KR101021676B1 - Apparatus and method for testing cable - Google Patents

Abstract

The present invention relates to a cable inspection device. More particularly, the present invention relates to a cable checking device that enables an inspector to connect and operate a cable to automatically check the cable connection. According to the present invention, a cable connector unit to which a cable to be checked is connected, generates a check signal for checking the cable, transmits the check signal to the cable connector unit, and sends a response signal to the check signal transmitted from the cable from the cable connector side. A cable checker for checking whether there is an abnormal cable at all times by comparing the check signal with the response signal after receiving the signal, and a signal for transmitting the response signal to the outside or receiving the response signal transmitted from the outside by a wireless communication method. It characterized in that it comprises a transceiver. According to the present invention, the input and output of the check signal for checking the cable and the response signal for the check signal are buffered, and thus can be miniaturized to have portability, and can be easily expanded according to the cable to be checked.

Cable, check, buffer, portable

Description

Apparatus and method for testing cable

The present invention relates to a cable inspection apparatus and method. More particularly, the present invention relates to a cable inspection apparatus and method that enables an inspector to connect and operate a cable to automatically check the connection state of the cable.

In general, the cable is mainly used for the connection between the various devices, and because of the nature of the cable is frequently installed or detached, the probability of failure of the cable during the mounting or detachment process, so that the higher.

Therefore, by periodically checking the connection state of the cable to check whether the cable is disconnected or short-circuit can ensure the efficiency in the operation of the various devices connected to the cable.

Conventionally, after the cable is detached for checking the cable, the signal between the pins of the cable is measured one by one manually by using a check device.

However, the above method may be useful when the number of pins of the cable is small, but when the number of pins of the cable is large, it takes a lot of inspection time and mistakes of the inspector may occur during the inspection of the cable. There was a problem that the reliability is lowered.

Therefore, in order to solve the above problems, a cable inspection apparatus has been developed that can automatically perform a check on a cable by detaching and connecting the cable. However, even in the case of the cable check apparatus of the above method, portability is poor. Since the cable is fixedly installed in a specific position, the cable cannot be properly inspected if the cable cannot be detached.

The present invention has been made to solve the above problems, the cable check device and method that can be easily carried by the inspector and connected to the separated cable or the cable fixed at a specific position to automatically check the connection state of the cable The purpose is to provide.

Cable checking apparatus according to the present invention for achieving the above object is a cable connector to which the cable to be checked, the first check signal for checking the connection state of the cable is generated and transmitted to the cable connector side and transmitted from the cable A state check unit for checking a connection state of the cable by comparing the first check signal with the first response signal after receiving a first response signal for the first check signal to the cable connector unit; and wireless communication And a signal transceiver for transmitting the first response signal to the outside or receiving the first response signal transmitted from the outside.

In addition, the cable checking method according to the present invention comprises the steps of (a) generating a first check signal for checking the connection state of the cable to the cable side, (b) a first check signal for the first check signal transmitted from the cable Receiving a first response signal, and (c) comparing the first check signal and the first response signal to check the connection state of the cable.

According to the present invention, the input and output of the check signal for checking the cable and the response signal for the check signal are made by the buffer, which can be miniaturized to have portability, and can be easily expanded according to the cable to be checked.

In addition, since it is possible to check the connection state and the communication state of the cable, even if it is determined that the connection state is normal, it is possible to perform a check for a communication-only cable that does not communicate properly.

In addition, since the I / O buffer unit can be expanded by increasing the number of buffers provided in the I / O buffer unit according to the cable to be checked, it is easy to expand.

In addition, a signal transmission and reception unit for transmitting a signal in a wireless communication method is provided so that it is possible to transmit and receive a response signal for the check signal transmitted to the cable in a wireless communication method to check the connection status and communication status of the cable to the separated cable It is possible to carry out checks and checks on cables that are difficult to remove due to their fixed installation.

In addition, it is equipped with a VME connector and RS-232 connector that can be connected to an external device having a Versa Module Europa (VME) bus specification or an RS-232 communication method to connect a cable check device to various types of equipment. Can be utilized.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, it is to be noted that the components of each drawing have the same reference numerals as much as possible even though they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, preferred embodiments of the present invention will be described below, but the technical idea of the present invention may be implemented by those skilled in the art without being limited or limited thereto.

