KR19980077118A - Data changer for simple redundancy of many-to-many path systems - Google Patents

Abstract

The present invention provides a data switching device in a simple redundancy of a many-to-many path system having only one or two redundancy boards on several boards to perform the function of a faulty board in the redundancy board.

The present invention is a redundancy apparatus of a system having a many-to-many paths in which a plurality of boards exchange data with a plurality of boards in a plurality of paths. I blocked the buffer and moved the fault path to the redundancy board at the same time, causing the redundancy board to function as a few faulty boards.

Description

Data changer for simple redundancy of many-to-many path systems

The present invention relates to a many-to-many path system, and more particularly, data transfer during simple redundancy of a many-to-many path system in which only one or two redundancy boards are provided on multiple boards to perform faulted board functions in the redundancy board. Relates to a device.

Conventionally, when multiple identical boards send and receive data in the same format with the same number of boards through multiple paths, the signal is processed from the few boards that are faulted during redundancy, but when using this method, the boards are more than necessary for switching. Parts and logic are required and many of them are not actually used.

That is, as shown in FIG. 1, when several boards have multiplexing paths, redundancy boards are placed on each board for redundancy, resulting in waste of boards entering the system.

In view of the above, the present invention provides one or two redundancy boards on a plurality of boards so as to reduce board waste by performing faulty board functions in the redundancy board using fault signals from the outside. The purpose is to provide a data switching device in the simple redundancy of the system.

The present invention for achieving this purpose is to receive a fault signal for each path from the outside to recognize the fault path, block the fault path of the path and at the same time one or two on the multiple boards in the redundant system to move the fault path toward the redundancy board Redundancy of the board is characterized by making the board more efficient to use.

1 is a block diagram of an apparatus for redundancy of a conventional many-to-many path system

2 is a block diagram of a simple redundancy apparatus of a multi-to-many path system according to the present invention

Figure 3 (a), (b) is a detailed configuration diagram of a data switching device in the simple redundancy of the many-to-many path system according to the present invention

* Description of the symbols for the main parts of the drawings *

AND1-ANDn: And Gate BUFF0-BUFFn: 3 State Buffer

OR1, OR2: Ora gate

Figure 2 shows a block diagram of a simple redundancy device of a many-to-many path system according to the present invention, it shows that one redundancy board is configured on several boards without one redundancy board on one board.

Figure 3 (a) shows a detailed configuration of the transmission device of the data transfer device in the simple redundancy of the many-to-many path system according to the present invention, a plurality of boards (board A, board B, board C, ...) When sending data from a small number of boards (Board 1, Board 2, Board 3, ...), it receives the fault signals (Fault1-Faultn) of Board 1, Board 2, Board 3 ... and goes to the side where the fault came in. Only the data becomes valid and the signal goes out to the redundancy board.

As shown, each data bus (DB1, DB2, DB3, ...) and a few boards (Board 1) transmit data to a few boards (board 1, board 2, board 3, ...). An AND gate AND1-ANDn for ending the fault signals Fault1-Faultn of the boards 2, 3, ..., OR, OR1 ORing the output of the AND gate AND1-ANDn, The OR gate OR2, which rings the fault signals Fault1-Faultn of a few boards (Board 1, Board 2, Board 3, ...), and is active when the output of the OR gate OR2 is high. It consists of a three-state buffer (BUFFO) that sends the output of the OR gate OR1 to the redundancy board.

Figure 3 (b) is a detailed configuration diagram of the receiving device of the data transfer device in the simple redundancy of the many-to-many path system according to the present invention, a few boards (board 1, board 2, board 3, ...) When transferring data from multiple boards (Board A, Board B, Board C, ...), the signal from the redundancy board side is the same as the signal from the board on which the redundancy board is transferred. (Board 1, Board 2, Board 3, ...) is detected as a signal, which depends on the fault signal (Fault1-Faultn) of a few boards (Board 1, Board 2, Board 3, ...). It consists of a tri-state buffer (BUFF1-BUFFn) that sends data from the redundancy board to multiple boards (Board A, Board B, Board C, ...).

