JP2000183930A - Multidrop communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To attain the multidrop communication of high speed data without hugely using the band of a LAN(local area network) transmission path in a multidrop communication system for transferring high speed data such as image data in a LAN. SOLUTION: A master interface device 1-1 is provided with a means for receiving identification number information ID (2) designating one slave interface device 1-2 for transmitting data to be received among data transmitted from plural salve interface devices 1-2-1-N from communication equipment 1-1', and for transmitting the identification number ID(2)to all the slave interface devices. Only the slave interface device 1-2 of the identification number matched with the identification number received from a LAN transmission path among the slave interface devices 1-2-1-N is provided with means for transmitting transmission data Dt(2) from communication equipment 1-2' to a master interface device 1-1.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to a multi-drop communication system for transferring high-speed data such as image data in a LAN (local area network).
2. Description of the Related Art In recent years, high-speed data communication including image information has been frequently performed in various fields, and even in a LAN, 1: 1 communication in which high-speed data such as image data is transmitted from one transmission terminal to one reception terminal. Not only that, there is an increasing demand for 1: N communication (multi-drop communication) for transmitting data from one transmitting terminal to a plurality of receiving terminals.

[0002]

2. Description of the Related Art FIG. 7 is an explanatory diagram of a conventional multi-drop communication system. In the figure, 7-1 to 7-N indicate interface devices for communication terminals, 7-1 'to 7-N' indicate communication terminals, 7-1 indicates a master interface device,
7-2 to 7-N are slave interface devices. The interface devices 7-1 to 7-N are connected by a LAN transmission path.

The master interface device 7-1 transmits data Dt (1) from the communication terminal 7-1 'to the multi-drop slave interface devices 7-2 to 7-N. Also, the slave interface devices 7-2 to 7-N
After receiving all the data Dt (2) to Dt (N) from the server and checking the normality, data from one slave interface device is selected, and only the selected data is transmitted to the communication terminal 7-1 '. .

FIG. 8 is a diagram showing a band used by a LAN transmission line in a conventional multi-drop communication system. From the master interface device to the slave interface device, as shown in FIG.
1 to the respective slave interface devices 7-2 to 7-
The transmission data Dt (1) from the master interface device 7-1 is transmitted to each slave interface device 7-2 using the time slots TS # 1 to TS # (N-1) allocated on the LAN transmission path as a path to N. To 7-N.

As shown in FIG. 1B, each of the slave interface devices 7-2 to 7-N is transferred from the slave interface device to the master interface device.
L to the master interface device 7-1
Time slots TS # 1-T assigned on AN transmission path
Using S # (N-1), transmission data Dt (2) to Dt (2) to slave data from each of the slave interface devices 7-2 to 7-N.
Dt (N) is transmitted to the master interface device 7-1.

[0006]

In the conventional multi-drop communication system, as described above, (N-1) times from the master interface device 7-1 to each of the slave interface devices 7-2 to 7-N are transmitted. The transmission bandwidth of the slot and each of the slave interface devices 7-2 to 7-
(N-1) from N to master interface device 7-1
Of the time slots,
Bidirectional 1: N communication (multi-drop communication) of low-speed data of about 64 kbps or less, which does not use a large bandwidth, was possible, but high-speed data such as image data of 64 kbps or more requires an enormous bandwidth on the LAN transmission line. To make
Such high-speed data is transmitted in a one-way 1: N communication mode such as broadcast communication (broadcast communication),
It has not been easy to enable high-speed data bidirectional 1: N communication (multidrop communication).

An object of the present invention is to solve such a problem of the prior art, and enables high-speed data multi-drop communication without enormously using the bandwidth of a LAN transmission line. The purpose is to increase reliability.

