KR19990011055A - Apparatus and method for state signal recognition of each module in a redundant system - Google Patents

Abstract

The present invention relates to a method of recognizing a state signal of each module in a redundant system, and more particularly, to a method of recognizing a state signal of each module in a redundant system, ≪ / RTI >

The status signal recognizing apparatus according to the present invention includes an event detecting unit and an event detecting unit for adjusting the impedance between the switching module and the processor module when an event occurs so that the remote module can not recognize whether an event has occurred or not A switching unit including resistors R1 and R2, a cpu, two amplifiers connected in parallel to the cpu, a processor unit having one resistor R1 connected in parallel to the amplifier, And a backplane connected to the processor unit and the switching module.

According to another aspect of the present invention, there is provided an apparatus for recognizing a signal of each module state of a redundant system including a switching module, a processor module, and a backplane,

If the resistors R1 and R2 connected in parallel with the event detecting unit in the switching module and the power source applied to the event detecting unit are V, the voltage across the resistor R2 satisfies the following equation,

R2 = V / (R2 + R1 / 2) 0.8 [V]

And transmitting only the status of the module in which the event occurs without affecting the remote module.

An apparatus and method for recognizing a status signal of each module in a redundant system according to the present invention allows the module status to be accurately generated and recognized. Also, when an event occurs in the active module in the communication system operating in the active / standby state, the module in the standby state correctly recognizes the status signal of the active module, thereby enabling the active module to continuously perform service without disconnecting the service.

Description

Apparatus and method for state signal recognition of each module in a redundant system

The present invention relates to an apparatus and method for recognizing a status signal of each module of a redundant system, and more particularly, to a system and method for recognizing status of each module in a redundant system, And to a method and apparatus for recognizing the same.

Generally, in a communication system, a redundant system using two modules is used for the purpose of survivability and reliability. That is, when one active state module that provides a current communication service and a failure to provide the communication service continuously due to a failure of the active module or another reason, Module.

The redundant module configuration used in the conventional communication system has a main control unit (CPU), a memory, various input / output devices for all control, and an interrupt control unit composed of hardware for notifying the main control unit of the state of the other party in real time And a handshake control unit for controlling various handshake signals between the respective redundancy modules.

The redundancy operation for a redundant system consisting of an active (active) state redundancy module and a standby state redundancy module is described below.

When a failure occurs in the active-state redundancy module, it is notified to the handshake control section of the standby-state redundancy module through the handshake control section of the active-state redundancy module. The handshake control unit of the standby state duplication module receiving the handshake signal detects the handshake signal and provides a condition for the interrupt control unit to generate an interrupt so that the interrupt control unit issues an interrupt to the main control unit, Of course.

Standby state In the redundancy module, based on the information provided by the handshake control unit, an interrupt from the interruption control unit is analyzed to determine what kind of a fault it is, and a decision is made as to whether to switch the standby state duplication module to the active state.

In this way, the active-state redundancy module is switched from the active state to the inactive state, and the redundancy module in the inactive state is switched to the active state.

In general, to recognize the status signal of each module, a status signal is directly connected or a constant value register is attached to a directly connected signal to maintain pull-up.

The STARACER system, which is an object of the present invention, receives signals transmitted from SPU (STARACER Processor Unit), SIU (STARACER Interface Unit) and SSU (STARACER Switching Unit) and delivers them to the network management system or displays them through a monitor.

If both the SPU active module and the standby module are installed, the SPU recognizes the power failure signal even if either the SSU active module or the standby module generates a power fault. However, the power failure signal is a signal output from the rear board of each board and must be independent of the signal output from the front board.

However, at the SSU front, there is a self power failure that sends its own power failure to the other.

At this time, when power failure occurs on the right or left SSU, the power supply is faulty and grounded, but the SSU front of the other party pulls up the 1 kΩ resistor to the remote power failure signal.

First, when the SPU front is all ON, 2.5 kΩ is pulled up because a 5.1 kΩ resistor is connected in parallel to the SPU.

At this point, the SSU has a pull up of 1kΩ, so when one SSU fails, the voltage at 1kΩ in the remote power fault signal going to the other side is 1.4 volts.

Therefore, even if a power failure occurs in itself, the power failure signal going to the other party is recognized as a high state.