3 (a) and 3 (b) are each constructed in a plurality of boards (board A, board B, board C, ...) of FIG. 2.

In the present invention configured as described above, the board 1, the board 2, the board 3, ... the normal operation, if a fault is detected, the faulty board transfers all its tasks to the redundancy board, where the redundancy board is board 1, The fault of board 2, board 3, ... is to play one of the roles, and the data from board A, board B, board C, ... to board 1, board 2, board 3, ... An example is a case where a fold occurs in the board 1 during transmission and data transfer from the board 1, board 2, board 3, ... to the board A, board B, board C, ....

First, when data is transferred from Board A, Board B, Board C, ... to Board 1, Board 2, Board 3, ..., if Board 1 faults, the fault signal (Fault1) goes high and the data bus (DB1) ) Is high or low depending on the data, so the output of the AND gate AND1 is high or low depending on the data state of the data bus DB1.

The other AND gates AND2-ANDn have a low output because the fault signals Fault2, Fault3, ... are low.

Accordingly, the output of the OR gate OR1 is determined according to the output of the AND gate AND1, and the output of the OR gate OR1 goes to the redundancy board through the three-state buffer BUFFO.

Here, the tri-state buffer BUFFO may or may not transmit the output of the OR gate OR1 to the redundancy board according to the output of the OR gate OR2 that rings each fault signal Fault1-Faultn. If the fault is 1, since the fault signal Fault1 is high and the output of the OR gate OR2 is high, the tri-state buffer BUFFO sends the output of the OR gate OR1 to the redundancy board.

Therefore, the redundancy board replaces the function of board 1.

On the other hand, if board 1 faults when transferring data from board 1, board 2, board 3, ... to board A, board B, board C, ..., the redundancy board replaces each board's functions. Send data to (Board A, Board B, Board C).

That is, in the case where the board 1 is faulted in FIG. 3 (b), only the fault signal Fault1 is high and the remaining fault signals Fault2, Fault3, ... are low, so only the three-state buffer BUFF1 has a path. The data from the redundancy board, which acts as the board 1 function, is sent to each board (board A, board B, board C).

The remaining three-state buffers (BUFF2-BUFFn) are in a high impedance state because the fault signal is low, so that the output is not sent out.

As described above, the present invention substitutes for a function of a fault board (board 1 or board 2 or board 3, ...) with one or two redundancy boards.

As described above, the present invention provides only one or two redundancy boards in the redundancy of a system with many-to-many paths, and does not require boards by performing redundancy functions of the entire system with one or two redundancy boards according to fault signals from the outside. This can reduce waste.

Claims (5)

In a redundancy apparatus of a system having a many-to-many path in which a plurality of boards exchange data with a small number of boards in a plurality of paths, the redundancy board includes one or two redundancy boards in response to a fault signal from an external device. Data transfer device for simple redundancy of a many-to-many path system, characterized by the ability to perform the functions of a few faulty boards. According to claim 1, wherein each data bus (DB1, DB2, DB3, ...) and the fault signal of a few boards for transmitting data from the plurality of boards to the plurality of boards in the data transmission An AND gate AND1-ANDn for ending Fault1-Faultn, an OR gate ORing for outputting the AND gate AND1-ANDn, and an ORing for fault signals of the few boards. The redundancy board by means of a transmission means comprising a gate OR2 and a three-state buffer BUFFO that is active when the output of the OR gate OR2 is high and sends an output of the OR gate OR1 to a redundancy board. Data transfer device for simple redundancy of a many-to-many path system, characterized by the fact that the fault-stage of the board is performed. 3. The apparatus of claim 2, wherein the transmitting means is configured in each of the plurality of boards. The receiver of claim 1, further comprising a three-state buffer (BUFF1-BUFFn) configured to transmit data from a redundancy board to a plurality of boards according to fault signals of the plurality of boards when data is transmitted from the plurality of boards to the plurality of boards. And means for causing said redundancy board to perform the functions of a few faulted boards. 5. The apparatus of claim 4, wherein the receiving means is configured in each of the plurality of boards.