KR100255811B1 - Flc-c - Google Patents

Abstract

PURPOSE: A method for managing the loading/unloading of HDT component units for an HDT shelf in an FLC-C(Fiber Loop Carrier-Curb) system is provided to manage the loading/unloading status of HDT component units, among the operations of an FLC-C system. CONSTITUTION: An FLC-C system checks whether fifteen seconds have passed since an arbitrary HDT component unit was installed in an HDT shelf(S210). If fifteen seconds have passed since the arbitrary HDT component unit was installed, the FLC-C system downloads provision information to the unit(S230). However, in case that fifteen seconds haven't passed yet, the FLC-C system checks whether an HDT component unit, of which the loading/unloading status has been changed, exists(S220). If such a unit exists, the FLC-C system checks whether the unit keeps loaded or unloaded at present(S240). If the unit keeps disconnected, the FLC-C system outputs a warning message(S250) and lights up an alarm LED(S260). However, in case that the unit is in the loaded state, the FLC-C system releases the warning state and waits until necessary provision information is received(S270).

Description

Method of managing constituent units of HDT for a HDT shelf in Fiber Loop Carrier-Curb system

The present invention relates to an HDT construction unit detachment / mounting management method for an HDT self in a FLC-C system. In particular, a demand-intensive optical subscriber transmission device (Fiber Loop Carrier-Curb System: hereinafter referred to as a FLC-C system) In this regard, the present invention relates to a method for managing the detachment / mounting state of each unit by determining whether each unit constituting the host digital terminal (HDT) is actually mounted with an HDT shelf.

FLC-C system is installed in telephone station, connects DS1 (E) signal and ATM-based broadband signal delivered from broadband switching network, integrates and multiplexes to synchronous digital level, and transmits optically to the station device and its reverse function. It is installed in distribution centers of dense residential areas such as HDT and apartment complexes, which perform the function of separating each subscriber signal from the optical signal received from HDT according to the service, and providing the subscriber with the function of reverse function. FTTC (Fiber To The Curb) type service delivery platform composed of Optical Network Unit (ONU) .In order to provide telephone and video service to subscribers, HDT to ONU transmits data related to service through optical fiber, Each subscriber from ONU uses standard telephone lines to deliver standard telephone and digital services.

1 is a block diagram of the HDT Self 100, and receives four STM-1 (Synchronous Transport Module-1) signals from the MCU 110 and the ATM switch that perform control operations for the units in the HDT. Connection between two ATRUs (120: ATM Transmit / Receive Unit), HDT and ONU, which handles the overhead contained in the STM-1 signal, extracts the ATM cell, sends it to the OTRU, and vice versa. Eight OTRUs (130: Optical Transmit / Receive Unit) in charge of the fault, main clock supply unit (CLK A) and main clock supply unit (CLK A) supplying the necessary clocks to each unit in the HDT. Clock supply unit 140, which consists of a spare clock supply unit (CLK B) used as a cost, eight GR units 150 that receive DS1E signals and send them to the OTRU for processing the ATM cells, and ATM cells for receiving DS1 signals. It consists of one DS1L unit 160 to send to the OTRU.

Each unit constituting the HDT Self 100 is manufactured in a board shape for easy management, maintenance, and repair, and is individually mounted on the HDT Self 100 while the FLC-C system continues to operate, or Since it may be detached from the shelf 100, there is a need to manage the detachment / mounting state of each unit during the operation of the FLC-C system.

Accordingly, the present invention has been made to meet the above needs, and provides a method for managing the detachment / mounting state of the HDT component units during operation of the FLC-C system.

In order to achieve the above object, in the FLC-C system according to the present invention, the HDT configuration unit detachment / mounting management method for the HDT self is any set time after any HDT configuration unit is mounted on the HDT self. A first investigation step of investigating whether elapsed time; Downloading the provisioning information to the unit if the setting time has elapsed since the unit is mounted on the HDT self; A second irradiation step of investigating whether a unit having a changed seal / hernia state exists for each of the units constituting the HDT shelf after the unit is mounted on the HDT shelf; A third irradiation step of checking whether the unit is currently mounted or hernias if a unit having a changed seal / hernia state exists as a result of the irradiation in the second irradiation step; An alarm for this state if the unit is hernia as a result of the investigation in the third irradiation step; And if the corresponding unit is mounted as a result of the investigation in the third investigation step, canceling the alarm state and waiting to receive provision information required for the operation of the unit.

