deleted, and the second wireless communication protocol stack may be loaded and stored in the second storage unit.

The control unit is switched to the second frequency band, and when the time of operation in the second frequency band elapses a predetermined time, the control unit determines a mode temporary transition to the first communication mode, and performs the determined mode temporary transition The communication mode can be temporarily switched accordingly.

The control unit may determine a temporary transition to the second communication mode every predetermined time period, and temporarily switch the communication mode according to the determined mode temporary transition.

When the mode change command or the mode temporary change is determined, the control unit transmits a mode change message or a mode temporary change message to the first external device or the second external device to which communication is terminated, and then performs the reboot by a reset function can run

A method of operating a wireless power measuring apparatus according to an embodiment includes: storing a first wireless communication protocol stack and a second wireless communication protocol stack in a first storage unit; loading a first wireless communication protocol stack into a second storage unit according to a first communication mode and operating in a first frequency band; and rebooting when a mode change command is input, switching the first communication mode to a second communication mode, and loading a second wireless communication protocol stack into a second storage unit according to the second communication mode to a second frequency band It may include a step of operating as

In the step of operating in the second frequency band, a mode change command is output according to a user's menu or key operation, and the first wireless device stored in the second storage unit is rebooted by a reset function in accordance with the mode change command. By deleting the communication protocol stack, switching to the second communication mode, and loading the second wireless communication protocol stack into the second storage unit, the second frequency band may be operated.

The step of operating in the second frequency band outputs a mode change command according to the user's motion detection, and executes a reboot by a reset function according to the mode change command, and the first wireless communication protocol stack stored in the second storage unit may be deleted, and the second wireless communication protocol stack may be loaded into the second storage unit by switching to the second communication mode to operate in a second frequency band.

The operating in the second frequency band may include temporarily switching a communication mode according to a temporary mode switching command when the operating time in the first frequency band or the second frequency band elapses a predetermined time.

The step of operating in the second frequency band may include determining temporary switching to the second communication mode every predetermined time period, and temporarily switching the communication mode according to the determined mode temporary switching.

The step of operating in the second frequency band may include transmitting the mode change command or the mode temporary change message to the first external device or the second external device where communication is terminated when the mode change command or the mode temporary change is determined. The reboot can be executed by the reset function.

According to an embodiment, the first wireless communication protocol-based first communication mode or the second wireless communication protocol-based second communication mode is operated, and when the communication mode is switched, the wireless communication to be switched is rebooted to delete the operating wireless communication protocol. By loading a protocol to communicate, power measurement data can be easily checked using a portable terminal device without an Internet connection or a separate terminal device.

According to the embodiment, since it is possible to check the power consumption information in real time, when the power consumption is high, the corresponding information is transmitted and warned to the user to reduce the user's power consumption.

1 is a diagram illustrating a wireless power measurement system according to an embodiment of the present invention.
2 is a diagram showing a detailed configuration of a wireless power measuring apparatus according to the first embodiment.
FIG. 3 is a view for explaining a storage area of the first storage unit shown in FIG. 2 .
4 is a diagram illustrating a method of operating a wireless power layer device according to the first embodiment.
5 is a diagram illustrating a detailed configuration of a wireless power measuring apparatus according to a second embodiment.
6 is a diagram illustrating a method of operating a wireless power layer device according to a second embodiment.

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

However, the technical spirit of the present invention is not limited to some embodiments described, but may be implemented in various different forms, and within the scope of the technical spirit of the present invention, one or more of the components may be selected between the embodiments. It can be used by combining or substituted with .

In addition, terms (including technical and scientific terms) used in the embodiments of the present invention may be generally understood by those of ordinary skill in the art to which the present invention belongs, unless specifically defined and described explicitly. It may be interpreted as a meaning, and generally used terms such as terms defined in advance may be interpreted in consideration of the contextual meaning of the related art.

In addition, the terminology used in the embodiments of the present invention is for describing the embodiments and is not intended to limit the present invention.