[0008]

According to the present invention, there is provided a multi-drop communication system in which at least one master interface device and a plurality of slave interface devices are connected via a LAN transmission line. The master interface device transmits, to the communication terminals connected to the master interface device, identification number information designating one of the slave interface devices transmitting data to be received among the data transmitted from the plurality of slave interface devices. And transmitting the identification number information to all the slave interface devices via the LAN transmission line. The slave interface device receives the identification number information transmitted via the LAN transmission line. And the received identification number information and By comparing the received identification number information with the identification number of the own device, the transmission data from the communication terminal connected to the slave interface device is compared with the identification number of the own device via the LAN transmission path. Means for transmitting to the master interface device.

(2) The master interface device multiplexes the identification number information together with transmission data from a communication terminal connected to the master interface device, and multiplexes all the slave interface devices via the LAN transmission path. Means for sending to

(3) In a multi-drop communication system in which at least one interface device set as a master interface device and a plurality of interface devices set as slave interface devices are connected via a LAN transmission line, The interface device is enabled by a master / slave setting unit that sets the interface device as a master interface device or a slave interface device, and an output signal when the master / slave setting unit is set as a master interface device. Of the data transmitted from a plurality of other interface devices set as slave interface devices, identification number information specifying one of the interface devices transmitting data to be received, A reception number receiving unit for receiving the identification number information from a communication terminal connected to the interface device set as the master interface device, and an output when the master / slave setting unit is set as the master interface device With the signal, the transmission data can be transmitted, and the output signal when the master / slave setting unit is set as the slave interface device automatically recognizes the identification number information transmitted from another interface device set as the master interface device. A transmission data control unit that is in a transmission data transmission enabled state only when the identification number of the device matches.

(4) The master interface device, the slave interface device, or the interface device set as the master interface device or the slave interface device transmits transmission data to both of the duplicated LAN transmission paths, and LAN
A transmission line interface unit that receives data from both transmission lines, and checks the normality of data for each duplicated LAN transmission line, and selects and outputs data received from the normal data system LAN transmission line. And a receiving system selecting unit.

[0012]

FIG. 1 is an explanatory diagram of a multi-drop communication system according to the present invention. In FIG.
-N is an interface device with the communication terminal, 1-1 'to 1
-N 'denotes a communication terminal, 1-1 denotes a master interface device, and 1-2 to 1-N denote slave interface devices. The interface devices 1-1 to 1-N
They are connected by a LAN transmission path.

The master interface device 1-1 is provided for all the slave interface devices 1-2 to 1-N.
A slave interface of a communication terminal that transmits data to be received among data transmitted from the communication terminals 1-2 ′ to 1-N ′ on the slave side together with transmission data Dt (1) from the communication terminal 1-1 ′. Identification number information specifying one of the devices (for example, slave interface device 1-
2 is transmitted.

All slave interface devices 1-2
1 to N are identification number information IDs for specifying the transmission data Dt (1) and one of the slave interface devices.
(2) is received, the received identification number information ID (2) is recognized, and only the slave interface device 1-2 that has determined that the identification number information ID (2) belongs to its own device is used.
For the master interface device 1-1, the communication terminal 1-
The data Dt (2) from 2 'is transmitted using the allocated band on the LAN transmission line.

FIG. 2 is a diagram showing a band used by a LAN transmission line in the multi-drop communication system according to the present invention. From the master interface device to the slave interface device,
As shown in FIG. 1A, the master interface device 1
Only the time slot TS # 1 for transmitting the transmission data Dt (1) from -1 and the time slot TS # 2 for transmitting the identification number information ID (2) are used. .

As shown in FIG. 3B, the transmission data Dt from the slave interface device 1-2 specified by the identification number information ID (2) is transmitted from the slave interface device to the master interface device.
Only the band of the time slot TS # 3 for transmitting (2) is used.

That is, the band used on the LAN transmission line includes data Dt (1) transmitted from the master interface device 1-1, identification number information ID (2) designating one of the slave interface devices, and There are only three time slots for transmitting data Dt (2) transmitted from the designated slave interface device 1-2, and their bandwidth is used as a shared path for each slave interface device. As described above, since the data is not transmitted by allocating the band on the LAN transmission line to each slave interface device, bidirectional multi-drop communication of high-speed data in the LAN can be performed without enormously using the band of the LAN transmission line. Become.

