JPH03270348A - Control path communication system - Google Patents

Abstract

PURPOSE:To ensure a control path as required even when a fixed control path is not always set between equipments by inserting a monitor control signal to an idle channel, multiplexing the signal with a digital data from plural terminal equipments and sending the result to an opposite equipment. CONSTITUTION:A control path channel discrimination section 810 receives information of a busy/idle channel of an output of an S bit detection section 900, seeks a communication channel in which a status bit S represents an idle state, the channel is switched for control path communication and a control signal to insert a monitor control signal to the channel such as a specific pattern is outputted to the channel. Then the monitor control signal is inserted to the idle channel depending on the output of the control path channel discrimination section 810 and multiplexed on a digital data from plural terminal equipments #l-#n and the result is sent to an opposite equipment. Thus, a control path is ensured as required without setting a control path fixed at all times between the equipments.

Description

[Detailed Description of the Invention] [Summary] In a communication system that mutually communicates multiplexed digital data between devices, monitoring and control signals are transmitted between opposing devices or remotely installed monitoring and control devices. Regarding the control bus communication method for mutually exchanging multiple terminals, the aim is to provide a control bus communication method that can secure a control bus when necessary without having to set up a fixed control bus between devices. digital data from the device and a monitoring/control signal for monitoring and controlling the device using the output of the control section within the device, together with a status bit indicating whether the channel corresponding to the terminal is used or not, is transmitted between the devices. In the control bus communication method of a communication system that communicates with each other, the device detects status bits from multiplexed data sent and received and outputs information on used/unused channels.
The control section is provided with a control bus channel determination section that inputs the output information of the S bit detection section and outputs a control signal for inserting a monitoring/control signal into an unused channel. The configuration is such that a monitoring/control signal is inserted into an unused channel determined by the output of the channel determining section, multiplexed with digital data from a plurality of terminals, and sent to the opposing device.

(Industrial Application Field) The present invention relates to a communication system that mutually communicates multiplexed digital data between devices, in which monitoring and control signals are transmitted between opposing devices or remotely installed monitoring and control devices. This invention relates to improvements to control bus communication methods for mutually exchanging information.

In order to exchange monitoring and control signals between devices, if one or more communication channels for main signal data on the transmission path between devices are fixedly set and used as a control bus, the main The number of communication channels for signal data is reduced accordingly.

Therefore, there is a need for a control bus communication system that can secure a control bus when necessary without the need to always set up a fixed control bus between devices.

(Prior Art) FIG. 3 is a diagram showing the configuration of an example data communication system.

FIG. 4 is a diagram showing an example frame format.

FIG. 5 is a block diagram showing the configuration of a conventional device.

As shown in FIG. 3, terminals #IA to #2OA,
Device A with #IB~#20B and #IC~#20C connected
, B, and C, in a communication system that mutually communicates multiplexed digital data, monitoring to collect alarms indicating the occurrence of a failure between each device or with a remote monitoring/control device. Signals, loopback tests, or control signals for line switching settings may be exchanged with each other.

Conventionally, as shown in FIG. 5, for example, terminals #19A and #20 of terminals #IA~;
Channel A was fixedly set and used as a "control bus." That is, in addition to the signal data transferred from the terminals #IA-#18A and the control signal indicating the communication request from the terminal, the terminal interface section (hereinafter referred to as terminal INF) in the device (hereinafter referred to as terminal INF>14 to knee 18), terminal INF Ll to 1
-18, after converting the level and speed of the signal data and control signal, the output is applied to the data multiplexing/separating section 2. Then, in the data multiplexing/demultiplexing unit 2, as shown in FIG. (referred to as MUX) 3.

In this case, regarding the status bit (S), when signal data is transferred from terminals #IA to #18A, S is set to "I" in terminals INF 11 to 1-18.
If no signal data is transferred, S is set to "O". Next, as shown in FIG.
Input the output frame focus (F) to MUX 3,
After multiplexing the multiplexed signal data (DI-Db), status bit (S), and frame focus (F) input from the data multiplexing/demultiplexing unit 2 for 18 channels, the transmission line interface unit (hereinafter referred to as transmission RO INF
) 5 to the transmission path.

On the other hand, the signal data input manually from the transmission line to device A is sent to the separation unit (hereinafter referred to as DMUX) via the transmission line INF S.
4 and frame bits (
F), the multiplexed signal data part (D, ~D,) and status bin) (S) are separated. Regarding the frame bit (F), in addition to the frame synchronization detection section 7, the fourth
Channels 1 to 20 multiframes shown in the figure are synchronized.
A timing signal for separating 20 is created.

On the other hand, regarding the signal data section (D, to D6) and status bit 1-(S), in addition to the data multiplexing/demultiplexing section 2,
These are separated for each channel, and each terminal INF
11 to 1-18. Terminal INF 1-1~1
-18, after converting the level and speed of the signal data part and status bit, the corresponding terminal #IA ~
Output to #18A.