1A is a perspective view of a cable checking device according to a preferred embodiment of the present invention, FIG. 2A is a block diagram of a cable checking device according to a preferred embodiment of the present invention, and FIG. 2B is a cable checking device according to a preferred embodiment of the present invention. Is a detailed block diagram of.

As shown in FIG. 1 to FIG. 2B, the cable checking apparatus 1 according to the preferred embodiment of the present invention includes a cable connector 10, a state checking unit 20, a communication checking unit 30, and an input / output buffer unit ( 40, a signal transmitting and receiving unit 50, a status display unit 60, and an operation unit 70.

The cable connector 10 is connected to the cable to be checked.

The state check unit 20 generates a first check signal for checking the connection state of the cable, transmits the first check signal to the cable connector unit 10, and transmits a first response signal to the first check signal transmitted from the cable. After receiving the transmission from the unit 10, the connection state of the cable may be checked by comparing the first check signal with the first response signal.

The communication check unit 30 generates a second check signal for checking the communication state of the cable and transmits it to the cable connector unit 10 when the connection state of the cable is intact, and the second check transmitted from the cable. By checking whether the second response signal for the signal is received from the cable connector unit 10 side, it is possible to check the communication state of the cable.

 At this time, the state check unit 20 may further include a check result storage unit 25 for storing the connection state check result value and the communication state check result value of the cable.

In addition, the communication checker 30 may further include a buffer controller 35 that controls an operation of each buffer included in the input / output buffer unit 40 according to the first check signal or the second check signal.

In this case, the communication checker 30 further includes a buffer controller 35 for controlling the operation of each buffer included in the input / output buffer unit 40 according to the first check signal or the second check signal. Is the same as

In the cable checking apparatus 1 of the present invention, the data bus 96 and the address bus 98 may be disconnected in the case of the first check signal or the second check signal transmitted to each buffer included in the input / output buffer unit 40. Since it is commonly used, the data bus 96 is turned off by controlling the input / output buffer unit 40 by controlling the input / output buffer unit 40 to which the first check signal or the second check signal is not transmitted. ) And the address bus 98 to prevent a signal from colliding with each other.

In addition, the buffer control unit 35 further includes the operation of a plurality of buffers constituting the input / output buffer unit 40 even when the number of buffers is increased to expand the input / output buffer unit 40 according to the type of cable to be checked. Control may be made easily.

In addition, the state checker 20 may be a micro controller unit (MCU), and more preferably, may be an AVR which is a kind of micro controller unit.

In addition, the communication checker 30 may be a field programmable gate array (FPGA) capable of reprogramming as needed.

In addition, the check result storage unit 25 further included in the state check unit 20 may be an EEPROM (Electrically Erasable Programmable Read-Only Memory), which is a kind of nonvolatile memory included in the microcontroller unit.

Therefore, the state checking unit 20 and the communication checking unit 30 can be implemented in the form of a chip so that the cable checking device 1 can be miniaturized to have portability.

The input / output buffer unit 40 receives the first check signal from the state check unit 20 or receives the second check signal from the communication check unit 30 and transmits the cable to the cable connected to the cable connector unit 10. And receiving the first response signal transmitted from the cable from the cable connector unit 10 and transmitting it to the status check unit 20 or the second response signal transmitted from the cable from the cable connector unit 10. A plurality of buffers are received and transmitted to the communication check unit 30.

In this way, by configuring the input / output buffer unit 40 with a plurality of buffers that can be implemented by simple logic gates, the cable check apparatus 1 can be miniaturized to have portability.

In addition, since the input / output buffer unit 40 can be implemented in a modular form, it can be easily extended to fit the cable to be checked by expanding the input / output buffer unit 30 by increasing the number of buffers according to the type of cable to be checked. Cable checking devices can be easily implemented.

In addition, a detailed method of checking the connection state of the cable by comparing the first check signal and the first response signal in the state check unit 20 and the second check signal and the second check signal in the communication check unit 30. A detailed method of checking the communication state of the cable by comparing the response signals will be described below with reference to FIG. 3.

The signal transceiver 50 transmits the first response signal and the second response signal to the outside in a wireless communication manner, or receives the first response signal and the second response signal transmitted from the outside.

At this time, the signal transmitting and receiving unit 50 various wireless such as Bluetooth, ZigBee, Ultra Wide-band (UWB), Dedicated Short Range Communication (DSRC), WLAN, or RF Communication method can be used.