When only the identification number information ID (2) designating one of the slave interface devices is transmitted from the master interface device 1-1, the slave interface device 1 matching the identification number information ID (2) is transmitted.
2 transmits the transmission data Dt (2) using the allocated band on the LAN transmission path, and the band used on the LAN transmission path is only the identification number information ID (2) and the transmission data Dt (2). In addition, unidirectional multi-drop communication of high-speed data on a LAN can be performed without using a large amount of bandwidth on a LAN transmission path.

Incidentally, as in the present invention, the master station is connected to the LAN.
There is a polling type communication method as a communication method for giving a transmission right to one of a plurality of slave stations via a transmission line, but the polling type communication method assigns a transmission right to each of a plurality of slave stations. In this method, information to be provided is sequentially transmitted, and the slave station, when given a transmission right from the master station, transmits transmission data to the master station when there is a transmission request.

On the other hand, in the present invention, the identification number information transmitted from the master interface device is addressed to all the slave interface devices, and all the slave interface devices determine the identification number information transmitted from the master interface device and the identification number of the own device. Are compared, and only the matching slave interface device sends the transmission data to the master interface device.

Accordingly, since the identification number information transmitted from the master interface device is only one addressed to all the slave interface devices, the band used on the LAN transmission line can be reduced.

FIG. 3 is a diagram showing the configuration of the master interface device of the present invention. 3-10 is a master interface device, 3-11 is a terminal interface unit, 3-12 is a speed conversion unit, 3-13 is a multiplexing (MUX) unit, 3-14 is a demultiplexing (DMUX) unit, and 3-15 is a transmission line. An interface unit, 3-16 is a reception number receiving unit, and 3-30 is a communication terminal.

The terminal interface unit 3-11 has an interface function of transmitting and receiving data to and from the communication terminal 3-30. The speed conversion unit 3-12 includes the terminal interface unit 3
-11, the format and the transmission rate of the transmission data are converted and output to the multiplexing (MUX) unit 3-13, and the LAN output from the demultiplexing (DMUX) unit 3-14.
The format and the transmission rate of the data received from the transmission path are converted and output to the terminal interface unit 3-11.

The multiplexing (MUX) unit 3-13 includes transmission data output from the speed conversion unit 3-12 and identification number information specifying one of the slave interface devices output from the reception number receiving unit 3-16. The ID and the additional bit information such as the alarm transfer information and the LAN transmission path quality check bit are multiplexed.

The separation (DMUX) unit 3-14 separates the data received from the transmission line interface unit 3-15, the identification number information ID of the slave interface device, the alarm transfer information, and the additional bit information.

The transmission line interface unit 3-15 sends the signal output from the multiplexing (MUX) unit 3-13 to the LAN transmission line, and separates the signal received from the LAN transmission line into a demultiplexing (DMUX) unit 3-15. 14.

The above-mentioned received number receiving section 3-16 is provided for the communication terminal 3 out of the plurality of slave interface devices.
-30 receives from the communication terminal 3-30 a receiving device number designating the slave interface device of the communication terminal that transmits the data requested to be received, converts it into the identification number information ID of the slave interface device, -1
3

FIG. 4 is a diagram showing the configuration of the slave interface device of the present invention. 4-10 is a slave interface device, 4-11 is a terminal interface unit, and 4-1.
2 is a speed conversion unit, 4-13 is a multiplexing (MUX) unit, and 4-1.
4 is a separation (DMUX) unit, 4-15 is a transmission line interface unit, 4-17 is a transmission data control unit, and 4-18 is an ID.
The identification unit 4-30 is a communication terminal.

The terminal interface unit 4-11, the speed conversion unit 4-12, and the transmission line interface unit 4-15 are the same as those in FIG.
Is the same as that of the configuration shown in FIG.

