KR100310236B1 - Apparatus for spliting of asymmetric digital subscribe line system - Google Patents

Abstract

The splitting apparatus of the ADSL system according to the present invention receives an ADSL signal from a DSLB, receives a POTS signal transmitted from an MDF through the MDF connection device, synthesizes two received signals, and transmits the received signals through the split backboard. Accommodating a plurality of splitters transmitted to the MDF through an MDF connecting device, and b) a split shelf for mounting a split unit accommodating the plurality of splitters, separately from the split backboard, c) in the DSLB; An ADSL cable is connected to transmit the ADSL signal to the splitter through the split backboard; d) a POTS cable is connected between the MDF connector and the splitter so that the POTS signal is transmitted from the MDF connector to the splitter through the splitter backboard; e) In the splitter, a signal obtained by combining the POTS signal and the ADSL signal is transmitted to the MDF connecting apparatus through the splitter back board. By connecting a separate cable between the MDF and the MDF connection device, it is possible to increase the line density of the subscriber unit from the current four lines to six lines or eight lines, and the existing problem of the splitter board on the back board. Due to the size (depth) of the device in accordance with the installation to solve the problem of the limitation of the installation space.

Description

Applitus for spliting of asymmetric digital subscribe line system}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a splitting apparatus of an Asymmetric Digital Subscribe Line (ADSL) system that provides high-speed multimedia services such as high-speed Internet service and video on demand service using an existing telephone line. A splitting apparatus of an ADSL system for synthesizing and separating a signal and a DMT signal.

In general, an important feature of ADSL systems is that they can provide high-speed digital data services simultaneously on existing twisted pair copper (POTS) networks without interfering with the Plain Old Telephone Service (POTS). .

It is a technology that increases bandwidth so that multimedia information such as voice, traffic, and video can be simultaneously transmitted while using existing telephone lines. Therefore, it is receiving attention as a service network that can deliver multimedia information to subscribers without incurring network installation costs.

Thus, new services can be created that can be provided to subscribers such as high speed internet, online access and telecommuting, and video on demand (VOD). In addition, there is no need to install a new track, so it is more economical and faster to implement service than using other systems.

Preferred coding schemes of ADSL include Discrete Multi-Tone (DMT) and Carrier Amplitude Phase Modulation (CAP).

This line coding method is a technology that modulates and demodulates digital data and transmits it on a twisted pair. Among them, the DMT method set as ANSI standard has a downlink rate of up to 8Mbps and an uplink rate of about 640Kbps. Can pass data

The following is a brief description of a typical ADSL system.

1 is a block diagram illustrating a general ADSL system.

First, the Digital Subscriber Line Asynchronous Modem (DSLAM) (2) is an Internet Service Provide (ISP), a server, and the Internet connected to a broadband public network through an Asynchronous Transfer Mode (ATM) switch (1). Transmit / receive bidirectional data of. Thus, the DSLAM 2 is controlled and managed by the ADSL network management system to interface the bidirectional data of the broadband public network to the ATM switch 1. Then, the POTS splitter 3 separates the data of the PSTN and the data through the ATM switching network by a public switch, and transmits the data to the user unit 4 made of a telephone or a PC using a copper wire. send.

At this time, the POTS separation unit 3 separates the voice signal of the POTS, the ADSL data and the control signal from the signal of the ATM switch 1, and transmits it to the ADSL modem, and the ADSL modem is an ATM 25Mbps NIC (Network Interface Card) and an Ethernet ( Ethernet data is transmitted to the user unit 4 via the Ethernet network.

Accordingly, the DSLAM separates the video data and the telephone service from the subscriber so that the telephone service and the video service can be simultaneously performed.

As such, many ADSL modem subscribers can use various telephone lines to access various data.

In order to synthesize and separate analog voice signals and DMT signals, an ADSL system that provides a high-speed data service using such a telephone line is conventionally implemented by a method of directly connecting a splitter to an ADSL subscriber unit and directly connecting to the backplane. When the ADSL subscriber unit accommodates four lines, the four splitters are developed on one printed circuit board and attached to the connector on the backplane. However, such a conventional method does not require a shelf for mounting a separate splitter unit, but has a problem in that a rack size (depth) of a DSLAM device is increased because it is attached to the back board of the DSLAM shelf.