In addition, the state checker 20 may further generate a master mode operation signal and a slave mode operation signal for transmitting and receiving the first response signal and the second coagulation signal of the signal transmission / reception unit 50 to the signal transmission / reception unit 50. The signal transmission / reception unit 50 may receive the first response signal or the second response signal from the outside when the master mode operation signal is input, and the first response when the slave mode operation signal is input. Signal or the second response signal may be transmitted to the outside.

In this case, a detailed operation process of the signal transceiver 50 will be described below with reference to FIG. 4.

The status display unit 60 displays the connection state result value of the cable checked by the state check unit 20 and the communication state result value of the cable checked by the communication check unit 30.

In this case, the status display unit 60 may be a display device such as a liquid crystal display (LCD).

The operation unit 70 is provided for the operation of the state check unit 20, and when a cable check is performed using the cable check device 1, a user who uses the cable check device 1 operates the operation unit 70. To operate the state check unit 20.

In addition, the cable checking device 1 supplies power for the operation of the state checking unit 20, the communication checking unit 30, the input / output buffer unit 40, the signal transmitting and receiving unit 50, and the state display unit 60. The power supply unit 80 may further include.

In addition, the cable check device 1 is connected to an external device such as a computer using a VME connector (90,92) and a wired cable for connection with an external device having a VME (Versa Module Europa) bus standard. It may further include an RS-232 connector 94 capable of communication.

Therefore, the cable check device 1 is connected to an external device having a VME bus standard and operated according to the VME sequence, or connected to an external device such as a computer with a wired cable, and then communicated with the RS-232 method to check the state. It is possible to transmit the connection state check result value and the communication state check result value for the cable stored in the check result storage unit 25 of 20 to an external device such as a computer, so that the cable check device 1 It can have general purpose that can be utilized by connecting with various kinds of external devices.

3 is a reference diagram for a method for checking a separated cable using a portable cable check device according to a preferred embodiment of the present invention.

In this case, P1 to P8 are referred to as cable pins of the cable C, and b1 to b8 are referred to as buffers provided in the input / output buffer unit 40.

Referring to Figures 2 to 4 will be described a method for checking the separated cable (C) using the portable cable checking device 1 according to a preferred embodiment of the present invention.

After connecting the cable pins P1 to P4 provided on one side of the cable C and the cable pins P5 to P8 provided on the other side of the cable C to the cable connector unit 10, the operation unit 70 is operated to check the status. The unit 20 operates to generate the first check signal for checking the connection state of the cable C, and then reaches the buffers b1 to b4 of the input / output buffer unit 40 via the buffer control unit 35.

In addition, the buffer control unit 35 rests except for the buffers b1 to b8 of the input / output buffer unit 30 corresponding to the cable pins P1 to P8 of the cable C connected to the cable connector unit 10 according to the input check signal. You can control the buffers to be off.

The first check signal transmitted to the buffers b1 to b4 of the input / output buffer unit 40 is input to the cable C side through the cable pins P1 to P4 connected to the cable connector unit 10 and the first check signal. The first response signal for is input to the cable connector portion 10 through the cable pins P5 to P8.

The first response signal input to the cable connector unit 10 through the cable pins P5 to P8 is transmitted to the buffers b5 to b8 of the input / output buffer unit 30 connected to the cable pins P5 to P8 through the cable connector unit 10. After the input is sent to the state check unit 20.

In addition, the state checker 20 may check whether the cable C is abnormal by comparing the first response signal that is always transmitted with the first check signal.

At this time, the method for checking the abnormality of the cable (C) by comparing the first check signal and the first response signal in the state check unit 20 is as follows.

Here, it is assumed that the first check signal has a value of 1 or 0 as a digital signal.

For example, when transmitting the first check signal having a value of 1 to the cable pin P1 provided on one side of the cable (C) and the first check signal having a value of 0 to the cable pins P2 to P4, the cable ( If C) operates normally, the first response signal transmitted through the cable pin P5 connected to the cable pin P1 has a value of 1, and the first response signal transmitted through the cable pins P6 through P8 connected to the cable pins P2 through P4 is 0. It can have a value of.

