KR0136399B1 - Subscriber line and phone mounted inspection device and method of private exchange - Google Patents

Abstract

The present invention relates to an apparatus and a method for inspecting a subscriber line of a private exchange and to determine whether a telephone is mounted on the subscriber line. The present invention relates to a main processor that is small in volume and simple in construction so that it can be directly mounted to the subscriber connection of the private exchange. When inspecting the designated subscriber line, the test voltage is applied and the measured voltage is converted into digital data, and then the converted digital data is analyzed to determine the state of the designated subscriber line and the result is transferred to the main processor of the private exchange. Notify me. In addition, when checking whether the main processor is installed on the subscriber line designated by the main processor, stop supplying the test voltage for the capacitor discharge time of the phone, apply the test voltage again, and convert the measured voltage into digital data. Notifies the main processor whether the telephone is installed on the subscriber line. The present invention for inspecting the subscriber line and whether the subscriber line is installed on the subscriber line is simple and small in configuration, and can be directly mounted on the subscriber connection of the private exchanger. In comparison, efficiency and economic efficiency are rather high.

Description

Subscriber line and phone mounted inspection device and method of private exchange

1 is a block diagram of a subscriber line and a telephone equipped inspection apparatus of a private switch according to the present invention.

Figure 2 is a flow chart showing the subscriber line inspection process of the private exchange according to the present invention.

3 is a flow chart showing a telephone mounting inspection process of the private exchange according to the present invention.

Explanation of symbols on the main parts of the drawings

10: line protection unit 20: line switching unit

30: test voltage supply unit 40: differential voltage measurement unit

50: line state analysis unit 51: A / D conversion unit

52: CPUR1-R12: Resistance

OP1 to OP3: Operational Amplifiers RY1 to RY4: Relay Switch

The present invention relates to a subscriber line and a telephone mounting inspection apparatus and method of a private exchange, and more particularly, directly connected to a subscriber connection of a private exchange and converting the state of each subscriber line into numerical data, thereby disconnecting each subscriber line through the data. The present invention relates to a subscriber line and a telephone mounting inspection device and method of a private exchange which enable inspection of the presence and absence of a telephone connected to a subscriber line.

In general, a private or private exchange has a unique inspection method for inspecting subscriber lines connected to a switching network of its own model. A representative inspection method of the conventional subscriber inspection method includes a subscriber line state inspection device and In order to inspect an arbitrary subscriber line by dividing a general service path and an inspection path corresponding to each circuit, the subscriber line is connected to the subscriber line state inspection device through the corresponding inspection path to detect an abnormality of the subscriber line. .

However, the conventional private exchange which adopts the subscriber inspection method as described above has to be equipped with a complicated and expensive device, that is, a subscriber line status inspection device, for the inspection of the subscriber line, and the presence of a telephone or the like in each subscriber line. Since it was possible to transmit a predetermined signal from the phone to determine the problem, the cost and installation cost required for the installation of a complex device increases, and the need for help of the other party during the inspection occurred.

An object of the present invention for solving the above problems is to simplify the miniaturization of the device for the inspection of the subscriber line can be mounted directly to the subscriber connection of the private switchboard, the state of the subscriber line can be stored numerically and the telephone connected to the subscriber line The present invention provides a subscriber line and a telephone equipped inspection device and method of a private exchange that can self-test whether the subscriber line is installed or not.

A feature of the present invention for achieving the above object is an apparatus for checking the state of the line and whether the telephone is mounted on any subscriber line of the subscriber line connected to the subscriber connection of the private exchange under the control of the upper processor. Line protection means connected to the subscriber line to prevent overvoltage inflow due to lightning strike, and test voltage supply means for distributing the test voltage using a predetermined constant voltage as a test voltage and providing it as a reference voltage for inspecting the condition of the subscriber line. And a line switching means for selectively connecting the subscriber line connected with the control signal and the test voltage supply means according to a control signal, and receiving a reference voltage provided from the test voltage supply means and using the voltage difference between the reference voltages. Differential voltage measuring means for outputting an analog signal and the differential voltage measuring number A line state analysis means for converting the analog voltage signal outputted from the stage into digital data for analysis and controlling the subscriber line switching operation of the line switching means according to the analysis result and notifying the analysis result to a higher processor. Including the reference voltage provided by the test voltage supply means, it is possible to check the short circuit state of the subscriber line and whether the telephone is installed.

