JPH09149060A - Multiple address communication system in multi-distribution connection network - Google Patents

Abstract

PROBLEM TO BE SOLVED: To simply realize multi-address communication in a transmission system being the polling/selecting system in which a master station and plural slave stations are connected through multi-branching. SOLUTION: In this system in a multi-branch network, plural slave stations 3 with different station addresses allocated are connected to a master station 1 by using one or multi-stages of multi-branch connectors 2, and the multi address communication is conducted from the master station 1 to the slave stations 3 by sending the multi-address communication frame from the slave stations 3 to the master station 1 and sending the multi-address communication reply frame from the slave stations 3 to the master station 1. When the multi- address communication frame sent from the master station 1 is in multi-address communication to the slave station 3 via the multi-branch connection device 2, the multi-address communication address designed separately from the station address allocated to each slave station 3 is added to the multi-address communication frame from the master station 1.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a broadcast communication system in a multi-branch connection network (transmission system) capable of bidirectional communication in which a master station and a plurality of slave stations are multi-branched connected.

[0002]

2. Description of the Related Art As one of communication systems, there is a system as shown in FIG. 6 which is composed of a network in which one master station 1 and a plurality of slave stations 3 are multi-branched connected by a multi-branching connection device 2. In such a communication system, different station addresses are assigned to the plurality of slave stations 3.
The master station 1 transmits the frame 4 to the slave station 3 by the polling method. A station address is designated in this frame 4, and the designated slave station 3 responds to polling from the master station 1. Such a communication procedure is called a polling / selecting method.

Broadcast communication in a polling / selecting communication system is conventionally performed as follows. The frame 4 from the master station 1 is branched by the multi-branch connection device 2 and transmitted to the slave station 3. This frame 4 is formatted as shown in FIG. In FIG. 7, 5 is a header part, 6 is a data part, 10 is a header length, and 11
Are station addresses # 1, # 2, ... #n. As described above, the station addresses # 1, # 2, ... #n of all the slave stations 3 are added to each frame 4 as shown in FIG. Therefore, the slave station 3 receiving this frame 4 can retrieve this frame into its own station only by searching for the station addresses of all the added slave stations and discovering the station address of its own station from among them. FIG. 8 is a flow chart of a conventional broadcast frame transmission process, and FIG. 9 is a flow chart of a conventional broadcast frame reception process.

[0004]

As described above, in the conventional method of transmitting the station addresses of all the slave stations in the broadcast frame, the overhead of the processing relating to the station address due to the redundant frame structure is used. And decrease in transmission efficiency in the transmission path. The present invention is intended to solve the above problems.

[0005]

In a broadcast communication system in a multi-branch connection network according to the present invention, a plurality of slave stations, to which different station addresses are respectively assigned, have a multi-branch connection device as a master station in one stage or Multi-branch connection using multiple stages,
In a broadcast communication method in a multi-branch network in which a broadcast frame is sent from a master station to a slave station by sending a broadcast frame from the master station to the slave station and a broadcast response frame from the slave station to the master station, When the broadcast frame transmitted from the master station is broadcasted to the slave stations via the multi-branch connection device, the broadcast address from the master station is defined separately from the station address assigned to each slave station. By adding to the report frame, the station address processing in the frame transfer of the master station and the slave station is made more efficient, and the transmission efficiency is improved by compressing the transmission frame.

Further, in the above configuration, a plurality of broadcast addresses are defined, and a specific slave station recognizes this as a group, thereby enabling group communication between the master station and the specific slave station.

Further, in the above configuration, the station address held by the child station is added as a reply station address to the broadcast response frame from the child station to the parent station, and a different response is made for each child station address held by the child station. After a lapse of time, the broadcast response frame is returned from the slave station to the master station.

Further, in the above configuration, the transmission frame exchanged between the master station and the slave station is added with a sequence number managed by the master station and the slave station for each communication target.

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION

Embodiment 1 FIG. Hereinafter, embodiments of the present invention will be described with reference to the drawings. The network in the present invention is the same as that shown in FIG. 6, and is a system composed of a network in which one master station 1 and a plurality of slave stations 3 are multi-branched connected by a multi-branching connection device 2. In such a communication system, different station addresses are assigned to the plurality of slave stations 3. The master station 1 transmits the frame 4 to the slave station 3 by the polling method. The station address is specified in this frame 4, and the specified slave station 3 is the master station 1
Respond to polls from.

When performing broadcast communication on such a network, the present invention defines an address for broadcast, and FIG.
By creating the frame 4 having the address 7 for broadcast shown in FIG. 2, the broadcast transmission is realized according to the processing shown in FIG. On the other hand, the slave station only stores the broadcast frame in the processing buffer, as shown in FIG.

Therefore, in the case of performing broadcast communication in a multi-branched network, unnecessary station address load processing in the master station and own station address search processing in the slave station are omitted, thereby reducing processing overhead. It is possible to improve the transmission efficiency by compressing the transmission frame.

