KR102440310B1 - System comprising electronic devices for identifying cable - Google Patents

Abstract

A system according to various embodiments includes a first electronic device in contact with a first cable among a plurality of cables, and a second electronic device spaced apart from the plurality of cables and located within a specified distance from the plurality of cables. may include an electronic device, wherein the first electronic device applies a first signal to a first end of the first cable based on a first frequency identified through a frequency scan. The second electronic device may be configured to apply the first signal from among the plurality of cables using a magnetic induction method based on the first frequency through the antenna of the second electronic device. and identify a second end of the first cable, wherein the second end of the first cable may be opposite to the first end of the first cable.

Description

SYSTEM COMPRISING ELECTRONIC DEVICES FOR IDENTIFYING CABLE

Various embodiments described below relate to electronic devices for identifying a cable and a system including the electronic devices.

In order to identify both ends of a cable related to a user's intention among a plurality of cables, a digital multi meter is generally used. Such a digital multimeter may identify the cable using a signal composed of a direct current (DC) voltage.

The digital multimeter described above may identify a pair of ends of a cable related to a user's intention by using a signal composed of a DC voltage. Since such a digital multimeter requires contact with the cable for application of a signal composed of the DC voltage, as the distance between the ends of the cable increases, it may be difficult to identify a pair of ends of the cable. Therefore, independent of the distance between the ends of the cable, a method for identifying a pair of ends of a cable using a non-contact method may be required.

The technical problems to be achieved in this document are not limited to the technical problems mentioned above, and other technical problems not mentioned can be clearly understood by those of ordinary skill in the art to which the present invention belongs from the description below. There will be.

A system according to various embodiments includes a first electronic device in contact with a first cable among a plurality of cables, and a second electronic device spaced apart from the plurality of cables and located within a specified distance from the plurality of cables. may include an electronic device, wherein the first electronic device applies a first signal to a first end of the first cable based on a first frequency identified through a frequency scan. The second electronic device may be configured to apply the first signal from among the plurality of cables using a magnetic induction method based on the first frequency through the antenna of the second electronic device. and identify a second end of the first cable, wherein the second end of the first cable may be opposite to the first end of the first cable.

A first electronic device according to various embodiments identifies a first frequency by performing a frequency scan based on a communication circuit and an impedance of a first cable among a plurality of cables, and using the communication circuit to identify the first frequency and a control circuit configured to apply a first signal to a first end of a cable based on the first frequency, wherein the first signal is transmitted to a second electronic device spaced apart from the plurality of cables within a specified distance. The magnetic induction method may be used to identify a second end of the first cable among the plurality of cables based on the first frequency.

A second electronic device according to various embodiments may include an antenna configured to operate based on a magnetic induction scheme, a communication circuit operatively coupled to the antenna, and the antenna in a state spaced apart from a plurality of cables within a specified distance. may include a control circuit configured to identify an end of the first cable to which the first electronic device has applied a first signal from among the plurality of cables by using The end may be opposite to the end of the first cable to which the first electronic device applies the first signal based on the first frequency.

A system according to various embodiments includes an electronic device that applies a signal to one cable among a plurality of cables based on a frequency identified through a frequency scan, and an electronic device that applies the signal among the plurality of cables based on the frequency The distance of each end of the plurality of cables in a state of non-contact with one end of each of the plurality of cables independently from the distance of each end of the plurality of cables by including an electronic device for identifying the connected cables Independently from the plurality of cables, a cable intended by the user may be identified.

Effects obtainable in the present disclosure are not limited to the above-mentioned effects, and other effects not mentioned may be clearly understood by those of ordinary skill in the art to which the present disclosure belongs from the description below. will be.

1 illustrates an environment comprising a system in accordance with various embodiments;
2 illustrates a method of identifying a second end of a first cable paired with a first end of a first cable among a plurality of cables according to an embodiment;
3 is a diagram illustrating pairing with a first end of a second cable of a plurality of cables while identifying a second end of the first cable that is paired with a first end of a first cable of a plurality of cables according to one embodiment; A method of identifying the second end of the second cable is shown.
4 illustrates a method of transmitting and receiving reference information to identify a second end of a first cable paired with a first end of a first cable among a plurality of cables according to an embodiment;
5 is a diagram illustrating pairing with a first end of a second cable of a plurality of cables while identifying a second end of the first cable that is paired with a first end of a first cable of a plurality of cables according to one embodiment; A method of using reference information to identify a second end of the second cable is shown.
6 is a simplified block diagram of a first electronic device included in a system according to various embodiments of the present disclosure;
7 is a simplified block diagram of a second electronic device included in a system according to various embodiments of the present disclosure;

Terms used in the present disclosure are used only to describe specific embodiments, and may not be intended to limit the scope of other embodiments. The singular expression may include the plural expression unless the context clearly dictates otherwise. Terms used herein, including technical or scientific terms, may have the same meanings as commonly understood by one of ordinary skill in the art described in the present disclosure. Among the terms used in the present disclosure, terms defined in a general dictionary may be interpreted with the same or similar meaning as the meaning in the context of the related art, and unless explicitly defined in the present disclosure, ideal or excessively formal meanings is not interpreted as In some cases, even terms defined in the present disclosure cannot be construed to exclude embodiments of the present disclosure.

In various embodiments of the present disclosure described below, a hardware access method will be described as an example. However, since various embodiments of the present disclosure include technology using both hardware and software, various embodiments of the present disclosure do not exclude a software-based approach.

1 illustrates an environment comprising a system in accordance with various embodiments;

Referring to FIG. 1 , the environment 100 includes a first cable 101-1, a second cable 101-2, a third cable 101-3, a K-th cable 101-K, and a second It may include a plurality of cables 101-1 to 101-N including the N cable 101-N. Here, N is any natural number greater than 3, and K is any natural number greater than 3 and less than N.

