JPH08331210A - Communication equipment - Google Patents

Abstract

PURPOSE: To use a mounted non-volatile memory in a short time even when a mounted microcomputer part is exchanged by making a storage medium mounted on the microcomputer part into a loadable/unloadable storage medium. CONSTITUTION: A microcomputer part 11 is provided with a CPU, peripheral equipment 12 and storage medium 13 such as a plug-in type non-volatile memory and plural units #1-#N 15-16, capable of plural software control by using softwares, are supervised and controlled through a bus 14. Since the plug-in type storage medium not fixed on the unit is used as the storage medium such as the non-volatile memory, even when it is necessary to exchange the microcomputer part 11, a system can be started again in a short time by inserting the storage medium 13 such as the plug-in type non-volatile memory used up to the moment to the new exchanged microcomputer part 11.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The industrial structure of a storage medium that stores data for operating a communication device that performs various kinds of monitoring and control by software, and maintenance and switching of a communication device that is configured in a network and is remotely monitored and controlled. It relates to a method of disconnecting own station data.

In a communication device having various supervisory control functions,
Software settings are provided so that various function settings within the device can be set remotely. In such monitoring control, if the information once set is not retained, various settings in the device cannot be made and the device cannot be operated at the time of restarting after the power is turned off.

For this reason, a method of storing such information in a non-volatile memory is generally used. However, if this non-volatile memory mounting unit is replaced during maintenance, the information held up to that point will be lost. It is necessary to newly set these pieces of information.

Further, in sending and receiving the supervisory control data for supervisory control, if the data link control unit for exchanging the data is removed from the device for maintenance or the like, the supervisory control network is disconnected. ,
The entire network, or part of it, becomes uncontrollable.

[0005]

2. Description of the Related Art A non-volatile memory on a microcomputer unit mounted in a communication device in the prior art is a memory fixed to the microcomputer unit by soldering or the like and holds setting information input from an external setting terminal or the like. However, when the microcomputer unit is replaced, the setting information held up to that point is lost, and it is necessary to newly input the setting information from the setting terminal or the like.

There is also a method of holding the setting information of the entire apparatus in a non-volatile memory on the microcomputer unit and holding the setting information of the unit in a non-volatile memory on the controlled unit. When you replace the unit,
The setting information of the exchanged controlled unit will be completely lost, and if you exchange only the controlled unit or only the microcomputer part, the data held in two places will be inconsistent. , A protocol was needed to determine which data was correct.

FIG. 6 shows a second conventional example of the communication device A.
Signal from 60 is input to the demultiplexer ₁ 72 of the signal processing unit 71, data for monitoring and controlling the communication device B70 is extracted by the separation unit ₁ 72, the data link control unit 76
The data link establishing unit 177 of ₁ establishes a data link with the communication device A60.

[0008] Then, from the data link establishment unit ₁ 77, the response data corresponding to the monitoring control data input via the demultiplexer ₁ 72 is transmitted, is the main signal multiplexed by the multiplexing unit ₁ 73 Communication It is sent to the device A60.

[0009] Similarly, the signal from the communication device C80 is inputted to the demultiplexer ₂ 74 of the signal processing section 71, the communication device B
Data for control monitors and controls 70 are extracted by the demultiplexer ₂ 74, to establish a data link between the communication device C80 in the data link establishment unit ₂ 78 of the data link control unit 76.

Then, response data corresponding to the supervisory control data input via the demultiplexing unit ₂ 74 is sent from the data link establishing unit ₂ 78, and multiplexed with the main signal by the multiplexing unit ₂ 75 for communication. Sent to device C80.

Here, if a failure inside the data link control unit 76 or the data link control unit 76 is removed from the device for the purpose of dealing with the failure, the supervisory control network is disconnected and the supervisory control of the entire network becomes impossible. Was becoming.

[0012]

As described above, the non-volatile memory on the microcomputer unit mounted in the communication device in the prior art is a fixed memory, and when the microcomputer unit is replaced, the setting information held until then is retained. Will also be lost,
There was a problem that setting information had to be newly input from a setting terminal or the like.

Further, in the case of the second prior art in which the data link is established between the adjacent stations and the supervisory control data is transmitted and received, the failure of the data link control unit for exchanging the supervisory control data and the failure of the data link control unit. When implementation occurs, there is a problem that the monitoring control of the entire network becomes impossible.