Therefore, the state check unit 20 compares the first check signal transmitted to the cable pins P1 to P4 with the first response signal input from the cable pins P5 to P8, and the first check signal and the first response signal. In case of the cable connected to the cable pin having the same value, it is determined that the connection state is normal, and that the check signal is connected to the cable pin having the different response signal, the connection state is abnormal. It can be judged that.

In addition, in the case of a communication-only cable, even when it is determined that the connection state is normal, communication may not occur properly.

Therefore, when the connection state of the cable C checked by the state check unit 20 is not abnormal, the communication check unit 30 generates a second check signal for checking the communication state of the cable C, thereby preventing the cable C After transmitting to the (C) side, it is possible to check the communication state of the cable (C) by checking whether the second response signal according to the second check signal transmitted from the cable (C) is received from the cable (C) side.

At this time, an example of a method of performing a communication state check of the cable (C) using the communication check unit 30 is as follows.

Since the communication checker 30 may be a field programmable gate array (FPGA), it is possible to implement a transmitter and a receiver to enable Ethernet communication or serial communication to the communication checker 30.

Therefore, when the connection state of the cable C checked by the state check unit 20 is not abnormal, the second check signal according to the Ethernet communication format or the serial communication format is input and output from the transmitter implemented in the communication check unit 30. After being transmitted to the buffers b1 to b4 of the buffer unit 40, it may be input to the cable C side through the cable pins P1 to P4 connected to the cable connector unit 10.

When the communication state of the cable C is not abnormal, the second response signal input to the cable connector unit 10 through the cable pins P5 to P8 is connected to the cable pins P5 to P8 through the cable connector unit 10. After input to the buffers b5 to b8 of the connected input and output buffer unit 30 may be transmitted to the receiver implemented in the communication check unit 30.

Therefore, if the second response signal can be received by the receiver implemented in the communication checker 30, it may be determined that there is no abnormality in the communication state of the cable C, and the second response for a preset time in the receiver If no signal is received, it may be determined that the communication state of the cable C has occurred.

4 is a reference diagram for a method for checking a cable installed at a specific location by using a portable cable checking device according to a preferred embodiment of the present invention.

In this case, P1 to P8 denote cable pins of the cable C, b1 to b8 denote buffers included in the input / output buffer units 30a and 30b, and 1F to 3F denote the number of floors where the cable C is installed. .

Referring to FIG. 4, a method of checking a cable C installed at a specific location by using the portable cable checking device 1 according to an exemplary embodiment of the present invention is as follows.

First, the cable pins P1 to P4 provided on one side of the cable C located at 1F are connected to the cable connector portion 10a of the cable check device 1a, and the other side of the cable C located at 3F. It is provided to connect the cable pins P5 to P8 to the cable connector portion 10b of the portable cable check device 1b.

Then, when the operation unit 70a is operated for the operation of the cable checking device 1a, the state checking unit 20a operates to generate a first check signal for checking the connection state of the cable C, and then the first check signal. The check signal reaches the buffers b1 to b4 provided in the input / output buffer unit 40a via the buffer control unit 35a, and the first check signal reached to the buffers b1 to b4 is buffered through the cable connector unit 10a. is sent to cable pins P1 to P4 connected to b1 to b4. Next, the first response signal to the first check signal transmitted to the cable pins P1 to P4 is output from the cable pins P5 to P8 provided on the other side of the cable C installed in the 3F and outputted from the first. The response signal is transmitted to the buffers b5 to b8 provided in the input / output buffer unit 30b connected to the cable pins P5 to P8 through the cable connector unit 10b.

The first response signal transmitted to the buffers b5 to b8 is transmitted to the state checker 20b, and then the signal transceiver of the cable checker 1a is transmitted to the signal checker / receiver 50b of the cable checker 1b. 50a).

The first response signal transmitted to the signal transmission / reception unit 50a of the cable check device 1a is transmitted to the state check unit 20a. In the state check unit 20a, the first check signal and the cable check device ( The connection state of the cable C may be checked by comparing the first response signal transmitted from 1b).

In this case, the method of checking whether the cable C is connected or not using the first check signal and the first response signal has been described with reference to FIG.

In addition, in the case of the communication-only cable, even if it is determined that the connection state is normal, communication may not be performed properly. 30a generates a second check signal for checking the communication state of the cable C, and then receives the second response signal according to the second check signal from the signal transmitting and receiving unit 50a in the same manner. The communication state of the cable C may be checked by checking whether a signal is received.