In this specification, the singular form may also include the plural form unless otherwise specified in the phrase, and when it is described as “at least one (or more than one) of A and (and) B, C”, it is combined with A, B, and C It may include one or more of all possible combinations.

In addition, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used.

These terms are only for distinguishing the component from other components, and are not limited to the essence, order, or order of the component by the term.

And, when it is described that a component is 'connected', 'coupled' or 'connected' to another component, the component is not only directly connected, coupled or connected to the other component, but also with the component It may also include a case of 'connected', 'coupled' or 'connected' due to another element between the other elements.

In addition, when it is described as being formed or disposed on “above (above) or under (below)” of each component, the top (above) or bottom (below) is one as well as when two components are in direct contact with each other. Also includes a case in which another component as described above is formed or disposed between two components. In addition, when expressed as “upper (upper) or lower (lower)”, the meaning of not only the upward direction but also the downward direction based on one component may be included.

In an embodiment, a first communication mode for communicating with a data collection device based on a first wireless communication protocol and a second communication mode for communicating with a portable terminal device based on a second wireless communication protocol are set, and the first communication mode or We propose a new method of operating in the second communication mode and loading and communicating with the wireless communication protocol to be switched after deleting the operating wireless communication protocol by rebooting when the communication mode is switched.

Recently, as environmental degradation and resource depletion have become serious problems, interest in systems that can store energy and efficiently use stored energy are increasing. There is a growing interest in A typical example is a solar power system. A solar power system collects a plurality of solar cell strings to centralize electricity. Meanwhile, in order to determine whether the photovoltaic cell string is abnormal, a sensor may be attached to each photovoltaic cell string, and whether the photovoltaic cell string is abnormal may be determined based on a sensing result of the sensor. To this end, the photovoltaic system may include a power measuring device that processes a sensing result of a sensor attached to each photovoltaic cell string. Such a power measuring device generally receives a sensing result from a sensor, calculates the received sensing result, and transmits the calculation result to an external device. According to this, the specification of the power measuring device should be changed according to the type of the sensor or the type of communication method with the external device. Since the types of sensors and the types of communication methods are very diverse, various types of power measuring devices must be separately manufactured according to the types of sensors and types of communication methods.

Herein, the wireless power measuring device of the solar power generation system is described as an example, but the present invention is not limited thereto and may be applied to various types of power generation systems.

Accordingly, in the embodiment, one of a plurality of pre-stored wireless communication protocol stacks is loaded to communicate in a corresponding frequency band.

1 is a diagram showing the configuration of a power measurement system according to an embodiment of the present invention.

Referring to FIG. 1 , a power measurement system according to an embodiment of the present invention may include a data collection device 100 , a wireless power measurement device 200 , and a portable terminal device 300 .

The data collection device 100 may interwork with the wireless power measurement device 200 , transmit control data to the wireless power measurement device 200 , and receive power data from the wireless power measurement device 200 .

The wireless power measuring apparatus 200 may receive a sensing result from a sensor attached to each solar cell string, calculate the received sensing result, and generate power data as a result of the calculation.

The wireless power measuring apparatus 200 may load a first wireless communication protocol stack and operate in a first frequency band to interwork with the data collection apparatus 100 and transmit/receive various data. For example, the wireless power measuring apparatus 200 may transmit power data to the data collecting apparatus 100 at predetermined time intervals. Here, the predetermined time period may be in units of 15 minutes, but is not necessarily limited thereto and may be changed as necessary.

In this case, the first frequency band may be, for example, a sub-1 GHz frequency band of IEEE 802.15.4.

The wireless power measuring device 200 may load the second wireless communication protocol stack and operate in the second frequency band to interwork with the portable terminal device 300 and transmit/receive various data. For example, the wireless power measuring device 200 may transmit power data to the portable terminal device 300 according to a user's request.

In this case, the second frequency band may be, for example, a 2.4 GHz frequency band of Wi-Fi or Bluetooth.

The portable terminal device 300 may interwork with the wireless power measuring device 200 , receive power data from the wireless power measuring device 200 , and display the received power data.

