KR100208231B1 - Apparatus for supplying power for data-bus termination in an inter-processor communication of a switching system - Google Patents

Abstract

The present invention is to terminate the data bus (D-BUS), which is the inter-processor communication channel in the redundant first and second IPC (60, 70) having each independent power source for controlling the inter-processor communication in the electronic switchboard A power supply device for bus termination in interprocessor communication of an electronic switching device for supplying power to terminating resistors (a, c) of the first diode (60). D1), and connect the power of the second IPC 70 to the second diode D2 in the forward direction to connect the power from the first and second diodes D1 and D2 to the data bus in the first IPC 60. A first supply part b for supplying the termination resistor part a; The power supply of the second IPC 70 is connected to the third diode D3 in the forward direction, and the power supply of the first IPC 60 is connected to the fourth diode D4 in the forward direction so that the third and fourth diodes D3, A second supply (b) for supplying the power from D4) to the data bus termination resistor (c) in the second IPC 70 to supply power for bus termination of D-BUS, an inter-processor communication bus. By duplexing the bus termination power source to receive the duplicated first and second IPCs 60 and 70, respectively, reliable interprocessor communication can be performed.

Description

Power Supply for Bus Termination in Interprocessor Communication of Electronic Switching System

1 is a schematic block diagram of an IPC for interprocessor communication in an electronic switchboard;

2 is an internal block diagram for the IPC of FIG.

3 is a circuit diagram of a power supply for bus termination according to the present invention.

* Explanation of symbols for main parts of the drawings

10,20,30,40,50: 1,2,3,4, N Processor 60,70: IPC

61, 71: IPC control unit 62-69, 72-79: interface unit

a, c: terminating resistor b, d: supply

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply for bus termination in interprocessor communication of an electronic switching system, and in particular, terminating resistor (Terminating) for a de-bus (DATA-BUS: hereinafter referred to as D-BUS), a data transmission / reception bus between processors. The present invention relates to a power supply device for bus termination in interprocessor communication of an electronic switching system that supplies stable power to a resistor to maintain stable interprocessor communication.

In general, a plurality of interprocessor communications in an electronic switchboard are performed based on Inter-Processor Communication (IPC), as shown in FIG. It provides an IPC communication channel to enable communication between 10, 20, 30, 40, and 50, and monitors and controls various states for all nodes to which processors in the IPC block are connected.

In detail, the IPC block 60 is a block for transmitting control messages and data for communication between the respective functional processors distributed in the electronic switching system adopting the distributed processing structure, and is shown in the detailed IPC block diagram of FIG. As described above, it includes an IPC control unit 61 for controlling IPC communication, and includes a plurality of interface units 62-69 for interfacing with a processor connected to each node NODE.

Meanwhile, in the present invention, a TDX-100 currently being developed will be described by way of example. In the TDX-100, there are eight interface units, and each interface has nodes capable of connecting eight processors.

On the other hand, the IPC control unit 61 is duplicated for reliability, and the transmission and reception of control messages for maintenance is performed through the redundant M-BUS (Maintenance-Bus: M-BUS), each of which is connected to each processor. Nodes are controlled and data is transmitted and received between processors connected to each node using D-BUS.

On the other hand, in general, the transmission system and the transmission device have a characteristic impedance, so that the terminal or the splitting point has a terminating resistance close to the characteristic impedance in order to avoid an echo phenomenon caused by the impedance mismatch between the transmission system and the terminal. Terminate at the resistance.

Therefore, each of the redundant IPC controllers 61 and 71 and each of the interface units 62-69 and 72-79 have termination resistors at both ends of the D-BUS.

However, in the redundant power supply pack (not shown in the related art), for the D-BUS termination provided in the D-BUS termination points of the redundant IPC controllers 61 and 71 and the plurality of interface units 62-69 and 72-79, respectively. The power supply pack for each terminal resistor, that is, the power supply pack on the IPC controller 61 side, is supplied to the terminal resistors of the IPC controller 61 and the plurality of interface units 62-69, and the power supply pack on the redundant IPC controller 71 side. Supplies power to the terminating resistors of the IPC control unit 71 and the plurality of interface units 72-79 separately. Therefore, when an error occurs in the power provided by the power supply pack of one of the IPC control units 61 and 71. Since the D-BUS termination of the IPC controllers 61 and 71 and the plurality of interface units 62-69 and 72-79 in which a power error occurred was not properly performed, there was a problem that smooth data transmission and reception were impossible.

Accordingly, an object of the present invention is to provide a single IPC control unit among power supply PACKs of the IPC control units 61 and 71 which are duplicated in IPC communication for inter-processor communication provided in the electronic switching center to control IPC communication. Even if an error of power supply for bus termination occurs in the power supply pack of 61,71, the bus termination power is supplied so that the power supply for bus termination can be received from the power supply pack of another redundant IPC controller 61,71. The present invention provides a power supply device for bus termination in interprocessor communication of an electronic switching system, which enables duplication and reliable interprocessor communication.

The power supply device for bus termination in interprocessor communication of an electronic switching system according to the present invention is an inter-processor communication in the first and second IPCs having independent power for controlling inter-processor communication in the electronic switching system. A device for supplying power to each terminating resistor for terminating a data bus (D-BUS), which is a channel, wherein the power supply of the first IPC is connected to the first diode in a forward direction, and the power supply of the second IPC is forwarded. A first supply unit connected to a second diode to supply power from the first and second diodes to a data bus termination resistor in the first IPC; Connecting the power supply of the second IPC to the third diode in the forward direction, and connecting the power supply of the first IPC to the fourth diode in the forward direction to supply power from the third and fourth diodes to the data bus termination resistor in the second IPC. And a second supply part.

