KR102497158B1 - Duplication apparatus in ethernet environment - Google Patents

Abstract

The present invention relates to a duplication apparatus in an Ethernet environment, by which only devices turned off disappear from a network and all the remaining devices can be connected in an Ethernet environment formed as a daisy chain. The duplication apparatus comprises: a plurality of inner communication ports shared internally; first and second outer daisy chain ports connected from an upper rank to a lower rank; a power supply unit for supplying power required for the duplication device; an inner switching hub semiconductor controller for controlling the access state the plurality of inner communication ports and the first and second outer daisy chain ports; a switching unit for switching connection ends of the first and second outer daisy chain ports; and a relay coil for outputting a signal controlling the switching of the switching unit. Therefore, if a failure occurs in a specific node, only devices connected to the specific node disappear from the network, and all the remaining devices can remain connected.

Description

Duplication apparatus in Ethernet environment {Duplication apparatus in ethernet environment}

The present invention relates to a redundancy device in an Ethernet environment, and more particularly, to a redundancy device in an Ethernet environment in which only a device that is turned off disappears from a network and all other devices can be connected in an Ethernet environment composed of a daisy chain.

Due to the recent rapid development of industrial technology and communication technology, communication networks are increasing in number and becoming complex, and are continuously interconnected to meet customer needs. Accordingly, Ethernet technology has been developed and is widely applied and used in various fields such as homes, offices, and industrial sites. Ethernet is often defined in the IEEE 8203 standard and refers to a frame-based or data-packet-based networking technology.

An Ethernet network consists of a structure in which a plurality of nodes are connected to one router connected to an external network, and the router transmits frames or data packets through RIP (Routing Information Protocol) or OSPF (Open Shortest Path First) routing algorithms. Create and manage a routing table to deliver the optimal route from the source to the destination.

Recently, a structure in which a plurality of devices are interconnected in a daisy chain topology structure in which a plurality of devices are connected in series by forming a mutual chain is applied.

The daisy chain is not a type concentrated on a hub, but a type connected in series like a bus topology, and is widely applied to upgrade various equipment because of less complicated wiring. As shown in FIG. 1, typical devices through the daisy chain method are composed of a chain and connected in series, and the connection section between the server and the controller is a typical device in which charging occurs when used. It is an Internet connection section, and the controller and each equipment node are composed of a local network that does not generate charges when used, but are connected with an Ethernet cable.

One example of this technique is disclosed in Documents 1 to 3 below.

For example, in Patent Document 1, as shown in FIG. 1, a router and a plurality of nodes are configured in a daisy chain to simplify the structure of the router and the cabling between the router and the plurality of nodes. Disclosed is a method for strengthening Ethernet network fault tolerance that can continuously guarantee the stability of Ethernet by immediately detecting failures that may occur in Ethernet and automatically setting a communication path bypassing them.

In addition, in Patent Document 2, as a relay device for connecting a plurality of Ethernet communication devices having two Ethernet ports through a daisy chain connection method, the Ethernet communication device transmits and receives data through a first Ethernet port and a second Ethernet port, A first signal line connected to the first Ethernet port, a second signal line connected to the second Ethernet port, a relay device connected between the first signal line and the second signal line, and input to the first Ethernet port and the second Ethernet port and an Ethernet communication module for performing Ethernet communication of a signal, wherein the relay device connects or blocks n (the number of Ethernet signal lines) switches between the first signal line and the second signal line in a one-to-one correspondence and the Ethernet communication Disclosed is a relay device including a control signal input unit for transmitting switch control signals for controlling the operation of the n switches based on whether the module is normally operated.

On the other hand, in Patent Document 3, a plurality of nodes form a first ring-type network and a plurality of other ring-type networks connected in a ring form through an Ethernet port, and the first ring-type network includes one or more expansion nodes - the extension A node is a node having three or more Ethernet ports, wherein one of the one or more expansion nodes has four Ethernet ports, and two of the Ethernet ports of the one expansion node connect to the first ring-type network. An extended Ethernet ring network is disclosed in which the other two of the Ethernet ports of the corresponding extension node are used to form one of the other ring networks among the plurality of other ring networks.

