JPH01204540A - Control signal transmission system - Google Patents

Abstract

PURPOSE:To transmit a control signal without decreasing the transmission efficiency by using one time slot in a flame to send control signals even in case of employing plural kinds of control signals. CONSTITUTION:A conversion processing section 3 of a time division multiplexer 1-1 connecting to a service processor 2 applies format conversion to be in matching with a reference control signal and a time slot of the same position of a frame is used to send the control signal with multiplexing between the time division multiplexer 1-1 and other time division multiplexer 1-2-1-n. Thus, even when the network is constituted of plural kinds of devices multiplexing plural kinds of control signals, the devices are monitored centralizingly by a polling form by the service processor 2, then a single time slot is used in the frame to able to send the control signals. Thus, no excess time slot is required to prevent the deterioration in the transmission efficiency.

Description

[Detailed Description of the Invention] [Summary] This invention relates to a control signal transmission method that configures a network using a time division multiplexer and transmits one control signal for centralized monitoring by a service processor, without reducing transmission efficiency. A control signal transmission system that transmits control signals in two or more formats for the purpose of transmitting control signals and for centrally monitoring a network with multiple time division multiplexers as nodes by a service processor. , a conversion processing unit that converts a high-speed control signal among the control signals of the two or more formats into one format as a reference, and performs inverse conversion, in a time division multiplexing device connected to the service processor; a time division multiplexing device that uses a control signal other than the reference control signal, a conversion processing unit that performs format conversion between the reference control signal and a control signal for the inner time division multiplexer; A control signal converted into the one type of format is transmitted between a time division multiplexing device connected to the processor and another time division multiplexing device using time slots at the same position in a frame. Configure.

[Industrial application field]

The present invention is a control signal transmission method that configures a network using time division multiplexing devices and transmits control signals for centralized monitoring by a service processor. A system is known in which a service processor connects these devices to form a network and centrally monitors this network using a service processor.

In such a network, the scale of the network may be expanded by adding highly functional time division multiplexing equipment, and even in that case, the service processor can be It is desired that centralized monitoring becomes possible.

[Conventional technology]

FIG. 4 is an explanatory diagram of a conventional example, in which 41 to 45 are time division multiplexing devices, 46 is a service processor, 47 to 57 are transmitting/receiving circuits, and 58 to 61 are transmission lines. The time division multiplexers 41 to 45 are connected by transmission lines 58 to 61 to form a network, and the service processor 46 connected to the time division multiplexer 41 centrally monitors the network.

If the time division multiplexers 41 to 45 are of the same model, the service processor 46 sends the time division multiplexers 41 to 45
5, the control signal of the same format is sent to the time division multiplexer 41 and other time division multiplexers via this time division multiplexer 41, and the control signal from the designated time division multiplexer is transmitted. By receiving the '4111 signal via the time division multiplexer 41, centralized monitoring becomes possible.

However, as the scale of the network expands, old models and new models may coexist, and the format of the control signal may differ depending on the model. In that case, service processor 4
Control signals a and b in formants corresponding to each model are sent from 6, and are multiplexed and transmitted in different time slots.

For example, when the time division multiplexers 41 to 43 use the control signal a, and the time division multiplexers 44 and 45 use the control signal S, as shown in FIG.
．． On the transmission path 58 between 42 and 42, (as shown in aj, 1
Time slots are assigned to control signals a and b within frame F, and since no time division multiplexer using control signals A is connected on the transmission path 59 between time division multiplexers 42 and 43, (b ), only the control signal a is multiplexed.

In the time division multiplexers 41 to 43, since the protocol for the control signal a is predetermined, processing corresponding to the control signal a is performed without using the control signal A. Then, control signals such as status information are sent out from the time division multiplexing devices 41 to 43 designated by the service processor 46.

