KR101937714B1 - Intelligent Connector Control Panel and Intelligent Connectors Line Management Methods Using Intelligent Connector Control Panel - Google Patents

Abstract

The present invention relates to an intelligent connector half-line management method using an intelligent connector control panel and an intelligent connector control panel. More particularly, the present invention monitors each line between a square ratio and a terminal equipment as shown in FIG. It can monitor the status of the line between the square ratio and the terminal equipments in real time by installing the intelligent connector panel which can check and manage the status, and can accept and real time monitor various kinds of channel-level (DS0) data interface lines, It enables to save the maintenance manpower, and it can generate alarms in case of abnormality by displaying various kinds of status information and remotely manage it, so that it can perform immediate processing and collect status information of equipment and line in real time To manage time-by-time history, It enables quick recovery and action, thereby reducing the maintenance cost. It also enables to prevent the failure by monitoring the state of the line between each equipment through the loopback function for each data control line from the beginning And an intelligent connector control panel and an intelligent connector control panel that allow an administrator to change configuration information from a remote place to a GUI via an Ethernet interface and to monitor the status and increase operating efficiency.

Description

TECHNICAL FIELD [0001] The present invention relates to an intelligent connector control board and an intelligent connector control board,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an intelligent connector half-line management method using an intelligent connector control panel and an intelligent connector control panel, and more particularly, And an intelligent connector control panel and an intelligent connector control panel in which an administrator connects to an intelligent connector panel through a control panel to check status information and input setting information.

In general, an intelligent connector control board (hereinafter, referred to as a 'control board') refers to a person responsible for controlling an intelligent connector board.

Conventionally, a communication line has been directly connected between an optical transmission equipment (hereinafter referred to as a 'square ratio') and a terminal equipment.

Therefore, if a problem occurs in the track, it is not possible to find the exact point. In the MDF terminal group, the manager directly notifies the user of the problem of the connected device or the track, and the ineffective management There is a problem that it requires a lot of time and manpower, and it is impossible to manage the history of the line at each time.

Published Patent Publication No. 1998-084807 Published Japanese Patent Application No. 10-2014-0127658

The problem to be solved by the present invention is to overcome the above problems, and it is an object of the present invention to provide an intelligent By installing a connector half, it becomes a dividing point between the optical transmission equipment and the terminal equipment, so that the state of the line can be monitored in real time.

Another problem to be solved by the present invention is to allow various types of channel-level (DS0) data interface lines to be accommodated and monitored in real time through the acceptance of various data interface lines, thereby saving maintenance manpower .

Another problem to be solved by the present invention is to enable an alarm to be generated when an abnormality occurs by remotely managing an abnormality through display of status information of various methods so that an immediate process can be performed.

Another object to be solved by the present invention is to provide a system and a method for monitoring the occurrence of a fault in detail by collecting the state information of equipment and a line in real time, It is possible to save.

Another problem to be solved by the present invention is to prevent a fault by monitoring the line status of each equipment from the beginning through a loopback function for each data control line.

Another problem to be solved by the present invention is that an administrator can change configuration information from a remote place through an Ethernet interface and monitor the status to increase the operation efficiency.

The present invention relates to an intelligent connector control panel, and more particularly, to an intelligent connector control panel in which the power supply panel normally supplies DC power to the control panel 1000 and the signal panel, whether the control panel 1100 itself operates normally, A status display unit 1100 for displaying the operation status so that the administrator can visually recognize the operation status; The status information of the signal panel, the control panel 1000, and the power supply panel, and the manager can use the terminal to confirm the status information and the line information produced by the processor 1300, A communication unit 1200 for transmitting the line information, receiving configuration information input by the administrator using the terminal or the like, and transmitting the control information calculated by the processing unit 1300 to the intelligent connector module; The status information received through the communication unit 1200 is converted into a DB and stored in the storage unit 1400 and information to be displayed on the status display unit 1100 is confirmed from the status information and displayed on the status display unit 1100 A processing unit (1300) for testing and confirming the data line through the loopback (1600) to generate the line information, calculating the control information using the setting information, and applying the control information to the intelligent connector half (1300); A storage unit 1400 for storing the status information DB rendered by the processing unit 1300, the setting information input by the administrator using the terminal, and the line information generated by the processing unit 1300; And a control unit (1000) for converting the DC power supplied from the power supply unit into a voltage required by the digital circuit so as to supply DC power to the digital circuit of the signal panel and the control panel (1000) And a power supply unit 1500 for supplying power.