1 is a configuration diagram of the HDT Self,

2 is a flowchart illustrating a method for managing an HDT component unit removal / mounting for an HDT self in the FLC-C system according to the present invention.

* Explanation of symbols for main parts of the drawings

100: HDT Self

Hereinafter, the present invention will be described in detail with reference to FIG. 2.

FIG. 2 is a flowchart illustrating a method of managing an HDT component unit detaching / mounting for an HDT self in the FLC-C system according to the present invention. During operation of the HDT self 100, the units are periodically removed / mounted. It is common to check whether the information has been changed, and information on the unloading / mounting status of each unit is stored in the unloading / mounting status register of the MCU 110.

First, in step S210, it is checked whether 15 seconds have elapsed after any HDT component unit is mounted on the HDT shelf 100. At this time, the time interval of 15 seconds is for stabilizing the remounted unit.

If, as a result of the investigation in step S210 above, 15 seconds elapse after the unit is mounted on the HDT Self 100, provision information is downloaded to the unit (step S230). This provision information means various kinds of information for operating the mounted unit normally.

As a result of the investigation in step S210, if 15 seconds have not elapsed since the unit is mounted, it is examined whether there are any units in which the seal / heral state has changed for each unit of the HDT Self 100, and then the seal / hernia If there is no unit whose state has changed, the process from step S210 described above is repeated (step S220).

As a result of the above investigation in step S220, if there is a unit in which the seal / hernia state has changed, it is checked whether the unit is currently mounted or hernia (step S240).

As a result of the determination in step S240, if the unit is removed, a warning message is output. Among the units mounted on the HDT Self 100, if a failure occurs, such as a clock supply device 140, the unit is a spare unit. There is also a unit capable of switching, so that it is classified, an emergency alarm is outputted when switching is impossible, and a general alarm is outputted when switching is possible (step S250).

At this time, if any GR unit 150 is in the hernia state, the ATRU is commanded to generate a Remote Defect Indication (RDI), and if any ATRU 120 is in the hernia state, the GR unit 150 is issued. Command to generate Alarm Indication signal (AIS).

In step S260, when the alarm is output in step S250, the alarm LED is turned on. At this time, a red LED is turned on when an emergency alarm is output, and a yellow LED is turned on when a general alarm is output.

As a result of the determination in step S240, if the unit is mounted, it releases the alarm state issued, turns off the LED which is on, and waits for reception of provisioning information necessary for the operation of the unit.

At this time, if any GR unit 150 is remounted, the ATRU is instructed to cancel generation of Remote Defect Indication (RDI), and if any ATRU 120 is remounted, the GR unit Instructs 150 to cancel the generation of an Alarm Indication signal (AIS).

By using the HDT configuration unit detachment / mounting management method for the HDT self in the FLC-C system according to the present invention, while the HDT self 100 is operating, the detachment / mounting state of each unit constituting the HDT is smoothly performed. Because it can be managed easily, it is effective to provide quality services to subscribers of the FLC-C system.

Claims (1)

A first irradiation step of examining whether any set time has elapsed after any HDT configuration unit is mounted on the HDT shelf 100; Downloading the provisioning information to the unit if the setting time has elapsed after the unit is mounted on the HDT Self 100; A second step of investigating whether a unit having a changed seal / hernia state exists for each of the units constituting the HDT shelf 100 after the setting time has not passed since the unit is mounted on the HDT shelf 100; Investigation step; A third irradiation step of checking whether the unit is currently mounted or hernias if a unit having a changed seal / hernia state exists as a result of the irradiation in the second irradiation step; An alarm for this state if the unit is hernia as a result of the investigation in the third irradiation step; And If the corresponding unit is mounted as a result of the investigation in the third investigation step, the alarm state is released, and the provision of the provisioning information required for the operation of the unit comprises the step of FLC- HDT configuration unit removal / mounting management method for HDT self in C system.

Images