Republic of Korea Patent Publication No. 2018-0060162 (published on June 7, 2018) Republic of Korea Patent Registration No. 10-1858264 (Registration on 2018.05.09) Republic of Korea Patent Registration No. 10-1392558 (Registered on 2014.04.29)

In the technology disclosed in Patent Document 1 as described above, when the entire Ethernet device is turned off or turned on. There was a problem that when an Ethernet device with a hub is turned off, all of its sub-ends become disconnected.

In addition, in the technology disclosed in Patent Document 2, even if a failure occurs in a specific node, it is assumed that the relay device provided in the specific node operates normally. There was a problem that could not be overcome.

On the other hand, Patent Document 3 discloses a technology for simply expanding a ring-type Ethernet network through a node having three or more Ethernet ports, but when a failure occurs in a specific node, there is a problem affecting Ethernet communication of all nodes. there was.

An object of the present invention has been made to solve the above-mentioned problems, and in the event of a failure in a specific node in an Ethernet environment composed of a daisy chain, only a device connected to a specific node disappears from the network and the rest of the devices are redundant in the Ethernet environment. to provide the device.

Another object of the present invention is to provide a duplication device in an Ethernet environment capable of efficiently duplexing an Ethernet system at a low price while preventing congestion of communication data.

In order to achieve the above object, a duplexing device in an Ethernet environment according to the present invention is a duplexing device in an Ethernet environment to which a daisy chain method is applied, a plurality of internal communication ports shared therein, first and second connected from top to bottom. An external daisy chain port, a power supply unit supplying power necessary for the redundancy device, an internal switching hub semiconductor controller controlling connection states between the plurality of internal communication ports and the first and second external daisy chain ports, and the first and second external daisy chain ports. 2 It is characterized in that it includes a switching unit for switching the connection terminal of the external daisy chain port, and a relay coil for outputting a signal controlling the switching of the switching unit.

In addition, in the redundant device in the Ethernet environment according to the present invention, the first and second external daisy chain ports are physically directly connected when power supply from the power supply unit is cut off, and the first and second external daisy chain ports are When power is supplied from the power supply unit, it is characterized in that they are disconnected from each other and connected to the internal switching hub semiconductor controller.

In addition, in the redundant device of the Ethernet environment according to the present invention, it operates according to the supply of power from the power supply unit and is characterized in that it further comprises a redundant port link controller for controlling the relay coil.

In addition, in the duplexing device in the Ethernet environment according to the present invention, the duplication port controller continues to communicate using the second external daisy chain port when the second external daisy chain port is connected, and the second external daisy chain port When the link signal is disconnected, the relay coil is controlled to switch to the first external daisy chain port again.

In addition, in the redundant device in an Ethernet environment according to the present invention, the first external daisy chain port and the second external daisy chain port are not connected at the same time.

As described above, according to the redundant device in the Ethernet environment according to the present invention, the first and second external daisy chain ports connected from the upper to the lower, and the switching unit for switching the connection end of the first and second external daisy chain ports By providing a relay coil for outputting a signal controlling the switching of the switching unit and the switching unit, when a failure occurs in a specific node, only the device connected to the specific node disappears from the network, and all other devices can remain connected.

In addition, according to the redundant device in the Ethernet environment according to the present invention, by providing a redundant port link controller that operates according to power supply from the power supply unit and controls the relay coil, it is possible to efficiently redundant the Ethernet system at a low price. effect is obtained.

In addition, according to the duplexing device in the Ethernet environment according to the present invention, by providing a configuration in which the first external daisy chain port and the second external daisy chain port are not connected at the same time, congestion of communication data can be prevented. .

1 is a diagram showing the configuration of an Ethernet network according to the prior art;
2 is a diagram for explaining an Ethernet configuration of a daisy chain connection method applied to the present invention;
Figure 3 is a diagram for explaining the Ethernet configuration of the equipment turned off in the daisy chain method shown in Figure 2;
4 is a diagram for explaining an Ethernet configuration in which network lines are short-circuited in the daisy chain method shown in FIG. 2;
5 is a diagram for explaining an example of redundancy of network lines in the daisy chain method shown in FIG. 2;
6 is a configuration diagram of a redundancy device in an Ethernet environment according to an embodiment of the present invention, a diagram for explaining a state in which power is turned off;
7 is a configuration diagram of a redundancy device in an Ethernet environment according to an embodiment of the present invention, a diagram for explaining a power-on state;
8 is a configuration diagram of a duplication device in an Ethernet environment according to another embodiment of the present invention.