In this case, the method for performing a communication state check of the cable C has been described above, and thus will be omitted.

As such, when inspecting a cable installed at a specific position, it is common for two inspectors to perform the inspection using two cable inspecting devices 1a and 1b, but one inspector checks two cable inspecting devices 1a. , 1b), it is possible to check the cable installed at a specific location, which will be explained below.

After the master mode operation signal is generated in the state check unit 20a by operating the operation unit 70a of the cable check device 1a coupled to one side of the cable C positioned at 1F, the signal transmission / reception unit 50a Signal after the slave mode operation signal is generated in the state check unit 20b by operating the operation unit 70b of the cable check device 1b coupled to the other side of the cable C positioned at 3F. It is to be transmitted to the transceiver 50b.

At this time, when the slave mode operation signal is transmitted, the signal transceiver 50b of the cable check device 1b transmits the first response signal or the second response signal to the signal transceiver of the external cable check device 1a ( 50a), and when the master mode operation signal is transmitted, the signal transceiver 50a of the cable check device 1a is transmitted from the signal transceiver 50b of the external cable check device 1b. Receiving the response signal or the second response signal, it may be possible for one inspector to check the cable installed at a particular location using the two cable checking devices 1a, 1b.

Therefore, the portable cable inspection device 1 of the present invention performs both the inspection of the cable in the separated state and the inspection of the cable that cannot be installed and separated at a specific place as shown in FIGS. 3 and 4. It becomes possible.

5 is a flowchart of a cable checking method according to a preferred embodiment of the present invention.

As shown in FIG. 5, the cable checking method according to the preferred embodiment of the present invention includes the following steps performed in time series in the cable checking device 1.

In S10, the state check unit 20 generates a first check signal for checking a connection state of the cable and transmits the first check signal to the cable connector unit 10.

At this time, it may further include a step for connecting the cable to be checked before the step S10 to the cable connector 10.

In S20, the state check unit 20 receives a first response signal to the cable connector unit 10 in response to the first check signal transmitted from the cable.

In operation S30, the state checker 20 compares the first check signal with the first response signal to check the connection state of the cable.

In this case, the method for checking the connection state of the cable by comparing the first check signal and the first response signal has been described above, and thus a detailed description thereof will be omitted.

In S40, the state checker 20 checks the connection state check result value of the checked cable and terminates when the cable state of the cable is found to be abnormal. If not, the communication check unit 30 generates a second check signal for checking the communication state of the cable and transmits it to the cable connector unit 10.

At this time, subsequent to S50 may further include the step of storing the connection state check result of the cable in the inspection result storage unit 25 and displayed on the status display unit 60.

In S60, the communication checker 70 checks whether the second response signal for the second check signal transmitted from the cable is received, checks the connection state of the cable, and then terminates the cable connector. Received by the side.

In this case, the method may further include storing the communication state check result of the cable in the check result storage unit 25 and displaying the result in the state display unit 60 after S60.

In addition, since the method of checking the communication state of the cable by checking whether the second response signal is received has been described above, a detailed description thereof will be omitted.

The cable checking device 1 of the present invention can implement the state check unit 20 for checking the connection state of the cable, the communication check unit 30 for checking the communication state of the cable in the form of a chip, Since the input / output of the check signal for checking the connection state and the communication state and the response signal for the check signal are made by a plurality of buffers provided in the input / output buffer unit 40, it is possible to miniaturize and have portability.

In addition, since it is possible to check the connection state and the communication state of the cable, even if it is determined that the connection state is normal, it is possible to perform a check for a communication-only cable that does not communicate properly.

In addition, since the I / O buffer unit 40 can be expanded in such a manner as to increase the number of buffers provided in the I / O buffer unit 40 according to the cable to be checked, it is easy to expand.

In addition, a signal transmission and reception unit 50 for transmitting a signal in a wireless communication method is provided so that it is possible to transmit and receive a response signal in response to the check signal transmitted to the cable in a wireless communication method to check the connection state and the communication state of the cable. It is possible to carry out checks on cables which are difficult to install and fix them.

In addition, VME connectors (90,92) and RS-232 connectors (94) that can be connected to an external device having a Versa Module Europa (VME) bus standard or an RS-232 communication method are provided in various types. It can be used by connecting the cable check device to the equipment.