Next, the aforementioned monitoring and control signals are transferred using channels #19A and #20A. That is, the control section 8 shown in FIG. 5 outputs a monitoring/control signal to the data multiplexing/separating section 2, and the data multiplexing/separating section 2 multiplexes it with the signal data of channels 1 to 18.

Since the subsequent operation 2 is similar to the operation described above, the explanation will be omitted. In addition, the data sent from the opposite device is transferred to channels 1 to 18 in the data multiplexing/demultiplexing section 2.
The signal data and the monitoring/control signal are separated, the monitoring/control signal is output to the control section 8, and the content of the monitoring/control signal is decoded in the control section 8.

[Problems to be Solved by the Invention] However, in the above-mentioned control bus communication system, by fixedly setting the control bus to channels 19 and 20, for example, the number of communication channels for main signal data that can be sent and received between devices is reduced to one channel. That's all (in this case, 2 channels)
As a result, there is a problem in that some channels cannot be used as main signal data and the efficiency of using the transmission path decreases.

Therefore, an object of the present invention is to provide a control bus communication system that can secure a control bus when necessary without having to set up a fixed control bus between devices.

(Means for Solving the Problems) The above problems are solved by the configuration of the device shown in FIG.

That is, in FIG. 1, digital data from multiple terminals #1 to #n and monitoring and control signals for monitoring and controlling the device using the output of the control unit 800 in the device are transmitted using channels corresponding to the terminals. Or status pinto S indicating unused
In a control bus communication system for a communication system in which devices communicate with each other by multiplexing the data, 900 is provided in the device and detects the status bit S from the multiplexed data sent and received, and determines whether the channel is in use or not. This is an S bit detection unit that outputs information.

810 is provided in the control section 800 and is connected to the S bit detection section 90.
This is a control bus channel determination unit that inputs output information of 0 and outputs a control signal for inserting a monitoring/control signal into an unused channel.

Then, the configuration is such that a monitoring/control signal is inserted into an unused channel determined by the output of the control bus channel determining section 810, multiplexed with digital data from multiple terminals #1 to #n, and sent to the opposing device.

[Operation] In FIG. 1, the S focus detection section 900 detects the status focus S from the multiplexed data on the transmitting side and the receiving side.
The control unit 8 detects information on used/unused channels.
The signal is output to the control bus channel determination unit 810 provided at 00.

Next, a control bus channel determination section 81 provided in the control section 800
0, input the information on the used/unused channels output from the S bit detection section 900, search for a communication channel whose status bit S is "0" indicating unused (not communicating), and select this channel. After switching to control bus communication, a control signal for inserting a monitoring/control signal into that channel, such as a specific pattern (for example, rOLOLol...)
Output. Status pick this specific pattern -3
and sends it to the opposing device, which detects it and sends back the same specific pattern. This is detected by the own device, and the opposite device also confirms that the switching of the channel to control bus communication has been completed.

Thereafter, the configuration is such that a monitoring/control signal is inserted into an unused channel determined by the output of the control bus channel determining section 810, multiplexed with digital data from multiple terminals #1 to #n, and sent to the opposing device.

〔Example〕

FIG. 2 is a block diagram showing the configuration of an apparatus according to an embodiment of the present invention.

The same reference numerals indicate the same objects throughout the figures.

As an example, the communication channel unit between devices is 3.3
Kb/s xn (n = 1.2, ..., 20), and a device A that multiplexes digital data from terminals and communicates with each other using a multiframe specified by CCITT X, 50. I will explain about it. The communication channel unit of the control bus is assumed to be 3.2 Kb/s.

Also, each communication channel is F (multiframe defined in X, 50) +
It is assumed that it is composed of 8 bits: DX6 (actual data 6 bits) + S (status bit), and is multiplexed in the frame format shown in FIG.

On the transmitting side, the S bit is “1” during communication for each communication channel.
, "0" is sent during non-communication, and on the receiving side, as shown in Fig. 2, the S bit detection unit 90 performs the reception S focus of the output of the DMUX 40 three or four times in a row to prevent errors due to the transmission path. The detected S bit information is transferred to the control unit 80. The control unit 80 sets the S bit information to “1”.
” or “0”.

When there is no need to perform control bus communication in the control unit 80, the transmission data from each terminal #1A to #20A is transmitted to the terminal I.
NFII-1 to 11-20, data multiplexing/demultiplexing unit 20
, MIX 30 and the fourth transmission line INF 50 via the transmission line INF 50.
The data is multiplexed in the frame structure shown in the figure and sent to the opposing device B, for example. Also, the received data from the opposite device B is
DMUX 40 from the transmission path via the transmission path INF 50,
The data is separated in the data multiplexing/demultiplexing section 20, and the terminal IN
Each terminal #IA to #20 via F11-1 to 11-20
Sent to A.

