KR0155938B1 - Apparatus and method of automatic communication link trouble diagnosing in manless guard system - Google Patents

Abstract

The present invention relates to an automatic fault diagnosis apparatus and method using DTMF in an unmanned security system call path, the apparatus receives a DTMF encoder and a fault diagnosis instruction to convert the DTMF signal corresponding to its own number through the fault diagnosis command A generation device comprising a controller for driving a DTMF encoder and transmitting a DTMF signal to a designated call channel; And a controller configured to determine whether there is an abnormality in the call by analyzing a DTMF decoder that decodes the DTMF signal through the call channel, and the decoded signal. Transmitting; In the generation device, converting the unique number into a DTMF signal and transmitting it to the assigned call channel; Connecting the received DTMF signal to the DTMF decoder; And analyzing the decoded signal to determine a call state.

According to the present invention, by applying the DTMF transmission and reception method between the generation device and the diagnostic device, it is possible to shorten the diagnosis time and facilitate the use of the function by automatically performing the failure diagnosis on the call path.

Description

Automatic failure diagnosis device and method by call of unmanned security system

1 is a configuration diagram of a generation device according to the present invention in the case where communication and communication channels are separated.

2 is a block diagram of a diagnostic apparatus according to the present invention in the case where communication and communication channels are separated.

3 is a block diagram of a generation device according to the present invention when communication and multiple communication channels are multiplexed through a single line, such as when a single coaxial line is used.

4 is a block diagram of a diagnostic device according to the present invention when communication and multiple communication channels are multiplexed through a single line, such as when a single coaxial line is used.

The present invention relates to an unmanned security system mainly used in a multi-unit housing such as an apartment, in particular, a diagnostic device for diagnosing a state of a household device and a call and a call by being installed in a household device and a security office or a management room installed in each household in the apartment The present invention relates to an apparatus and method for automatically troubleshooting a call path of an unmanned security system using a dual tone multi-frequency (DTMF).

In the unmanned security system installed in the same place as the apartment, the household equipment installed in each household, the guard equipment installed in the guard room, and the management equipment mainly installed in the central management room are connected by wires, so that the call between each equipment is connected. It performs functions such as functions and security. In such unmanned security system, communication channel for communication and call channel for communication are allocated between each device, and in general, security unit or management unit has fault diagnosis function to check the abnormal state of communication and call function of each generation device. have.

In the method of performing such a diagnosis, conventionally, a method in which a person calls a household to be diagnosed in a security device or a management device one by one and confirms it through a melody transmitted from an actual call or a generation device is used. In this method, since all operations are manually performed by a person, when the number of generation devices is large, the time required for troubleshooting is increased, and there is a difficulty in using multiple call operations repeatedly for each call.

Therefore, the present invention was created to solve the above-mentioned problems, the dual tone multi-frequency (between generation equipment and diagnostic equipment (management or security equipment) in order to reduce the diagnostic time and to facilitate the use when performing the function) Dual Tone Multi-Frequency (hereinafter referred to as DTMF) It is an object of the present invention to provide an apparatus and method for automatically performing a failure diagnosis by applying a transmission / reception method.

Call of the unmanned security system consisting of a diagnostic device for diagnosing the state of the call and the call and the household device installed in each household in the apartment house and the guard room or management room according to the present invention for achieving the above object The apparatus for automatically diagnosing a furnace using DTMF includes a DTMF encoder for converting a DTMF signal corresponding to a unique number of its own generation apparatus through a command relating to a failure diagnosis of a received diagnostic device; And a controller (microprocessor) which receives a command related to a failure diagnosis from the diagnostic device through a communication channel to drive the DTMF encoder, and transmits a DTMF signal output from the DTMF encoder to a designated communication channel through communication. Generation device characterized in that; And a DTMF decoder for decoding the DTMF signal received through the corresponding call channel. And a controller (microprocessor) that analyzes the signal decoded by the DTMF decoder to determine whether there is an abnormality in the call path through a unique number of the generation to be diagnosed at present.

