KR200212137Y1 - Fault status transmission circuit of the monitored unit with priority - Google Patents

Abstract

An object of the present invention is to transmit a failure state of a monitored unit to a control unit, to give a priority to the failure of the monitored unit, so that when a plurality of failures occur, the failure of the monitored unit according to the priority. It is to be able to communicate the status to the control unit.

The structure of the present invention is a fault state transmission circuit comprising a watched unit for monitoring a state of a fault and a control unit for outputting a clock signal to the watched unit and receiving a signal according to a fault generated from the watched unit. In the monitoring target unit, a fault transmitter configured to divide an input clock signal, select a corresponding divided signal according to a fault state, and output a fault state signal. A dispensing unit 50 which generates and outputs the dividing unit 50; A priority encoder 60 for determining a corresponding priority according to an obstacle occurring in the monitoring target unit and outputting a selection signal according to the priority; A selector (70) for selecting and outputting a corresponding signal from among the various divided divided signals output from the division unit (50) according to the selection signal output from the priority encoding unit (60); It is characterized in that it comprises an output adjusting unit 80 for receiving a failure signal and outputting the signal only when a failure corresponding to the signal that is selected and output by the selector 70.

Description

Fault state propagation circuit in the supervised unit with priority

The present invention relates to a fault state transfer circuit of a unit having a priority, and more specifically, to transfer a fault state of a unit to be monitored to a control unit. The present invention relates to a fault state transmission circuit of a supervised unit having a priority to give a priority to transmit a fault state of the supervised unit to the control unit according to the priority when a plurality of faults occur.

In a system in which various types of systems such as a transmission system and an exchange system transmit / exchange data and process data, the processor always performs a function of monitoring whether the performance is normally performed.

Then, if the performance of the working board is disturbed, the corresponding board outputs a signal to the control unit that the failure has occurred, so that the action corresponding to the failure state can be taken.

By the way, the signal line according to the failure state is too complicated, the problem has arisen, there is a patent application for solving such a problem, Korean Patent Application No. 1996-43574 (name of the invention: control unit and monitoring unit) Circuitry and a method for communicating status information between the control unit and the method for reducing the number of control signal lines between the control unit and the monitored unit.

Hereinafter, with reference to the accompanying drawings, it will be described in the fault state transfer circuit of the monitoring unit of the prior art according to the patent application No. 1996-43574.

As shown in Fig. 1, the configuration of the fault state transfer circuit of the monitoring target unit according to the prior art is

The control unit 10 which outputs a clock signal to the supervised unit 20 to monitor the state of the fault and the supervised unit 20, and receives a signal according to the fault generated from the supervised unit 20. In the fault state transfer circuit consisting of,

The configuration of the monitoring target unit 20 includes: a fault transmitting / receiving unit 22 for dividing an input clock signal CLK, selecting a corresponding division signal according to a fault state, and outputting a fault state signal; The clock signal CLK transmitted from the control unit 10 is received and temporarily stored and then transmitted to the transceiver 22, and the fault state signal transmitted from the failure transceiver 22 is temporarily received. Comprises a first buffer 21 for transmitting to the control unit 10,

The control unit 10 is configured to generate and output a transmission clock, and receive a failure state signal according to the failure of the monitoring target unit 20 to check the failure state and output a failure recovery control signal control unit (11); The clock signal CLK outputted from the control transceiver 11 and the fault recovery control signal are received and temporarily stored and then transmitted to the first buffer 21 of the monitoring target unit 20 and the first buffer ( And a second buffer 12 which receives the fault state signal transmitted from the receiver 21 and temporarily stores the fault state signal transmitted to the control transceiver 11.

The operation of the fault state transmission circuit of the conventional monitoring target unit made as described above is as follows.

The control unit outputs a clock signal to the monitoring target unit 20 to monitor the status of the failure, receives a signal according to the failure generated from the monitoring target unit 20 and outputs a failure recovery control signal accordingly.

That is, the error transmitting / receiving unit 22 of the monitoring target unit 20 divides the input clock signal CLK, selects a corresponding division signal according to the failure state, outputs a failure state signal, and outputs the first buffer 21. ) Receives and temporarily stores the clock signal CLK transmitted from the control unit 10 and transmits the clock signal CLK to the transceiver unit 22 and receives the fault state signal transmitted from the fault transceiver unit 22. Store it and send it to the control unit 10.

The control transceiver 11 of the control unit 10 generates and outputs a transmission clock, receives a failure state signal according to the failure of the monitoring target unit 10, examines the failure state, and outputs a failure recovery control signal. The second buffer 12 receives the clock signal CLK and the fault recovery control signal output from the control transceiver 11 and temporarily stores the received first buffer 21 of the monitoring target unit 20. The controller transmits the fault status signal transmitted from the first buffer 21 to the control buffer 11 and temporarily stores the fault state signal.

