KR20000032946A - Dual optic transceiver of dslam uplink shelf interface board - Google Patents

Abstract

PURPOSE: A dual optic transceiver of DSLAM(Digital Subscriber Line Access Multiplexer) uplink shelf interface board is provided to improve the reliability and stability of system by detecting the error and transferring automatically to a spare optic transceiver in case that an error is generated in the optic transceiver. CONSTITUTION: A main optic transceiver(300) receives an optical signal for ATM(Asynchronous Transfer Mode) cell from an ATM exchange. A central processing unit(200) generates a control signal to transfer an STM-1 line to a spare optic transceiver(400) if an interrupt is caused in a dual intermediation part(100). The dual intermediation part intermediates between the main optic transceiver(300) and the spare optic transceiver(400) according to the control of the central processing unit(200). The spare optic transceiver(400) transferred according to the control of the dual intermediation part(100) replaces the function of the main optic transceiver(400).

Description

Redundant optical transmitter and receiver of DSL uplink interface board

The present invention relates to a Digital Subscriber Line Access Multiplexer (DSLAM) of an Asymmetric Digital Subscriber Line System (ADSL), and in particular, an uplink shelf interface for interfacing a DSLAM and an ATM switch. The present invention relates to a redundant optical transmission / receiving apparatus of a DS uplink interface board that implements an optical transceiver of a USIB.

In general, ADSL system is a system that provides telephone service and video service at the same time through the existing telephone line, the data transmission rate of the downlink from the telephone company to the subscriber and the data transmission rate of the uplink from the subscriber to the telephone station It is a system realized asymmetrically.

DSLAM is a device that connects the Asynchronous Transfer Mode Network (ATM) network and the Public Switched Telephone Network (PSTN) to the ADSL system. Routing This DSLAM includes a USIB connected to any port of the ATM switch to perform ATM cell transmission and reception with the ATM switch. Through this USIB, DSLAM performs optical communication with an ATM switch to transmit and receive a large amount of information. The USIB includes an STM-1 interface board for transmitting and receiving an ATM switch and an ATM cell in a STM-1 (Synchronous Transport Module level 1) scheme.

Figure 1 shows a block configuration of such a general STM-1 interface board.

The central processing unit 60 performs initialization and control of each device in the STM-1 interface board, and the DSLAM control board through the ATM cell bus for transmitting and receiving information on status collection and statistics in the STM-1 interface board. Communicate with The network synchronizer 10 receives a clock from the outside for synchronization between the ATM network and the ADSL system and provides the STM-1 interface board. The reset unit 11 resets the central processing unit 60, the dynamic RAM 12 stores the processing result data of the central processing unit 60, and the ROM 13 stores the processing result data. Stores a program for the control operation of the central processing unit (60). The flash memory 14 stores data that is frequently used in the CPU 60.

The routing unit 20 generates routing information by converting cell destination information (VPI, VCI) in the ATM cell received from the DSLAM 1, and generates the ATM cell to the UPC / OAM 30 based on the generated routing information. send.

The User Parameter Control / Operation And Maintenance (UPC / OAM) 30 sets user parameters for the ATM cell from the routing unit 20 and the ATM cell from the UNI unit 40. Transmission control is performed as a reference. The UNI (User Network Interface) unit 40 receives serial data from the optical transmitter / receiver unit 50, converts the serial data into parallel data, extracts an ATM cell from the parallel data, and transmits the ATM from the UPC / OAM unit 30. The cell is converted into serial data and then transmitted to the optical transmitter / receiver 50. The optical transmitter / receiver 50 converts the electrical signal transmitted from the UNI unit 40 to an all-optical converter and transmits the optical signal transmitted from the ATM switch to the UNI unit 40 by photoelectric conversion. In this way, the optical transmitter / receiver 50 includes one STM-1 line between the DSLAM 1 and the ATM switch to transmit an ATM cell at a transmission rate of 155.520 Mbps.

However, such a general STM-1 interface board does not have a redundant optical transmission and reception unit, so if a failure occurs in the optical transmission and reception unit, the entire STM-1 interface board had to be replaced.

In addition, when an error occurs in the optical transmission / reception unit, the entire STM-1 interface board is replaced, thereby reducing the use efficiency of the STM-1 interface board.

