KR100277475B1 - IP Matching Structure of Switchboard Trunk Board - Google Patents

Abstract

The present invention relates to an IPC matching structure of an exchange trunk board for efficiently matching the trunk boards of a host exchanger and a remote exchanger to each other in case of interprocessor communication (IPC) matching.

When the trunk board is IPC matched between the host exchanger and the remote exchange by the conventional method, the IPC matching IPC board, the general trunk board, and the IPC matching trunk board should be separately mounted on the switchboard. Since additional IPC boards and IPC cables need to be additionally installed when additional IPC paths are added between the host exchanger and the remote exchange period, there is a problem that it is very disadvantageous in adding a trunk or adding an IPC path.

In the present invention, a plurality of trunk boards are mounted on the trunk backboard, and the plurality of trunk boards are connected to the IPC board through a common IPC bus and an IPC cable to transmit and receive IPC data. Even if a new IPC path is required, the trunk board only needs to be added to the existing trunk back board regardless of the mounting location. In addition, according to the present invention, when the IPC matching the trunk board in the host exchange and the remote exchange period, the IPC matching IPC board, general trunk board, and IPC matching trunk board does not need to be separated and mounted according to the mounting position Since there is no restriction, the location of trunk board and IPC matching board can be mixed, so it can be installed and operated in any position without being restricted by the trunk board and IPC matching board which are already in use when adding the trunk or IPC path in the field operation. can do. On the other hand, since additional IPC boards and IPC cables do not need to be additionally installed when additional IPC paths are added between the host exchanger and the remote exchange period, it is very advantageous in adding a trunk or adding an IPC path.

Description

IP Matching Structure of Switchboard Trunk Board

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an exchange, and more particularly, to an IPC matching structure of an exchange trunk board for efficiently matching the trunk boards of a host exchange and a remote exchange with each other.

In general, when the host exchanger and the remote exchanger are connected and interworked, they operate while performing the IPC by interconnecting the trunk boards of the corresponding exchanger.

The trunk back board 10 of the conventional exchanger is configured as shown in FIG. 1, and the trunk back board 10 is provided with a plurality of trunk boards A to D. In addition, trunk boards A to D of the trunk back board 10 are individually connected to the IPC boards e to h one by one through IPC cables I to L as shown in FIG. 2 to perform IPC. Sending and receiving data, IPC board (e) exchanges data with trunk board (A) through IPC cable (I), IPC board (f) communicates data with trunk board (B) through IPC cable (J). IPC board (g) exchanges data with trunk board (C) through IPC cable (K), and IPC board (h) exchanges data with trunk board (D) through IPC cable (L). .

When the trunk board is IPC matched during the host exchange and the remote exchange period in the conventional manner, the IPC matching IPC board, the general trunk board, and the IPC matching trunk board must be separately mounted and mounted on the exchange. In addition, since additional IPC boards and IPC cables need to be additionally installed when additional IPC paths are added between the host exchanger and the remote exchange period, there is a problem that it is very disadvantageous in adding a trunk or expanding an IPC path.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide an IPC matching structure of an exchange trunk board for efficiently matching the trunk boards of the host exchanger and the remote exchanger to IPC matching between each other. Is in.

1 is a structural diagram of a trunk backboard of a conventional exchange.

2 is a diagram illustrating an IPC matching structure of a conventional switchboard trunk board.

3 is a structural diagram of a trunk backboard of an exchange according to the present invention;

4 is a diagram illustrating an IPC matching structure of an exchange trunk board according to the present invention;

5 is a timing diagram of data transmission in an IPC matching structure of an exchange trunk board according to the present invention;

Explanation of symbols on the main parts of the drawings

20: trunk back board A to H: trunk board

I: IPC Board CBL: IPC Cable

A feature of the present invention for achieving the above object is, in the IPC matching structure of the switchboard trunk board, a plurality of trunk boards are mounted on the trunk backboard, the plurality of trunk boards to a common IPC bus Interconnecting the IPC bus to one IPC board via one IPC cable, and transmitting and receiving data between the IPC board and a plurality of trunk boards.

In addition, the IPC bus is characterized in that the printed wiring is installed on the trunk backboard.

Meanwhile, the IPC board and the plurality of trunk boards transmit and receive data according to a clock signal during a frame signal period, and allocate a predetermined time corresponding to each trunk board to classify and transmit data corresponding to each trunk board during the allocated time. Characterized in that.

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

Trunk backboard 20 according to the invention is configured as shown in FIG. That is, the trunk back board 20 is provided with a plurality of trunk boards A through H, and each trunk board A through H is an IPC printed on a printed circuit board (PCB) of the trunk back board 20. Interconnected via the bus to share the IPC bus, the trunk boards (A to H) are connected to the trunk backboard (20) through edge pins, and the IPC signal among the edge pins of the trunk boards (A to H) The part that transmits / receives is connected to a printed wiring IPC bus, so the trunk boards A to H transmit and receive data transmitted from the IPC board through the shared IPC bus.

