KR20010045743A - A Fiber Test Control Unit of Fiber Line Operation and Monitor System - Google Patents

Abstract

PURPOSE: An apparatus for controlling optical test in an optical fiber operating and monitoring system is provided to couple each functional units constructing an optical monitor operating part and a remote optical monitoring part. CONSTITUTION: A reset part(310) delivers reset signal from operator. An alarm and control signal inputting part(320) receives and transmits alarm signal and control signal for a remote optical monitoring part. The first serial communicating part(330) transmits control commands to the units executing selection function of optical fibers and receives states information of the optical fibers. The second serial communication part(340) is coupled with optical test unit, exterior terminal apparatus and alarm collecting unit and transmits and receives measurement command and value and alarm signal. A LAN connecting part(350) connects an optical monitor operating part via LAN. A main controller(360) transmits control commands from the optical monitor operating part to each functional units and control results from the each units to the optical monitor operating part.

Description

A fiber test control unit of fiber line operation monitoring system

The present invention relates to an optical test control device in an optical fiber operation monitoring system, and more particularly, to an optical monitoring operation unit and a remote control system in an optical optical fiber operation monitoring system for maintenance of an idle core of an optical cable line and an operation core wire connected to the optical transmission device. The present invention relates to an optical test control device which is connected to an optical monitoring unit, performs an optical fiber test and analysis function, and processes optical fiber information.

FIG. 1 is a schematic diagram of a light path operation monitoring system 100, which includes a light monitoring operation unit 110 and one or more remote light monitoring units 120.

The optical fiber operation monitoring system 100 is responsible for optical test and facility management functions for supporting an efficient maintenance service of the optical cable facility, and is widely applied to optical fiber between domestic and overseas stations. The optical fiber operation monitoring system 100 performs functions such as an optical cable installation test, an optical cable aging and cutting test, an optical fiber remote test for measuring optical fiber splice loss and total loss, and a broken position determination of the optical cable. .

At this time, the optical monitoring operation unit 110 is located in the operation center to manage the remote optical monitoring unit 120 in its management area, and plays a role of managing the test control and test results and facility information for the optical path. . In addition, the remote optical monitoring unit 120 is a test apparatus installed in a telephone station called a remote station, and performs the role of testing the characteristics of the optical path.

The general remote light monitoring unit 120 is configured as a plurality of functional units.

These functional units include a power distribution board, a power supply unit, an alarm concentration unit, an optical test unit, a modular optical fiber selector and its control unit, a self optical optical fiber selector and its control unit, and the optical monitoring operation unit 110. Can be controlled remotely.

Among the components constituting the remote light monitoring unit 120, the power distribution panel distributes power to each unit of the remote light monitoring unit 120, and drives the visible / audible alarm when the power and the device is abnormal It performs the function.

The power supply supplies power to each functional unit, which usually consists of two, forming a redundant structure.

The optical test unit performs functions such as measuring the state of the optical path, averaging the measurement data regarding the optical path.

On the other hand, for the inspection of the optical path used for communication, test light having a wavelength different from that of the communication light should be incident on the optical path along with the communication light. In this case, a device for providing an optical path between the test light and the corresponding optical line by connecting the optical core line from which the test light is emitted to the optical core for measurement object is needed. It is a core selector.

The optical fiber selector includes a modular fiber optic fiber selector and a self-optical fiber optic fiber selector. The modular fiber optic fiber optic fiber selector and the self-optical fiber optic fiber cable selector are not only used to transfer the fiber for the test light into the corresponding fiber, but also a single fiber core. By connecting the to any one of the plurality of optical cores, it is a widely used device where you want to configure the optical path between the two optical cores.

The modular fiber optic selector control unit is a unit for controlling the modular fiber optic fiber selector, and the self-optical fiber optic fiber selector control unit is a unit for controlling the self-optic fiber optical fiber selectors. The optical fiber selector is mounted.

Meanwhile, in order to efficiently manage such a remote light monitoring unit, each of the self and the functional units are controlled under the control of the light monitoring unit 110, and the state information is collected and transferred to the light monitoring unit 110. It needs a device to perform the function.

Accordingly, the present invention has been devised to meet the needs as described above, is used in the optical fiber operation monitoring system 100, by connecting the light monitoring unit 110 and the remote light monitoring unit 120 remote light monitoring unit It is responsible for the operation of 120 and the operation control of the respective functional units, and the measurement control and measurement information collection of the optical fiber to be measured, which is the main function of the remote optical monitoring unit 120, control the switching of the optical core, It is an object of the present invention to provide an optical test control apparatus in an optical fiber operation monitoring system, which is a device for providing a communication interface environment with the 110.