Second, when only one SPU front is ON, the SPU has a pull-up resistor of 5.1 kΩ, which is pulled up by 1 kΩ, so that when one SSU is out of power, the 1 in the remote power fault signal The voltage across kΩ is 0.82 volts.

Therefore, when the power failure occurs, the voltage of the power failure signal of the counterpart becomes about the threshold voltage and recognizes as the low state.

There is a problem that the counterpart SSU can be recognized as a power failure due to the above-described phenomenon and the register must be changed so that the voltage applied to the registers in the SPU and the SSU can be recognized as high.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide an apparatus and method for recognizing a status signal of each module in a redundant system capable of accurately recognizing the status of a redundant module, And to provide the above objects.

1 is a block diagram of a state signal recognizing circuit according to the present invention;

2 is a diagram illustrating a state recognition method according to the present invention.

According to an aspect of the present invention, there is provided an apparatus for recognizing a status signal in a redundant module, the apparatus comprising: a status module that recognizes whether an event is generated by adjusting an impedance between the switching module and a processor module, A switching module including resistors R1 and R2 connected in parallel with the event detector;

cpu, two amplifiers connected in parallel to the cpu, and a resistor R1 connected to the amplifiers in parallel, respectively;

And a backplane connected to the processor unit and the switching module.

In order to achieve the above object, there is provided an apparatus for recognizing each module state signal of a redundant system including a switching module, a processor module, and a backplane, wherein resistances R1 and R2 connected in parallel with the event detection unit in the switching module, If the power applied to the event detection unit is V, the voltage across the resistor R2 is adjusted by the voltage applied to the resistor R2 given by Equation 1 below,

And transmitting the status of the module in which the event occurred without affecting the remote module.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

1 is a circuit diagram of an apparatus for recognizing a state signal in a communication system operating as a duplication system according to the present invention.

When the state of the event detection unit goes to a high state, it is in a normal state, and when it goes to a low state, an event occurs.

At this time, if the voltage of the signal detection point is lower than the threshold voltage of 0.8 volts, it is recognized as a low state, and if it is high, it is recognized as a high state. When the event is generated by the resistance values R1 and R2, the event recognizes that an event has occurred in the remote module. At this time, the processor module should not recognize that an event has occurred from the processor module to the remote module.

For example, R1 has a 5.1 kΩ resistor connected in parallel, pulling it up to 2.55 kΩ. At this time, if 1kΩ is pulled up to R2, the voltage applied to one of the modules with R2 is

Even if an event occurs, the remote module will recognize it correctly.

However, there may be only one R1 in the connected module, so if there is only one module connected to this R1,

.

Therefore, the remote module recognizes that the event has occurred.

The voltage level of the signal detection part of the processor part consisting of the redundant module is R1 connected in parallel so that the total register value becomes R1 / 2,

.

Here, in order to transmit the state of only the module in which the event occurs without affecting the remote module, Equation (5) must be satisfied.

As described above, the method and apparatus for recognizing the status signal of each module in the redundant system according to the present invention enables the module status to be accurately generated and recognized. Also, when an event occurs in the active module in the communication system operating in the active / standby state, the module in the standby state correctly recognizes the state signal of the active module, and the active module can continuously perform the service without disconnecting the service.

Claims (3)

A switching module including an event detecting unit and resistors R1 and R2 connected in parallel with the event detecting unit in order to prevent the remote module from recognizing whether or not an event occurs by adjusting the impedance between the switching module and the processor module when an event occurs; cpu, two amplifiers connected in parallel to the cpu, a processor unit having one resistor R1 connected in parallel to the amplifier, And a backplane connected to the processor unit and the switching module. A status signal recognition device for each module in a redundant system. The method of claim 1, wherein the event detection unit recognizes that an event has occurred when the event value is low and the voltage of the signal detection point is less than a threshold value And when it is lower than the threshold value, it is recognized as high. A status signal recognition device for each module in a redundant system. An apparatus for recognizing a signal of each module state of a redundancy system comprising a switching module, a processor module and a backplane, If the resistors R1 and R2 connected in parallel with the event detecting unit in the switching module and the power source applied to the event detecting unit are V, the voltage across the resistor R2 satisfies the following equation, R2 = V / (R2 + R1 / 2) 0.8 [V] And transmitting only the status of the module in which the event occurs without affecting the remote module. A method of recognizing status signals of each module in a redundant system.