In the first embodiment, a mode switching method, for example, a manual switching method in which an operating frequency is switched from a first frequency band to a second frequency band according to a user's operation, may be applied.

FIG. 2 is a diagram illustrating a detailed configuration of a wireless power measuring apparatus according to the first embodiment, and FIG. 3 is a diagram illustrating a storage area of the first storage unit shown in FIG. 2 .

Referring to FIG. 2 , the wireless power measuring apparatus 200 according to the first embodiment of the present invention includes a first storage unit 210 , a second storage unit 220 , an input unit 230 , a control unit 240 , and a second storage unit 200 . It may include a first communication unit 250 , a second communication unit 260 , and a power supply unit 270 .

The first storage unit 210 may always store the first wireless communication protocol stack and the second wireless communication protocol stack. The first storage unit 210 is a storage device for always storing data, and may be, for example, a non-volatile memory (Non-Volatile Memory). Non-volatile memory is suitable for mobile devices because it has all the advantages of ROM, in which input information is not erased even when power is not supplied, as well as the advantages of RAM, which allows free input and output of information.

3 , the first storage unit 210 may include a setting data area 210a and a program area 210b. A switched communication mode and a wireless communication protocol stack may be set in the setting data area, and a first wireless communication protocol stack and a second wireless communication protocol stack may be stored in the protocol area.

The second storage unit 220 may temporarily store the first wireless communication protocol stack and the second wireless communication protocol stack. The second storage unit 220 may temporarily store either one of the first wireless communication protocol stack and the second wireless communication protocol stack. The second storage unit 220 is a storage device for temporarily storing data, and may be, for example, a volatile memory. In the volatile memory, information stored therein disappears when power supply is interrupted, and RAM such as SRAM or DRAM is a representative example.

The input unit 230 may output information according to a user's menu or key manipulation, that is, a mode change command. For example, the input unit 230 may include a button capable of detecting a user's manipulation and a touch sensor.

The input unit 230 may also output information according to the user's movement or approach detection, not the user's manipulation, that is, a mode change command. For example, the input unit 230 may include a proximity sensor capable of detecting the user's movement or approach.

When the power is turned on, the control unit 240 loads the first wireless communication protocol stack stored in the first storage unit 210 according to the first communication mode, stores it in the second storage unit 220, and stores the stored first wireless communication protocol stack. It can be controlled to communicate with the data collection apparatus 100 by operating in the first frequency band using the protocol stack.

When a mode change command is input, the control unit 240 activates a reset function to execute a reboot, removes the first wireless communication protocol stack stored in the second storage unit 220 by rebooting, and removes the first wireless communication protocol stack according to the second communication mode. First, the second wireless communication protocol stack stored in the storage unit 210 is loaded and stored in the second storage unit 220 , and the portable terminal device 300 operates in a second frequency band using the stored second wireless communication protocol stack. ) can be controlled to communicate with

The first communication unit 250 may operate in a first frequency band to interwork with the data collection apparatus 100 .

The second communication unit 260 may operate in the second frequency band to interwork with the portable terminal device 300 .

The power supply unit 270 may supply power to the first storage unit 210 , the second storage unit 220 , the input unit 230 , the control unit 240 , the first communication unit 250 , and the second communication unit 260 . . The power supply unit 270 may cut off the power according to the reset function of the control unit 240 and then supply it again to reboot.

4 is a diagram illustrating a method of operating a wireless power layer device according to the first embodiment.

Referring to FIG. 4 , when the wireless power measuring apparatus according to the first embodiment of the present invention is powered on (S401), the first wireless communication protocol stack stored in the first storage unit is loaded according to a preset first communication mode. to be stored in the second storage unit (S402).

Next, the wireless power measuring device may operate in a first frequency band based on the first wireless communication protocol stack and communicate by pairing with the data collection device ( S403 ).

In this case, when the wireless power measurement device is paired with the data collection device, it is in a data reception standby state, and when it receives control data from the data collection device, it may collect power data from the power system and transmit it to the data collection device.