In addition, when an error occurs in the optical transceiver, there was a problem in that the service provided through one STM-1 line connected to the optical transceiver was interrupted.

Accordingly, the present invention has been proposed to solve the above conventional problems, and an object of the present invention is an optical transceiver of an uplink shelf interface board (USIB) for interfacing a DSLAM and an ATM switch. Redundancy of DS uplink interface board to improve the reliability and stability of the system by detecting errors when the error occurs in the currently operating optical transmitter and receiver and automatically switching to the spare optical transmitter and receiver. An optical transmitting and receiving device is provided.

In order to achieve the above object, the redundant optical transmission / reception apparatus of a DS uplink interface board according to the present invention,

It is mounted inside an uplink interface board that interfaces between an ATM switch and an ADSL connection device (DSLAM) through an STM-1 line, and is active to receive an ATM cell as an optical signal from an ATM switch and to photoelectric convert it. A main optical transceiver for detecting the presence or absence of a received signal;

If the detection signal from the main optical transmitter / receiver is not detected, an interrupt is generated to the central processing unit, and the main optical transmitter / receiver and the preliminary controller are controlled according to the control of the central processor which controls the switching of the spare optical transmitter / receiver. A redundant arbitration unit for arbitrating between optical transmission and reception units;

It is characterized in that the technical configuration consists of the preliminary optical transmitting and receiving unit which is switched under the control of the redundant arbitration unit to replace the function of the main optical transmitting and receiving unit.

The redundant arbitration unit receives a detection signal presence detection signal output from the main optical transmission and reception unit and a reception signal presence detection signal output from the preliminary optical transmission and reception unit, and detects the detection signal presence detection signal from the main optical transmission and reception unit. An error monitoring unit generating an interrupt to the central processing unit and outputting a switching control signal generated at the central processing unit; And a switch and a buffer configured to switch and buffer one of the output of the main optical transmitter and receiver and the output of the preliminary optical transmitter and receiver by the switching control signal output from the error monitor.

1 is a block diagram illustrating a conventional DSLAM synchronous transmission module (STM-1) interface board,

2 is a block diagram illustrating a redundant optical transmission / reception device of a DSLAM STM-1 interface board according to the present invention.

<Description of the code | symbol about the principal part of drawing>

100: redundancy arbitration unit 110: switch and buffer

120: error monitoring unit 200: central processing unit

300: main optical transmitter and receiver 400: spare optical transmitter and receiver

Hereinafter, with reference to the accompanying drawings of the redundant optical transmitting and receiving device of the present invention the DL SM uplink interface board as follows.

The uplink interface board, which is connected to one port of an ATM switch and interfaces an ATM cell between an ATM switch and a DSLAM, is implemented as an STM-1 interface board that transmits an ATM cell through an STM-1 frame. Also, because optical communication is used to transmit large amounts of information during the DSLAM and ATM exchanges, the STM-1 interface board is equipped with an optical transceiver.

2 is a block diagram of a redundant optical transmitting and receiving device according to the present invention.

A main optical transceiver 300 which operates in an active manner, receives an ATM cell as an optical signal from an ATM switch, performs photoelectric conversion, and detects the presence or absence of a received signal; A central processing unit (200) for generating a control signal to switch the STM-1 line to the preliminary optical transmitting / receiving unit (400) when an interrupt is generated in the redundant arbitration unit (100); When the detection signal from the main optical transmitter / receiver 300 is detected and an error is detected, an interrupt is generated to the central processing unit 200, and the main optical transmitter / receiver 300 is controlled by the central processing unit 200. ) And the redundant arbitration unit 100 to arbitrate between the preliminary optical transmission and reception unit 400; It is composed of a preliminary optical transmitter and receiver 400 which is switched under the control of the redundant arbitration unit 100 to replace the function of the primary optical transmitter and receiver 400.

The redundant arbitration unit 100 receives the detection signal presence detection signal output from the primary optical transmission and reception unit 300 and the reception signal presence detection signal output from the preliminary optical transmission and reception unit 400, and receives the main optical transmission and reception. If a detection signal presence signal from the unit 300 is not detected, an error monitoring unit 120 generates an interrupt to the central processing unit 200 and outputs a switching control signal generated by the central processing unit 200. )Wow; By switching between the output of the main optical transceiver 300 and the output of the preliminary optical transceiver 400 by the transfer control signal output from the error monitoring unit 120 to buffer the UNI unit 40 It is composed of a switch and a buffer 110 to output.

