KR100239059B1 - Duplexing active/standby control method - Google Patents

Abstract

The present invention relates to a redundant active / standby control method. When one PBA board operates in an active state to process call processing traffic, the other PBA board configured as redundant waits in a standby state, and if the PBA board is active If a system failure occurs during a call processing state, the other PBA boards waiting in the standby state are switched to the active state, and the two PBA boards configured as redundant as described above are operated by the counter before being operated in the active / standby state. It includes an initialization step that keeps all the signals in the system for a certain period of time until it stabilizes, thus preventing redundant PBA boards from transitioning to the standby or active state at the same time. Anxiety between the standby and active states There is an effect that can prevent the condition.

Description

Redundant Active / Standby Control Method

The present invention relates to redundancy of a full electronic telephone exchange having a distributed control structure, and particularly, an active / standby mode is set by using a counter on a printed circuit board assembly (hereinafter referred to as PBA) board. The present invention relates to a redundant active / standby control method.

In general, an electronic switch having a distributed control structure has an IPC network in the switch for communication between each processor. Especially, in the case of the main processor, the electronic switch is configured with redundancy, and the IPC path with the node is also cross. It takes the form of a Cross Link.

In other words, there are cases of redundant operation to simplify software, save programming time, conformity to real-time system requirements, thorough recovery due to rapid detection, and simplify software recovery.

At this time, according to the A and B side (Side) configured as redundancy, one side is in an active mode when the initial power is applied, and the other side is operated in a standby mode, and the active mode processes all call processing traffic.

As shown in FIG. 1, a block diagram of a conventional redundant active / standby control method includes an A-Side 1, a controller 2, and a B-Side 3. As shown in FIG.

A-Side 1 transitions its state to a standby state when power is applied from a power pack (not shown).

At this time, the B-Side 3 operates in an active state to process call processing traffic.

The control unit (2) is composed of A-Side (1) and B-Side (3) in redundancy, so that the PBA board operating in the active state suddenly switches to the standby state when another system failure occurs, and the other standby state The PBA board transitions to an active state to continue performing call processing traffic.

FIG. 2 is a state diagram for controlling the redundant active / standby mode of FIG. 1. Hereinafter, an operation state of the state diagram will be described in detail.

First, when power is applied from a power pack (not shown), A-Side 1 and B-Side 3 are powered on at the same time.

Referring to the state diagram shown in FIG. 2 from the viewpoint of A-Side (1), when power is applied to the A-Side (1), the A-Side (1) is placed in a standby state by the control of the initialization command of the controller 2. (201)

When operating in the standby state as described above, if the B-Side 3 transmits an output signal indicating that the B-Side 3 is active under the control of the control unit 2, the A-Side 1 generates such a signal. The active signal is received and continuously maintained. (203)

On the other hand, if the B-Side (3) transmits an output signal indicating that the B-Side (3) is operating in standby due to a system failure under the control of the controller 2, the A-Side (1) sends this standby signal. It receives an input and switches from a standby state to an active state. (202)

The A-Side 1 switches from the standby state to the active state and performs call processing traffic according to the operation 204. In the B-Side 3, under the control of the controller 2, the B-Side 3 Upon retransmitting the output signal indicating that it is operating in standby, A-Side (1) receives this standby signal and continuously performs call processing traffic.

In the course of processing call processing traffic, if the B-Side 3 suddenly transmits an output signal indicating that the B-Side 3 is active under the control of the control unit 2, the A-Side 1 generates such a signal. When the active signal is input or a system failure occurs, the transition from the active state to the standby state (206).

However, in the conventional redundant active / standby control method as described above, when the power is switched from the OFF state to the ON state again, A-Side (1) and B- are caused by an unstable state of the signal. Side (3) transitions to standby state or active state at the same time, and PBA board that is temporarily mounted at the time of unmounting / mounting PBA board which has error should operate in standby state. There was a problem affecting the board.

The present invention has been made to solve the above problems, and its object is to prevent an unstable phenomenon of instantaneous transition from standby to active when unmounting / mounting an error-prone PBA board among two PBA boards configured as redundancy. The present invention provides a redundant active / standby control method.