Another feature of the present invention for achieving the above object is, in the subscriber line inspection method of the private exchange, the first step of selecting the subscriber line of the inspection target among the plurality of subscriber lines, and the inspection target subscriber line selected in the first process The second step of supplying the test voltage and measuring the voltage fluctuation occurred for a certain period of time, and the status of the voltage fluctuation measured in the second step is applied as digital data and classified into disconnected state, unstable state and normal state of the subscriber line. The third step of detecting the state of the subscriber line of the inspection target selected in the first process and storing the detected state, and determining whether there is another inspection target subscriber line after performing the third process, if the inspection subject does not remain. And a fourth step of applying the analysis result stored in step 3 to the main control means of the private exchange.

Another feature of the present invention for achieving the above object is, in the telephone mounting inspection method of the private switch, a first process of selecting a subscriber line for the telephone mounting inspection from a plurality of subscriber lines, and selected in the first process A second step of disconnecting the constant voltage supplied to the subscriber line to be inspected, and supplying a constant voltage after a predetermined time to the inspection line to which the supply of the constant voltage is stopped in the second step, and causing a voltage fluctuation The third step of converting the digital data into the digital data, and the digital data corresponding to the state of the voltage change converted in the third step is applied to classify the state as a non-equipped state of the telephone mounted on the subscriber line to be inspected in the first process Performing the fourth process and the fourth process of detecting the state of the selected inspection target subscriber line and storing the detected state After that, it is determined whether there is another inspection target subscriber line, and if the inspection object does not remain, the fourth process includes applying the analysis result stored in the fourth process to the main control means of the private exchange.

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

1 is a block diagram of a subscriber line and a telephone equipped test apparatus of a private exchange according to the present invention, wherein subscriber lines L1 and L2 of the private exchange are connected to the subscriber line of the private exchange according to the present invention under the control of an upper processor. An example of a state connected to a phone-mounted inspection device is a line protection unit 10 connected to subscriber lines L1 and L2 to prevent overvoltage inflow due to a lightning strike, and a predetermined constant voltage as a test voltage. A test voltage supply unit 30 which distributes a test voltage and provides a reference voltage for inspecting a subscriber line state, and the subscriber line L1 and L2 and the test voltage supply unit 30 connected according to a control signal. Receives the reference voltage provided from the line switching unit 20 and the test voltage supply unit 30 to selectively connect, and amplifies and outputs the analog signal by using the voltage difference of the reference voltage. Is the analog voltage signal output from the differential voltage measuring unit 40 and the differential voltage measuring unit 40 is converted into digital data and analyzed and the subscriber line switching in the line switching unit 20 according to the analysis result It is largely composed of a line state analysis unit 50 for controlling the operation and notifying the upper level processor of the analysis result.

In the configuration, the test voltage supply unit 30 includes a third resistor R3 to which a predetermined negative voltage (for example, -48V) is applied, and a second resistor to which the output voltage of the third resistor R3 is applied. And a first resistor R1 to which the output voltage of the second resistor R2 is applied to divide the predetermined negative voltage (−48V) and to determine the output voltage of the first resistor R1. It is configured to apply to the line switching unit 20 and to apply the voltage across the first resistor (R1) to the differential voltage measuring unit (40).

In addition, the differential voltage measuring unit 40 receives a fifth positive term R5 to which a voltage provided from (a) of both ends a and b of the first resistor R1 in the test voltage supply unit 30 is applied. ), A sixth resistor R6 for conducting the voltage output from the fifth resistor R5 to ground, and both ends (a) and (b) of the first resistor R1 in the test voltage supply unit 30. The seventh resistor (R7) receiving the voltage provided in (b), the eighth resistor (R8) for connecting the voltage output from the seventh resistor (R7) to ground, and the fifth resistor (R5) The first operational amplifier OP1 receives the voltage output from the non-inverting input terminal and its output signal is applied to the inverting input terminal, and the voltage output from the seventh resistor R7 is applied to the non-inverting input terminal. A second operational amplifier OP2 for receiving an output signal at an inverting input terminal, an eleventh resistor R11 for receiving an amplification voltage output from the second operational amplifier OP2, and the eleventh resistor R11 In the twelfth resistor (R12) for conducting the voltage output from the ground to ground, the ninth resistor (R9) receiving the amplified voltage output from the first operational amplifier (OP1), and the ninth resistor (R9) Between the inverted input terminal and the output terminal of the third operational amplifier OP3 and the third operational amplifier OP3 that receive the output voltage to the inverting input terminal and the voltage output from the eleventh resistor R11 to the non-inverting input terminal. It consists of a tenth resistor (R10) connected.