The slave interface device 4-10 comprises:
An ID identification unit 4-18 and a transmission data control unit 4-17 are provided. The separation (DMUX) unit 4-14 separates the identification number information ID transmitted from the master interface device and received via the LAN transmission line from the received data, and transmits the identification number information ID to the ID identification unit 4-18. Send out.

The ID identification section 4-18 compares the received identification number information ID with its own identification number, and outputs a transmission instruction signal to the transmission data control section 4-17 only when they match. The transmission data control unit 4-17 includes an ID identification unit 4-18.
From the communication terminal 4-30 of the slave interface device 4-10, the terminal interface unit 4-11, the speed conversion unit 4-12, and the multiplex (M
The transmission data output through the UX) unit 4-13 is transmitted to the LAN transmission line via the transmission line interface unit 4-15 and transmitted to the master interface device.

FIG. 5 is a diagram showing the configuration of a master / slave interface device according to the present invention. 5-10 is an interface device for both master and slave, and 5-1.
1 is a terminal interface unit, 5-12 is a speed conversion unit, 5
-13 is a multiplex (MUX) part, 5-14 is a separation (DMU)
X) section, 5-15 is a transmission line interface section, 5-16
Is a reception number receiving unit, 5-17 is a transmission data control unit, and 5-
Reference numeral 18 denotes an ID identification unit, and reference numeral 5-30 denotes a communication terminal, which have the same functions as those shown in FIG. 3 or FIG.

Reference numeral 5-19 denotes a master / slave setting unit, which includes a register for setting whether the interface device 5-10 is used as a master interface device or a slave interface device.

When the master / slave setting section 5-19 is set in the master interface device, the master / slave setting section 5-19 sets the reception number receiving section 5-16 to an operable state, and sets the transmission data control section 5-19. 17 is set to a through state (a state in which transmission data from the multiplexing (MUX) unit 5-13 is passed). This state is the same as the configuration of the master interface device described above, and functions as a master interface device.

When the master / slave setting section 5-19 is set to the slave interface device, the master / slave setting section 5-19 disables the reception number receiving section 5-16 and sets the transmission data control section 5-19. 17 is set so that the passage state is controlled based on the transmission instruction signal from the ID identification unit 5-18. This state is the same as the configuration of the slave interface device described above, and functions as a slave interface device.

The master / slave setting section 5-19 includes a register for performing various settings, and a register for setting the identification number information ID of the interface device.

FIG. 6 is a diagram showing the configuration of an interface device connected to a redundant LAN transmission line according to the present invention. 6-
10 is an interface device for both master and slave,
6-11 is a terminal interface unit, 6-12 is a speed conversion unit, 6-13 is a multiplexing (MUX) unit, 6-16 is a reception number reception unit, 6-17 is a transmission data control unit, and 6-18 is an ID.
Identification unit, 6-19 is master / slave setting unit, 6-30
Are communication terminals, which have the same functions as those shown in FIG. 5 described above, and a duplicate description will be omitted.

The transmission line interface unit 6-15 converts the transmission data output from the transmission data control unit 6-17 into 0
The data is sent to both the system 1 and system 1 redundant LAN transmission lines, and the data received from both the system 0 and system 1 redundant LAN transmission lines is sent to the separation (DMUX) unit 6-14.

The separation (DMUX) unit 6-14 receives data from the transmission line interface unit 6-15 for each of the 0-system and 1-system LAN transmission lines, slave interface device identification number information ID, alarm transfer information, and additional bits. The information is separated and sent to the receiving system selecting unit 6-20.

The receiving system selecting section 6-20 provides a separation (DMU)
X) Based on the additional bit information from section 6-14,
Check the normality of data for each LAN transmission line of the system,
The received data of the normal data system is selected, and the speed converter 6-
12 and the ID identification unit 6-18.