Each of the plurality of cables 101-1 to 101-N may include a first end 103 and a second end 105 . Here, the second end 105 may be opposite to the first end 103 .

회 반복될 수 있다. The plurality of cables 101-1 to 101-N are intricately entangled, and the first end 103 of each of the plurality of cables 101-1 to 101-N and the plurality of cables 101-1 to 101-1 to 101-N) When each of the second ends 105 are not aligned with each other, a cable (eg, K-th cable 101-K) that requires specificity among the plurality of cables 101-1 to 101-N ), it can be difficult to identify a pair consisting of the first end 103 and the second end 105 . For example, when such identification is performed using a short test, the short test is performed on a cable (eg, a K-th cable) requiring specificity among the plurality of cables 101-1 to 101-N. To identify a pair consisting of a first end 103 and a second end 105 of (101-K)),

can be repeated several times.

In addition, the plurality of cables 101-1 to 101-N are intricately entangled, and the first end 103 of each of the plurality of cables 101-1 to 101-N and the plurality of cables 101 -1 to 101-N), the second end 105 of each is not aligned with each other, and the first end 103 and the second end 105 of each of the plurality of cables 101-1 to 101-N When the distance between them is relatively long, the short-circuit test may be practically impossible due to the length limitation of the wiring of the device for the short-circuit test. For example, among the plurality of cables 101-1 to 101-N, the first end ( Identifying 103 through the short test may be practically impossible unless the housing 107 including at least a portion of the plurality of cables 101-1 to 101-N is removed.

Accordingly, independently of the distance between the first end 103 and the second end 105 of each of the plurality of cables 101-1 to 101-N, the first end 103 and the second end 105 are A method of identifying a pair consisting of a first end 103 and a second end 105 of a cable that requires specificity among a plurality of cables 101-1 to 101-N without contacting all of them may be required. can

In a system according to various embodiments, a plurality of cables 101-1 to 101-N are intricately entangled, and a first end 103 of each of the plurality of cables 101-1 to 101-N and The second end 105 of each of the plurality of cables 101-1 to 101-N is not aligned with each other, and the first end 103 of each of the plurality of cables 101-1 to 101-N and In a state where the distance between the second ends 105 is relatively long, the second end ( 105) can be identified. In order to identify the second end 105, the system according to various embodiments performs a frequency scan on the first end 103 of the cable that requires a specific one of the plurality of cables 101-1 to 101-N. It may include an electronic device for applying a signal based on the frequency identified through , and an electronic device for identifying the applied signal based on the identified frequency.

2 illustrates a method of identifying a second end of a first cable paired with a first end of a first cable among a plurality of cables according to an embodiment; This method can be applied to the environment 100 shown in FIG. 1 .

Referring to FIG. 2 , the user identifies the second end 105 that is paired with the first end 103 of the second cable 101-2 among the plurality of cables 101-1 to 101-N. For this purpose, a system including the first electronic device 210 and the second electronic device 220 may be used. For example, the first electronic device 210 may apply the first signal to the first end 103 of the second cable 101 - 2 . The first signal may be applied based on a first frequency identified through a frequency scan of the first electronic device 210 . For example, the first frequency may be identified by performing the frequency scan based on the resonant frequency of the second cable 101 - 2 . In other words, the first frequency may be identified by performing the frequency scan based on the impedance of the second cable 101 - 2 . For example, the frequency scan may be performed within a frequency range of 1 (MHz) to 100 (MHz). Here, the frequency range from 1 (MHz) to 100 (MHz) is the distance between the first end 103 and the second end 105 of each of the plurality of cables 101-1 to 101-N and the plurality It may be a range specified in consideration of the impedance of each of the cables 101-1 to 101-N. In other words, the impedance between each of the plurality of cables 101-1 to 101-N and the first end 103 and the second end 105 of each of the plurality of cables 101-1 to 101-N It should be noted that, depending on the distance, the frequency range may change.

Meanwhile, the first signal is applied from the first electronic device 210 to the second end 105 of the second cable 101-2 through the first end 103 of the second cable 101-2. can be

The second electronic device 220 may be spaced apart from the second end 105 of each of the plurality of cables 101-1 to 101-N within a specified distance. For example, the second electronic device 220 may be located within the specified distance in a non-contact manner to the second end 105 of each of the plurality of cables 101-1 to 101-N. The second electronic device 220 includes the first end 103 of the second cable 101-2 in a state in which it is not in contact with the second end 105 of each of the plurality of cables 101-1 to 101-N. An antenna may be included to identify the second end 105 to be paired with. For example, in a state in which the antenna is not in contact with the second end 105 of each of the plurality of cables 101-1 to 101-N, in order to identify the applied first signal, a magnetic induction method is used. It can work based on For example, the antenna may be a low-frequency broadband antenna.

The second electronic device 220 connects the plurality of cables 101 - 1 to 101 by a user who wants to identify the second end 105 that is paired with the first end 103 of the second cable 101 - 2 . -N) Can be moved around. During the movement 225 of the second electronic device 220 , the second electronic device 220 may monitor whether the first signal is received based on the first frequency. In response to receiving the first signal based on the first frequency, the second electronic device 220 includes a second end ( ) paired with the first end 103 of the second cable 101-2. 105) to guide or notify (notify). For example, in response to receiving the first signal based on the first frequency, the second electronic device 220 is paired with the first end 103 of the second cable 101-2. A sound signal may be output to guide the second stage 105 . For another example, in response to receiving the first signal based on the first frequency, the second electronic device 220 establishes a pair with the first end 103 of the second cable 101-2. In order to guide the forming second end 105, visual information is provided to indicate that the second end 105 paired with the first end 103 of the second cable 101-2 is identified. 2 It may be displayed through the display of the electronic device 220 . As another example, in response to receiving the first signal based on the first frequency, the second electronic device 220 is paired with the first end 103 of the second cable 101-2. In order to guide the second end 105 constituting the , haptics may be provided. As another example, in response to receiving the first signal based on the first frequency, the second electronic device 220 is paired with the first end 103 of the second cable 101-2. In order to guide the second end 105 forming the server, smartphone, tablet PC, etc.). However, it is not limited thereto.