In addition, the line state analysis unit 50 converts the output voltage output from the differential voltage measuring unit 40 into digital data according to a control signal and outputs the A / D converter 51 and the A / D Analyzing the data output from the conversion unit 51 and notifies the analysis result to the upper processor, subscriber line switching operation of the line switching unit 20 and A / D conversion operation of the A / D conversion unit 51 It consists of the CPU 52 which controls.

When described in detail with reference to the accompanying drawings a preferred operation example of the subscriber line and the telephone mounting inspection apparatus of the private exchange according to the present invention configured as described above are as follows.

FIG. 2 is a flowchart illustrating a subscriber line inspection process of a private exchange according to the present invention, wherein subscriber lines are controlled under the control of an upper processor of two subscriber lines L1 and L2 among subscriber lines connected to a subscriber connection of a private exchange. Operates while connected to the furnace / telephone mounted inspection system.

In step S101, the CPU 52 of the line state analysis unit 50 determines whether or not a predetermined line inspection request signal for requesting the subscriber line L1 and L2 to be inspected in turn is input from the upper processor. When the test request signal is input in step S101, the CPU 52 proceeds to step S102, where the -48V test voltage of the test voltage supply unit 30 is supplied to the subscriber line L1, and the subscriber line L2. Supplies a predetermined line selection control signal to the line switching unit 20 so as to be connected to the line ground through the fourth resistor R4, so that the line switching unit 20 supplies an internal relay element according to the line selection control signal. It operates to supply the -48V test voltage of the test voltage supply unit 30 to the subscriber line (L1), and connects the subscriber line (L2) and the line ground (LGND).

Thereafter, the process proceeds to step S103 to measure the reference voltage. In the measuring process, the point a voltage of the test voltage supply unit 30 is applied to the resistors R5 and R6 of the differential voltage measurement unit 40 so that the voltage is 10 times. The reduced and reduced voltage is input to the non-inverting input terminal of the first operational amplifier OP1, and the b point voltage of the test voltage supply unit 30 is applied to the resistors R7 and R8 of the differential voltage measuring unit 40. The voltage is reduced by 10 times and the reduced voltage is input to the non-inverting input terminal of the second operational amplifier OP2.

At this time, the first and second operational amplifiers OP1 and OP2 have very small output impedances and supply voltages input to the non-inverting input terminals to the data input terminals of the third operational amplifier, respectively, and the third operational amplifier OP3 After subtracting the output voltage of the first operational amplifier OP1 applied to the inverting input terminal from the output voltage of the second operational amplifier OP2 applied to the inverting input terminal, the amplified audited voltage is 10 times and the line state analyzer 50 To the A / D conversion section 51 side.

As such, the differential voltage measuring unit 40 continuously outputs the voltage difference between the both ends (a) and (b) of the first resistor R1 in the test voltage supply unit 30, and the CPU 52 switches the line. After supplying the line selection control signal to the unit 20, the digital conversion request signal for converting the voltage output of the differential amplifier OP3 into digital data is converted through the control signal output terminal c to the A / D conversion unit ( 51), the A / D converter 51 supplies a predetermined bit (8bit) to the voltage continuously output from the third operational amplifier OP3 after the -48V test voltage is supplied to the subscriber line L1. The digital data is continuously converted into digital data, and the converted digital data is supplied to the data input terminal D to the CPU 52.

As described above, when the reference voltage is measured and applied to the CPU 52 in step S103, the CPU 52 proceeds to step S104 to compare the digital data supplied to the data input terminal D in units of frames and apply the numerical value to each frame. It is determined whether there is a change, that is, whether there is a change in the voltage output for a predetermined period of time by the third operational amplifier OP3.

As a result of the determination in the step S104, if there is a change in the comparison value, the state of the subscriber line La is unstable, so that the voltage between the ends (a) and (b) of the first resistor R1 in the test voltage supply unit 30 is unstable. Since the state has changed, the CPU 52 proceeds to step S108, where the state of the subscriber line L1 is regarded as unstable, and the subscriber line L1 stores the contents that the state of the subscriber line L1 is unstable.

If it is determined in step S104 that there is no change in the numerical value, the CPU 52 proceeds to step S105 and compares the digital data of several frames again to determine whether the numerical value of each frame is constant at 0 or non-zero. To make a judgment. At this time, if the value of each frame is constant as 0, this means that the current of the subscriber line L1 is normal and no current flows due to the test voltage of -48V, so that both ends a of the first resistor R1 and Since there is no voltage difference between (b), the CPU 52 proceeds to step S106, and it is determined that the state of the subscriber line L1 is normal and stores the content that the subscriber line L1 is normal in the internal storage device.

