KR100265428B1 - Method for controlling packet bus of packet communication system by daisy chain - Google Patents

Abstract

PURPOSE: A method for controlling a packet bus of a packet transmission system by a daisy chain is provided to enable communication nodes capable of being operated as control nodes to be connected in a daisy chain system, and to operate a connected next node as a control node if a trouble is generated in an operating control node. CONSTITUTION: In a packet communication system having communication nodes(50), one common packet bus(60) and control nodes. The communication nodes(50) and control nodes include packet bus control units(52) and state display units(56). The packet bus control units(52) control the usage of the packet bus(60) of each node. The state display units(56) displaying present states are connected in a daisy chain system for communication. In a packet communication system having communication nodes where transmission units and receiving units are separated, a transmission dedicated packet bus, a receiving dedicated packet bus and control nodes including bridges. Each communication node includes a bridge for delivering packet data, and a state/packet bus controller for controlling the usage of a packet bus of each node and displaying a present state. The transmission units and the receiving units perform transmission or receiving functions by a control signal of the state/packet bus controller.

Description

Packet Bus Control Method of Packet Communication System by Daisy Chain

The present invention relates to a method of controlling a packet bus which is a packet data transmission path between nodes that transmit and receive packet data of a packet communication system.

In general packet data transmission, two or more nodes as data input / output devices are connected to a bus for transmitting and receiving data, and each node is connected to a separate data bus. A common line structure in which each terminal or node corresponding to a telephone is connected to one data bus and inquires about each terminal device in a roll call polling manner, and prompts transmission of data, and each terminal or node is serially connected to the data bus. There is a daisy chain structure that polls from a high priority device to a low one by connecting to a hub polling method, that is, connecting a hub connection to the next device in sequence.

The packet data transmission control method according to the conventional method in the above-described general structure has a function of controlling a use of a packet bus by a specific node among a plurality of communication nodes connected to the packet bus. By this, a plurality of nodes sequentially occupy and use a packet bus.

Hereinafter, a packet bus control method of a packet communication system according to the prior art will be described with reference to the accompanying drawings.

1A is a block diagram of a packet communication system in which a data transmission path is unified according to an embodiment of the prior art, and FIG. 1B is a block diagram of a packet communication system in which a transmission and reception path is separated according to an embodiment of the prior art.

Referring to the accompanying FIG. 1A, as an embodiment of the prior art, a system for transmitting and receiving data on one packet bus includes a plurality of nodes 10 with integrated functions for transmitting and receiving packet data. And a packet bus 20 for transmitting and receiving data connected to the plurality of nodes 10 and a plurality of nodes connected to the packet bus 20 and having a data transmitting / receiving function. 10 is configured as a control node 30 including a control unit for controlling the authority to transmit data by occupying the packet bus 20.

1B, which is another embodiment of the prior art, is a system in which a transmitting and receiving packet bus are separated, and a plurality of nodes 15 and a plurality of nodes 15 are separated from a transmitter and a receiver for transmitting packet data. A receiving packet bus 25 connected to the receiving packet data to transmit receiving packet data, a transmitting packet bus 40 connected to the plurality of nodes 15 to transmit transmitting packet data, and the transmitting and receiving A bridge unit connected to the packet buses 25 and 40 and configured to pass the packet data received through the receiving packet bus 25 to the transmitting packet bus 40, and the receiving packet buses of the plurality of nodes 15. (25) It is composed of a control node 35 that includes a control unit for controlling the occupancy and use.

Hereinafter, a packet communication system according to the related art having the above configuration will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1A, the plurality of nodes 10 and the control nodes 30 each have their own unique address, and are connected to one common packet bus 20 to transmit and receive packet data. .

When each of the nodes 10 and 30 occupies and uses the common packet bus 20, as an example, the node B 10 transmits packet data to the node C 10, and at the same time node D ( When 10) transmits data to node B 10 and transmits data to the common packet bus 20 at the same time, the two packet data collide with each other to generate an error and use the data. There is no date.

Accordingly, the control node A 30 periodically searches for the respective nodes B, C, and D 10 by a round robin method and checks whether there is packet data to be transmitted.

In detail, as an embodiment, when there is packet data to be transmitted from the node B 10 to the node C 10, and there is packet data to be transmitted from the node D 10 to the node B 10, The node B 10 and the node D 10 inform the control node A 30 of the packet data to be transmitted by the round robin method.

Upon receiving the notification, the control node A 30 checks whether the common packet bus 20 is already occupied and is transmitting packet data of another node 10.