As described above, in the system according to an embodiment, a plurality of cables 101-1 to 101-N are intricately entangled, and a first end of each of the plurality of cables 101-1 to 101-N 103 and the second end 105 of each of the plurality of cables 101-1 to 101-N are not aligned with each other, and the first end of each of the plurality of cables 101-1 to 101-N In a state where the distance between the 103 and the second end 105 is relatively long, paired with the first end 103 of the cable requiring a specificity among the plurality of cables 101-1 to 101-N. In order to identify the second stage 105 , the first electronic device 210 and the second electronic device 220 may be included.

3 is a diagram illustrating pairing with a first end of a second cable of a plurality of cables while identifying a second end of the first cable that is paired with a first end of a first cable of a plurality of cables according to one embodiment; A method of identifying the second end of the second cable is shown. This method can be applied to the environment 100 shown in FIG. 1 .

Referring to FIG. 3 , the user identifies the second end 105 paired with the first end 103 of the third cable 101-3 among the plurality of cables 101-1 to 101-N, and To identify the second end 105 paired with the first end 103 of the N-th cable 101-N among the plurality of cables 101-1 to 101-N, the first electronic device 310 ) and a system including the second electronic device 320 may be used. In other words, the user can use the third cable 101-3 and the first end 103 of the N-th cable 101-N among the plurality of cables 101-1 to 101-N to be paired with the first end 103, respectively. In order to identify the two stages 105 at once, a system including the first electronic device 310 and the second electronic device 320 may be used. For example, the first electronic device 310 may apply a first signal to the first end 103 of the third cable 101-3. The first electronic device 310 is connected to the first end 103 of the N-th cable 101-N while the first signal is applied to the first end 103 of the third cable 101-3. A second signal may be applied. For example, the first signal is applied based on a first frequency identified through a frequency scan of the first electronic device 310 and the second signal is applied based on a frequency scan of the first electronic device 310 . It may be applied based on the second frequency. For example, the frequency scan for identifying the first frequency may be distinct from the frequency scan for identifying the second frequency. For example, the first frequency is identified by performing the frequency scan based on the resonant frequency of the third cable 101-3, and the second frequency is the resonant frequency of the N-th cable 101-N. Based on the frequency scan, it can be identified. In other words, the first frequency is identified by performing the frequency scan based on the impedance of the third cable 101-3, and the second frequency is the second frequency based on the impedance of the N-th cable 101-N. It can be identified by performing a frequency scan. For example, each of the frequency scans for identifying the first frequency and the second frequency may be performed within a frequency range of 1 (MHz) to 100 (MHz). Here, the frequency range from 1 (MHz) to 100 (MHz) is the distance between the first end 103 and the second end 105 of each of the plurality of cables 101-1 to 101-N and the plurality In consideration of the impedance of each of the cables 101-1 to 101-N, the range may be specified. In other words, the impedance between each of the plurality of cables 101-1 to 101-N and the first end 103 and the second end 105 of each of the plurality of cables 101-1 to 101-N It should be noted that, depending on the distance, the frequency range may change.

Meanwhile, the first signal is applied from the first electronic device 310 to the second end 105 of the third cable 101-3 through the first end 103 of the third cable 101-3. and the second signal is transmitted from the first electronic device 310 to the Nth cable 101-N through the first end 103 of the Nth cable 101-N while the first signal is applied. may be applied to the second end 105 of

The second electronic device 320 may be spaced apart from the second end 105 of each of the plurality of cables 101-1 to 101-N within a specified distance. For example, the second electronic device 320 may be located within the specified distance without contacting the second end 105 of each of the plurality of cables 101-1 to 101-N. The second electronic device 320 has a first end 103 of the third cable 101-3 in a state in which it is not in contact with the second end 105 of each of the plurality of cables 101-1 to 101-N. ) to identify the second end 105 that is paired with the second end 105 and the second end 105 that is paired with the first end 103 of the N-th cable 101-N. have. For example, in a state in which the antenna is not in contact with the second end 105 of each of the plurality of cables 101-1 to 101-N, the antenna identifies the applied first signal and the applied second signal To identify , it may operate based on a magnetic induction scheme. For example, the antenna may be a low-frequency broadband antenna.

The second electronic device 320 identifies the second end 105 paired with the first end 103 of the third cable 101-3 and the first end 103 of the N-th cable 101-N. ) may be moved around the plurality of cables 101-1 to 101-N by a user who wants to identify the second end 105 paired with the second end 105 . During the movement 325 of the second electronic device 320, the second electronic device 320 may monitor whether the first signal and the second signal are received based on the first frequency and the second frequency. can The second electronic device 320, in response to receiving the first signal based on the first frequency, the second end 105 paired with the first end 103 of the third cable 101-3 ), a second end paired with the first end 103 of the Nth cable 101-3 in response to receiving the second signal based on the second frequency and executing an operation for guiding or informing An operation for guiding or informing the 105 may be executed.