Next, the wireless power measuring apparatus may determine whether a mode change command is input (S404). For example, the wireless power measuring apparatus may determine whether a mode change command according to a button press, a touch detection, a motion, or an approach detection is input.

Next, when a mode change command is input, the wireless power measuring device determines to switch from the first communication mode to the second communication mode ( S405 ), and generates a mode change message and transmits the generated mode change message to the data collection device can be transmitted to (S406).

In addition, the wireless power measuring device may set the switched communication mode and wireless communication protocol stack in the setting data area of the first storage unit after transmitting the mode change message to the data collection device.

The reason for transmitting the mode change message in this way is to prevent a time-out error of the data collection device communicating in the first communication mode according to the transition from the first communication mode to the second communication mode.

Next, the wireless power measuring device may activate the reset function to perform a reboot ( S407 ), and remove the first wireless communication protocol stack stored in the second storage unit 220 .

Next, the wireless power measuring apparatus may load the second wireless communication protocol stack stored in the first storage unit according to the second communication mode and store it in the second storage unit (S408).

Next, the wireless power measuring device may operate in the second frequency band based on the second wireless communication protocol stack to communicate with the portable terminal device by pairing (S409).

Next, the wireless power measuring device may check whether communication with the portable terminal device is terminated (S410). That is, the wireless power measuring device may determine to switch from the second communication mode to the first communication mode when communication with the portable terminal device is terminated ( S411 ). Then, the wireless power measuring device may generate a mode change message and transmit the generated mode change message to the portable terminal device (S412), and then activate the reset function to perform reboot (S413).

On the other hand, if communication with the portable terminal device has not ended, the wireless power measuring device may check whether a preset time has elapsed ( S414 ). That is, when a preset time has elapsed, the wireless power measuring apparatus may determine a temporary transition from the second communication mode to the first communication mode ( S415 ).

In addition, after transmitting the mode temporary switching message to the portable terminal device (S416), the wireless power measuring device may set the switched communication mode and wireless communication protocol stack in the setting data area of the first storage unit.

In this case, the preset time may be 15 minutes, which is a period for collecting power data.

Next, the wireless power measuring device may activate the reset function to perform a reboot (S417), and remove the second wireless communication protocol stack stored in the second storage unit 220 .

Next, the wireless power measuring apparatus may load the first wireless communication protocol stack and store it in the second storage unit (S418).

Next, the wireless power measuring device may operate in a first frequency band based on the first wireless communication protocol stack to communicate with the data collection device by pairing ( S419 ).

Next, the wireless power measuring device may check whether communication with the data collection device is terminated, and if the communication is terminated, may return to the second communication mode (S420).

In the second embodiment, an automatic switching method in which the mode is switched according to a predetermined time, for example, the operating frequency is switched from the second frequency band to the first frequency band, may be applied.

5 is a diagram illustrating a detailed configuration of a wireless power measuring apparatus according to a second embodiment.

Referring to FIG. 5 , the wireless power measuring apparatus 200 according to the second embodiment of the present invention includes a first storage unit 210 , a second storage unit 220 , a control unit 240 , and a first communication unit 250 . , a second communication unit 260 and a power supply unit 270 may be included.

The first storage unit 210 may always store the first wireless communication protocol stack and the second wireless communication protocol stack.

The second storage unit 220 may temporarily store the first wireless communication protocol stack and the second wireless communication protocol stack.

When the power is turned on, the control unit 240 loads the second wireless communication protocol stack stored in the first storage unit 210 according to the second communication mode, stores it in the second storage unit 220, and stores the stored second wireless communication It can be controlled to operate in the second frequency band using the protocol stack.

When a predetermined time elapses, the control unit 240 activates the reset function to execute a reboot, removes the second wireless communication protocol stack stored in the second storage unit 220 by rebooting, and removes the second wireless communication protocol stack according to the first communication mode. The first wireless communication protocol stack stored in the first storage unit 210 may be loaded and stored in the second storage unit 220 , and may be controlled to operate in a first frequency band using the stored first wireless communication protocol stack.

The first communication unit 250 may operate in a first frequency band to interwork with the data collection apparatus 100 .