Furthermore, on the transmission line 60 between the time division multiplexers 42 and 44 and the transmission line 61 between the time division multiplexers 44 and 45, (cl
, (As shown in dl, since the time division multiplexing device using the control signal a is not connected, the control signal is multiplexed by changing the time slot position as shown by the chain arrow in the transmitting/receiving 18 circuit 49. Alternatively, as shown by the dotted line, the signals are multiplexed and transmitted without changing the positions of the time slots.The time division multiplexers 44 and 45 then perform processing corresponding to the control signals.

[Problem to be solved by the invention]

As described above, as the network scale expands, various types of devices coexist, and when control signal formats differ depending on the model, it becomes necessary to allocate time slots for each control signal and transmit it. Therefore, the transmission line 58
A large number of time slots for data on ~61 are used for control signals, which has the disadvantage of lowering transmission efficiency.

An object of the present invention is to transmit control signals without reducing transmission efficiency.

[Means to solve the problem]

The control signal transmission method of the present invention is for multiplexing with a unified format, and will be explained with reference to FIG.

A network configured by connecting a plurality of time division multiplexers 1-1 to 1-n as nodes via transmission lines 5 to 7,
The service processor 2 centrally monitors the service processor 2, and the time division multiplexing device 1-1 to which the service processor 2 is connected has two
A conversion processing unit 3 is provided which converts a high-speed control signal among control signals of more than one type of format into one type of format as a reference and performs inverse conversion, and also provides a time-sharing unit that uses a control signal other than the standard control signal. The multiplexing device is provided with a conversion processing unit 4 that performs format conversion between the reference control signal and the control signal of the time division multiplexing device, and the time division multiplexing device 1-1 is connected to the service processor 2, and the like. A control signal converted into one type of format is transmitted between the time division multiplexers 1-2 to 1-n using time slots at the same position in the frame.

[Effect]

Time division multiplexing bag W11 connected to service processor 2
The conversion processing unit 3 converts the time division multiplexing device using the reference control signal under the control of the service processor 2 or by referring to a table in the time division multiplexing device 1-1.
For example, the format of the control signal between ■-2 and the other time division multiplexers, e.g.
Converting the format of the control signal between 3゜1-n,
This time division multiplexing device 1-3. 1-n, the conversion processing unit 4 converts it into the format of the control signal of the time division multiplexers 1-3 and 1-n.

In addition, since the centralized monitoring by the service processor 2 is performed in a polling format, control signals to and from multiple time division multiplexers are not multiplexed at the same time, and control signals to and from one time division multiplexer are not multiplexed at the same time. The control signals between them are multiplexed and transmitted as one type of formant.

〔Example〕

Embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 2 is a process diagram of an embodiment of the present invention; 11.
12.13 is a time division multiplexer, 14th - bis processor, 15, 23.28 is a monitoring circuit, 16.27 is a format conversion circuit, 17 is a selector, 18.22.2
6 is a speed conversion circuit, 19 to 21, 24.25 are transmitting/receiving circuits, and 29.30 is a transmission line.

This embodiment shows a case where the time division multiplexers 11 and 12 use a reference control signal a, and the time division multiplexer 13 uses a former control signal s different from the reference control signal a. Therefore, the time division multiplexer 13 is provided with a former/node conversion circuit 27. Further, a format conversion circuit 16 is provided in the time division multiplexing device 11 to which the service processor 14 is connected.

The speed conversion circuits 18, 22.26 convert the speed of control signals for multiplexing and demultiplexing, and the monitoring circuits 15, 23.28 collect status information of each part and transmit it from the service processor 14. In response to a request, the system performs control operations such as sending collected status information.

A control signal a from the service processor 14 to the time division multiplexer 11 is directly transmitted to the monitoring circuit 15. Also, from the service processor 14 to the time division multiplexer 12
A control signal a is selected by a selector 17 controlled by a service processor 14 via a monitoring circuit 15 and applied to a speed conversion circuit 18, converted to a speed for multiplexing, and applied to a transmission/reception circuit 19. It is inserted into a predetermined time slot, multiplexed, and sent out to the transmission path 29.