At this time, the communication unit 1200 transmits the status information and the line information to the terminal so that the manager can confirm the status information and the line information through the RJ-45 terminal using the terminal or the like, An Ethernet 1210 receiving the setting information input through the RJ-45 terminal using the terminal or the like; The manager transmits the status information and the line information to the terminal so that the status information and the line information can be confirmed through the DSUB-9 terminal using the terminal or the like, An RS-232 (1220) receiving the setting information input through the -9 terminal; A TRCV (1230) for receiving the status information of the signal module and the power module, and transmitting the control information calculated by the processor module (1300) to the signal module and the power module; And a FIFO 1240 for sequentially transmitting information received from the TRCV 1230 to the CPU 1310 for processing in the CPU 1310.

At this time, the processing unit 1300 converts the status information received through the TRCV 1230 into a DB, stores the status information in the storage unit 1400, tests and confirms the data line through the loopback 1600, And displays information on the status display unit 1100 on the status display unit 1100. The administrator can use the terminal 1210 or the RS-232 A CPU (1310) for calculating the setting information transmitted through the controller (1220) as the control information and applying the control information to the intelligent connector panel; And an RTC 1320 for transmitting the current time to the CPU 1310 in real time so that the CPU 1310 processes the signals received from the communication unit 1200 without a time error.

The present invention also provides an intelligent connector semi-management method using an intelligent connector control panel, comprising the steps of: (A) checking a component function of the entire intelligent connector module through the processing unit 1300; (B) receiving the status information of the intelligent connector module in real time via the TRCV (1230) and storing the status information in the storage unit (1400) through the processing unit (1300); And (C) confirming the status information of the processing unit 1300 and the storage unit 1400 and the circuit information via the Ethernet 1210 or the RS-232 1220 using the terminal, And managing the data.

(E) the administrator inputs the setting information through the Ethernet 1210 or the RS-232 1220 using the terminal and stores the input information in the storage unit 1400; And (F) applying the control information calculated by the processing unit 1300 using the setting information to the intelligent connector half.

According to the present invention, it is possible to monitor the state of the line between the optical transmission equipment and the terminal equipment in real time by installing an intelligent connector panel which monitors the line between the optical transmission equipment and the terminal equipment, .

In addition, according to the present invention, various types of channel-level (DS0) data interface lines can be accommodated and monitored in real time, thereby reducing maintenance manpower.

In addition, according to the present invention, there is an effect that an alarm can be generated in the event of occurrence of an abnormality, and remote management can be performed immediately.

In addition, according to the present invention, it is possible to quickly recover and measure the trouble by tracking the fault occurrence elements in detail by collecting the status information of the equipment and the line in real time and managing the line and equipment history by time, It is possible to reduce the cost of the system.

In addition, according to the present invention, there is an effect of preventing a failure by monitoring the state of a line between each equipment from the beginning by loop-backing the data control line for each section.

In addition, according to the present invention, an administrator can change the configuration information remotely via a GUI method using an Ethernet interface and monitor the status, thereby increasing the operational efficiency.