The second communication unit 260 may operate in the second frequency band to interwork with the portable terminal device 300 .

The power supply unit 270 may supply power to the first storage unit 210 , the second storage unit 220 , the input unit 230 , the control unit 240 , the first communication unit 250 , and the second communication unit 260 . . The power supply unit 270 may cut off the power according to the reset function of the control unit 240 and then supply it again to reboot.

6 is a diagram illustrating a method of operating a wireless power layer device according to a second embodiment.

Referring to FIG. 6 , when the wireless power measuring apparatus according to the second embodiment of the present invention is powered on (S501), the second wireless communication protocol stack stored in the first storage unit is loaded according to a preset second communication mode. to be stored in the second storage unit (S502).

Next, the wireless power measuring device may operate in the second frequency band based on the second wireless communication protocol stack and communicate with the portable terminal device by pairing ( S503 ).

At this time, since the wireless power measuring device and the portable terminal device are paired to perform communication, the data collection device may operate in a data reception standby state.

Next, the wireless power measuring apparatus may determine whether a predetermined time has elapsed (S504). In this case, the preset time may be 15 minutes, which is a period for collecting power data.

Next, when a predetermined time has elapsed, the wireless power measuring apparatus determines a temporary transition from the second communication mode to the first communication mode (S505), and generates a mode temporary change message to transmit the generated mode temporary change message (S505). It can be transmitted to the portable terminal device (S506).

In addition, the wireless power measuring device may set the switched communication mode and wireless communication protocol stack in the setting data area of the first storage unit after transmitting the mode temporary switching message to the portable terminal device.

The reason for transmitting the mode temporary change message in this way is to prevent a timeout error of the portable terminal device communicating in the second communication mode according to the temporary switching from the second communication mode to the first communication mode.

Next, the wireless power measuring device may activate the reset function to perform a reboot, and remove the second wireless communication protocol stack stored in the second storage unit 220 ( S507 ).

Next, the wireless power measuring apparatus may load the first wireless communication protocol stack stored in the first storage unit according to the first communication mode and store it in the second storage unit ( S508 ).

Next, the wireless power measuring device may operate in a first frequency band based on the first wireless communication protocol stack and communicate by pairing with the data collection device (S509). That is, the wireless power measuring device may perform a predetermined function with the data collection device, for example, a data collection function.

Next, the wireless power measuring apparatus may check whether communication with the data collection apparatus is terminated ( S510 ). That is, the wireless power measuring device determines to return to the second communication mode from the first communication mode when communication with the data collection device is terminated ( S511 ), and generates a mode change message and transmits the generated mode change message to the data collection device can be transmitted to (S512).

Next, the wireless power measuring apparatus may activate a reset function to perform a reboot, and remove the first wireless communication protocol stack stored in the second storage unit 220 ( S513 ).

On the other hand, the wireless power measuring apparatus may continue to perform a predetermined function, for example, a data collection function, with the data collection apparatus if communication with the data collection apparatus is not terminated.

The term '~ unit' used in this embodiment means software or hardware components such as field-programmable gate array (FPGA) or ASIC, and '~ unit' performs certain roles. However, '-part' is not limited to software or hardware. '~unit' may be configured to reside on an addressable storage medium or may be configured to refresh one or more processors. Thus, as an example, '~' refers to components such as software components, object-oriented software components, class components, and task components, and processes, functions, properties, and procedures. , subroutines, segments of program code, drivers, firmware, microcode, circuitry, data, databases, data structures, tables, arrays, and variables. The functions provided in the components and '~ units' may be combined into a smaller number of components and '~ units' or further separated into additional components and '~ units'. In addition, components and '~ units' may be implemented to play one or more CPUs in a device or secure multimedia card.

Although the above has been described with reference to preferred embodiments of the present invention, those skilled in the art can variously modify and change the present invention within the scope without departing from the spirit and scope of the present invention as set forth in the claims below. You will understand that it can be done.

