KR910006445B1 - Device which gather alarm signals - Google Patents

Abstract

The circuit for integrating all alarm informations generating in each hardware unit of an exchange system to process the alarm information centralistically comprises a control mean (22) having an address output terminal, a control signal output terminal and information input terminal; an enable means (25) for decoding addresses from the control means (22) to output an enable signal; a buffer means (23) for receiving the alarm informations to transmit the alarm informations to the control means (22); a memroy means (21) storing the alarm informations; and a bus interface means (24) for transmitting the alarm informations to a maintenance processor (10) for analyzing the alarm informations to discriminating alarm state.

Description

Alarm collecting device

1 is a schematic configuration diagram of the present invention.

2 is a detailed configuration of the alarm collection interface unit.

3 is a format diagram of information transmission data.

4 is a format diagram of transmission information.

* Explanation of symbols for main parts of the drawings

10: maintenance processor

20: alarm collection interface unit

21: memory 22: control

23: buffer section 24: bus interface section

25: decoder

The present invention relates to an alarm collecting device, and more particularly, to an alarm collecting device for collecting alarm information generated by each hardware unit in an electronic switching system.

In general, a system having a complicated hardware configuration is provided with an alarm device capable of outputting an error generated in itself.

Similarly, the TDX-10 system, which is an electronic switch, outputs errors that occur locally in hardware units such as ASS (Access Switching Subsystem), INS (Interconnection Network Subsystem) and Central Control Unit (CCS). It is not very easy to comprehensively check and efficiently process air alarms at one moment, and it is not easy to efficiently check and efficiently handle each alarm generated in each device at one instant. Therefore, there is a need for an alarm collection device that can receive alarms generated from each hardware unit and process them centrally to cope with a small number of personnel.

The present invention was created to satisfy the above requirements, and provides an alarm collecting device for collecting and centrally and efficiently processing all hardware alarms generated in the subsystem of an electronic switchboard, in particular, a TDX-10 switch. There is a purpose.

According to the present invention, a control means having an address output terminal, a control signal output terminal and an information input terminal is connected to the control means via an address bus and a control signal bus to decode an address output from the control means according to a control signal. The enable means for outputting an enable signal, the control means and the enable means, inputting the output of the enable means, and inputting the alarm information and the fixed address generated from a plurality of hardware alarm sources. Buffer means for sending alarm information to the control means if the output of the means and the fixed address match, the control means, and enable means. Memory means connected to the buffer means for outputting alarm information output from the buffer means according to the output of the enable means at an address designated by the control means, and connected to the control means, memory means, enable means and a control signal of the control means An alarm collection interface means comprising a plurality of alarm collection interface units comprising bus interface means for transmitting the alarm information stored in the memory means to the maintenance processor via two TD buses in accordance with the output signal of the enable means; The plurality of alarm collection interface units are connected to each other via two TD-buses to communicate with each other, and are connected to a higher processor to analyze alarm information input from the plurality of alarm collection interface units to determine an alarm state and a normal state. Send that information to the upper processor It is composed of a maintenance processor.

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

1 is a schematic configuration diagram of the present invention.

In the figure, reference numeral 10 denotes a maintenance unit processor, and 20 denotes an alarm collection interface unit (FI: Fault Interface). One maintenance processor 10 and a plurality of alarm collection interface units 20 communicate through two telephony device buses, and each alarm collection interface unit 20 has a unique address. The maintenance processor 10 continuously scans the alarm collection interface unit 20 while changing the address of the alarm collection interface unit 20.

That is, when the address output from the maintenance processor 10 matches the unique address of the corresponding alarm collection interface unit 20, the information on which the alarm collection interface unit 20 is collected by a hardware unit in the system is used to TD-bus. Outputs to the maintenance processor 10 through the line, and the maintenance processor 10 receives the output of the alarm collection interface unit 20 and, in response to the output signal, flashes the alarm state and the normal state and then returns to the upper processor. Send an alarm and output the location and status of the alarm generating hardware unit to the CRT terminal or printer. The information source of the alarm information collected by the alarm collection interface unit 20 can be made in the mode hardware constituting the system, and the alarm information signal sets the alarm state to the TTL level 'high' or high impedance state, and the normal state. Must have a TTL level 'low' or ground state and must be transmitted in conjunction with the ground line.

Each of the plurality of alarm collection interface units 20 may collect up to 64 alarm information, and up to 64 alarm collection interface units 20 may be installed in the redundant maintenance processor 10.

