JP2005322997A - In-apparatus control monitor circuit in backbone system transmission apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide the in-apparatus control monitor circuit of a backbone system transmission apparatus which has no need of connection cables between microprocessor mounting boards to reduce the space. <P>SOLUTION: A single-board constitution is taken for microprocessor mounting boards forming their respective processors. Consequently, this eliminates the need of communication cables between the individual microprocessor mounting boards, resulting in improving the maintainability and cutting down the mounting space in the apparatus. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an in-device control monitoring circuit for a backbone transmission device.

Conventionally, the in-device control monitoring circuit of the backbone transmission device has been realized with the configuration shown in FIG.
FIG. 3 is a block diagram of an in-device control monitoring circuit of a conventional backbone transmission device.
Referring to FIG. 3, the in-device control monitoring circuit includes a microprocessor mounting board of the communication processing unit 5, a microprocessor mounting board of the control monitoring determination processing unit 34, an external communication processing unit 3, and an activation circuit 32. The microprocessor mounting board 35, the microprocessor mounting board of the in-device communication processing unit 4, the microprocessor mounting board 36 of the main processing unit 33 that performs overall processing between the activation circuit 31 and each processing unit, and the inter-device transmission / reception unit 50 And a board mounted on the board, and each board is composed of a separate board. Reference numerals 40-1 and 40-2 denote controlled packages, and the basic transmission apparatus is an apparatus that performs communication between transmission paths (particularly optical fibers) in a broadband network (WAN area). Specifically, they are a WDM apparatus and an ADM apparatus (for example, refer to Patent Documents 1, 2, and 3).
Japanese Utility Model Publication No. 5-25858 JP 2002-7155 A JP-A-11-282781

The first problem of such a conventional technique is that a communication cable or the like for connecting the boards is required, and the mounting space in the apparatus is large. For this reason, it has been difficult to apply to a small space type backbone transmission device that can be mounted on a general-purpose rack or the like.
The second problem is that the data of each process is held for each processing unit. Therefore, when updating the data, it is necessary to replace each board.

  SUMMARY OF THE INVENTION An object of the present invention is to provide an in-device control monitoring circuit for a backbone transmission device that does not require a connection cable between boards mounted with a microprocessor and reduces the space.

In order to solve the above problem, the invention described in claim 1 is a communication processing unit that communicates with a plurality of controlled packages, and an external communication process that collects alarm state data and status state data from the controlled packages. A control monitoring determination processing unit that performs determination processing based on the alarm state and the status state, and controls the controlled package, and the alarm state data and the status state data between other devices. In the in-device control monitoring circuit of the backbone transmission device, which includes an inter-device communication processing unit that transmits and receives data between them, a microprocessor-mounted subboard that constitutes the communication processing unit, and a microprocessor that constitutes the external communication processing unit A mounted sub board, a microprocessor mounted sub board constituting the control monitoring determination processing unit, and a communication between the measures; And wherein the mounting the microprocessor-board which constitutes the processing unit on the same board.
According to the first aspect of the present invention, since the microprocessor mounting boards constituting each processing unit are configured as one board, a communication cable between the microprocessor mounting boards is not required, and maintainability is improved. The mounting space in the apparatus is reduced.

  According to a second aspect of the present invention, in the first aspect of the invention, data communication among the control monitoring determination processing unit, the communication processing unit, and the external communication processing unit is performed by a single communication means. Features.

  The invention according to claim 3 is the invention according to claim 2, wherein the communication means is a LAN.

  According to a fourth aspect of the present invention, in the invention according to any one of the first to third aspects, the control monitoring determination processing unit and the external communication processing unit are activated by a single activation circuit. And

  The invention according to claim 5 is the invention according to any one of claims 1 to 4, wherein a memory card for control monitoring determination storing data for control monitoring determination processing and data for external communication processing are stored. The external communication processing memory card is detachably connected.

  The invention according to claim 6 is the invention according to claim 5, wherein the memory card for control monitoring determination and the memory card for external communication processing can be rewritten by an external writing device. .

  That is, the present invention has means for storing the data for control monitoring determination processing and the data for main processing in the same memory card, and includes the control monitoring determination processing unit in one microprocessor-mounted sub board. Communication between the control monitoring determination processing unit, the communication processing unit, and the external communication processing unit is the same communication means. Furthermore, the present invention includes an external communication processing unit and an inter-device communication processing unit on the same microprocessor-equipped sub-board, and further includes activation of the control monitoring determination processing unit and activation of the external communication processing unit. It includes starting with one start circuit.