In order to achieve the above object, the optical test control device in the optical path operating monitoring system according to the present invention includes a reset unit for receiving and transmitting a reset signal from the operator; An alarm and control signal input unit configured to receive and transmit an alarm signal indicating abnormal operation of the remote light monitor and a control signal for controlling the remote light monitor; A first serial communication unit which is used in the remote optical monitoring unit to transmit a control command for units performing an optical fiber selection function or to receive status information of the optical fiber; The remote optical monitoring unit is connected to an external terminal device, and is connected to an optical test unit, which is an apparatus for inspecting optical cores, used for the remote optical monitoring unit, to exchange measurement commands and measurement values, and further, to the remote optical monitoring unit. A second serial communication unit which is used to connect with an alarm intensive unit which is in charge of intensive processing of the alarm signal and transmit and receive an alarm signal; A LAN connection unit for connecting the optical monitoring operation unit managing the remote optical monitoring units through a LAN; And a function of connecting to the reset unit, the alarm and control signal input unit, the first serial communication unit, the second serial communication unit, and the LAN connection unit to send a control command to the corresponding function unit according to the control command received from the optical monitoring operation unit. And a main control unit for transmitting a control result received from the functional units to the optical monitoring operation unit, and a main control unit for transmitting an interrupt signal to the optical monitoring operation unit when receiving an interrupt signal from the alarm concentration unit.

1 is a schematic diagram of an optical fiber operation monitoring system;

2 is a configuration diagram of a remote light monitoring unit;

3 is a configuration diagram of an optical test control device;

4 is a flowchart illustrating the operation of the optical test control device when the control command is received from the optical monitoring operation unit;

5 is a flowchart illustrating the operation of the optical test controller when the control result is received from the functional units of the remote optical monitoring unit;

6 is a flowchart illustrating the operation of the optical test control device when an interrupt is generated from the alarm concentrating device.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

2 is a configuration diagram of a remote optical monitoring unit in which the present invention is used, and includes an alarm concentration unit 212, an optical test unit 213, a control unit 214 of a modular optical line selector, and a control unit of a self-type optical line selector. All of the 220 is controlled by the optical test control device 211 according to the present invention, the operation results of each functional unit (212, 213, 214, 220) is transmitted to the light monitoring operation unit 110 through the optical test control device 211. do.

3 is a configuration diagram of an optical test control device, which includes a reset unit 310, an alarm and control signal input unit 320, a first serial communication unit 330, a second serial communication unit 340, a LAN connection unit 350, and It consists of the main control unit 360.

The main controller 360 again includes a central processing unit 361, a memory 362, a boot ROM 363, a flash ROM 364, and a real time clock (RTC) supply unit 365. A preferred embodiment of the processing unit 361 is to use a microprocessor having a serial communication channel (SCC) function, to provide an application developer with an improved working environment and to perform fast data processing and stable operation. In order to provide the operating environment for VRTXsa 4. Microtec's Real Time Operating System.

The memory 362, the boot ROM 363, the flash ROM 364, and the real-time clock supply unit 365 are connected to the CPU 361 through the data bus and the address bus of the CPU 361. At this time, the memory 362 is configured using a DRAM, and is a place for temporarily storing data appearing in the operation of the optical test control device 211.

In addition, the boot ROM 363 is a component for permanently storing a program required for the operation of the optical test control device 211, the CPU 361 is a program stored in the boot ROM 363 at the initial time of operation Start up with reference to the data. On the other hand, the flash ROM 364 is used to store the application program of the optical test control device 211, the real-time clock supply 365 delivers real-time clock information to the central processing unit 361, seconds, minutes, It allows you to manage real-time data including time, day, day, month and year.

The reset unit 310 is a component for transmitting a reset signal for initializing the main control unit 360, and preferably a reset input by an operator using a reset switch provided outside the optical test control device 211. Receive the signal to reset the central processing unit 361.

The alarm and control signal input unit 320 receives a signal indicating that the optical test unit 213 is not operating and necessary alarm signals and control signals such as a room / separation alarm signal of each functional unit of the remote optical monitoring unit 120. It delivers this to the CPU 361. These signals are displayed on the external terminal through the central processing unit 361 to report the current status to the operator, or the optical monitoring operation unit 110 through the LAN connection unit 350.

The first serial communication unit 330 is a component that allows the central processing unit 361 to send and receive data between the modular fiber optic selector control unit 214 and the self-optical fiber optic selector control unit 220. Preferably they are connected to each other via RS485 serial communication.