When the common packet bus 20 is not occupied and used, the control node 30 determines the priority of data transmission between the node B 10 and the node D 10 and, as an embodiment, the node B 10. ) Grants or permits the occupancy of the common packet bus 20 to send data to node C 10, checks if the data transfer is complete, and if so, node D 10 is directed to node B 10. The possession and use of the common packet bus 20 are allowed to transmit packet data.

As described above, since the address of the receiving nodes 10 and 30 is described in the packet data transmitted from each node 10 and 30, all the nodes 10 and 10 connected to the common packet bus 20 are described. 30 simultaneously receives the data and receives the data only when the address of the data is analyzed to display its own address.

However, in the prior art as described above, transmission and reception of packet data is performed using one common packet bus 20, and one packet data is transmitted at the transmitting node 10 and received at the receiving node 10. Until the completion, the other node 10 has to wait, there is a problem that takes a lot of time for data transmission and difficult to transmit a large amount of data.

Some improvement of the problems of the prior art as described above, by separating the receiving packet bus 25 and the transmission packet bus 40, as shown in Figure 1b, so that the transmission and reception at the same time, each The nodes 15 and 35 are configured separately from a transmitter for transmitting packet data and a receiver for receiving.

In particular, the control node 35 is a bridge unit for applying the packet data received at the receiving unit through the receiving packet bus 25 to the transmitting unit to be transmitted to the transmitting packet bus 40.

The control node 35 checks each node 15 by a round robin method to check whether there is packet data to be transmitted, and transmits packet data by priority, but is transmitted from each node 15. Packet data is applied to the receiving section of the control node 35 via the receiving packet bus 25.

The receiving unit of the control node 35 checks the address of the authorized packet data, and if it is not its own data, applies it to the transmitting node of the control node 35 via the bridge, thereby transmitting it to the transmitting packet bus 40. do.

The plurality of nodes B, C, and D 15 receive all the packet data, analyze the address, and receive the packet data when they are the destination packet data.

That is, the transmitting unit of each node 15, 35 may transmit data to be transmitted to the receiving packet bus 25, and at the same time, each receiving unit may receive the packet data applied by extending the transmitting packet bus 40. In addition, it can be seen that the packet data transmission time is improved.

However, the above-described embodiments of the prior art all check the data transmission status of each node 10 and 15 in the control node 30 and 35, and permit the occupancy and use of the packet bus. 35) Or, if a trouble occurs in the packet bus controller, there is a problem that the entire packet communication system does not operate, and therefore, there is a problem in reducing the reliability of the packet communication system.

The present invention includes a plurality of nodes connected to a packet bus, all of which have a packet bus control function, and a function unit for displaying a state of the node, and each state display function unit is connected and communicated in a daisy chain manner. Node becomes the control node of the packet communication system and can control the packet bus. If a failure occurs in the control node that currently occupies the packet bus, another node acts as a control node by a daisy chain method. It is an object of the present invention to provide a method for controlling a packet bus of a packet communication system by a daisy chain, which enables the packet communication system to operate stably.

In order to achieve the above object, the present invention provides a packet communication system including a plurality of communication nodes, a common packet bus, and a control node, wherein the plurality of communication nodes use a packet bus of each node. A packet bus controller capable of controlling authority, wherein the plurality of communication nodes and the control node include a status indicator indicating a current status, and the status indicator of each node is connected in a daisy chain manner to communicate. In the packet communication system comprising a plurality of communication nodes separated from the transceiver, a transmission-only packet bus, a reception-only packet bus, and a control node bridged with a bridge, the plurality of communication nodes are packets. A bridge that carries data and a state that controls the packetbus permissions of each node and displays the current state at the same time. And a packet bus controller. The transmitting unit and the receiving unit include a function of transmitting and receiving packet data at the same time, and functions as a transmitting unit or a receiving unit according to the state and control signals of the packet bus control unit, and the counterpart and the packet bus control unit of each node are daisy-chained. It is characterized in that to be connected in a chain manner to communicate.

1A is a block diagram of a packet communication system in which a data transmission path is unified according to one embodiment of the prior art;

1B is a configuration diagram of a packet communication system in which a transmission / reception path is separated according to an embodiment of the prior art;

2A is a block diagram of a daisy chain packet communication system using a common paddle bath according to an embodiment of the present invention and technology;

2B is a block diagram of a daisy chain packet communication system in which a transmit / receive packet bus is separated according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10,15,50,70: Communication node 30,35: Control node

20, 25, 40, 60, 80, 90: Packet Bus 52: Packet Bus Control

54: transmission and reception function unit 56: status display unit

65,95: daisy chain 72,74: transceiver

76: bridge function 78: status and packet bus control

Hereinafter, a packet bus control method of a packet communication system using a daisy chain will be described as an embodiment of the present invention with reference to the accompanying drawings.