For example, in response to receiving the first signal based on the first frequency, the second electronic device 320 may include a first end 103 paired with the first end 103 of the third cable 101-3. output a first sound signal to guide the second end 105, and in response to receiving the second signal based on the second frequency, the first end 103 of the Nth cable 101-N; A second sound signal may be output to guide the paired second stage 105 . The first sound signal and the second sound signal are a second end 105 paired with the first end 103 of the third cable 101-3 and the first end of the N-th cable 101-N. In order to distinguish the stage 103 and the paired second stage 105 from each other, they may be distinguished from each other. For example, the first sound signal may be output according to a first pattern, and the second sound signal may be output according to a second pattern distinct from the first pattern. As another example, the first sound signal may have a first wavelength and the second sound signal may have a second wavelength that is distinct from the first wavelength. However, it is not limited thereto.

For another example, the second electronic device 320 may pair with the first end 103 of the third cable 101-3 in response to receiving the first signal based on the first frequency. first visual information to indicate that the second end 105 paired with the first end 103 of the third cable 101-3 is identified to guide the second end 105; The second display through the display of the electronic device 320, and in response to receiving the second signal based on the second frequency, the first end 103 of the N-th cable 101-N paired with the second In order to guide the second end 105, the second electronic device ( 320) can be displayed through the display. The first visual information and the second visual information are a second end 105 paired with the first end 103 of the third cable 101-3 and the first end of the N-th cable 101-N. In order to distinguish the stage 103 and the paired second stage 105 from each other, they may be distinguished from each other. For example, the first visual information may be displayed in a first color, and the second visual information may be displayed in a second color differentiated from the first color. For another example, the first visual information includes text for indicating that the second end 105 is paired with the first end 103 of the third cable 101-3, and the second visual information includes: It may include other text to indicate that it is the second end 105 paired with the first end 103 of the Nth cable 101-N. As another example, the first visual information may have a first shape and the second visual information may have a second shape distinct from the first shape. However, it is not limited thereto.

For another example, the second electronic device 320 may pair with the first end 103 of the third cable 101-3 in response to receiving the first signal based on the first frequency. providing a first haptic to guide the second end 105 forming the first end 103 of the Nth cable 101-N in response to receiving the second signal based on the second frequency A second haptic may be provided to guide the second end 105 that is paired with it. The first haptic and the second haptic are a second end 105 paired with the first end 103 of the third cable 101-3 and a first end ( 103) and the paired second end 105 may be distinguished from each other in order to distinguish them from each other. For example, the first haptic may be provided as a first pattern, and the second haptic may be provided as a second pattern distinct from the first pattern. As another example, the first haptic may be provided with a first intensity, and the second haptic may be provided with a second intensity different from the first intensity. However, it is not limited thereto.

For another example, the second electronic device 320 is configured to receive the first signal based on the first frequency and in response to receiving the second signal based on the second frequency, the third cable Guide the second end 105 paired with the first end 103 of (101-3) and the second end 105 paired with the first end 103 of the N-th cable 101-N information for guiding the user may be transmitted to another electronic device (eg, a server, a smartphone, a tablet PC, etc.). However, it is not limited thereto.

As described above, in the system according to an embodiment, by configuring multi-channels using the first electronic device 310 and the second electronic device 320, a plurality of cables 101- 1 to 101-N), the second ends 105 paired with the first ends 103 of two or more cables may be identified or searched for, respectively.

4 illustrates a method of transmitting and receiving reference information to identify a second end of a first cable paired with a first end of a first cable among a plurality of cables according to an embodiment; This method can be applied to the environment 100 shown in FIG. 1 .

Referring to FIG. 4 , the user identifies the second end 105 that is paired with the first end 103 of the first cable 101-1 among the plurality of cables 101-1 to 101-N. For this purpose, a system including the first electronic device 410 and the second electronic device 420 may be used. For example, the first electronic device 410 may apply a first signal to the first end 103 of the first cable 101-1. The first signal may be applied based on a first frequency identified through a frequency scan of the first electronic device 410 . For example, the first frequency may be identified by performing the frequency scan based on the resonant frequency of the first cable 101-1. In other words, the first frequency may be identified by performing the frequency scan based on the impedance of the first cable 101-1. For example, the frequency scan may be performed within a frequency range of 1 (MHz) to 100 (MHz). Here, the frequency range from 1 (MHz) to 100 (MHz) is the distance between the first end 103 and the second end 105 of each of the plurality of cables 101-1 to 101-N and the plurality It may be a range specified in consideration of the impedance of each of the cables 101-1 to 101-N. In other words, the impedance between each of the plurality of cables 101-1 to 101-N and the first end 103 and the second end 105 of each of the plurality of cables 101-1 to 101-N It should be noted that, depending on the distance, the frequency range may change.

Also, the first electronic device 410 may transmit the reference information 415 to the second electronic device 420 through a wireless link at a transmission timing related to the timing of applying the first signal. For example, the reference information 415 is transmitted from the first electronic device 410 over the wireless link that is distinct from the link used to carry the first signal, and is configured to receive the first signal. may be received by the second electronic device 420 through the wireless link, which is different from the link used by the second electronic device 420 for this purpose. For example, the radio link may be formed on an industry-science-medical (ISM) band. However, it is not limited thereto.

Meanwhile, in an embodiment, the transmission timing at which the reference information 415 is transmitted may be within a specified time from the timing of applying the first signal. For example, the reference information 415 may be transmitted before a specified time from the timing of applying the first signal. For another example, the reference information 415 may be transmitted after a specified time from the timing of applying the first signal. As another example, the reference information 415 may be transmitted at a transmission timing corresponding to a timing of applying the first signal. However, it is not limited thereto.

Also, according to an embodiment, the reference information 415 may include various types of data for the second electronic device 420 to receive and identify the first signal. For example, the reference information 415 may include data about the frequency scan for identifying the first frequency. For example, the reference information 415 may include data on a channel for the first signal. For example, the reference information 415 may include data on a timing of applying the first signal. For example, when the first signal is generated based on a designated modulation scheme, the reference information 415 may include data for the designated modulation scheme. However, it is not limited thereto.