  According to the present invention, since the microprocessor mounting boards constituting each processing unit are configured as one board, a communication cable between the microprocessor mounting boards is unnecessary, and maintainability is improved. The mounting space is reduced.

  The in-device control monitoring circuit of the backbone transmission apparatus according to the present invention includes a microprocessor-mounted subboard of the communication processing unit 5, a microprocessor-mounted subboard of the control monitoring determination processing unit 2, the external communication processing unit 3, and the in-device communication The microprocessor mounting sub board of the processing unit 4 is mounted on the same board. Furthermore, the present invention is characterized in that a memory card 10-1 for a control monitoring determination processing unit and a memory card 10-2 for an external communication processing unit are mounted.

FIG. 1 is a block diagram showing an embodiment of an in-device control monitoring circuit of a backbone transmission apparatus according to the present invention.
Referring to FIG. 1, an in-device control monitoring circuit 1 of the present invention includes a control monitoring determination processing unit 2 connected to a memory card 10-1, an external communication processing unit 3 connected to a memory card 10-2, The in-device communication processing unit 4, the communication processing unit 5, and the activation circuit 30 are configured (6 is a communication processing unit).
Microprocessor-equipped subboard 100 that constitutes the control monitoring determination processing section 2, microprocessor-equipped subboard 200 that constitutes the external communication processing section 3 and in-device communication processing section 4, and a microprocessor that constitutes the communication processing section 5 The sub board 300 is composed of the same board (printed circuit board).
That is, the control monitoring determination processing unit 2, the external communication processing unit 3, the in-device communication processing unit 4, the communication processing unit 5, and the activation circuit 30 are configured on one board, and the memory card 10-1, A connector (not shown) that detachably holds 10-2 is provided.

The startup circuit 30 is connected to a microprocessor-mounted sub board constituting the control monitoring determination processing unit 2, the external communication processing unit 3, and the in-device communication processing unit 4.
The control monitoring determination processing unit 2, the external communication processing unit 3, and the communication processing unit 5 are connected to the same communication LAN (Local Area Network).
The control monitoring determination processing unit 2 stores means for storing control monitoring determination processing data and main processing data in the same memory card 10-1 (for example, a clock signal, an address signal, a data signal, a chip selector signal, And a circuit for generating a read / write signal (however, a write signal).
The communication processing unit 5 communicates with a plurality of controlled packages 40-1, 40-2,.
Here, the controlled packages 40-1, 40-2,... Are main signal packages that are monitored and controlled by the WDM device and the ADM device.
The external communication processing unit 3 is connected to the memory card 10-2, and performs communication processing between the control monitoring determination processing unit 2, the outside of the device, and the in-device communication processing unit 4. The intra-device communication processing unit 4 transmits / receives data via an inter-device data transmission / reception unit 50 that transmits / receives communication data between other devices (not shown), and transmits data from the external communication processing unit 3 to other devices. To receive or receive.

The memory cards 10-1 and 10-2 are semiconductor memories such as PROM (Programmable Read Only Memory), EEPROM (Electrically Erasable Programmable ROM), FeRAM (Ferroelectric Random Access Memory), MRAM (Magnetic RAM). An IC module having a non-volatile memory such as the above and a contact terminal is made into a card. The memory cards 10-1 and 10-2 can be rewritten by an external writing device (for example, an IC card reader / writer or an IC card writer).
Although the main processing unit 33 (see FIG. 3) is not described in the in-device control monitoring circuit 1 shown in FIG. 1, the function of the main processing unit 33 shown in FIG. 2 included.

(Description of operation of embodiment)
Next, the operation of the in-device control monitoring circuit of the backbone transmission device shown in FIG. 1 will be described.
The activation circuit 30 activates the microprocessor-equipped sub board constituting the control monitoring determination processing unit 2, the external communication processing unit 3, and the in-device communication processing unit 4.
The communication processing unit 5 performs data communication with a plurality of controlled packages 40-1, 40-2,..., And outputs alarm state data and status state data from the controlled packages 40-1, 40-2,. Are collected and transmitted to the control monitoring determination processing unit 2 via the communication LAN, and control information from the control monitoring determination processing unit 2 via the communication LAN is transmitted to the controlled packages 40-1, 40-2,.
The control monitoring determination processing unit 2 determines the alarm state and the status state from the communication processing unit 5 using the data in the memory card, and notifies the external communication processing unit 3 of the determination result. Further, the control monitoring determination processing unit 2 determines a control command from the outside via the external communication processing unit 3, and sends to the controlled packages 40-1, 40-2,... Via the communication processing unit 5. Implement control.
The external communication processing unit 3 performs external communication control with the information stored in the memory card 10-2, and communicates between the control monitoring determination processing unit 2, another device, and the in-device communication processing unit 4. Process.
The in-device communication processing unit 4 transmits / receives data via an inter-device transmission / reception unit 50 that transmits / receives communication data between devices, and transmits data from the external communication processing unit 3 to other devices or various devices. Receive from.