1 is a block diagram illustrating an intelligent connector module in accordance with an embodiment of the present invention.
2 is a block diagram illustrating an intelligent connector control panel according to an embodiment of the present invention.
3 is a block diagram illustrating a detailed configuration of an intelligent connector control panel according to an embodiment of the present invention.
FIG. 4 is a block diagram illustrating an intelligent connector panel to which a detailed configuration of an intelligent connector control panel according to an embodiment of the present invention is applied.
5 is a block diagram showing an installation position of an intelligent connector panel according to an embodiment of the present invention.
FIG. 6 is a flowchart illustrating an intelligent connector half-line management method using an intelligent connector control panel according to an exemplary embodiment of the present invention.
7 is a flowchart illustrating an operation of inputting setting information of an intelligent connector half-line management method using an intelligent connector control panel according to an exemplary embodiment of the present invention.

Before describing the specific details for the practice of the invention, terms and words used in the specification and claims should be construed to enable the inventor to properly define the concept of a term in order to best describe its invention The present invention is not limited thereto.

It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

The intelligent connector control panel according to the preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 5. FIG.

1 is a block diagram illustrating an intelligent connector module in accordance with an embodiment of the present invention.

As shown in Figure 1, an embodiment of a preferred configuration of the intelligent connector half is a power supply half, a control board 1000 and a signal half.

At this time, the preferred embodiment of the power supply unit converts the input power to the control panel 1000 and converts it into -48 V DC power.

The preferred embodiment of the signaling module supports at least one of RS-232, RS-422, RS-485, V.35, 2W E & M, 4W E & M, and OCUDP to support various data interfaces, It also supports data interfaces that are technically similar or compatible with any of these.

2 is a block diagram illustrating an intelligent connector control panel according to an embodiment of the present invention.

2, the intelligent connector control board according to the preferred embodiment of the present invention controls whether or not the power supply unit normally supplies the DC power to the control panel 1000 and the signal panel, whether the control panel 1100 itself operates normally, A status display unit 1100 for displaying the status of the signal panel so that the administrator can visually recognize whether the signal panel is operating normally, the status information of the signal panel, the control panel 1000 and the power supply panel, The processing unit 1300 transmits the status information and the line information to the terminal so that the line information produced by the processing unit 1300 can be confirmed, the setting information input by the administrator using the terminal, A communication unit 1200 for transmitting the control information calculated in the communication unit 1200 to the intelligent connector half; And displays the information on the status display unit 1100. The control unit 1100 tests and confirms the data line through the loopback 1600 to display the line information A processing unit 1300 for calculating the control information by using the setting information and applying the control information to the intelligent connector half, the status information converted into a DB in the processing unit 1300, And a controller 1400 for controlling the power supply to supply the DC power to the digital circuits of the signal panel and the control panel 1000, And a power supply unit 1500 that converts the DC power supplied from the panel into a voltage required by the digital circuit and supplies power to the signal panel and the control panel 1000 It is.

At this time, the preferred embodiment of the status display unit 1100 allows the administrator to visually confirm the color of the light during the normal operation and the abnormal operation by using the LED lamp or the light emitting device .

In this case, the preferred embodiment of the storage unit 1400 uses a nonvolatile memory series to continuously store the status information, the setting information, and the constant line information without being volatile.

At this time, the preferred embodiment of the status information is most of the status information to be checked if the module is for a connector module such as a power supply module, a control panel, and a signal module.

In this case, the preferred embodiment of the setting information is various information for the manager to electronically control the operation environment of the power source half, the control panel, and the signal half and the signal half through the terminal.

In this case, the preferred embodiment of the line information is most various information that the administrator should check if the line is a communication line such as whether the line of the signal line is normally operating and whether data flowing in the line is erroneous.

Also, at this time, the preferred embodiment in which the processing unit 1300 calculates and applies the control information from the setting information converts the electric and electronic signals into electric and electronic signals that can affect the configuration of each of the intelligent connector modules, So as to influence the operation of the respective components.

FIG. 4 is a block diagram illustrating an intelligent connector panel to which a detailed configuration of an intelligent connector control panel according to an embodiment of the present invention is applied.