If the numerical value of each frame is constant to a non-zero value in step S105, this means that the subscriber line L1 is short-circuited and current flows to the subscriber line L1 by a test voltage of -48V. Since it means that a constant voltage is applied to both ends (a) and (b) of the resistor R1, the CPU 52 proceeds to step S107 to view the state of the subscriber line L1 as a shorted state and to store the internal memory. The device stores that the subscriber line L1 is in a short circuit state.

When the line inspection for the subscriber line L1 is finished through the above process, the CPU 52 determines whether the subscriber line to be inspected next is determined in step S109 and determines the end of the subscriber line inspection to perform the inspection. If the subscriber line remains, the process returns to step S102 to repeat the above-described process. That is, since the inspection of the subscriber line L2 remains, the CPU 52 passes through the step L108 from step S102 to the internal storage device of the CPU 52 in the same manner as the subscriber line L1. Stores information about the state.

If it is determined in step S109 that the inspection has ended, the CPU 52 proceeds to step S110 to notify the upper processor of the information on the inspection result of the subscriber line stored in the internal storage device and terminates the inspection process for the subscriber line. .

In this series of subscriber line inspection process, any two of the subscriber lines provided by the host processor are connected to the subscriber line / telephone inspection device, and require the inspection of these two lines. Since it is performed by the test request signal, the test of all subscriber lines (L _{1 to} L _n ) can be performed according to the subscriber access control of the upper processor and the line test request signal.

Following the subscriber line inspection process will be described with reference to Figure 3 attached to the telephone mounting inspection process according to the present invention.

3 is a flowchart showing a telephone mounting inspection process of a private switching system according to the present invention, in which one subscriber line L1 is connected to one of subscriber lines L _{1 to} L _n connected to a subscriber access unit under the control of an upper processor. Operates with the charity / telephone connected to the on-board inspection system.

The CPU 52 of the line state analyzer 50 determines whether or not a predetermined mounting test request signal for checking whether or not a telephone is mounted on the subscriber line L1 is outputted from the upper processor in step S201. do.

At this time, if it is determined in step S201 that a mounting test request signal is input, the CPU 52 proceeds to step S202 to stop supplying the -48V test voltage to the subscriber line L1 connected to the line switching unit 20. The voltage supply stop command is outputted, and the line switching unit 20 connects the subscriber line L1 to ground by switching an internal relay element according to the voltage supply stop command.

Therefore, since the -48V test voltage is not supplied to the subscriber line L1, when the telephone is mounted on the subscriber line L1, the charge stored in the internal capacitor of the telephone is discharged to the line ground through the resistor R4.

The CPU 52 proceeds to step S203 when it is determined that all the charge accumulated in the internal capacitor of the telephone is discharged through the step S201, and supplies the -48V test voltage to the subscriber line L1. The supply line selection control signal is supplied to the unit 20, and the line switching unit 20 supplies a test voltage supply unit 30 and the subscriber line L1 to supply a -48V test voltage to the subscriber line L1. Turns on the relay element and turns off the relay between subscriber line L1 and line ground LGND. Thus, if the -48V test voltage is resupplied to the subscriber line (L1) and the telephone is mounted on the subscriber line (L1), the capacitor of the telephone will be supplied with the -48V test voltage and start to accumulate.

Thereafter, the CPU 52 proceeds to step S204 to measure the reference voltage. The measurement process includes applying a point voltage of the test voltage supply unit 30 to the resistors R5 and R6 of the differential voltage measurement unit 40. The voltage is reduced by 10 times and the reduced voltage is input to the non-inverting input terminal of the first operational amplifier OP1. The b-point voltage of the test voltage supply unit 30 is converted into the resistance R7 of the differential voltage measuring unit 40. The voltage applied to R8) is reduced by 10 times and the reduced voltage is input to the non-inverting input terminal of the second operational amplifier OP2.

At this time, the first and second operational amplifiers OP1 and OP2 have very small output impedances and supply voltages input to the non-inverting input terminals to the data input terminals of the third operational amplifier, respectively, and the third operational amplifier OP3 After subtracting the output voltage of the first operational amplifier OP1 applied to the inverting input terminal from the output voltage of the second operational amplifier OP2 applied to the inverting input terminal, the subtracted voltage is amplified 10 times and the line state analysis unit 50 ) Is output to the A / D conversion section 51 side. The output signal of the third operational amplifier OP3 applied to the A / D converter 51 is converted into digital data and supplied to the CPU 52.