Referring to the operation of the redundant optical transmitting and receiving device according to the present invention configured as described above is as follows.

First, the main optical transmitter / receiver 300 receives an ATM cell from an ATM switch as an optical signal, performs photoelectric conversion, and then outputs an electrical signal to the redundant arbitration unit 100 for transmission to the UNI unit 40. The main optical transmitter / receiver 300 which is activated in this manner detects whether an ATM cell is being received from the ATM switch, and outputs a detection signal presence detection signal to the redundant arbitration unit 100. The preliminary optical transmitter / receiver 400 also outputs a detection signal presence detection signal indicating whether an ATM cell is being received from the ATM switch to the redundant arbitration unit 100.

The error monitoring unit 120 of the redundant arbitration unit 100 receives a reception signal presence detection signal output from the primary optical transmission / reception unit 300 and a reception signal presence detection signal output from the preliminary optical transmission / reception unit 400, and currently If the detection signal presence signal of the main optical transceiver 300 that is active is not detected, it is determined that an error has occurred in the main optical transmitter / receiver 300 and an interrupt to the central processing unit 200 is performed. Will occur).

When the interrupt is generated in the error monitoring unit 120, the CPU 200 transfers a switching control signal for switching the STM-1 interface line transmitting the signal at the speed of 155.520 Mbps to the preliminary optical transmitter / receiver 400. Output

The error monitoring unit 120 outputs a switching control signal output from the CPU 200 to the switch and the buffer 110. Accordingly, the switch and the buffer 110 switch the STM-1 interface line connected to the UNI unit 40 from the main optical transmitter / receiver 300 to the preliminary optical transmitter / receiver 400, and then the preliminary optical transmitter / receiver 400. The output signal of the buffer is transmitted to the UNI unit 40 through the STM-1 line. Accordingly, when an error occurs in the main optical transmitter / receiver 300, the redundant arbitration unit 100 detects the error and performs a transfer to the preliminary optical transmitter / receiver 400 under the control of the central processing unit 200. The service is continuously provided without being interrupted due to an error of the main optical transmitter / receiver 300.

As described above, the present invention implements an optical transceiver of an uplink shelf interface board (USIB) that interfaces between a DSLAM and an ATM exchanger with redundancy, thereby causing an error in an optical transceiver that is currently operating. Is detected, an error can be detected and automatically switched to the preliminary optical transmitter and receiver to improve the reliability and stability of the system.

In addition, by automatically switching to the preliminary optical transmitter / receiver when an error is detected in the currently operating main optical receiver, there is an effect of continuously improving the reliability of the service without interruption of the service.

In addition, due to an error in the optical transmitter and receiver, the inconvenience of having to replace the entire STM-1 interface board and the efficiency of using the board can be eliminated.

Claims (2)

An uplink interface board that interfaces between an ATM switch and an ADSL interface (DSLAM) via an STM-1 line. A main optical transmitter / receiver which operates in an active manner, receives an ATM cell as an optical signal from the ATM switch, performs photoelectric conversion, and detects the presence or absence of a received signal; If the detection signal from the main optical transmitter / receiver is not detected, an interrupt is generated to the central processing unit, and the main optical transmitter / receiver and the preliminary controller are controlled according to the control of the central processor which controls the switching of the spare optical transmitter / receiver. A redundant arbitration unit for arbitrating between optical transmission and reception units; And a redundant optical transmitter / receiver configured to be switched under the control of the redundant arbitration unit to replace the function of the primary optical transmitter and receiver. The method of claim 1, wherein the redundancy arbitration unit, If the reception signal presence detection signal output from the main optical transmission and reception and the reception signal presence detection signal output from the preliminary optical transmission and reception unit are received, and the reception signal presence detection signal from the main optical transmission and reception unit is not detected, the center is detected. An error monitoring unit generating an interrupt to the processing unit and outputting a switching control signal generated at the central processing unit; The switch of the LS uplink interface board, characterized in that consisting of a switch and a buffer for switching after switching one of the output of the main optical transceiver and the output of the preliminary optical transceiver by the control signal output from the error monitoring unit. Redundant optical transmission and reception device.