2A is a block diagram of a daisy chain packet communication system using a common packet bus according to an embodiment of the present invention, and FIG. 2B is a daisy chain packet in which a transmit / receive packet bus is separated according to an embodiment of the present invention. It is a schematic diagram of communication system.

Referring to FIG. 2A, the daisy chain packet communication system using a common packet bus according to an embodiment of the present invention includes a common packet bus 60 for transmitting and receiving packet data, and a node. A packet bus control unit for controlling each node to transmit packet data by checking the data transmission request counterpart by a round robin method and occupying the common packet bus 60 by priority. 52); A transmission / reception function unit 54 for transmitting and receiving packet data transmitted from each node and the packet data received from the packet bus 60; It is composed of a plurality of nodes 50 including a status display unit 56 for displaying the current state of each node and connected in a daisy chain manner to transmit data.

In addition, referring to the accompanying FIG. 2B, a daisy chain packet communication system divided into a transmission-only and a reception-only packet bus according to an embodiment of the present invention is a common transmission for transmitting only packet data. A packet bus 80, a common receiving packet bus 90 that only receives packet data, and packet data generated at each node to be transmitted are transmitted to the corresponding packet buses 80 and 90, and simultaneously First and second transmitter / receivers 72 and 74 capable of receiving packet data from the packet buses 80 and 90; The bridge function unit 76 connects the first and second transmission and reception units 72 and 74 and transmits the packet data from the reception packet bus 90 to the transmission unit 72 when the reception unit 74 receives the packet data. ; They are connected to each other in a daisy chain method and communicate with each other, indicating a trouble state of a corresponding node, and checking a packet data transmission request of each node by a round robin method. And a state for controlling each node to transmit packet data by occupying the received packet bus 90 according to priority, and a plurality of nodes 70 including a packet bus controller 78. do.

Hereinafter, as an embodiment, a packet bus control method of a daisy chain packet communication system according to the present invention having the above-described configuration will be described in detail with reference to the accompanying drawings, and only the necessary parts will be described in detail in the prior art. Thus, avoid duplicate descriptions wherever possible.

According to the attached FIG. 2A, a packet bus control method of a packet communication system using a daisy chain using one common bus as a transmission / reception function includes the respective communication nodes A, B, C, and D (50). ) Checks the state of the data transmission request of the other node 50 in a round robin manner as described above, checks whether it is in the state of requesting to transmit packet data, and sets the common by the corresponding priority. By occupying the transmit / receive packet bus 60, a packet bus chair 52 having a function of allowing or allowing packet data to be transmitted is added.

In addition, each node 50 has a status display section 56 indicating a current state of the node 50, that is, a failure occurrence state, and a corresponding chain of the status display section 56 of each node 50. It is connected by (Daisy Chain) method and communicates by daisy chain method.

In the daisy chain connection and communication, each node A, B, C, and D 50 are sequentially connected, and communicate in one direction according to the order. When the 50 acts as a control node, the other nodes B, C, and D 50 act only as nodes for transmitting and receiving.

In this case, when a trouble occurs in the node A 50, the corresponding state display unit 56 may not perform a function as a control node anymore because a failure occurs in the node A 50. Is displayed on the node B 50 connected to the next stage, so that the node B 50 of the next stage acts as a control node and checks the data transmission requests of the other nodes A, C, and D 50. The control function grants or permits the right to occupy and use the packet bus 60.

The packet bus controller 52 of the node A 50 suspends its function by the control signal of the corresponding state display unit 56, and conversely, the corresponding packet bus controller 52 of the node B 50. Receives the corresponding control signal of the corresponding status display unit 56 is allowed to grant or permit the use of the packet bus.

In addition, when a failure occurs in the node B 50, the corresponding status display unit 56 displays the failure occurrence state as the node C 50, and the node C 50 receiving the status display signal is applied. If there is no failure, it acts as a control node, and if there is a failure, the status display unit 56 displays the status to the node D 50 to serve as a control node.

When the corresponding status display unit 56 included in each node 50 is connected and communicated in a daisy chain manner as described above, even if a specific node 50 serving as a control node fails, As the node 50 of the stage performs a function as a control node, the packet communication system can stably control the packet bus and transmit page data.

As another embodiment of the present invention, referring to FIG. 2B in which a transmit packet bus and a receive packet bus are separated, each node 70 is simultaneously connected to the transmit and receive packet buses 80 and 90, respectively. It has the same structure.

Each node 70 displays a trouble occurrence state of a node, and at the same time checks the data transmission request state of another node 70 in a round robin manner, according to a priority, and receives a received packet bus. A packet bus control unit 78 and a partner of a function of granting or granting the right to occupy and use the 90 to the node 70 and the packet bus control unit 78 are included.