In the time division multiplexing device 12, the control signal a of a predetermined time slot is demultiplexed by a transmitting/receiving circuit 20, and is converted to a predetermined speed by a speed converting circuit 22.
Added to 3.

Further, a control signal from the service processor 14 to the time division multiplexing device 13 is selected by a selector 17 controlled from the service processor 14 via a monitoring circuit 15 and applied to a speed conversion circuit 18 to change the speed for multiplexing. The signal is converted into a signal and applied to the transmitting/receiving circuit 19, inserted into a time slot at the same position as when transmitting the reference control signal a, multiplexed, and sent out to the transmission line 29.

In the time division multiplexer 12, the transmission path 3 is demultiplexed by a transmission/reception circuit 20, multiplexed by a transmission/reception circuit 21, and
Sent to 0. Note that even if the speed of the signal in a predetermined time slot is converted and applied to the monitoring circuit 23 as in the case of the control signal a, no response will occur because the protocol does not match the control signal.

In the time division multiplexing device 13, the control signal of a predetermined time slot is demultiplexed by a transmitting/receiving circuit 24, converted to a predetermined speed by a speed conversion circuit 26, and converted into a predetermined format by a format conversion circuit 27. The signal is converted and applied to the monitoring circuit 28 as a control signal.

The control signals from the time division multiplexer 13 to the service processor 14 are transmitted in the reverse order as described above, and the time division multiplexer 11 transmits the control signals converted by the format conversion circuit 16 to the service processor 14. It will be transferred.

FIG. 3 is an explanatory diagram of multiplexing of control signals according to an embodiment of the present invention, in which control signals a and b are converted into the same format,
In a predetermined time slot TSi of frame F, a/
As shown by b, either the control signal a or the control signal A is inserted and multiplexed, and transmitted, for example, in a multi-frame configuration. Therefore, even when using multiple types of control signals, it is possible to transmit them using one time slot TSi within frame F.

〔Effect of the invention〕

As explained above, the present invention provides service processor 2
The conversion processing unit 3 of the time division multiplexer 1-1 connected to the time division multiplexer 1-1 performs format conversion to match the standard control signal, and the time division multiplexer 1-1 and other time division multiplexers 1- Between 2 and 1-n, control signals are multiplexed and transmitted using time slots located at the same position in the frame. Even if a network is configured, since the service processor 2 performs intensive monitoring in a polling format, it is possible to transmit control signals using a single time slot within a frame. Therefore, since no extra time slots are required, deterioration in transmission efficiency can be prevented.

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram of the principle of the present invention, FIG. 2 is a block diagram of an embodiment of the present invention, FIG. 3 is an explanatory diagram of multiplexing of control signals in the embodiment of the present invention, and FIG. 4 is an explanation of a conventional example. FIG. 5 is an explanatory diagram of multiplexing of control signals in a conventional example. 1-1 to 1-n are time division multiplexing devices, 2 is a service processor, 3 and 4 are conversion processing units, 5 to 7 are transmission lines, 11 to
13 is a time division multiplexing device; 14 is a service processor;
15, 23, and 38 are monitoring circuits, 16, 27 are formant conversion circuits, 17 are selectors, and 18, 22, and 26 are speed conversion circuits.

Claims (1)

[Claims] Transmission of control signals in two or more formats for centrally monitoring, by a service processor (2), a network having a plurality of time division multiplexers (1-1 to 1-n) as nodes. In a control signal transmission method, a time division multiplexing device (1-1) connected to the service processor (2) is configured to transmit one signal based on a high-speed control signal among the control signals in two or more formats. Conversion processing unit (3) that converts to different formats and performs inverse conversion
and a conversion processing unit (4) that performs format conversion between the reference control signal and the control signal for the self-time division multiplexer in the time division multiplexing device that uses a control signal other than the reference control signal.
), a time division multiplexing device (1-1) to which the service processor (2) is connected, and other time division multiplexing devices (1-2 to 1).
-n), wherein the control signal converted into the one type of format is transmitted using time slots at the same position in the frame.