In addition, since the splitter unit is attached to the rear surface of the backplane, it is difficult to grasp the attachment state with the naked eye, and there are other problems in that there are many inconveniences in terms of operation and maintenance. In particular, if the ADSL subscriber unit accommodates as many lines as possible (for example, currently 4 to 6 or 8 lines per unit), four or more (six or eight) splitters may be placed on one printed circuit board. To accommodate more than eight splitters in a board-type substrate is very difficult due to mechanical constraints.

In addition, ADSL system has been able to mount more than 4 or 8 modem chips in one unit due to the development of hardware technology, which is very important for the system's line cost. Therefore, the method of attaching the splitter to the back of the DSLAM device is an obstacle to increasing the capacity of the system.

Therefore, the present invention has been made to solve the above problems, an object of the present invention is to implement a splitter unit in the form of PBA by forming a separate shelf, without the splitter attached to the back of the DSLAM device, the splitter shelf 18 units are to be mounted and to provide a splitting device for ADSL system which is connected to the backplane of the splitter shelf by a connector.

A feature of the splitting apparatus of the ADSL system according to the present invention for achieving the above object is in the ADSL system having a DSLB, MDF, MDF connection device and a split backboard, a) receiving an ADSL signal from the DSLB Receiving a POTS signal transmitted from the MDF through the MDF connection device, synthesizing the two received signals, and receiving a plurality of splitters transmitting the MDF through the MDF connection device to the MDF through the split backboard; b) the A split shelf for mounting a splitter unit accommodating a plurality of splitters is configured separately from the split backboard, c) an ADSL cable is connected to transmit an ADSL signal from the DSLB to the splitter through the split backboard, d) A POTS cable is connected between the MDF connector and the splitter so that the POTS signal is transmitted from the MDF connector to the splitter through the splitter backboard. e) A separate cable is connected between the splitter and the MDF connecting device so that a signal obtained by combining the POTS signal and the ADSL signal in the splitter is transmitted to the MDF connecting device through the splitter back board.

In another aspect of the present invention, the splitter shelf includes 18 splitter units for accommodating 24 splitters, each split unit accommodates 3 DSLBs, and one DSLB accommodates 8 splitters for DSLB. It is to transmit 8 line ADSL signal from one splitter.

1 is a block diagram showing a typical AD DS system,

2 is a block diagram showing a splitting apparatus of an SDL system according to the present invention;

3 is a view showing a detailed connection configuration of the splitter shelf shown in FIG.

4 is a diagram illustrating a detailed connection configuration of the splitter unit shown in FIGS. 2 and 3;

<Explanation of symbols for main parts of drawing>

100: split shelf 110, 120, 130: split unit

140, 240: Backboard 200: Modem shelf

210, 220, 230: DSLB 300: MDF connector

400: MDF

Hereinafter, a preferred embodiment of a splitting apparatus of an ADSL system according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a block diagram showing a block configuration of the splitting apparatus of the ADSL system according to the present invention, Figure 3 is a view showing a detailed connection configuration of the splitter shelf shown in Figure 2, Figure 4 and Figures 2 and 3 A diagram showing a detailed connection configuration for the splitter unit shown in FIG.

Referring to FIG. 3, a splitter shelf (100) comprising a plurality of splitter units (110-130) for receiving a POTS signal and an ADSL signal, and synthesizing and outputting the received POTS signal and an ADSL signal. And a plurality of modem shelves 200 for providing a plurality of ADSL signals inputted through an ADSL cable to each splitter unit 110 to 130 of the splitter shelf 100. Here, the splitter shelf 100 is provided with a back board 140, the back board 140 is provided with an ADSL connector (not shown) and a POTS connector for receiving an ADSL signal and a POTS signal, respectively, and a POTS signal and a line. And a cable connector (not shown) for transmitting and receiving a signal (POTS + ADSL signal).

In addition, as shown in FIG. 1, the splitter shelf 100 accommodates a total of 18 splitter units 110-130, and one split unit 110-130 is shown in FIG. 3. Built-in splitters 111-113 perform the function of synthesizing and separating analog audio signals of 24 lines and ADSL DMT signals.

The splitter units 110-130 are connected to the back board 140 by a metric connector (not shown), and one digital subscriber line board (DSLB) (210-230) of the modem shelf 200 has 8 sheets. Three DSLBs 210-230 are connected to one split unit 110-130 because they accommodate the circuit.