That is, the optical test control device 211 may transmit a control signal for each optical line selector through the first serial communication unit 330, or may report the operation / test state result of the optical line from the optical line selectors.

The second serial communication unit 340 allows the central processing unit 361 to exchange data with the terminal device, the optical test unit 213, and the alarm concentration unit 212 that are outside the optical test control device 211. As a component, preferably it provides a RS-232C serial communication function to connect to each other.

That is, since the optical test control device 211 is connected to a local remote access terminal (RAT) through the second serial communication unit 340, the operator can connect to the optical test control device 211 through this terminal device. It becomes possible. In addition, a measurement command may be transmitted to the optical test unit 213 or the measurement value may be received from the optical test unit 213 and transmitted to the optical monitoring unit 110, and a preliminary serial communication path may be provided. When the optical test unit 213 having abnormal operation is found, the control signal for initialization is sent to the optical test unit 213.

At this time, when the CPU 361 detects an external interrupt signal transmitted from the alarm concentration unit 212, the CPU processes the alarm in a manner of performing a corresponding interrupt routine, and the optical monitoring unit through the LAN connection unit 350. Report to (110).

The LAN connection unit 350 is a component that allows the optical test control device 211 to exchange data with the optical monitoring operation unit 110 through a LAN.

That is, the LAN connection unit 350 provides an Ethernet communication function to the optical test control device 211, thereby providing an alarm and control signal input unit 320, a first serial communication unit 330, and a second serial communication unit 340. Report the information received to the central processing unit 361 to the optical monitoring operation unit 110, or to send the control signals indicated by the optical monitoring operation unit 110 to each functional unit. This means interworking function with other system.

4 is a flowchart illustrating the operation of the optical test controller when the control command is received from the optical monitoring operation unit. When the optical test control unit 211 receives the control command from the optical monitoring operation unit 110 through the LAN connection unit 350 ( In step S410, the CPU 361 analyzes this command (step S420). After the control command selects the electrolyte functional unit (step S430), the control command is sent through the first serial communication unit 330 or the second serial communication unit 340 (step S440).

5 is an operation flowchart of the optical test control device in the case of receiving control results from the functional units of the remote optical monitoring unit, wherein the optical test control device 211 includes the optical test unit 212 and the modular optical core selector control unit 214. ) And when the data on the control result is received from the self-type optical fiber selector control unit 220 (step S510), the control result is transmitted to the optical monitoring operation unit 110 through the LAN connection unit 350 (step). S520).

6 is an operation flowchart of the optical test control device when an interrupt occurs from the alarm concentrating device. When the optical test control device 211 receives an interrupt signal from the alarm concentrating device 212 through the second serial communication unit 340, FIG. (Step S610), the central processing unit 361 performs the interrupt routine and sends this interrupt to the optical monitoring operation unit 110 via the LAN connection unit 350 (step S620).

According to the present invention, in the optical line operating monitoring system for the maintenance of the idle core of the optical cable line and the operating core connected to the optical transmission device, it is possible to efficiently connect between each functional unit constituting the optical monitoring operation unit and the remote optical monitoring unit. It can give an effect.

Claims (1)

An optical test control device installed at a remote location and used in a remote light monitoring unit for testing the characteristics of a light path, and managing the functional units of the remote light monitoring unit, A reset unit for receiving and transmitting a reset signal from an operator; An alarm and control signal input unit configured to receive and transmit an alarm signal indicating abnormal operation of the remote light monitor and a control signal for controlling the remote light monitor; A first serial communication unit which is used in the remote optical monitoring unit to transmit a control command for units performing an optical fiber selection function or to receive status information of the optical fiber; The remote optical monitoring unit is connected to an external terminal device, and is connected to an optical test unit, which is an apparatus for inspecting optical cores, used for the remote optical monitoring unit, to exchange measurement commands and measurement values, and further, to the remote optical monitoring unit. A second serial communication unit which is used to connect with an alarm intensive unit which is in charge of intensive processing of the alarm signal and transmit and receive an alarm signal; A LAN connection unit for connecting the optical monitoring operation unit managing the remote optical monitoring units through a LAN; And A function of connecting the reset unit, the alarm and control signal input unit, the first serial communication unit, the second serial communication unit, and the LAN connection unit to send a control command to the corresponding function unit according to a control command received from the optical monitoring operation unit; A control unit for transmitting the control results received from the units to the optical monitoring operation unit, and a main control unit for transmitting an interrupt signal to the optical monitoring operation unit when receiving an interrupt signal from the alarm concentration unit. Optical test control device in surveillance system