Embodiment 2. Further, in the second embodiment,
When performing broadcast communication using a broadcast frame to which a broadcast address is added as shown in FIG. 1, a plurality of broadcast addresses are defined, and a plurality of slave stations form a group. The group communication between the master station and a specific slave station is made possible by recognizing the group in common. Specifically, the slave station belongs to a specific group, holds the specific broadcast address commonly recognized by the group, and adds the specific broadcast address corresponding to the broadcast frame from the master station. If so, the received frame is processed as communication within the group to which it belongs. On the contrary, when the held specific broadcast address and the broadcast address of the received frame are different, the received frame is discarded and the communication is stopped.
Further, a slave station belonging to a network in which multiple broadcast addresses for group communication are defined belongs to multiple groups by holding multiple broadcast addresses for group communication in the same slave station. To enable that.

According to the invention of the second embodiment, without adding a special process for communicating a plurality of groups with a network having a multi-branch connection, with a group of a master station and a slave station. Easy to achieve.

Embodiment 3 In addition, in the third embodiment,
The format of the broadcast response frame from the slave station is configured as shown in FIG. 4, and the station address held by the slave station is added as the response station address 8 in the broadcast response frame from the slave station. Then, after a different response time has passed for each slave station address held by the slave station, a broadcast response frame is returned from the slave station to the master station, so that when the slave stations simultaneously transmit the broadcast response frame. It is possible to avoid the collision of the broadcast response frames in the transmission path between the master station and the slave station, which occurs. Further, the master station recognizes the slave station to which the corresponding broadcast communication frame has arrived from the response station address 8 added in the broadcast response frame from the slave station, and determines whether to continue the subsequent broadcast communication. be able to.

According to the third embodiment of the present invention, since collision of broadcast response frames can be avoided in a multi-branched network, has the master station been able to receive all broadcast frames normally by the slave stations? You can check.

Embodiment 4 Further, in the fourth embodiment,
In such a network, a sequence number for managing the serial number of a transmission frame by a slave station and a master station for each communication target is added to the transmission frame. FIG. 5 shows a format in which the sequence number 9 is added to the broadcast response frame from the slave station. By doing so, it becomes possible to confirm whether or not the frame transmitted by the master station or the slave station for the corresponding communication of the frame between the master station and the slave station is correctly received by the slave station or the master station. Also, by managing this sequence number 9 for each individual communication, broadcast communication and group communication between the master station and the slave station, it becomes possible to guarantee the normal transmission of data for each communication. It is possible to enable simultaneous and mixed communication and group communication.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a broadcast frame of a broadcast communication system in a multi-branch connection network according to Embodiment 1 of the present invention.

FIG. 2 is a flowchart of a broadcast frame transmission process shown in the first embodiment.

FIG. 3 is a flow chart of a reception process of a broadcast frame shown in the first embodiment.

FIG. 4 is a configuration diagram of a broadcast frame of a broadcast communication system in a multi-branch connection network according to the third embodiment of the present invention.

FIG. 5 is a configuration diagram of a broadcast frame of a broadcast communication system in a multi-branch connection network according to the fourth embodiment of the present invention.

FIG. 6 is a block diagram showing a broadcast communication method in a general multi-branch connection network.

FIG. 7 is a configuration diagram of a broadcast frame of a broadcast communication system in a conventional multi-branch connection network.

FIG. 8 is a flow chart of a transmission process of a broadcast frame used in the conventional method.

FIG. 9 is a flow chart of a reception process of a broadcast frame used in the conventional method.

[Explanation of symbols]

1 master station in multi-branch connection network, 2 multi-branch connection device, 3 slave station in multi-branch connection network, 4 frames, 5 header part in broadcast frame, 6 data part in broadcast frame, 7 broadcast frame Broadcast address, 8 Responder address in broadcast frame, 9 Sequence number in broadcast frame.

Claims (4)

[Claims] 1. A plurality of slave stations, to which different station addresses are respectively assigned, are multi-branched connected to a master station by using a multi-branch connecting device in one or more stages, and a broadcast frame is transmitted from the master station to the slave stations. , In a multi-branch network in a multi-branch network in which the master station broadcasts to the slave station by sending a broadcast response frame to the master station, the broadcast frame transmitted from the master station is often transmitted. When broadcasting to a slave station via a branch connection device, a broadcast address defined separately from the station address assigned to each slave station is added to the broadcast frame from the master station. Broadcast communication method in multi-branch connection network. 2. A group communication between a master station and a specific slave station is made possible by defining a plurality of broadcast addresses and allowing a specific slave station to recognize this as a group. A broadcast communication method in the described multi-branch connection network. 3. A station address held by the child station is added as a reply station address to a broadcast response frame from the child station to the parent station, and the same after a different response time has passed for each child station address held by the child station. 3. The broadcast communication system according to claim 1, wherein the broadcast frame is returned from the slave station to the master station. 4. A transmission frame exchanged between a master station and a slave station, to which a sequence number managed by the master station and a slave station for each communication object is added. Item 3
A broadcast communication method in the multi-branch connection network according to any one of 1 to 3 above.