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

3 is a circuit for a power supply for bus termination according to the present invention, wherein the first and second termination resistors for the D-BUS termination of the redundant IPC controllers 61 and 71 and the IPC controllers 61 and 71 are illustrated in FIG. (a, b) and first and second supply parts (b, d) for supplying power to the first and second termination resistor parts (a, b).

In the figure, the IPC controllers 61 and 71 are dualized and operated in an active / standby manner. That is, when the IPC controller 61 is active, the interface units 62-69 and 72- are operated. 79, if the IPC control unit 61 in the active state generates an error while managing the inter-processor communication, the IPC control unit 71 in the standby state is switched to the active state so that the interface units 62-69, 72-79 It takes over management and performs interprocessor communication.

In addition, the actual inter-processor communication is performed through the D-BUS, and the IPC controller 61 and the interface units 62-69 use terminating resistors at both ends of the D-BUS to terminate the D-BUS. The redundant IPC control unit 71 and the interface unit 72-79 also have terminating resistors at both end points of the D-BUS for D-BUS termination.

In the drawing, only the first terminal resistor a, which is the termination resistor of the IPC controller 61, and the second terminal resistor, c, which is the termination resistor of the IPC controller 71, are illustrated.

On the other hand, the first supply unit (b) is a means for supplying power to the first terminal resistor (a), the predetermined power supply (Vcc1) from the power supply pack of the IPC control unit 61 is the first diode (D1) Is connected in the forward direction, and a predetermined power supply Vcc2 from the power supply pack of the first IPC control unit 71 is connected to the second diode D2 in the forward direction.

Then, the power from the first and second diodes D1 and D2 is supplied to the terminal resistors R1 and R2 of the first terminal resistor portion a.

On the other hand, the second supply unit (b) is a means for supplying power to the second terminal resistor (c), the predetermined power supply (Vcc1) from the power supply pack of the first IPC controller 61 is the fourth diode (D4). Is connected in the forward direction, and the predetermined power supply Vcc2 from the power supply pack of the second IPC control unit 71 is connected to the third diode D2 in the forward direction to supply power from the third and fourth diodes D3 and D4. Supply to terminal resistors R3 and R4 of the second terminal resistor portion c.

Next, an operation process of the present invention including the above-described configuration unit will be described in detail.

First, in the drawing, termination resistors a and c for terminating the D-BUS are shown only at the D-BUS termination points of the IPC controllers 61 and 71, but the respective interface units 62-69 and 72-79 are shown. Termination resistors are also present at the termination points of the D-BUS and terminated at both ends of the D-BUS (termination resistor a and interface 62-69, termination resistor c and interface 72-79).

Accordingly, the first supply part b supplies power to the termination resistor part of the termination resistor part a and the interface parts 62 to 69 (not shown), and the second supply part c supplies the termination resistor part c. And power to the endpoint termination resistors of the interface sections 72-79.

On the other hand, in the same figure, when both the predetermined power supply Vcc1 of the power supply pack of the IPC control part 61 and the predetermined power supply Vcc2 of the power supply pack of the IPC control part 71 are normal, a 1st terminal resistor part is normal. (a) performs D-BUS termination with power from the first supply part (b), and the second termination resistor (c) performs D-BUS termination with power from the second supply part (d).

At this time, the diodes D1, D2, D3, and D4 of the first and second supply units b and d prevent the reverse current from each other, so that the predetermined power Vcc1 from the respective power supply packs of the IPC controllers 61 and 71 is prevented. , Vcc2) are supplied to the first and second termination resistors a and c in parallel, respectively.

On the other hand, the predetermined power supply (Vcc1) of the counterpart IPC control unit (61, 71) that is normally supplied even if one of the predetermined power supply (Vcc1, Vcc2) of the redundant IPC controller (61, 71) has an error and the supply of the predetermined power is stopped Based on Vcc2, the first and second termination resistors a and c are normally driven so that the D-BUS can be normally used.

As described above, according to the present invention, in the power supply PACK of one of the IPC control unit 61, 71 of the IPC control unit 61, 71 which is duplicated in the IPC communication for inter-processor communication in the electronic switchboard and controls the IPC communication. Even if an error in power supply for bus termination occurs, redundant bus termination power is provided so that the power supply pack of other redundant IPC controllers 61 and 71 can receive power supply for bus termination, thereby providing reliable interprocessor communication. There is an effect that can be performed.

Claims (1)

Each terminating resistor for terminating the data bus (D-BUS), which is an inter-processor communication channel, in the redundant first and second IPCs 60 and 70 having independent power supplies for controlling inter-processor communication at the electronic switching center. A device for supplying power to the units (a, c), the power of the first IPC 60 is connected to the first diode (D1) in the forward direction, the power of the second IPC 70 in the forward direction of the second diode ( A first supply part (b) connected to D2) to supply power from the first and second diodes (D1, D2) to a data bus termination resistor (a) in the first IPC (60); The power of the second IPC 70 is connected to the third diode D3 in the forward direction, and the power of the first IPC 60 is connected to the fourth diode D4 in the forward direction so that the third and fourth diodes D3, And a second supply (b) for supplying the power from D4) to the data bus termination resistor (c) in the second IPC (70).