The present invention for achieving the above object relates to a redundant active / standby control method, the step of operating a PBA board in the active state to process call processing traffic; When the PBA board operates in an active state, waiting for the other PBA board configured as redundancy in a standby state; When a system failure occurs while the active PBA board processes a call, the PBA board waiting in the standby state is switched to the active state; The two PBA boards with redundancy include an initialization step that allows the counter to hold for a period of time until all signals in the system have stabilized before operating in an active / standby state.

1 is a block diagram of a conventional redundant active / standby control method;

FIG. 2 is a state diagram for controlling the redundant active / standby mode of FIG. 1;

3 is a block diagram of a redundant active / standby control method according to the present invention;

4 is a state diagram for controlling the redundant active / standby mode of FIG.

<Description of the symbols for the main parts of the drawings>

10: A-Side20: control unit

30: B-Side40: counter

Hereinafter, the objects and features of the present invention will be described in more detail with reference to the accompanying drawings so that the objects and features of the present invention can be more clearly understood.

3 is a block diagram of a redundant active / standby control method according to the present invention, and includes an A-Side 10, a control unit 20, a B-Side 30, and a counter 40.

When power is applied from a power pack (not shown), the A-Side 10 waits for a predetermined time in the counter 40 and immediately transitions its state to a standby state by an initialization command of the controller 20. .

At this time, the B-Side 30 operates in an active state to process call processing traffic.

The controller 20 controls the A-Side 10 and the B-Side 30 to be redundant and switches to a standby state when an error occurs in an active PBA board. Another PBA (abbreviated as PBA) board is controlled so that it can be switched to active to continue call processing traffic.

When power is applied from a power pack (not shown), the counter 40 maintains a predetermined time until a counter value determined by the control of the controller 20 is stabilized so that all signals of the system are stabilized.

FIG. 4 is a state diagram for controlling the redundant active / standby mode of FIG. 3, which will be described in detail below.

First, when power is applied from a power pack (not shown) (400), the counter is initialized (401) by an initial reset signal, the counter 40 is operated under the control of the controller 20, and the counter is counted up by a clock. To start.

The counter 40 counts up to a predetermined time (403), and when all signals of the system are stabilized (402), the A-Side (10) transitions to a standby state under the control of the controller 20 (404).

At this time, the PBA board of the B-Side 30 operates in an active state. If the B-Side 30 transmits an output signal indicating that the B-Side 30 is active under the control of the controller 20, the A-Side 10 Receives the active signal and continuously maintains the standby state (405).

Further, if the B-Side 30 transmits an output signal indicating that the B-Side 30 is operating in standby due to the failure of the system 20, the A-Side 10 transmits the standby signal. The signal is input and is switched from the standby state to the active state (406).

When the A-Side 10 switched to the active state 407 continuously performs call processing traffic, an output signal indicating that the B-Side 30 is operating in standby mode under the control of the controller 20 is input. If received, the A-Side 10 receives the standby signal and continuously performs call processing traffic.

While performing call processing traffic, if an output signal indicating that the B-Side 30 is operating in an active state is suddenly transmitted under the control of the controller 2, the A-Side 10 receives such an active signal or is currently present. If the condition is a fault, the transition from the active state to the standby state (409).

In conclusion, using the counter 40 between the redundant A-Side 10 and the B-Side 30 does not transition to the standby state immediately after the initial power is applied, but until all signals of the system are stabilized. After a certain period of time, a transition to the standby state allows a stable and accurate redundancy to be determined.

As described above, the present invention described above is operated after maintaining for a predetermined time by using a counter at the time of initial power on / off, thus preventing a phenomenon in which a redundant PBA board transitions to a standby state or an active state at the same time, and an error occurs in the PBA. It is possible to prevent the unstable state where the standby state and the active state are interchanged when the board is unmounted.

Claims (1)

In a redundant active / standby control method in which two PBA boards configured as redundancy are switched between each other in a standby state and an active state as necessary, An initialization step of holding the redundant PBA boards for a predetermined time until all signals of the system are stabilized by the control of the counter before operating the active / standby state; Operating any one of the PBA boards in a standby state when an up count value of the counter becomes a predetermined value; When the one PBA board operates in a standby state, the other PBA board configured as the redundancy operates in the active state to process call processing traffic; And switching the PBA board waiting in the standby state to the active state when a system failure occurs while the PBA board in the active state is processing a call.

Images