FIG. 2 is a block diagram showing another embodiment of the in-device control monitoring circuit of the backbone transmission apparatus of the present invention.
The difference between the in-device control monitoring circuit 7 shown in FIG. 2 and the in-device control monitoring circuit 1 shown in FIG. 3 is that an external communication processing unit 3, an in-device communication processing unit 4, a communication processing unit 5, and an activation circuit 30 are provided. The main processing unit 33 and the control monitoring determination processing unit 34 are configured on the same board (printed circuit board).
Such an in-device control monitoring circuit 7 can also provide the same effects as the in-device control monitoring circuit 1 shown in FIG. That is, a communication cable between the microprocessor mounting boards is not required, the maintainability is improved, and the mounting space in the apparatus is reduced.

(effect)
The first effect of the in-device control monitoring circuit of the backbone transmission apparatus according to the present invention is that each microprocessor mounting board has a single board configuration rather than a plurality of boards, so that communication between each macro processor mounting board is possible. No cables are required, maintainability is improved, and the mounting space in the equipment is reduced, making it possible to mount on a small space backbone transmission system that can be mounted on general-purpose racks, etc. It is in.
The second effect of the in-device control monitoring circuit of the backbone transmission apparatus according to the present invention is that the use of a general-purpose memory card makes it possible to easily rewrite the control monitoring data with an external writing device such as a personal computer. The operability is improved.

  INDUSTRIAL APPLICABILITY The present invention can be applied to the purpose of monitoring and controlling a controlled package with a configuration having a plurality of controlled packages in an in-device control monitoring circuit of a backbone transmission apparatus.

It is a block diagram which shows one Embodiment of the in-device control monitoring circuit of the trunk system transmission apparatus of this invention. It is a block diagram which shows other embodiment of the in-device control monitoring circuit of the trunk system transmission apparatus of this invention. It is a block diagram of an in-device control monitoring circuit of a conventional backbone transmission device.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 In-device control monitoring circuit 2 Control monitoring judgment processing part 3 External communication processing part 4 In-device communication processing part 5, 6 Communication processing part 10-1, 10-2 Memory card 30 Start-up circuit 40-1, 40-2, ... Controlled package 50 Inter-device transceiver

Claims (6)

A communication processing unit for communicating with a plurality of controlled packages;
An external communication processing unit for collecting alarm state data and status state data from the controlled package;
A control monitoring determination processing unit that performs determination processing based on the alarm state and the status state, and controls the controlled package;
An inter-device communication processing unit that transmits and receives the alarm status data and the status status data between other devices, and
In the in-device control monitoring circuit of the backbone transmission device equipped with
A microprocessor-mounted sub-board constituting the communication processing unit, a microprocessor-mounted sub-board constituting the external communication processing unit, a microprocessor-mounted sub-board constituting the control monitoring determination processing unit, and the inter-measurement communication processing unit An in-device control monitoring circuit for a backbone transmission device, in which a microprocessor mounting board to be configured is mounted on the same board.   2. Intra-device control of a backbone transmission apparatus according to claim 1, wherein data communication among the control monitoring determination processing unit, the communication processing unit, and the external communication processing unit is performed by a single communication means. Supervisory circuit.   3. The in-device control monitoring circuit for a backbone transmission apparatus according to claim 2, wherein the communication means is a LAN.   The in-device control monitoring of the backbone transmission apparatus according to any one of claims 1 to 3, wherein the control monitoring determination processing unit and the external communication processing unit are activated by a single activation circuit. circuit.   5. A control monitoring determination memory card storing data for control monitoring determination processing and an external communication processing memory card storing data for external communication processing are detachably connected. An in-device control monitoring circuit for a backbone transmission device according to any one of the preceding claims.   6. The in-device control monitoring circuit for a backbone transmission apparatus according to claim 5, wherein the control monitoring determination memory card and the external communication processing memory card can be rewritten by an external writing device.

Images