The above description is merely illustrative of the technical idea of the present invention, and various modifications, changes, and substitutions may be made by those skilled in the art without departing from the essential characteristics of the present invention. It will be possible. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are intended to illustrate and not to limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings . The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

According to the present invention, the cable check apparatus can be miniaturized to have portability, and a signal transmission / reception unit of a wireless communication method can be provided to wirelessly transmit / receive a response signal for a check signal for checking a cable connection state and a communication state. It can be used as a cable check device for checking cables that are difficult to separate because they are fixedly installed at specific locations.

Figure 1a is a perspective view of a cable checking device according to a preferred embodiment of the present invention,

1B is a block diagram of a cable checking apparatus according to a preferred embodiment of the present invention;

2 is a detailed block diagram of a cable checking apparatus according to a preferred embodiment of the present invention;

3 is a reference diagram for a method for checking a separated cable using a cable checking device according to a preferred embodiment of the present invention,

4 is a reference diagram for a method for checking a cable installed at a specific location using a cable checking device according to a preferred embodiment of the invention, and

5 is a flowchart of a cable checking method according to a preferred embodiment of the present invention.

<Brief description of the main parts of the drawings>

(1,1a, 1b): cable check device (10,10a, 10b): cable connector

(20,20a, 20b): Status check part 25: Check result storage part

(30,30a, 30b): communication check unit (35,35a, 35b): buffer control unit

(40, 40a, 40b): input / output buffer unit (50, 50a, 50b): signal transceiver

(60): status display part 70, 70a, 70b: operation part

Claims (15)

A cable connector unit to which a cable to be checked is connected; The first check signal for checking the connection state of the cable is generated and transmitted to the cable connector side, and after receiving the first response signal for the first check signal transmitted from the cable from the cable connector part side, the first check signal is transmitted. A state checker which checks a connection state of the cable by comparing a check signal with the first response signal; And A signal transmitting / receiving unit which transmits the first response signal to the outside or receives the first response signal transmitted from the outside in a wireless communication method; And When the connection state of the cable is intact, a second check signal for checking a communication state of the cable is generated, transmitted to the cable connector, and a second response signal is received for the second check signal transmitted from the cable. Communication check unit for checking the communication state of the cable by checking whether or not; Cable checking device comprising a. delete The method of claim 1, An input / output for receiving the first check signal or the second check signal and transmitting the received first response signal to the cable connector and receiving the first response signal and transmitting the received first response signal or the second response signal to the communication checking unit; Cable checking device further comprises a buffer unit. The method of claim 1, The signal transmission and reception unit further checks the second response signal to the outside in a wireless communication method or a cable checking device, characterized in that further receiving the second response signal transmitted from the outside. The method of claim 4, wherein And the status checker further generates a master mode operation signal and a slave mode operation signal for transmitting and receiving the first response signal and the second response signal, and transmits the signal to the signal transceiver. The method of claim 5, The signal transceiver receives the first response signal or the second response signal from the outside when the master mode operation signal is input, and the first response signal or the second response signal when the slave mode operation signal is input. Cable checking device, characterized in that for transmitting to the outside. The method of claim 3, wherein And the communication checking unit further comprises a buffer control unit controlling an operation of each buffer provided in the input / output buffer unit according to the first check signal or the second check signal. The method of claim 1, The cable check device, characterized in that the state check unit is a Micro Controller Unit (MCU). The method of claim 1, And the communication checker is a field programmable gate array (FPGA). The method of claim 1, The state check unit further comprises a check result storage unit for storing the connection state check result value of the cable and the communication state check result value of the cable. The method of claim 1, And a check result display unit for displaying a result of the connection state check of the cable and a result of the communication state check of the cable. The method of claim 1, And a control unit for operating the state check unit. (a) generating a first check signal for checking a connection state of a cable and transmitting it to the cable side; (b) receiving a first response signal to the first check signal transmitted from the cable; (c) checking a connection state of the cable by comparing the first check signal with the first response signal; And (d) checking the communication state of the cable when the connection state of the cable is intact. delete The method of claim 13, The step (d) (d1) generating a second check signal for checking a communication state of the cable and transmitting it to the cable side; And (d2) checking the connection state of the cable by checking whether a second response signal with respect to the second check signal transmitted from the cable is received.

Images