100: data collection device
200: wireless power measuring device
210: first storage unit
220: second storage unit
230: input unit
240: control unit
250: first communication unit
260: second communication unit
270: power supply
300: portable terminal device

Claims (12)

a first storage unit for storing a first wireless communication protocol stack and a second wireless communication protocol stack;
By loading the first wireless communication protocol stack according to the first communication mode and operating in the first frequency band, rebooting is executed when a mode change command is input, and loading the second wireless communication protocol stack according to the second communication mode. a control unit controlling to operate in a second frequency band;
a second storage unit configured to store the first wireless communication protocol stack or the second wireless communication protocol stack loaded according to the first communication mode or the second communication mode;
a first communication unit operating in the first frequency band; and
A wireless power measuring device comprising a second communication unit operating in the second frequency band. According to claim 1,
Further comprising an input unit for outputting a mode change command according to the user's menu or key operation,
The control unit is
When the mode change command is output, the first wireless communication protocol stack stored in the second storage unit is deleted by rebooting by a reset function, and the second wireless communication protocol stack is loaded and stored in the second storage unit which is a wireless power measuring device. According to claim 1,
Further comprising an input unit for outputting a mode change command according to the user's motion detection,
The control unit is
When the mode change command is output, rebooting is performed by a reset function to delete the first wireless communication protocol stack stored in the second storage unit, and loading the second wireless communication protocol stack to store the second storage unit , a wireless power meter. 4. The method of claim 2 or 3,
The control unit is
When the second frequency band is switched to the second frequency band and the time for operating in the second frequency band elapses a predetermined time, it is decided to temporarily switch to the first communication mode, and according to the determined mode temporarily switch, a communication mode A wireless power measuring device that temporarily switches According to claim 1,
The control unit is
A wireless power measuring apparatus that determines temporary switching to the second communication mode every predetermined time period, and temporarily switches the communication mode according to the determined mode temporary switching. 6. The method of claim 5,
The control unit is
When the mode change command or the mode temporary change is determined, a mode change message or a mode temporary change message is transmitted to the first external device or the second external device to which communication is terminated, and then the reboot is performed by a reset function, Wireless power metering device. storing the first wireless communication protocol stack and the second wireless communication protocol stack in a first storage unit;
loading a first wireless communication protocol stack into a second storage unit according to a first communication mode and operating in a first frequency band; and
When a mode change command is input, reboot is executed, the first communication mode is switched to the second communication mode, and a second wireless communication protocol stack is loaded into the second storage unit according to the second communication mode to a second frequency band. A method of operating a wireless power measuring device comprising the step of operating. 8. The method of claim 7,
The step of operating in the second frequency band,
Outputs a mode change command according to a user's menu or key operation, and deletes the first wireless communication protocol stack stored in the second storage unit by executing a reboot by a reset function in accordance with the mode change command,
Switching to the second communication mode and loading the second wireless communication protocol stack into the second storage unit to operate in the second frequency band, the operating method of the wireless power measuring device. 8. The method of claim 7,
The step of operating in the second frequency band,
Outputs a mode change command according to the user's motion detection, executes a reboot by a reset function according to the mode change command, and deletes the first wireless communication protocol stack stored in the second storage unit,
Switching to the second communication mode and loading the second wireless communication protocol stack into the second storage unit to operate in a second frequency band, a method of operating a wireless power measuring device. 10. The method according to any one of claims 8 to 9,
The step of operating in the second frequency band,
When the operating time in the first frequency band or the second frequency band elapses a predetermined time, the communication mode is temporarily switched according to a temporary mode switching command, the operating method of the wireless power measuring device. 8. The method of claim 7,
The step of operating in the second frequency band,
A method of operating a wireless power measuring device, which determines a temporary transition to the second communication mode at every predetermined time period, and temporarily switches the communication mode according to the determined mode temporary transition. 12. The method of claim 11,
The step of operating in the second frequency band,
When the mode change command or the mode temporary change is determined, a mode change message or a mode temporary change message is transmitted to the first external device or the second external device to which communication is terminated, and then the reboot is performed by a reset function, How to operate a wireless power measuring device.

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