Since the state of each node 70 and the packet bus controller 78 connect and communicate with each other in a daisy chain manner as described above, detailed and detailed descriptions thereof will be omitted.

Each node 70 includes first and second transmitting and receiving units 72 and 74 having the same function, and transmits or receives packet data under the control of the state and the packet bus control unit 78. It acts as a receiver.

In addition, the bridge function unit 76 also performs or does not perform a bridge function for passing packet data by the state and the control signal of the packet bus control unit 78.

Referring to the function of the node 70 in more detail, as an embodiment, when the node A (70) is operating or acting as a control node, the corresponding state and the packet bus controller 78 is a corresponding agent. The control signal is applied to the first transmitter / receiver 72 to operate as a transmitter, and the control signal is applied to the corresponding second transmitter / receiver 74 to operate as a receiver. That is, the first transmitter / receiver of the node A 70 acts as the transmitter 72 and the second transmitter / receiver acts as the receiver 74.

At the same time, the corresponding state and the packet bus chair unit 78 applies a control signal to the bridge function unit 76 to operate as a bridge.

In addition, the corresponding state and the packet bus controller 78 inform other nodes B, C, and D 70 through the daisy chain that the node A 70 is currently operating as a control node. The respective states of the Nome B, C, and D 70 and the packet bus controller 78 respectively apply control signals to the corresponding bridge function 76 so as not to operate as the bridge Brid9e. In addition, a control signal is applied to each first transmitter / receiver 72 to act as a receiver, and a control signal is applied to each second transmitter / receiver 74 to act as a transmitter.

Thus, the structure shown in FIG. 2B is attached, and node A 70 operates as a control node, and nodes B, C, and D 70 operate as nodes only transmitting and receiving data. do.

While operating in the above structure, when a trouble occurs in the node A 70 and fails to operate or operate as a control node, the corresponding state of the node A 70 and the packet bus controller 78 Notifies the status indication signal to the packet bus controller 78 and the status of the Node B 70 connected in a daisy chain manner.

As described above, the counterpart and the packet bus controller 78 of the node B 70 having received the signal in a daisy chain manner may have corresponding first and second transmitter / receivers 72 and 74 and a bridge function unit ( By applying a control signal corresponding to each of 76), it starts to act as a control node and simultaneously notifies other nodes A, C, and D 70 that they are operating as control nodes by using a daisy chain.

Therefore, even if a trouble occurs in the node A 70, the node B 70 can operate or operate as a control node, so that the packet communication system can continue packet data communication normally.

As an example, if a trouble occurs in the node B 70, the corresponding state and the packet bus controller 78 signal a signal that there is a failure and cannot function as a control node. The corresponding partner and the packet bus controller 78 are informed using a daisy chain, and the node C 70 operates or operates as a control node.

In the packet communication system connected in a daisy chain using the method of the present invention as described above, even if a failure occurs in the control node, the next node 70 acts as a control node, thereby preventing malfunction of the control node. Minimize and improve the reliability of packet communication system.

According to the method of the present invention having the above-described configuration, a plurality of communication nodes that can act as control nodes can be connected and communicated by a daisy chain method, thereby enabling a specific node to operate as a control node, and to acting control nodes. In the event of a failure, the next node in the daisy chain connection acts as a control node, which not only minimizes the fatal loss to the function of the packet communication system due to the failure of the control node, There is an industrial and industrial application effect to improve the reliability.

Claims (2)

In a packet communication system including a plurality of communication nodes combined with a transmitter and a receiver, a common packet bus, and a gay node, the plurality of communication nodes may control a packet bus using authority of each node. A plurality of communication nodes and a control node include a state display unit for displaying a current state, and the state display unit of each communication node is connected in a daisy chain manner to communicate with each other and is controlled by a leading communication node without a failure. A method of controlling a packet bus in a packet communication system using a daisy chain, characterized in that the node acting as a node and the next connected communication node of the daisy chain acts as a control node when the control node fails. In a packet communication system comprising a plurality of communication nodes in which a transmitter and a receiver are separated, a transmission-only packet bus, a reception-only packet bus, and a control node including a bridge, the plurality of communication nodes transmit packet data. A bridge, a state controlling a packet bus usage right of each node and simultaneously displaying a current state and a packet bus controller, wherein the transmitter and receiver include a function of transmitting and receiving packet data simultaneously. It functions as a transmitter or a receiver by the status and control signals of the packet bus controller. The status and packet bus control of each communication node are connected in a daisy chain manner so that communication is possible and the leading communication node without a fault acts as a control node. If the control node fails, the next access communication node of the daisy chain is the control node. Bus control how packets of a packet communication system according to the daisy chain, characterized in that acting as a.

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