A 50-pin chamfer connector (not shown) is connected to the back of the backplane (not shown) of the modem shelf 200 so that signals of 24 lines are connected by one cable. Thus, one splitter shelf 100 is composed of 18 split units 110-130, and one split unit 110-130 accommodates three DSLBs 210-230. It can accommodate.

In addition, one modem shelf 200 accommodates 18 DSLBs, so three modem shelves 200 are required to accommodate 54 DSLBs. That is, since 18 DSLBs are mounted in the modem shelf of the DSLAM device, one splitter shelf 100 may accommodate three modem shelves 200 as shown in FIG. 1.

A detailed connection configuration and operation of the splitter shelf 100 will be described with reference to FIGS. 2 and 3.

First, as shown in FIG. 2, in order for the DSLAM device to provide an ADSL service to a subscriber, a connection with a subscriber terminal panel (hereinafter referred to as MDF) 400 in a telephone company must be made. In order to connect to the tip (TIP), the ring (RING) pin of the MDF (400) and a connector consisting of a connector 300 is required.

Accordingly, as shown in FIG. 2, the splitter shelf 100 receives an ADSL DMT signal from a modem shelf 200 of a DSLAM device through a cable, and requests a ADSL service from an MDF connection device 300. The analog voice signal is received and signal synthesis is performed by the splitters 111-113 in the splitter units 110-130 shown in FIG.

The synthesized signal is transmitted to the back board 140 of the splitter shelf 100 and transmitted to the MDF connector 300 by a cable.

The MDF connecting apparatus 300 is connected to the MDF 400 by a jumper wire, and transmits a downlink signal transmitted from the MDF 400 to a corresponding subscriber.

In addition, the upstream signal from the subscriber side is separated into analog voice signal and ADSL signal in the splitter unit (110-130) through the reverse process, and are respectively connected to the voice switch and the DSLAM device.

In addition, the splitter units 110 to 130 arrange the splitters 111 to 113 in eight units as shown in FIG. 4 to receive an ADSL signal input from the modem shelf 200 via an ADSL cable. The split backboard 140 is transferred to the corresponding splitters 111 to 113 of the splitter units 110 to 130. Here, one DSLB generates and transmits eight ADSL signals, and each ADSL signal is transmitted to one splitter. In other words, one DSLB accommodates eight splitters.

In addition, each splitter 111-113 of the splitter units 110-130 receives the POTS signal provided from the MDF 400 through the splitter back board 140 through the MDF connecting device 300, and receives the received ADSL. The synthesized signal is transmitted to the MDF connector 300 through the splitter back board 140 again.

The splitting apparatus of the ADSL system according to the present invention as described above has a structure that can increase the line density of the subscriber unit from the current four lines to six lines or eight lines in order to increase the capacity of the DSLAM device as a separate splitter device. Make it possible. In addition, the installation space was limited by the size (depth) of the device according to the mounting of the splitter board on the back of the back board, but the advantage that can solve this problem by separating the splitter from the DSLAM shelf as a separate shelf There is this.

Claims (3)

In an ADSL system having a DSLB, an MDF, an MDF connector, and a split back board, a) receiving an ADSL signal from the DSLB, receiving a POTS signal transmitted from the MDF through the MDF connection device, synthesizing the two received signals, and transmitting the received two signals to the MDF through the MDF connection device through the split back board; Accommodates multiple splitters, b) a split shelf for mounting a splitter unit for accommodating the plurality of splitters, separately from the split backboard, c) an ADSL cable is connected to transmit an ADSL signal from the DSLB to the splitter through the split backboard; d) a POTS cable is connected between the MDF connector and the splitter so that the POTS signal is transmitted from the MDF connector to the splitter through the splitter backboard; e) A splitting device of an ADSL system, characterized in that a separate cable is connected between the splitter and the MDF connecting device so that a signal obtained by combining the POTS signal and the ADSL signal is transmitted to the MDF connecting device through the splitter back board. The method of claim 1, The splitter shelf is a splitting device of an ADSL system, characterized in that 18 splitter units are mounted to accommodate 24 splitters. The method of claim 2, Each of the split units accommodates three DSLBs, and one DSLB receives eight splitters and transmits eight lines of ADSL signals output from the DSLB to one splitter. .