Meanwhile, the first signal is applied from the first electronic device 410 to the second end 105 of the first cable 101-1 through the first end 103 of the first cable 101-1. can be

The second electronic device 420 may receive the first signal from the reference information 415 and obtain data for identification based on the reception of the reference information 415 .

The second electronic device 420 acquiring the reference information 415 may be spaced apart from the second end 105 of each of the plurality of cables 101-1 to 101-N within a specified distance. For example, the second electronic device 420 acquiring the reference information 415 may contact the second end 105 of each of the plurality of cables 101-1 to 101-N in a non-contact manner. It can be located within a specified distance. The second electronic device 420, which has obtained the reference information 415, is in a state in which the first cable 101-1 is not in contact with the second end 105 of each of the plurality of cables 101-1 to 101-N. To identify the second end 105 paired with the first end 103 of ), an antenna may be included. For example, in a state in which the antenna is not in contact with the second end 105 of each of the plurality of cables 101-1 to 101-N, in order to identify the applied first signal, a magnetic induction method is used. It can work based on For example, the antenna may be a low-frequency broadband antenna.

The second electronic device 420 is a user who wants to identify the second end 105 that is paired with the first end 103 of the first cable 101-1 in a state in which the reference information 415 is obtained. may be moved around the plurality of cables 101-1 to 101-N. During the movement 425 of the second electronic device 420 , the second electronic device 420 may monitor whether a signal received through the antenna and the reference information 415 correspond to each other. The second electronic device 420 is paired with the first end 103 of the first cable 101-1 based on monitoring that the signal received through the antenna and the reference information 415 correspond to each other. An operation for guiding or notifying the second stage 105 constituting the . In other words, in response to receiving the first signal based on the reference information 415 , the second electronic device 420 is configured to pair with the first end 103 of the first cable 101-1. An operation for guiding or notifying the second stage 105 may be executed. For example, in response to receiving the first signal based on the reference information 415 , the second electronic device 420 establishes a pair with the first end 103 of the first cable 101-1. A sound signal may be output to guide the second stage 105 forming. As another example, in response to receiving the first signal based on the reference information 415 , the second electronic device 420 pairs with the first end 103 of the first cable 101-1 In order to guide the second end 105 forming the It may be displayed through the display of the second electronic device 420 . As another example, in response to receiving the first signal based on the reference information 415 , the second electronic device 420 connects to the first end 103 of the first cable 101-1 and A haptic may be provided to guide the paired second stage 105 . As another example, in response to receiving the first signal based on the reference information 415 , the second electronic device 420 connects to the first end 103 of the first cable 101-1 and In order to guide the paired second end 105, information for specifying the second end 105 that is paired with the first end 103 of the first cable 101-1 is transmitted to another electronic device (eg, : Server, smartphone, tablet PC, etc.) can be transmitted. However, it is not limited thereto.

As described above, in the system according to an embodiment, using the first electronic device 410 that transmits the reference information 415 and the second electronic device 420 that receives the reference information 415 , the first The discrimination power of the first signal applied from the electronic device 410 may be improved.

5 is a diagram illustrating pairing with a first end of a second cable of a plurality of cables while identifying a second end of the first cable that is paired with a first end of a first cable of a plurality of cables according to one embodiment; A method of using reference information to identify a second end of the second cable is shown. This method can be applied to the environment 100 shown in FIG. 1 . This method can be applied to the environment 100 shown in FIG. 1 .

Referring to FIG. 5 , the user identifies the second end 105 paired with the first end 103 of the K-th cable 101-K among the plurality of cables 101-1 to 101-N, and To identify the second end 105 paired with the first end 103 of the second cable 101-2 among the plurality of cables 101-1 to 101-N, the first electronic device 510 ) and a system including the second electronic device 520 may be used. In other words, the user is the first end 103 of each pair of the K-th cable 101-K and the second cable 101-2 among the plurality of cables 101-1 to 101-N. In order to identify the two stages 105 at once, a system including the first electronic device 510 and the second electronic device 520 may be used. For example, the first electronic device 510 may apply the first signal to the first end 103 of the K-th cable 101 -K. The first electronic device 510 is connected to the first end 103 of the second cable 101-2 while the first signal is applied to the first end 103 of the K-th cable 101-K. A second signal may be applied. For example, the first signal is applied based on a first frequency identified through a frequency scan of the first electronic device 510 and the second signal is applied based on a frequency scan of the first electronic device 510 . It may be applied based on the second frequency. For example, the frequency scan for identifying the first frequency may be distinct from the frequency scan for identifying the second frequency. For example, the first frequency is identified by performing the frequency scan based on the resonant frequency of the K-th cable 101-K, and the second frequency is the resonant frequency of the second cable 101-2. Based on the frequency scan, it can be identified. In other words, the first frequency is identified by performing the frequency scan based on the impedance of the K-th cable 101-K, and the second frequency is the second frequency based on the impedance of the second cable 101-2. It can be identified by performing a frequency scan. For example, each of the frequency scans for identifying the first frequency and the second frequency may be performed within a frequency range of 1 (MHz) to 100 (MHz). Here, the frequency range from 1 (MHz) to 100 (MHz) is the distance between the first end 103 and the second end 105 of each of the plurality of cables 101-1 to 101-N and the plurality In consideration of the impedance of each of the cables 101-1 to 101-N, the range may be specified. In other words, the impedance between each of the plurality of cables 101-1 to 101-N and the first end 103 and the second end 105 of each of the plurality of cables 101-1 to 101-N It should be noted that, depending on the distance, the frequency range may change.