[0041]

As described above, according to the present invention, a master interface device transmits identification number information of a slave interface device transmitting data to be received among data transmitted from a plurality of slave interface devices. The slave interface device compares the identification number information transmitted from the master interface device with the identification number of its own device, and only the matching slave interface device sends out transmission data. It is possible to perform high-speed data multi-drop communication without using a large amount of data. Further, since the LAN transmission path is duplicated, it is possible to improve the reliability of the multi-drop communication with respect to the failure of the LAN transmission path and the deterioration of transmission quality.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram of a multi-drop communication system of the present invention.

FIG. 2 shows a LAN of the multi-drop communication system of the present invention.
It is a figure showing a transmission line use band.

FIG. 3 is a diagram showing a configuration of a master interface device of the present invention.

FIG. 4 is a diagram showing a configuration of a slave interface device of the present invention.

FIG. 5 is a diagram showing a configuration of a master / slave interface device of the present invention.

FIG. 6 is a diagram showing a configuration of an interface device connected to a redundant LAN transmission line according to the present invention.

FIG. 7 is an explanatory diagram of a conventional multi-drop communication system.

FIG. 8 is a diagram showing a band used by a LAN transmission line in a conventional multi-drop communication system.

[Explanation of symbols]

 1-1 to 1-N Interface device with communication terminal 1-1 'to 1-N' Communication terminal 1-1 Master interface device 1-2-N Slave interface device

 ────────────────────────────────────────────────── ─── Continued on the front page F term (reference) 5K031 AA02 AA08 CB06 CB17 DA01 DA02 DA11 DB03 DB14 5K032 AA01 AA06 CC03 CC10 DA01 DA11 DB01

Claims (4)

[Claims] 1. A multi-drop communication system in which at least one master interface device and a plurality of slave interface devices are connected via a LAN transmission line, wherein the master interface device transmits data transmitted from the plurality of slave interface devices. Receiving, from the communication terminal connected to the master interface device, identification number information designating one of the slave interface devices transmitting data to be received, and transmitting the identification number information via the LAN transmission path. Means for transmitting to all the slave interface devices, the slave interface device receives the identification number information transmitted via the LAN transmission path, and compares the received identification number information with the identification number of the own device. Compares the received identification number information with the Multidrop means for transmitting transmission data from a communication terminal connected to the slave interface device to the master interface device via the LAN transmission path only when the different number matches. Communications system. 2. The master interface device multiplexes the identification number information together with transmission data from a communication terminal connected to the master interface device, and sends the multiplexed information to all slave interface devices via the LAN transmission path. 2. The method according to claim 1, further comprising:
A multi-drop communication system as described. 3. A multi-drop communication system in which at least one interface device set as a master interface device and a plurality of interface devices set as slave interface devices are connected via a LAN transmission line. A master / slave setting unit for setting the interface device as a master interface device or a slave interface device; and an operable state by an output signal when the master / slave setting unit is set as a master interface device. Among the data transmitted from a plurality of other interface devices set as devices, the identification number information specifying one of the interface devices transmitting the data to be received is transmitted to the master device. A reception number receiving unit that receives from the communication terminal connected to the interface device set as the interface device and sends out the identification number information; and an output signal when the master / slave setting unit is set as the master interface device. In the transmission data transmission enabled state, the identification number information transmitted from another interface device set as the master interface device and the identification number information of the own device are output by the output signal when the master / slave setting unit is set as the slave interface device. A multi-drop communication system comprising: a transmission data control unit that is in a transmission data transmission enabled state only when the identification number matches. 4. The master interface device, the slave interface device, or the interface device set as the master interface device or the slave interface device sends out transmission data to both of the duplicated LAN transmission lines, and outputs the duplicated LAN transmission line. A transmission line interface unit for receiving data from both of them, and a reception system for checking the normality of data for each duplicated LAN transmission line and selecting and outputting received data from the LAN transmission line of a normal data system. The multi-drop communication system according to claim 1, further comprising a selection unit.