Next, for example, if control bus communication is required in the control section 80 of device A shown in FIG. A communication channel (hereinafter referred to as an empty channel) where both the S bit on the side and the S bit on the receiving side from the opposite device B are "0" indicating that communication is not in progress is searched for by software of a microcomputer (not shown), and the communication channel is selected. The control unit 80 causes the data multiplexing/demultiplexing unit 20 to switch to the control bus and insert a specific pattern (for example, rololol...) into the S bit position.
send a signal to. Then, the MUX 30 multiplexes the multiplexed main signal data, frame bits (F), and S bits of the specific pattern through the data multiplexing/demultiplexing unit 20, and sends the multiplexed main signal data to the opposing device B via the transmission path 1NF30.
Send to.

On the other hand, in the opposite device B, the S bit detection unit (not shown) similarly monitors the transmitted and received S bits, and when the above specific pattern is transmitted from device A to the S bit of a certain communication channel, this occurs. After detecting this and switching its communication channel to the control bus, device B inserts a specific pattern (for example, "rololol...") into the S bit position and sends it to device fiA. In device A, when the S bit detection unit 90 detects that the above-mentioned specific pattern is returned from device B to the channel used for control bus communication, the control unit 80 also completes switching on the device B side. Recognize what you have done.

After switching, the data multiplexing/demultiplexing unit 2 is transferred from the control unit 80 to the data multiplexing/separating unit 2.
0, and the data multiplexing/demultiplexing unit 20
MIX 30
, and sent to the opposing device B via the transmission path INF 50.

Control signal data is output from the opposing device B to the device A in the same manner. Control bus communication is performed in this way.

After the control bus communication is completed, both devices A and B set the S bit of the communication channel that was used for the control bus communication to the main signal (“0
”).

During the above control bus communication operation, if there is a request from the terminal of the control bus to communicate main signal data using the communication channel of the control bus in use (in this case, the S bit is “0”) to "1"), the priority setting section 100 shown in FIG. Therefore, either control bus communication or main signal data communication is selected and a selection signal is sent to the control unit 80.

That is, when the priority of control bus communication is set to be high, the control unit 80 continues the control bus communication as it is, and also sends the terminal INFII-1 corresponding to the terminal that issued the communication request (for example, terminal #IA). ``Busy information indicating that the communication channel is in use'' is sent to the terminal #IA, and the communication request from this terminal #IA is rejected.

On the other hand, if priority setting section 100 sets a high priority for communication of main signal data, control bus communication is temporarily interrupted and the communication channel is switched to the main signal. Then, it searches for another free channel, switches to the control bus again, and then continues control bus communication.

It should be noted that when the need for the above-mentioned control bus communication arises, or when the control bus communication is interrupted and a search is made for a free channel, if there is no free channel, the system waits until a free channel occurs.

Furthermore, in this embodiment, a case has been described in which a multiframe defined by x, 50 is used as a method for multiplexing digital data. It goes without saying that the same effect can be obtained even if the conversion method is used.

Further, in this embodiment, microcomputer software is used to search for an empty channel, but it goes without saying that it is also possible to determine an empty channel using a logic circuit.

Furthermore, if the specific pattern to be exchanged for Wi-certifying the switching to the control bus is defined between the devices in advance, it may be any realizable pattern other than "roiotot..." in this embodiment.

Furthermore, in this embodiment, a case has been described in which a request for control bus communication occurs in device A, but since devices A and B have the same configuration and perform the same operation, the case in which a request for control bus communication occurs in device B will be explained. Needless to say, the operation is exactly the same as in the case of device A.

[Effects of the Invention] As explained above, according to the present invention, a control bus can be secured when necessary without the need to always set a fixed control bus between devices, so it is possible to effectively utilize the transmission path between devices. Become.

[Brief explanation of drawings]

Fig. 1 is a diagram showing the principle of the present invention, Fig. 2 is a block diagram showing the configuration of a device according to an embodiment of the present invention, Fig. 3 is a diagram showing the configuration of an example data communication system, and Fig. 4 is an example frame. FIG. 5, which is a diagram showing the format, is a block diagram showing the configuration of a conventional device. In the figure, 810 is a control bus channel determination section, and 900 is an S bit detection section.

Claims (1)

[Claims] Digital data from multiple terminals (#1 to #n) and monitoring and control signals for monitoring and controlling the device using the output of the control unit (800) in the device are transmitted through the channels corresponding to the terminals or In a control bus communication method for a communication system in which devices communicate with each other by multiplexing the status bit (S) with the status bit (S) indicating unused, the device detects the status bit (S) from the multiplexed data sent and received. An S bit detection unit (900) is provided to output information on used/unused channels, and the output information of the S bit detection unit (900) is input to the control unit (800) to detect unused channels. A control bus channel determination section (810) is provided that outputs a control signal for inserting a monitoring/control signal into the control bus channel determining section (810), and the monitoring/control signal is inserted into an unused channel determined by the output of the control bus channel determining section (810). and select the multiple terminals (#1
A control bus communication method characterized in that the control bus communication method is multiplexed together with digital data from .