The present invention solves such a problem, and a communication device and an adjacent station which enable the mounted nonvolatile memory to be used within a short time even if the mounted microcomputer part is replaced. To provide a communication device that prevents the monitoring control of the entire network from being disabled even if a data link control unit for establishing a data link between them and exchanging monitoring control data fails or is not mounted. With the goal.

[0015]

A first aspect of the present invention for solving the above-mentioned problems is a communication device for performing various function settings in the device by using data stored in a storage medium mounted in a microcomputer unit, The purpose can be achieved by making it possible to insert and remove the storage medium mounted in the microcomputer unit.

Further, in the communication device in which the data link control unit establishes a data link between the adjacent stations and transmits and receives the monitoring control data under the control of the supervisory control device, the data link control unit is not broken or not mounted. An abnormality detection unit for detecting, and a monitoring control data bypass processing unit for cutting off the exchange of the monitoring control data between the transmission path side and the local station data link control unit by control of the abnormality detection unit and bypassing the adjacent station data. The object can be achieved by adopting a configuration including and.

Further, by making the power supply unit of the data link control unit independent and adding the function of detecting an abnormality of the power supply unit to the abnormality detection unit, it is possible to avoid the inability to monitor and control the entire network. it can.

[0018]

The first aspect of the present invention, as shown in FIG. 1, is a storage medium 1 mounted in a microcomputer section 11 for setting various functions in the apparatus.
3 can be inserted / removed, so the microcomputer unit 11 of the communication device
When replacing a plurality of units including, or when replacing a unit as a countermeasure when a failure occurs, by inserting the storage medium that has been used up to now into the newly installed microcomputer unit 11, the function setting as before can be performed. As a result, the system can be started up and put into operation after a short system down.

In the second aspect of the present invention, as shown in FIG. 2, since the abnormality detecting section 41 and the monitoring control data bypass processing section 26 are provided, the abnormality detecting section 41 is used as the data link control section 31.
When the failure information or the unmounted information is detected, the through processing instruction is sent to the monitoring control data bypass processing unit 26.

Then, the supervisory control data bypass processor 2
6 can operate the internal switching unit to stop the transfer of the monitoring control data to and from the own station device and bypass the adjacent station data.

Further, as shown in FIG. 3, the third aspect of the present invention is the second aspect of the present invention. Further, only the data link control section 31 is provided with an independent power source section 36, and the abnormality detecting section 41 is provided with a power source. Since the function of sending the through processing instruction is added when the abnormality of the unit 36 is detected, when the abnormality occurs in the power supply unit 36, the abnormality detection unit 41 detects the abnormality and the through processing is performed by the monitoring control data bypass processing unit 26. It is possible to send an instruction, stop the exchange of the monitoring control data between the data link control unit 31 of the own station device 20 and the monitoring control device, and bypass the adjacent station data.

[0022]

EXAMPLES Examples will be described with reference to FIGS. 1, 4 and 5. FIG. 1 is a diagram showing an embodiment of the first present invention, FIG.
Is a diagram showing an embodiment of the second invention, and FIG. 5 is a diagram showing an embodiment of the third invention.

In the figure, 11 is a microcomputer unit, 12 is a CPU and peripheral devices, 13 is a storage medium such as a plug-in type non-volatile memory, 14 is a bus, and 15 and 16 are units # 1 and #N capable of software control. 10, 20, and 50 are communication devices, 21 is a signal processing unit, 22 and 24 are extraction units, and 23 and 2.
5 is an addition unit, 26 is a supervisory control data bypass processing unit, 2
7, 28 are through processing units, 31 is a data link control unit,
36 is a power supply unit for the data link control unit, and 41 is an abnormality detection unit.

First, an embodiment of the first invention will be described with reference to FIG. The microcomputer unit 11 includes a CPU and peripheral devices 12
And a storage medium 13 such as a plug-in type non-volatile memory, and software via the bus 14,
Multiple software controllable units # 1 to # N15 to 1
6 is monitored and controlled.

By using a plug-in type storage medium as a storage medium such as a non-volatile memory, which is not fixed to the unit, it becomes necessary to replace the microcomputer section 11 for maintenance or failure. However, the system can be restarted in a short time by inserting the storage medium 13 such as the plug-in type non-volatile memory that has been used up to now into the replaced new microcomputer unit 11.