4, a preferred embodiment of the power supply unit 1500 includes a power supply half which is the entire configuration of the intelligent connector half, a control panel 1000, The power is supplied and converted to DC power of + 5V and + 3.3V, the + 5V DC power is supplied to the signal panel, and the + 5V and + 3.3V DC power is supplied to the control panel.

3 is a block diagram illustrating a detailed configuration of an intelligent connector control panel according to an embodiment of the present invention.

As shown in FIG. 3, the communication unit 1200 of the intelligent connector control panel manages the state information and the line information through the RJ-45 terminal using the terminal, And an Ethernet (1210) for transmitting the line information and receiving the setting information input by the administrator through the RJ-45 terminal using the terminal or the like, And transmits the status information and the line information to the terminal so that the status information and the line information can be confirmed through the DSUB-9 terminal, The control unit 1300 receives the control information from the signal unit and the power supply unit, It comprises a half and TRCV (1230) and a FIFO (1240) for transmitting to the CPU (1310) receives the information received by the TRCV (1230) in order to process in the CPU (1310) for transmitting the power in half.

At this time, a preferred embodiment in which the manager transmits and receives the status information, the line information, and the setting information using the terminal or the like includes various kinds of information that the administrator can confirm and input the information, such as Telnet, Web, Interface.

In this case, the preferred embodiment of the status information, the line information, and the setting information that the administrator transmits and receives using the terminal or the like stores the past information and the like as information already stored in the real time and storage unit 1400 It is all the information from the specific point in time to the present.

3, the processing unit 1300 of the intelligent connector control panel converts the status information received through the TRCV 1230 into a DB, stores the status information in the storage unit 1400, and transmits the state information via the loopback 1600 The line information is generated by testing and confirming the data line, the information to be displayed on the status display unit 1100 is confirmed in the status information and displayed on the status display unit 1100, A CPU 1310 for calculating the setting information received through the Ethernet 1210 or the RS-232 1220 as the control information and applying the control information to the intelligent connector panel, And an RTC 1320 for transmitting the current time to the CPU 1310 in real time in order to process signals received from the communication unit 1200 without a time error.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an intelligent connector half-line management method using an intelligent connector control panel according to a preferred embodiment of the present invention will be described in detail with reference to FIGS.

FIG. 6 is a flowchart illustrating an intelligent connector half-line management method using an intelligent connector control panel according to an exemplary embodiment of the present invention.

First, as shown in FIG. 6, a component function of the entire intelligent connector group is checked through the processing unit 1300 (S601).

Next, the status information and the line information of the intelligent connector module are received in real time via the TRCV 1230 and stored in the storage unit 1400 through the processing unit 1300 (S602).

Next, the status information and the line information of the processing unit 1300 and the storage unit 1400 are checked and confirmed by the administrator using the terminal or the like via the Ethernet 1210 or the RS-232 1220, (S603).

At this time, the preferred embodiment of the step S601 is to check whether the operation of the power supply panel, the control panel 1000 and the signal panel, the mutual information transmission thereof, and the signal line of the intelligent connector panel are normal.

At this time, the preferred embodiment of the status information in step S602 is most of the status information to be checked if the module is for the connector half, such as power supply of the power supply panel, the control panel, and the signal panel.

In this case, the preferred embodiment of the setting information in step S602 is various information for the manager to electronically control the operation environment of the power source half, the control board, and the signal half and the signal half through the terminal.

In this case, the preferred embodiment of the line information in step S602 is most of various information that the administrator should check if the line is a communication line such as whether the line of the signal line is normally operating and whether data flowing on the line is in error .

In this case, the preferred embodiment of the status information and the line information in the step S603 is the information already stored in the real time and storage unit 1400, Information.

7 is a flowchart illustrating an operation of inputting setting information of an intelligent connector half-line management method using an intelligent connector control panel according to an exemplary embodiment of the present invention.