And unmanned security system consisting of a diagnostic device for diagnosing the state of the call and the call and the household equipment installed in the household and the guard room or management room installed in each household in the apartment according to the present invention for achieving the above another object. The method for automatically diagnosing a call path using the DTMF includes: transmitting, by the diagnostic device, a failure diagnosis command requesting a status notification to the generation device; In the generation device, converting its own number into a DTMF signal through a DTMF encoder driven by a controller (microprocessor) and transmitting the DTMF signal to the assigned call channel; Connecting the DTMF signal received through the corresponding communication channel to the DTMF decoder; And inputting a signal decoded by the DTMF decoder into a controller (microprocessor) to analyze the input signal and determine a call path state of a generation to be diagnosed at present.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In general, the connection between the generation equipment and the diagnostic equipment such as security equipment or management equipment that performs fault diagnosis is performed when multiple communication and communication channels are separated by using multiple pair lines and multiple communication and communication channels by using a single coaxial line. There is one case. When the call and the call channel are separated, the voice is transmitted and received in an unmodulated manner, but when the communication and the call channel are multiplexed, a modulation / demodulation circuit part for the call should be included in each generation device and the diagnostic device.

1 is a block diagram of a generation device according to an embodiment of the present invention when communication and a call channel are separated, and the operation according to the configuration and function will be described below. The microprocessor 100 is a part for communication and circuit control with other devices, and the communication channel interface (I / F) unit 110 is a signal driving and conversion circuit for transmitting and receiving a signal through a communication channel. The connection circuit 120 is a switching circuit for selectively connecting impedance matching and hand-set (HAND-SET) 130 or DTMF encoder 140 to N call channels through a call, and the DTMF encoder 140 receives the received diagnosis. It converts the DTMF signal corresponding to the unique number of its own generation device through the command of the diagnosis of the device failure. The key (KEY, 150) is the part for inputting the calling generation number or setting the device. Reference numeral 160 denotes a portion for generating a ringing ring.

In the case of a general incoming / outgoing call, the generation device enables the call by connecting the hand-set 130 to one of the N call channels allocated through the communication, if necessary, according to a signal transmitted and received through the communication channel. When the generation device receives a command for fault diagnosis from the diagnosis device through a communication channel, the microprocessor 100 corresponding to the controller drives the DTMF encoder 140 to generate a unique number of the own generation device (such as the apartment's dynamic, Layer, call number) is converted into the corresponding DTMF signal and transmitted to the designated communication channel through communication to output the response signal to the diagnostic device.

2 is a block diagram of a diagnostic device according to an embodiment of the present invention when communication and a call channel are separated, and the operation according to the configuration and function will be described below. The microprocessor 200 is a part for communication and circuit control with other devices, and the communication channel interface unit 210 is a signal driving and conversion circuit for transmitting and receiving a signal through a communication channel, and a communication line connection circuit 220 Is a switching circuit that connects impedance matching and selectively connects the handset (HAND-SET) 230 or DTMF decoder 240 to N talk channels, and the DTMF decoder 240 receives DTMF signals received through the talk channel. The key KEY 250 is for inputting a call generation number, device setting, etc., the speaker 260 is for receiving a ring, etc., and the LCD 270 displays a diagnosis result and various states. It is a display device for displaying.