In addition, in the present invention, when the trunk backboard 20 is IPC matched, as shown in FIG. 4, the IPC board I and the trunk backboard 20 are connected through a single IPC cable CBL, but the trunk is trunked. The IPC bus of the back board 20 is connected to the IPC cable CBL, and the IPC board I and the trunk boards A to H transmit and receive data via the IPC cable CBL and the IPC bus.

On the other hand, when the IPC board I and the trunk boards A to H transmit and receive data via the IPC cable CBL and the IPC bus, the trunk board ( Data are transmitted and received by classifying A to H). That is, as shown in FIG. 5, when data is transmitted and received between the IPC board I and the trunk boards A to H, IPC data is transmitted and received according to the frame signal and the clock signal. Transmit / receive data according to the signal, but allocate a certain time corresponding to each trunk board (A to H), and classify and transmit data corresponding to each trunk board (A to H) for the assigned time, thereby transmitting one frame signal During the interval, the IPC board I transmits and receives data to all trunk boards A through H through the IPC cable CBL and the IPC bus.

For example, when the IPC board I transmits the IPC data to the trunk board A, when the IPC board I transmits data to the trunk board A during the section 'A' in the IPC data transmission section of FIG. 5, the trunk board ( A) recognizes that the data applied during the 'A' section is received by the predefined timeslot information, and receives the IPC board (I) when the IPC data is transmitted to the trunk board (B). In the IPC data transmission section of 5, when the data is transmitted to the trunk board B during the section 'B', the trunk board B transmits the data applied during the section 'B' according to the predefined timeslot information. In the case of IPC board I transmitting IPC data to trunk board H side, similarly, data is transmitted to trunk board H during 'H' section of IPC data transmission section of FIG. When you The trunk board H recognizes that the data applied during the 'H' section is its own data based on the predefined timeslot information, so that the IPC board I receives all the trunk boards during the frame signal period of one cycle. Transfer data to A to H).

For example, when the trunk board A transmits IPC data to the IPC board I side, the IPC board I transmits data to the IPC board I during the 'A' section of the IPC data transmission section of FIG. 5. The board (I) recognizes that the data applied during the corresponding section 'A' is the data of the trunk board (A) by using the predefined timeslot information, and the trunk board (B) receives the IPC data to the IPC board (I) side. In the case of transmitting the data to the IPC board (I) during the 'B' section of the IPC data transmission section of Figure 5 IPC board (I) is applied during the 'B' section by the predefined timeslot information Recognizing that the data to be received is the data of the trunk board (B), and, similarly, when the trunk board (H) transmits the IPC data to the IPC board (I) side, the interval of 'H' in the IPC data transmission section of FIG. If data is transferred to IPC board (I) during Card (I) recognizes and receives that the data applied during the 'H' section is the data of the trunk board (H) by the predefined timeslot information, so that all trunk boards (A to H) are frame signals of one cycle. Data is transmitted to the IPC board I during the interval.

As described above, in the present invention, a plurality of trunk boards are mounted on the trunk backboard, and the plurality of trunk boards are connected to the IPC board through a common IPC bus and an IPC cable so as to transmit and receive IPC data. Even if a new IPC path is required during the remote exchange period, only the trunk board can be added to the trunk trunk board in operation regardless of the mounting location. In addition, according to the present invention, when the IPC matching the trunk board in the host exchange and the remote exchange period, the IPC matching IPC board, general trunk board, and IPC matching trunk board does not need to be separated and mounted according to the mounting position Since there is no restriction, the location of trunk board and IPC matching board can be mixed, so it can be installed and operated in any position without being restricted by the trunk board and IPC matching board which are already in use when adding the trunk or IPC path in the field operation. can do. On the other hand, since additional IPC boards and IPC cables do not need to be additionally installed when additional IPC paths are added between the host exchanger and the remote exchange period, it is very advantageous in adding a trunk or adding an IPC path.

Claims (3)

In the IPC matching structure of an exchange trunk board, a plurality of trunk boards are mounted on a trunk backboard, the plurality of trunk boards are interconnected through a common IPC bus, and the IPC bus is connected to one IPC cable. Connected to one IPC board through, IPC matching structure of the switchboard trunk board, characterized in that for transmitting and receiving data between the IPC board and a plurality of trunk board. 2. The IPC matching structure of the trunk board of the switchboard according to claim 1, wherein the IPC bus is installed by printed wiring on the trunk backboard. According to claim 1, wherein the IPC board and a plurality of trunk boards transmit and receive data according to the clock signal during the frame signal interval, but allocates a predetermined time corresponding to each trunk board, the data corresponding to each trunk board during the allocated time IP matching structure of the switchboard trunk board, characterized in that for transmitting and receiving.