Next, an embodiment of the second invention will be described with reference to FIG. The extraction unit ₁ 22 of the signal processing unit 21 for inputting data from the communication device A10 has detected monitoring control data of its own station apparatus takes in the data link control unit 31 extracts the data. The data link control unit 31 generates response data corresponding to the acquired monitoring control data. The generated response data via the through processing unit ₁ 27, the communication device is added to the main signal at the addition unit ₁ 23 A1
Sent to 0.

Further, the extraction unit ₂₂₄ of the signal processing unit 21 the data from the communication device C50 is input, when detecting the monitoring control data, it fetches the data link control unit 31 extracts the data. The data link control unit 31 generates response data corresponding to the acquired monitoring control data.
The generated response data via the through processing unit ₂ 28, the communication device is added to the main signal at the addition unit ₂ 25 C50
Sent to

If a failure occurs in the data link control unit 31 or if the data link control unit 31 is removed from the device and is in an unmounted state, the abnormality detection unit 41 detects it and passes through. The through processing instruction signal is sent to the processing units ₁ , ₂ 27, 28.

As a result, the through processing unit₁,₂27, 28
Operates, switching the input side, extractor ₂Input from 24
The supervisory control data from the communication device C50 is a through processing unit.₁
27 and additional part₁Sent to the communication device A10 via
It Also, the extraction unit₁Is the communication device A10 input from 22?
The monitoring control data from these are through processing units.₂28 and additional part₂2
5 to the communication device C50.

Next, an embodiment of the third invention will be described with reference to FIG. The embodiment of the third invention is different from the embodiment of the second invention in that only the power supply unit 36 that supplies power to the data link control unit 31 is separated and independent from other power supplies. The abnormality detection unit 41 detects the occurrence of an abnormality in the power supply unit 36 and enables through processing.

In the case of the third embodiment of the present invention, the power supply to the abnormality detection unit 41 is the data link control unit 31.
This can be realized by supplying power from a common power source or the like instead of the power source unit 36 that supplies power to the.

[0032]

As described above, according to the present invention,
No special maintenance work is required after replacement of a plurality of constituent units due to maintenance or the like, the device can be restarted promptly, and deterioration of communication service can be minimized.

Also, replacement of the data link control unit
Failure, or replacement / failure of data link control power supply
It is possible to eliminate interference with monitoring and control of other stations on the network due to power supply stoppage, etc., and prevent deterioration of network maintenance performance.

[Brief description of drawings]

FIG. 1 is an embodiment of the first invention.

FIG. 2 is a principle configuration diagram of a second invention.

FIG. 3 is a principle configuration diagram of a third invention.

FIG. 4 is an embodiment of the second invention.

FIG. 5: Embodiment of the third invention

FIG. 6 is a second conventional example.

[Explanation of symbols]

 10, 20, 50, 60, 70, 80 Communication device 11 Microcomputer unit 12 CPU and peripheral device 13 Storage medium such as plug-in type non-volatile memory 14 Bus 15, 16 Units # 1, #N 21, capable of software control 71 signal processing unit 22,24 extraction unit 23,25 addition unit 26 monitoring control data bypass processing unit 27,28 through processing unit 31,76 data link control unit 36 data link control unit power supply unit 41 abnormality detection unit 72,74 separation Part 73,75 Multiplexer 77,78 Data link establishment unit

Claims (3)

[Claims] 1. A communication device for performing various function settings in the device using data stored in a storage medium mounted in a microcomputer unit, wherein the storage medium mounted in the microcomputer unit is removable. And a communication device. 2. In a communication device in which a data link control unit establishes a data link between adjacent stations and transmits and receives supervisory control data under the control of the supervisory control device, a failure or unimplementation of the data link control unit is prevented. An abnormality detection unit for detecting and a monitoring control data bypass processing unit for bypassing the adjacent station data by disconnecting the transmission and reception of the monitoring control data between the transmission path side and the own station data link control unit under the control of the abnormality detection unit. A communication device having the configuration. 3. The communication device according to claim 2, wherein the power supply unit of the data link control unit is independent, and a function of detecting an abnormality of the power supply unit is added to the abnormality detection unit.