The CPU 52 determines the voltage difference across the first resistor R1 after the -48V test voltage is resupplied to the subscriber line L1 through the applied digital data. It is determined whether the value gradually approaches zero (S205).

If it is determined in step S205 that the numerical value gradually decreases from a certain value to zero, the telephone is mounted on the subscriber line L1 so that the capacitor of the telephone starts to be charged by the -48V test voltage. As the current flows through and the charging flows, the current flowing through the first resistor R1 decreases, which means that the current does not pass through the first resistor R1 as the charging is completed. 52, the process proceeds to step S206, and it is determined that the telephone is mounted on the subscriber line L1, and stores that the telephone is mounted in the internal storage device.

If the numerical value of each frame of the digital data does not gradually decrease from 0 to a certain value at step S205, the CPU 52 proceeds to step S207 and reports that the telephone is not mounted on the subscriber line L1. The device stores the fact that the phone is not installed.

Thereafter, the CPU 52 judges whether or not a check on whether or not a telephone is attached to another subscriber line is performed in step S208. If it is determined that the mounting inspection process has not been completed, the process returns to step S202 to repeat the above-described process and ends. If it is determined, the flow advances to step S209 to notify the upper processor of the contents stored in the internal memory.

By providing a subscriber line and a telephone mounting inspection apparatus and method of a private exchange according to the present invention operating as described above, the simple and bulky inspection of the state of the subscriber line of the private exchange and whether the telephone is mounted on the subscriber line Since it can be effectively performed by directly attaching to the subscriber connection of the private exchange with a small device, there is an effect that can replace the conventional subscriber line / telephone mounting inspection apparatus complicated, bulky and expensive.

Claims (13)