In addition, the first electronic device 510 transmits the reference information 515 to the second electronic device 520 through a wireless link at a transmission timing related to the timing of applying the first signal and the second signal, respectively. can send For example, the reference information 515 is transmitted from the first electronic device 510 through the wireless link that is distinct from links used to carry the first signal and the second signal, and the first signal and the second electronic device 520 through the wireless link that is distinct from the link used by the second electronic device 520 to receive the second signal. For example, the radio link may be formed on an ISM band. However, it is not limited thereto.

Meanwhile, in an embodiment, the transmission timing at which the reference information 515 is transmitted may be within a specified time from the timing of applying the first signal and the second signal, respectively. For example, the reference information 515 may be transmitted before a predetermined time from the timing of applying the first signal and the second signal, respectively. For another example, the reference information 515 may be transmitted after a specified time from the timing at which the first signal and the second signal are respectively applied. As another example, the reference information 515 may be transmitted at a transmission timing corresponding to a timing at which the first signal and the second signal are respectively applied. However, it is not limited thereto.

Also, according to an embodiment, the reference information 515 may include various types of data for the second electronic device 520 to receive and identify the first signal and the second signal. For example, the reference information 515 may include data for each of the frequency scans for identifying the first frequency and the second frequency. For example, the reference information 515 may include data on channels for the first signal and the second signal. For example, the reference information 515 may include data on timings of applying the first signal and the second signal, respectively. For example, when each of the first signal and the second signal is generated based on a designated modulation scheme, the reference information 515 may include data for the designated modulation scheme. However, it is not limited thereto.

Meanwhile, the first signal is applied from the first electronic device 510 to the second end 105 of the K-th cable 101-K through the first end 103 of the K-th cable 101-K. and the second signal is transmitted from the first electronic device 510 to the second cable 101-2 through the first end 103 of the second cable 101-2 while the first signal is applied. may be applied to the second end 105 of

Based on receiving the reference information 515 , the second electronic device 520 may receive the first signal and the second signal from the reference information 515 and obtain data for identifying the first signal and the second signal.

The second electronic device 520 acquiring the reference information 515 may be spaced apart from the second end 105 of each of the plurality of cables 101-1 to 101-N within a specified distance. For example, the second electronic device 520 that has obtained the reference information 515 may be located within the specified distance without contacting the second end 105 of each of the plurality of cables 101-1 to 101-N. can The second electronic device 520, in a state in which the second electronic device 520 is not in contact with the second end 105 of each of the plurality of cables 101-1 to 101-N, the first end 103 of the K-th cable 101-K ) to identify the second end 105 that is paired with, and the second end 105 that is paired with the first end 103 of the second cable 101-2, an antenna may be included. have. For example, in a state in which the antenna is not in contact with the second end 105 of each of the plurality of cables 101-1 to 101-N, the antenna identifies the applied first signal and the applied second signal To identify , it may operate based on a magnetic induction scheme. For example, the antenna may be a low-frequency broadband antenna.

The second electronic device 520 identifies the second end 105 that is paired with the first end 103 of the K-th cable 101-K, in a state in which the reference information 515 is obtained, and the second It can be moved around the plurality of cables 101-1 to 101-N by a user who wants to identify the second end 105 that is paired with the first end 103 of the cable 101-2. During the movement 525 of the second electronic device 520 , the second electronic device 520 may monitor whether a signal received through the antenna and the reference information 515 correspond to each other. The second electronic device 520 pairs with the first end 103 of the K-th cable 101 -K based on monitoring that the signal received through the antenna and the reference information 515 correspond to each other. Executing an operation for guiding or informing of the second end 105 constituting the can In other words, in response to receiving the first signal based on the reference information 515 , the second electronic device 520 performs a first pairing with the first end 103 of the K-th cable 101 -K. pair with the first end 103 of the second cable 101-2 in response to executing an operation for guiding or announcing the second end 105 and receiving the second signal based on the reference information 515 An operation for guiding or notifying the second stage 105 forming the .

For example, the second electronic device 520 may be configured to pair with the first end 103 of the Kth cable 101 -K in response to receiving the first signal based on the reference information 515 . output a first sound signal to guide the second end 105 , and in response to receiving the second signal based on the reference information 515 , the first end 103 of the second cable 101-2 ) and may output a second sound signal to guide the paired second stage 105 . The first sound signal and the second sound signal include a second end 105 paired with the first end 103 of the K-th cable 101-K and a first end of the second cable 101-2. In order to distinguish the stage 103 and the paired second stage 105 from each other, they may be distinguished from each other. For example, the first sound signal may be output according to a first pattern, and the second sound signal may be output according to a second pattern distinct from the first pattern. As another example, the first sound signal may have a first wavelength and the second sound signal may have a second wavelength that is distinct from the first wavelength. However, it is not limited thereto.

For another example, the second electronic device 520 may pair with the first end 103 of the K-th cable 101-K in response to receiving the first signal based on the reference information 515 . First visual information for indicating that the second end 105 paired with the first end 103 of the K-th cable 101-K is identified to guide the second end 105 forming the A pair with the first end 103 of the second cable 101-2 is displayed through the display of the second electronic device 520 and in response to receiving the second signal based on the reference information 515 The second electronic message transmits second visual information for indicating that the second end 105 paired with the first end 103 of the second cable 101-2 is identified to guide the second end 105 forming the second electronic signal. It may be displayed through the display of the device 520 . The first visual information and the second visual information are a second end 105 paired with the first end 103 of the K-th cable 101-K and the first end of the second cable 101-2 In order to distinguish the stage 103 and the paired second stage 105 from each other, they may be distinguished from each other. For example, the first visual information may be displayed in a first color, and the second visual information may be displayed in a second color differentiated from the first color. For another example, the first visual information includes text for indicating that the second end 105 is paired with the first end 103 of the K-th cable 101-K, and the second visual information includes: It may include other text to indicate that it is the second end 105 paired with the first end 103 of the second cable 101-2. As another example, the first visual information may have a first shape and the second visual information may have a second shape distinct from the first shape. However, it is not limited thereto.