Therefore, the failure transmitting and receiving unit 22 of the monitoring target unit 20 is generated from the control transmitting and receiving unit 11 of the control unit 10 is input through the second buffer 12 and the first buffer 21. The first buffer 21 generates a plurality of divided signals using the clock signal CLK, selects a corresponding divided signal according to the state of the fault signal input from each part of the internal unit, and outputs a fault state signal. The signal is received and transferred to the second buffer 12, and the second buffer 12 transmits the signal to the control transceiver 11.

The control transceiver 11 checks the fault state signal transmitted through the path as described above, and transmits the signal to the CPU 13, and the CPU 13 analyzes the signal to determine the corresponding fault state. Judge.

However, the fault state transmission circuit of the conventional monitoring target unit operating as described above cannot give priority to the failure occurring in the monitoring target unit, and the control unit can grasp the importance of the failure in the failure occurring in the monitoring target unit. There is a disadvantage that can not be.

In addition, after a failure occurs in the monitored unit, if a failure of lesser importance occurs, a new failure state is sent to the control unit, so that the control unit cannot analyze the failure state of the monitored unit. .

Therefore, an object of the present invention is to solve the problems of the prior art as described above, in the transfer of the failure state of the monitored unit to the control unit, giving priority to the failure of the monitored unit, The present invention provides a fault state transmitting circuit of a supervised unit having a priority that enables to transmit a fault state of a supervised unit to a control unit according to a priority when a fault occurs.

1 is a block diagram to which a failure state transfer circuit of a unit to be monitored according to the prior art is applied;

2 is a block diagram to which a failure state transfer circuit of a supervised unit having priority according to an embodiment of the present invention is applied.

The configuration of the present invention for achieving the above object is made as follows.

In the fault state transmission circuit comprising a monitoring target unit to monitor the state of the fault and a control unit for outputting a clock signal to the monitoring target unit, and receiving a signal according to the fault generated from the monitoring target unit,

In the monitoring target unit, a configuration of a fault transmitter which divides an input clock signal, selects a corresponding divided signal according to a fault state, and outputs a fault state signal.

Division means for generating and outputting a variety of division signals using an input clock signal;

Priority encoding means for setting a corresponding priority according to an obstacle occurring in the monitoring target unit and outputting a selection signal according to the priority;

Selecting means for selecting and outputting a corresponding signal from among the various divided divided signals output from the dividing means according to the selection signal outputted from the priority encoding means;

And an output adjusting means for receiving the fault signal and outputting the signal only when a fault corresponding to the signal being selected and output by the selecting means occurs.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

As shown in Figure 2, the configuration of the fault state transfer circuit of the priority monitoring unit according to an embodiment of the present invention is as follows.

In the fault state transmission circuit comprising a monitoring target unit to monitor the state of the fault and a control unit for outputting a clock signal to the monitoring target unit, and receiving a signal according to the fault generated from the monitoring target unit,

In the monitoring target unit, a configuration of a fault transmitter which divides an input clock signal, selects a corresponding divided signal according to a fault state, and outputs a fault state signal.

A division unit 50 for generating and outputting various division signals using the input clock signal;

A priority encoder 60 for determining a corresponding priority according to an obstacle occurring in the monitoring target unit and outputting a selection signal according to the priority;

A selector (70) for selecting and outputting a corresponding signal from among the various divided divided signals output from the division unit (50) according to the selection signal output from the priority encoding unit (60);

It is characterized in that it comprises an output adjusting unit 80 for receiving a failure signal and outputting the signal only when a failure corresponding to the signal that is selected and output by the selector 70.

The configuration of the output adjustment unit 80,

An or gate 81 that outputs a high signal when a failure signal occurs in the monitored unit;

And a tri-state buffer 85 that is driven according to the signal output from the or gate 81 and transfers the signal output from the selector 70 to the control unit.

The operation of the embodiment of the present invention made as described above is as follows.

The monitoring unit outputs a clock signal to the monitoring unit to monitor the status of the failure in the control unit and the monitoring unit, and the monitoring unit transmits a signal according to the generated failure to the control unit, the failure transmitting unit in the monitoring unit. The controller divides the clock signal input from the control unit, selects a corresponding divided signal according to a fault state, and outputs a fault state signal. Hereinafter, an operation of the fault transmitter will be described.

The division unit 50 generates and outputs various division signals using the clock signal CLK outputted from the control unit.

The priority encoder 60 determines a corresponding priority according to an obstacle occurring in the monitoring target unit and outputs a selection signal according thereto.