In the case of a general incoming / outgoing call, the diagnostic device makes a call by connecting the handset 130 to one of the N call channels allocated through communication, if necessary, according to a signal transmitted and received through a communication channel like the generation device. In order to check the status of the call of the household managed by the diagnostic device, first, a command for requesting status notification is sent to the household device. At this time, the normal household device is assigned a call channel assigned a DTMF signal corresponding to its own number. Send to In this case, the diagnostic apparatus connects the DTMF signal received through the corresponding communication channel to the DTMF decoder 240 and inputs the decoded signal to the microprocessor 200. When the microprocessor 200 analyzes this signal and immediately receives the unique number of the generation to be diagnosed, the microprocessor 200 determines that the call path is normal and displays the normal state through the LCD 270, which is a display device. When no DTMF signal is received or abnormal DTMF data is received, an abnormal state of the call path is displayed on the LCD 270. The display device may use a personal computer instead of the LCD 270 to communicate with the microprocessor of the diagnostic apparatus through the RS-232C interface to display a result of the failure diagnosis.

On the other hand, Figure 3 shows a configuration diagram of a generation device according to the present invention when the communication and multiple communication channels are multiplexed through a single line as in the case of using a single coaxial line, it describes the operation according to the configuration and function Is as follows. The microprocessor 300 is a part for communication and circuit control with other devices, the communication channel modulator demodulator 310 is a modulation demodulator circuit for transmitting and receiving a fixed communication channel frequency signal, the call channel modulator demodulator 320 is voice A circuit part for performing a function of demodulating a signal or a DTMF signal into a corresponding call channel by a control signal input by the microprocessor 300, and the call path connection circuit 330 is a call impedance matching and a hand-set ( A switching circuit for selectively connecting the HAND-SET 340 or the DTMF encoder 350 to the call channel demodulation / demodulation unit 320, and the DTMF encoder 350 itself via a command relating to a fault diagnosis of the received diagnostic device. The part converts the DTMF signal corresponding to the unique number of the generation device of the, the key (KEY, 360) is for the call generation number input or device settings, etc., the speaker 370 is for incoming ring generation, etc. It is a part.

The microprocessor 300 of the generation device continuously performs communication operation with other devices by modulating and demodulating the communication channel frequency multiplexed on a single coaxial line through the communication channel modulation / demodulation unit 310. In the case of a general incoming / outgoing call, the generation device connects the handset signal to the call channel modulation / demodulation unit 320 through a call connection when necessary according to a signal transmitted and received through a communication channel. At this time, the voice signal through the handset 340 is modulated and demodulated into a call channel assigned through the call channel modulation / demodulation unit 320, and then multiplexed with other signals on a single coaxial line to allow a call. When the generation device receives a failure diagnosis command from the diagnostic device through the communication channel, the microprocessor 300 calls the DTMF encoder 350 instead of the handset 340 through the circuit connection circuit through the call channel modulation / demodulation unit 320. And the DTMF encoder 350 is driven to output a DTMF signal corresponding to a unique number (apartment, floor, call number of the apartment) to the call channel modulation / demodulation unit 320. The DTMF signal is modulated by one of the communication channels assigned through communication by the communication channel modulation / demodulation unit 320 and then multiplexed on a single coaxial line and transmitted.

4 is a block diagram of a diagnostic device according to the present invention when a communication and multiple call channels are multiplexed through a single line as in the case of using a single coaxial line. As follows. The microprocessor 400 is a part for communication and circuit control with other devices, the communication channel modulator 410 is a modulator demodulator circuit for transmitting and receiving a fixed communication channel frequency signal, the call channel modulator demodulator 420 is a voice A circuit part for performing a function of demodulating a signal or a DTMF signal into a corresponding call channel by a control signal input by the microprocessor 400, and the call path connecting circuit 430 is a call impedance matching and a hand-set ( A switching circuit for selectively connecting the HAND-SET 440 or the DTMF decoder 450 to the call channel modulation / demodulation unit 420, and the DTMF decoder 450 decodes the DTMF signal received through the call channel. , KEY 460 is for inputting call generation number or device setting, speaker 470 is for incoming ring generation, etc., LCD 480 is for displaying diagnosis result and various status It is a part.