As another example, the second electronic device 520 pairs with the first end 103 of the Kth cable 101 -K in response to receiving the first signal based on the reference information 515 . The first end 103 of the second cable 101-2 is provided in response to providing a first haptic to guide the second end 105 forming the ) and may provide a second haptic to guide the second end 105 that is paired. The first haptic and the second haptic are a second end 105 paired with the first end 103 of the K-th cable 101-K and a first end ( 103) and the paired second end 105 may be distinguished from each other in order to distinguish them from each other. For example, the first haptic may be provided as a first pattern, and the second haptic may be provided as a second pattern distinct from the first pattern. As another example, the first haptic may be provided with a first intensity, and the second haptic may be provided with a second intensity different from the first intensity. However, it is not limited thereto.

As another example, the second electronic device 520, in response to receiving the first signal based on the reference information 515 and receiving the second signal based on the reference information 515, Guide the second end 105 that is paired with the first end 103 of the K cable 101-K and the second end that is paired with the first end 103 of the second cable 101-2 ( 105) may be transmitted to another electronic device (eg, a server, a smartphone, a tablet PC, etc.). However, it is not limited thereto.

As described above, in the system according to an embodiment, the first electronic device 510 for transmitting the reference information 515 and the second electronic device 520 for receiving the reference information 515 are used. Even when a plurality of signals including the first signal and the second signal are applied from the electronic device 510 based on multi-channels, the plurality of signals including the first signal and the second signal are transmitted to a second electronic device. The ability of the device 520 to discriminate may be improved.

6 is a simplified block diagram of a first electronic device included in a system according to various embodiments of the present disclosure; Such a block diagram may be included in each of the first electronic device 210 , the first electronic device 310 , the first electronic device 410 , and the first electronic device 510 illustrated in FIGS. 2 to 5 , respectively. .

Referring to FIG. 6 , the first electronic device 600 may include a control circuit 610 , a first communication circuit 620 , and a second communication circuit 630 . In various embodiments, the control circuit 610 may be operatively coupled to each of the first communication circuit 620 and the second communication circuit 630 . In various embodiments, the control circuit 610 may be used to control the first communication circuit 620 and the second communication circuit 630 using the combination.

In various embodiments, the control circuit 610 is applied to the first end 103 of at least some of the plurality of cables 101-1 to 101-N, using the first communication circuit 620 . A signal (eg, the first signal and/or the second signal in the description of FIGS. 2 to 5 ) may be acquired and transmitted. In other words, the first communication circuit 620 transmits the signal to the wire between the first electronic device 600 and the plurality of cables 101-1 to 101-N based on the control of the control circuit 610 . It can be applied to the first stage 103 through the connection.

In various embodiments, the control circuit 610 may include a second electronic device (eg, the second electronic device 220 , the second electronic device 320 , and the second electronic device 420 of FIGS. 2 to 5 ). ), and the second electronic device 520 ) refer to the second electronic device using the second communication circuit 630 to receive and identify the signal applied through the first communication circuit 620 . information (eg, reference information 415 and reference information 515 of the description of FIGS. 4 and 5 ). In other words, the second communication circuit 630 may be configured to transmit information based on the control of the control circuit 610 . , the reference information may be transmitted through a wireless connection between the first electronic device 600 and the second electronic device.

In other words, in various embodiments, the control circuit 610 performs a frequency scan to the first end of the first cable while the first electronic device 600 is in contact with the first cable among the plurality of cables. The first signal may be applied using the first communication circuit 620 based on the first frequency identified through the . In various embodiments, the control circuit 610 may identify the first frequency through the frequency scan based on a resonant frequency of the first cable (or an impedance of the first cable).

In various embodiments, the control circuit 610 identifies a first end of a second cable of the plurality of cables through a frequency scan while applying the signal to the first end of the first cable. and based on a second frequency that is distinguished from the first frequency, a second signal may be applied using the first communication circuit 620 .

In various embodiments, the control circuit 610 uses the second communication circuit 630 to configure the second electronic device (eg, the second electronic device 220 in the description of FIGS. 2 to 5 , the second electronic device). Reference information for at least one of the first signal or the second signal to the second electronic device 320 , the second electronic device 420 , and the second electronic device 520 (eg, refer to the description of FIGS. 4 and 5 ) information 415 and reference information 515). In various embodiments, the reference information may include data for the frequency scan, data for at least one channel for at least one of the first signal or the second signal, or the first signal or the second signal. It may include at least one of data for identification of at least one of them.

As described above, the first electronic device 600 according to various embodiments transmits a signal to a first end of at least one cable among a plurality of cables by using the first communication circuit 620 , 2 The electronic device may be used to assist in identifying or searching for a second end that is paired with the first end of the at least one cable.

7 is a simplified block diagram of a second electronic device included in a system according to various embodiments of the present disclosure; Such a block diagram may be included in each of the second electronic device 220 , the second electronic device 320 , the second electronic device 420 , and the second electronic device 520 illustrated in FIGS. 2 to 5 , respectively. .

Referring to FIG. 7 , the second electronic device 700 may include a control circuit 710 , a first communication circuit 720 , an antenna 725 , and a second communication circuit 730 . In various embodiments, the control circuitry 710 may be operatively coupled with each of the first communication circuitry 720 and the second communication circuitry 730 . In various embodiments, the control circuit 710 may be used to control the first communication circuit 720 and the second communication circuit 730 using the combination.