2 is a detailed configuration diagram of the alarm collection interface unit 20. In the figure, 21 denotes a memory unit, 22 denotes a control unit, 23 denotes a buffer unit, 24 denotes a bus interface unit, and 25 denotes a decoder unit. The memory unit 21 is composed of a ROM and a RAM. The bus interface unit 24 communicates with the maintenance processor 10 through the TD bus, and the buffer unit 23 receives a buffer for 64 alarm information. And a buffer for receiving a unique address, the control unit 22 is composed of one chip microprocessor and its peripheral circuit, and the memory unit 21 and the buffer unit 23 through an address bus, a data bus, and a control signal bus. ), The bus interface unit 24 and the decoder unit 25 are controlled, and the decoder unit 25 inputs a designated address of the controller 22 to decode the address to decode the memory unit 21 and the buffer. The unit 23 performs the function of enabling the bus interface unit 24.

The alarm aggregation interface unit 20 has four operation modes to transmit alarm information generated from each hardware unit to the maintenance processor 10. The operation mode will be described as follows.

First, the alarm transition state information transmission mode will be described.

The maintenance process 10 includes a plurality of alarm collection interface units (transmission synchronization signals informing mode / address 0 to mode / address 3, synchronization clock and start of data for selecting the operation mode and the alarm collection interface unit 20). Continue to 20). The alarm collection interface unit 20 receives the serial mode data and the address data in the unit of bytes transmitted from the maintenance processor 10 through the bus interbase unit 24, and the received data is translated by the control unit 22. After the alarm transition state information transmission mode is determined by the mode data '4', the command data or a signal indicating that the data is ready to be transmitted and received is enabled. The ready signal is sensed by the maintenance processor 10, and is input through the buffer unit 23 of the alarm collection unit 20 to transmit information on the alarm transition state accommodated in the memory 21. At this time, the alarm collection interface unit 20 transmits a result obtained by performing a self test function through a test buffer when idle. The information transmission data is composed of one byte, and the format thereof is shown in FIG. In the figure, MSB most significant bit, LSB is least significant bit, and X is don't care. The third to eighth bits of the 8 bits are don care (X) states, and the second bit indicates that there is no state change when the state is '0', and when there is '1', the first bit indicates the state change. A status of '0' indicates that there is no abnormality of the in vitro test result, and a status of '1' indicates that there is an abnormality of the self test result.

second. Explain the alarm transition data transmission mode.

The alarm transition data transmission mode may be designated as the mode data '5' from the maintenance processor 10 in the same manner as the transition state information transmission mode described above. The transmission format is shown in FIG. In the figure, 00 and 63 are each bit number in 8 bytes and also represent 64 alarm information numbers.

Third, the alarm data transmission mode will be described.

It operates in the same manner as the alarm transition data transmission mode described above, and the transmission of the current state for each alarm information can be designated as the mode data '6', and the information to be transmitted is 8 bytes of data, which indicates the status of 64 alarm information. Send in bytes. The format to be transmitted is the same as that of FIG.

fourth. Describes the loopback test mode.

The loopback test for testing the interface bus with the maintenance processor 10 proceeds by sending one byte of loopback data along with the mode data '7'. The received loopback data is retransmitted to the maintenance processor 10 by the mode data '8'.

The present invention configured and operated as described above has the following effects.

First, since the alarm generated by the hardware unit, which has been conventionally generated by three times and difficult to uniformly perform monitoring and processing, is collected and processed in one place, efficient and perfect processing can be performed.

Secondly, it can be used not only in all-electronic exchange but also in other systems with hardware configuration, so it is widely used and economical.

Claims (4)

A control means 22 having an address output end, a control signal output end, and an information input end, connected to the control means 22 via an address bus and a control signal bus to decode an address output from the control means 22 according to a control signal; Connected to the enable means 25, the control means 22, and the enable means 25 to output an enable signal to input the output of the enable means 25 and to generate from a plurality of hardware alarm sources. A buffer means 23 for transmitting alarm information to the control means 22, the control means 22, if the output of the enable means 25 and the fixed address coincide. Connected to the enable means 25 and the buffer means 23, and outputs the alarm information output from the buffer means 23 in accordance with the output of the enable means 25 at an address designated by the control means 22. Key memory means 21, the control means 22, memory means 21. Connected to the enable means 25 and in accordance with the control signal to the control means 22 and the output signal of the enable means 25 the alarm information stored in the memory means 21 via the maintenance processor via two TD-buses. Alarm collection interface means comprising a plurality of alarm collection interface unit 20 consisting of a bus interface means 24 for transmitting to each other, the plurality of alarm collection interface unit 20 is connected to each other via two TD-buses And a maintenance processor 10 connected to a higher processor to analyze the alarm information input from the plurality of alarm collection interface units 20 to determine an alarm state and a normal state and to transmit the information to the higher processor again. Alarm collection device, characterized in that. 2. The alarm collection apparatus according to claim 1, wherein said enable means (25) comprise a decoder for outputting a new enable address from an address input from said control means (22) and a control signal input. The alarm collecting device according to claim 1, wherein the alarm information input to the buffer means (23) is input from a maximum of 64 alarm sources. The alarm collecting device according to claim 1, wherein the alarm information signal has a TTL level.

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