The microprocessor 400 of the diagnostic apparatus continuously modulates and demodulates the communication channel frequency multiplexed on a single coaxial line through the communication channel modulation / demodulator 410 to continuously communicate with other devices. In the case of a general incoming / outgoing call, the diagnostic device connects the handset signal to the call channel modulation / demodulation unit 420 through a call connection circuit if necessary according to the signal transmitted and received through the communication channel. In this case, the voice signal through the handset 440 is modulated and demodulated into a call channel allocated through the call channel modulation / demodulation unit 420, and then multiplexed with other signals on a single coaxial line, thereby enabling a call. In order to check the status of the call of the household managed by the diagnostic device, first, a command for requesting status notification is sent to the household device. At this time, the normally operated household device is assigned to the call channel to which the DTMF signal corresponding to its own number is assigned. Modulate and transmit. In this case, the diagnostic device demodulates the corresponding communication channel, connects the received DTMF signal to the DTMF decoder 450, and inputs the decoded signal to the microprocessor 400. When the microprocessor 400 analyzes this signal and immediately receives a unique number of the generation to be diagnosed, the microprocessor 400 determines that the call path is normal and displays the normal state through the LCD 480, and the DTMF signal for a predetermined time. Is not received or if abnormal DTMF data is received, the abnormal state of the call path is displayed on the LCD 480. In addition, the display device may use a personal computer instead of the LCD 470 to communicate with the microprocessor of the diagnostic apparatus through the RS-232C interface to display a result of the failure diagnosis.

As described above, according to the present invention, by applying the DTMF transmission and reception method between the generation device and the diagnostic device (management room or guard room) by providing a device and method for automatically performing a failure diagnosis on the communication path by reducing the diagnostic time Convenience in using the function can be achieved.

Claims (4)

The channel of the unmanned security system, which consists of the household equipment installed in each household in the apartment and the diagnostic equipment that is installed in the guard room or the management room and diagnoses the status of the telephone and the telephone channel, is called dual tone multi-frequency (hereinafter referred to as DTMF). An apparatus for automatically diagnosing a fault using the apparatus comprising: a DMTF encoder for converting a DTMF signal corresponding to a unique number of a household device through a command on a fault diagnosis of a received diagnostic device; And a controller (microprocessor) which receives a command related to a failure diagnosis from the diagnostic device through a communication channel to drive the DTMF encoder, and transmits a DTMF signal output from the DTMF encoder to a designated communication channel through communication. The diagnostic device may include: a DTMF decoder for decoding a DTMF signal received through a corresponding communication channel; Call path of the unmanned security system using DTMF by analyzing the signal decoded by the DTMF decoder to determine whether there is an abnormality in the call path through the unique number of the generation to be diagnosed at present Automatic troubleshooting device. The personal computer as claimed in claim 1, wherein the diagnostic device further includes a display device for displaying the result of the diagnosis on a personal computer communicating with a controller of the intermediary device using an RS-232C interface. And a display device for displaying the result of the failure diagnosis. The unmanned security system, which consists of household equipment installed in each household in the apartment, and security equipment installed in the guard room or management room and diagnoses the status of the household telephone and the telephone line, automatically diagnoses the failure of the telephone line using DTMF. The method comprising: transmitting a failure diagnosis command requesting a status notification to the generation device by the diagnostic device; In the generation device, converting its own number into a DTMF signal through a DTMF encoder driven by a controller (microprocessor) and transmitting the DTMF signal to the assigned call channel; Connecting the DTMF signal received through the corresponding communication channel to the DTMF decoder; Inputting a signal decoded by the DTMF decoder to a controller (microprocessor) and analyzing the input signal to determine a state of a call of a generation to be diagnosed at present; How to troubleshoot over the phone. The method of claim 3, wherein the determining of the call path state determines that the call path state is normal when the unique number of the household to be diagnosed is immediately received, and displays it through the display means. Method for diagnosing a failure by a call of an unmanned security system using DTMF, characterized in that the abnormal state of the call is displayed through the display means when the received or abnormal DTMF data is received.