7, the administrator first inputs the setting information through the Ethernet 1210 or the RS-232 1220 using the terminal or the like (step S603) And stores it in the storage unit 1400 (S704).

Next, the processing unit 1300 applies the control information calculated using the setting information to the intelligent connector module (S705).

In addition, a preferred embodiment for inputting the setting information of the step S704 is various interfaces through which the manager can confirm and input the information such as Telnet, Web, and a dedicated program.

In addition, a preferred embodiment for calculating and applying the control information from the setting information in step (S705) converts the electrical information into electrical and / or electronic signals that can affect the configuration of each of the intelligent connector modules, So as to influence the operation of the respective components.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications can be made without departing from the invention. Accordingly, all such modifications and variations are intended to be included within the scope of the present invention.

1000: Intelligent connector control board
1100: Status indicator
1200:
1210: Ethernet
1220: RS-232
1230: TRCV
1240: FIFO
1300:
1310: CPU
1320: RTC
1400:
1500:

Claims (5)

In an intelligent connector control panel,
A status display unit 1100 for indicating whether the power supply unit normally supplies the DC power to the control panel 1000 and the signal panel, whether the control panel 1100 itself operates normally, and whether the signal panel is normally operated, );
The status information of the signal panel, the control panel 1000, and the power supply module, and the administrator can confirm the status information and the line information produced by the processor 1300 using the terminal, A communication unit 1200 for transmitting the line information, receiving configuration information input by the administrator using the terminal, and transmitting the control information calculated by the processing unit 1300 to the intelligent connector module;
The status information received through the communication unit 1200 is converted into a DB and stored in the storage unit 1400 and information to be displayed on the status display unit 1100 is confirmed from the status information and displayed on the status display unit 1100 A processing unit (1300) for testing and confirming a data line through a loopback to generate the line information, calculating the control information using the setting information, and applying the control information to the intelligent connector half (1300);
A storage unit 1400 for storing the status information DB rendered by the processing unit 1300, the setting information input by the administrator using the terminal, and the line information generated by the processing unit 1300; And
The control unit 1000 converts the DC power supplied from the power supply unit to a voltage required by the digital circuit to supply the DC power to the signal panel and the digital circuit of the control panel 1000 and supplies power to the signal panel and the control panel 1000 A power supply unit 1500 for supplying power;
And an intelligent connector control board.
The method according to claim 1,
The communication unit 1200
The manager transmits the status information and the line information to the terminal so that the status information and the line information can be confirmed through the RJ-45 terminal using the terminal, and the manager transmits the status information and the line information to the RJ- An Ethernet (1210) receiving the setting information input through a terminal;
The manager transmits the status information and the line information to the terminal so that the status information and the line information can be confirmed through the DSUB-9 terminal by using the terminal, and the manager transmits the status information and the line information to the DSUB- An RS-232 1220 receiving the setting information input through a terminal;
A TRCV (1230) for receiving the status information of the signal module and the power module, and transmitting the control information calculated by the processor module (1300) to the signal module and the power module; And
A FIFO 1240 for sequentially transmitting information received from the TRCV 1230 to the CPU 1310 in order to process the information in the CPU 1310;
And an intelligent connector control board.
The method according to claim 1,
The processing unit 1300
The status information received through the TRCV 1230 is converted into a DB and stored in the storage unit 1400 and the line information is generated by testing and confirming the data line through the loopback to display the status information on the status display unit 1100 And displays the setting information on the status display unit 1100. The manager transmits the setting information received through the Ethernet 1210 or the RS-232 1220 using the terminal to the control information A CPU (1310) for calculating and applying the control information to the intelligent connector group; And
An RTC 1320 for transmitting the current time to the CPU 1310 in real time in order for the CPU 1310 to process signals received from the communication unit 1200 without a time error;
And an intelligent connector control board.
delete delete

Images