An apparatus for checking the state of a line and whether a telephone is mounted in any of the subscriber lines connected to the subscriber connection of the private exchange under the control of a higher processor. A line protection means connected to the subscriber line to prevent overvoltage inflow due to a lightning strike; Test voltage supply means for distributing the test voltage using a predetermined constant voltage as a test voltage and providing the test voltage as a reference voltage for inspecting a subscriber line state; Line switching means for selectively connecting the subscriber line connected with the control signal and the test voltage supply means; Differential voltage measuring means for receiving the reference voltage provided from the test voltage supply means and comparing and amplifying the voltage difference of the reference voltage to output an analog signal; And A line converting an analog voltage signal output from the differential voltage measuring means into digital data for analysis and controlling subscriber line switching operation in the line switching means according to the analysis result and informing the higher level processor of the analysis result. Including a status analysis means for testing the subscriber line and the telephone mounting apparatus of the private switch, characterized in that the state of the reference voltage provided from the test voltage supply means can check the short-circuit state of the subscriber line and whether or not the telephone. The method of claim 1, The test voltage supply means may include a third resistor to which a predetermined negative voltage is applied. A second resistor to which the third resistor is applied with an output voltage; And The first resistor is applied to the output voltage of the second resistor, and the voltage is divided by the constant negative voltage to apply the output voltage of the first resistor to the line switching means and the voltage across the first resistor to the differential voltage. Subscriber line and telephone equipped inspection apparatus of the private exchange which can be applied to the measuring means. The method according to claim 1 or 2, A fifth resistor receiving voltage applied to the voltage input terminal of both ends of the first resistor in the test voltage supplying means to the differential voltage measuring means; A sixth resistor conducting the voltage output from the fifth resistor to ground; A seventh resistor receiving a voltage output from the voltage output terminal of both ends of the test voltage supply means; An eighth resistor for conducting a voltage output from the seventh resistor to ground; A first operational amplifier configured to receive a voltage output from the fifth resistor to a non-inverting input terminal and receive its output signal to an inverting input terminal; A second operational amplifier configured to receive a voltage output from the seventh resistor to a non-inverting input terminal and receive its output signal to an inverting input terminal; An eleventh resistor receiving an amplification voltage output from the second operational amplifier; A twelfth resistor for conducting a voltage output from the eleventh resistor to ground; A ninth resistor receiving an amplification voltage output from the first operational amplifier; A third operational amplifier configured to receive the voltage output from the ninth resistor to the inverting input terminal and the voltage output from the eleventh resistor to the non-inverting input terminal; And And a subscriber line of a private switch comprising a tenth resistor connected between the inverting input terminal and the output terminal of the third operational amplifier, and outputting the voltage difference between the first resistor in the test voltage supply means as an analog signal. Telephone mounted inspection device. The method of claim 1, The line state analyzing means includes an A / D converter for converting the output voltage output from the differential voltage measuring means into digital data according to a control signal and outputting the digital data; Analyze the data output from the A / D converter to store information on the presence of the subscriber line and whether or not the telephone is installed, and notify the upper processor of the stored analysis result. The subscriber line switching operation of the line switching unit and the A / D A subscriber line and a telephone equipped inspection device for a private exchange, comprising a control device for controlling the A / D conversion operation of the D conversion unit. The method of claim 1, The line switching means may connect the test voltage applied from the test voltage supply means to be supplied to the first subscriber line according to a signal applied from the line state analysis means when the subscriber line is inspected, and the second subscriber line may be connected to ground. And a subscriber line and telephone equipped inspection device for a private exchange. The method of claim 1, The line switching means connects the subscriber line and the ground to discharge the capacitor inside the telephone which may be mounted on the subscriber line corresponding to the inspection object according to the signal applied from the line state analysis means when the telephone is installed in the subscriber preference. And switching the test voltage applied from the test voltage supply means to be supplied to the corresponding subscriber's preference according to a signal applied from the line state analyzing means after a predetermined time. In the subscriber line inspection method of the private exchange, Selecting a subscriber line to be inspected from among a plurality of subscriber lines; A second step of supplying a test voltage to the inspection target subscriber line selected in the first step and measuring voltage fluctuations occurring for a predetermined period; The state of the voltage fluctuation measured in the second process is applied as digital data to classify the disconnected state, unstable state and normal state of the subscriber line to detect the state of the inspection target subscriber line selected in the first process, and A third process of storing; And And a fourth step of applying the analysis result stored in the third step to the main control means of the private exchange when the test object does not remain after determining whether there is another subscriber line to be inspected after performing the third step. Method of inspecting subscriber line of private exchange. The method of claim 7, wherein The second process may include a first step of supplying a predetermined voltage to the selected subscriber line to be inspected; And a second step of measuring a voltage fluctuation during a predetermined period of time in which the constant voltage is supplied, and converting the measured value at each instant into digital data composed of several frames. . The method of claim 7, wherein The third step may include a first step of comparing numerical values represented by each frame of the digital data; A second step of determining that the inspection target subscriber line is in a normal state when the values of all the frames compared in the first step are constant to zero; A third step of determining that the subscriber line to be inspected is in a short state if the numerical value of all the frames compared with the first step is constant to an arbitrary constant value other than the zero state; A fourth step of determining that the inspection target subscriber line is unstable if the times of all the frames compared in the first step show irregular comparison values; And And a fifth step of storing the state determined through the second, third, and fourth steps as an inspection result of the inspection target subscriber line. In the telephone mounting inspection method of the private exchange, A first step of selecting a subscriber line from among a plurality of subscriber lines for a telephone mounting inspection; A second step of disconnecting a predetermined voltage which is being supplied to the inspection target subscriber line selected in the first step; A third step of resupplying a predetermined voltage after a predetermined time has passed to the inspection target subscriber line in which the supply of the predetermined voltage is stopped in the second process, and converting a voltage change generated during the predetermined period into digital data; The digital data corresponding to the state of the voltage change converted in the third process is applied to classify the state of the telephone line and the non-mounted state of the corresponding subscriber line to detect the state of the inspection line of the subscriber line selected in the first process. A fourth process of storing a state; And And a fourth process of determining whether there is another subscriber line to be inspected after performing the fourth process, and if the test object does not remain, applying the analysis result stored in the fourth process to the main control means of the private exchange. How to check telephone installation of private exchange. The method of claim 10, And the second step is for discharging the electric charge accumulated in the capacitor inside the telephone which may be mounted on the inspection target subscriber line. The method of claim 10, The third process includes a first step of resupplying a predetermined voltage after a predetermined time has passed to the inspection target subscriber line in which the supply of the predetermined voltage was stopped in the second process; And a second step of converting the change of the voltage flowing in the subscriber line to which the constant voltage is re-applied in the first step into digital data. The method of claim 1, The fourth step includes a first step of comparing the numerical values represented by each frame of the digital data; A second step of determining that the telephone is mounted on the selected subscriber line if each of the comparison values gradually decreases to 0 after the first step; If each value compared after performing the first step does not gradually decrease to zero A third step of determining that the telephone is not mounted on the selected subscriber line; And And a fourth step of storing the state determined through the second and third steps as an inspection result of the inspection target subscriber line.