In various embodiments, the control circuit 710 uses the first communication circuit 720 via the antenna 725 , so that the second electronic device 700 connects the plurality of cables 101-1 through 101-N. ) of at least a portion of the second end 105 and the first electronic device (eg, the first electronic device 210 , the first electronic device 310 , and the first electronic device 410 ) , the first electronic device 510 , and a signal applied by the first electronic device 600 may be received. For example, the first communication circuit 720 may be configured as a wireless communication circuit, unlike the first communication circuit 620 included in the first electronic device 600 .

In various embodiments, the control circuit 710 may receive reference information (eg, the reference information illustrated through the description of FIG. 6 ) using the second communication circuit 730 . The control circuit 710 may monitor whether the signal is applied from the first electronic device by comparing the reference information with the signal received through the first communication circuit 720 .

In various embodiments, the control circuit 710, based on monitoring that the signal is applied from the first electronic device, selects a second end paired with the first end of the cable in contact with the first electronic device. Actions to guide identification may be performed. For example, the operations may be operations exemplified through the description of FIGS. 2 to 5 .

In other words, in various embodiments, the control circuit 710 is configured to operate via the antenna 725 while the second electronic device 700 is spaced from the plurality of cables and located within a specified distance from the plurality of cables. , Identifies a second end of the first cable to which the first signal is applied from among the plurality of cables using a magnetic induction method based on a first frequency identified through a frequency scan of the first electronic device can do.

In various embodiments, the control circuit 710 is configured to use the magnetic induction method based on the second frequency identified through the frequency scan of the first electronic device through the antenna 725 , A second end of the second cable to which the second signal is applied may be identified among the cables.

In various embodiments, the control circuit 710 receives a reference signal from the first electronic device through a second communication circuit 730 and the first frequency identified through the frequency scan from the reference information (and/or the second frequency), and based on the recognition, the first cable (and/or the second signal) to which the first signal (and/or the second signal) is applied among the plurality of cables The second end of the second cable) can be identified.

As described above, the second electronic device 700 according to various embodiments is connected to the first electronic device in a non-contact state with at least one cable among the plurality of cables using the first communication circuit 720 . The second end paired with the first end of the cable to which the signal is applied may be identified.

Methods according to the embodiments described in the claims or specifications of the present disclosure may be implemented in the form of hardware, software, or a combination of hardware and software.

When implemented in software, a computer-readable storage medium storing one or more programs (software modules) may be provided. One or more programs stored in the computer-readable storage medium are configured to be executable by one or more processors in an electronic device (device). One or more programs include instructions for causing an electronic device to execute methods according to embodiments described in a claim or specification of the present disclosure.

Such programs (software modules, software) include random access memory, non-volatile memory including flash memory, read only memory (ROM), electrically erasable programmable ROM (EEPROM: Electrically Erasable Programmable Read Only Memory), magnetic disc storage device, Compact Disc-ROM (CD-ROM), Digital Versatile Discs (DVDs), or any other form of It may be stored in an optical storage device or a magnetic cassette. Alternatively, it may be stored in a memory composed of a combination of some or all thereof. In addition, each configuration memory may be included in plurality.

In addition, the program is transmitted through a communication network consisting of a communication network such as the Internet, Intranet, Local Area Network (LAN), Wide LAN (WLAN), or Storage Area Network (SAN), or a combination thereof. It may be stored on an attachable storage device that can be accessed. Such a storage device may be connected to a device implementing an embodiment of the present disclosure through an external port. In addition, a separate storage device on the communication network may be connected to the device implementing the embodiment of the present disclosure.

In the specific embodiments of the present disclosure described above, components included in the disclosure are expressed in the singular or plural according to the specific embodiments presented. However, the singular or plural expression is appropriately selected for the context presented for convenience of description, and the present disclosure is not limited to the singular or plural component, and even if the component is expressed in plural, it is composed of a singular or singular. Even an expressed component may be composed of a plurality of components.

Meanwhile, although specific embodiments have been described in the detailed description of the present disclosure, various modifications are possible without departing from the scope of the present disclosure. Therefore, the scope of the present disclosure should not be limited to the described embodiments and should be defined by the claims described below as well as the claims and equivalents.

Claims (5)

In the system,
a first electronic device in contact with a first cable among a plurality of cables; and
a second electronic device spaced apart from the plurality of cables and located within a specified distance from the plurality of cables;
The second electronic device,
Information indicating a time period in which the first electronic device transmits a first signal, which is a wired signal, to the first end of the first cable through a wireless link established between the first electronic device and the second electronic device to obtain;
receiving a second signal that is a radio signal radiated from one end adjacent to the second electronic device among a plurality of ends of the plurality of cables within the time interval;
based on the reception, and based on the obtained information, identify whether the second signal is induced by the first signal applied to the first end; and
information indicating that the one end adjacent to the second electronic device is the second end of the first cable paired with the first end based on identification that the second signal is induced by the first signal output, the system.
According to claim 1, wherein the first electronic device,
a third signal having a different frequency than the first signal to a first end of a second cable of a plurality of cables different from the first cable while transmitting a first signal to the first end of the first cable to send,
using the radio link to transmit information indicating a time interval for transmitting the first signal and a time interval for transmitting the third signal;
The second electronic device,
After outputting information indicating that one end adjacent to the second electronic device among the plurality of ends of the plurality of cables is the second end of the first cable, the second electronic device transmits the information to the first end of the plurality of cables After moving toward the other end of the other cable different from the second end of the cable, based on a fourth signal that is a radio signal radiated from the other end, determining whether the other cable corresponds to the second cable,
system.
3. The method of claim 2
The information is
It includes information about a frequency corresponding to a frequency corresponding to the first signal and a frequency corresponding to the third signal,
The frequency is
It is determined according to the impedance and length of a cable to which the first electronic device is contacted among the plurality of cables,
system.
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