The selector 70 selects and outputs a corresponding signal from various divided divided signals output from the divider 50 according to a selection signal output from the priority encoder 60.

The output adjusting unit 80 receives a fault signal and outputs a signal only when a fault corresponding to a signal selected and output by the selector 70 occurs. The fault signal is monitored in the unit to be monitored using the orgate 81. When the signal is generated to output a high signal, it is driven according to the signal output from the or gate 81 using the three-phase buffer (85) to transfer the signal output from the selector 70 to the control unit.

The priority encoder 60 generates a priority coded signal that can give priority to each obstacle of the monitored unit, and the type of failure of the monitored unit input to the priority encoder 60 is When the number of select signals of the selector is "N" and the number of select signals of the selector is "M", the relationship shown in Equation 1 below is established between the number of obstacles of the monitoring target unit and the number of selectors of the selector.

[Equation 1]

N ≤ 2 ^M or log ₂ N ≤ M

That is, in order to encode 'N' obstacles, a priority encoded signal corresponding to the minimum integer 'M' that satisfies Equation 1 should be generated.

The division unit 50 divides the transmission clock CLK inputted from the control unit, and selects 70 frequency division signals to match the number of obstacles generated in the monitoring target unit. Will output

Accordingly, since the divided signal corresponding to each type of disorder is different, the selector 70 for selecting the divided signal corresponding to each disorder performs the following operation.

The selector 70 selects one division signal corresponding to a selection signal input from the priority encoding unit 60 among 'N' division signals output from the division unit 50, and then converts the three-phase buffer 85 into the three phase buffer 85. Since the priority encoder 60 outputs a selection signal for a failure having a high priority among failures occurring in the monitoring target unit, the signal output from the selector 70 also has a high priority. Is the divided signal for.

The three-phase buffer 85 transmits a divided signal output from the selector 70 to a control unit, and is driven when the signal output from the or gate 81 is enabled to output a divided signal. .

On the other hand, the or gate 81 outputs a signal for enabling the three-phase buffer 85 when a failure occurs in the monitoring target unit.

By operating as described above, the priority encoding unit 60 encodes according to the importance of the failure, so that when a failure occurs and then a failure that has a higher priority than the failure occurs, the current failure state is ignored. By outputting a selection signal according to the control unit, the control unit stops the processing of the existing failure state and switches to the recovery of the newly generated failure.

However, when a failure with a lower priority than the previously generated failure occurs, the priority encoding unit 60 does not generate a selection signal according to the newly generated failure until the processing for the existing failure is completed. By doing so, the control unit can be devoted to dealing with an existing fault.

The priority encoder 60 outputs a selection signal according to a corresponding failure only after the processing for the existing failure is completed in the control unit, so that the failure recovery process can be performed.

Therefore, the control unit can increase the efficiency of failure processing by processing the failures occurring in the monitoring target unit in the order of high priority.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, conversions, and modifications are possible within the scope without departing from the technical spirit of the present invention. It will be apparent to those who have knowledge.

Accordingly, the present invention operating as described above gives priority to the failure of the monitored unit in transmitting the failure state of the monitored unit to the control unit, and according to the priority when a plurality of failures occur. By allowing the failure state of the monitored unit to be transmitted to the control unit, there is an effect of efficiently coping with the failure occurring in the monitored unit.

Claims (3)

In the fault state transmission circuit comprising a monitoring target unit to monitor the state of the fault and a control unit for outputting a clock signal to the monitoring target unit, and receiving a signal according to the fault generated from the monitoring target unit, In the monitoring target unit, a configuration of a fault transmitter which divides an input clock signal, selects a corresponding divided signal according to a fault state, and outputs a fault state signal. Division means for generating and outputting a variety of division signals using an input clock signal; Priority encoding means for setting a corresponding priority according to an obstacle occurring in the monitoring target unit and outputting a selection signal according to the priority; Selecting means for selecting and outputting a corresponding signal from among the various divided divided signals output from the dividing means according to the selection signal outputted from the priority encoding means; A failure state transmission circuit of the monitoring target unit having a priority, characterized in that it comprises an output adjustment means for receiving a failure signal and outputting the signal only when a failure corresponding to the signal output by selecting by the selection means occurs. . The method of claim 1, wherein the priority encoding means, If a failure with a higher priority occurs than a failure in an existing condition, the failure status of the monitored unit having priority is transmitted, ignoring the existing failure and encoding a newly generated high priority failure status signal. Circuit. The structure of claim 1, wherein the output adjusting means comprises: Drive means for outputting a drive signal when a failure signal occurs in the monitored unit; And a three-phase buffer which is driven according to a signal output from the driving means and transmits a signal output from the selecting means to a control unit.