The above and other objects and novel features of the present invention will become more apparent from the description of this specification and accompanying drawings.

First, an outline of a duplication device in an Ethernet environment according to the present invention will be described with reference to FIGS. 2 to 3 .

Figure 2 is a diagram for explaining the Ethernet configuration of the daisy chain connection method applied to the present invention, Figure 3 is a diagram for explaining the Ethernet configuration of the equipment turned off in the daisy chain method shown in Figure 2, Figure 4 is a diagram for explaining an Ethernet configuration in which network lines are short-circuited in the daisy chain method shown in FIG. 2, and FIG. 5 is a diagram for explaining an example of redundancy of network lines in the daisy chain method shown in FIG.

Recently, the range of use of Ethernet has increased, and various types of configurations have been prepared.

When Ethernet is used for industrial purposes, redundancy of the network is very necessary.

As shown in FIG. 2, Ethernet may be configured in a daisy chain manner, and as shown in FIG. 3, it is necessary to turn off or turn on the entire Ethernet device.

If the configuration of the system is connected like a daisy chain as shown in Figure 2, as shown in Figure 4, if the network line between equipment 3 and equipment 4 is disconnected due to a socket or line failure, the entire the network is broken. In addition, when a device is turned off in Ethernet having a hub, as shown in FIG. 3, a phenomenon in which all lower ends are not connected occurs.

In this case, as shown in FIG. 5, it is necessary to perform duplication with a separate line. However, in the case of duplication as shown in FIG. 5, data congestion occurs in a general hub, making it impossible to communicate. In addition, when the number of devices is large, equipment such as an L2 switch needs to be prepared, so the cost of configuring the system becomes very high.

Using the network switch hub according to the present invention, it is possible to easily create redundancy in a system Ethernet environment using a low-cost hub semiconductor chip.

That is, as shown in FIG. 3, when an Ethernet hub composed of a signal relay is developed and applied in order to connect a network as it is in a device that is turned off, when the power of the device is turned off in the system, the network is physically to be connected

The Ethernet hub to which the redundancy device of the Ethernet environment according to the present invention is applied has two daisy chain ports connected from upper to lower levels together with several communication ports shared therein. The ports connected to the external daisy chain are configured to be physically connected directly when the power is not connected to the hub. When power is applied to the hub, the externally connected daisy chain ports are disconnected from each other and connected to the internal hub ports.

Hereinafter, an embodiment according to the present invention will be described with reference to FIGS. 6 and 7 .

6 is a configuration diagram of a duplication device in an Ethernet environment according to an embodiment of the present invention, and is a diagram for explaining a state in which power is turned off, and FIG. 7 is a configuration of a duplication device in an Ethernet environment according to an embodiment of the present invention. As a diagram, it is a diagram for explaining the power-on state.

As shown in FIGS. 6 and 7, the duplexing device in an Ethernet environment according to an embodiment of the present invention is a duplexing device in an Ethernet environment to which a daisy chain method is applied, and includes a plurality of internal communication ports 100 shared therein. , the first and second external daisy chain ports 110 and 120 connected from the top to the bottom, a power supply unit 200 for supplying power necessary for the redundant device, the plurality of internal communication ports 100 and the first and second external daisy chain ports 110 and 120 An internal switching hub semiconductor controller 300 that controls the connection state of the second external daisy chain ports 110 and 120, a switching unit 400 that switches the connection terminals of the external daisy chain ports 110 and 120, the switching A relay coil 500 outputting a signal controlling switching of the unit 400 may be included.

As shown in FIG. 6, in the redundant device in the Ethernet environment according to the present invention, when power is cut off from the power supply unit 200, that is, when the power of any one device is turned off in the Ethernet environment, the relay coil 500 As a result, the first and second external daisy chain ports 110 and 120 are directly connected to each other. That is, the relay coil 500 connects the first external daisy chain port 110 and the second external daisy chain port 120 to the connection terminals of the switching unit 400 when the power supply from the power supply unit 200 is cut off. It is prepared to be physically connected to each other.

At this time, the plurality of internal communication ports 100 and the internal switching hub semiconductor controller 300 do not need to be connected because the power is off, and the first and second external daisy chain ports 110 and 120 coming in and out from the outside are are arranged to be connected to each other.

On the other hand, in the redundant device in the Ethernet environment according to the present invention, as shown in FIG. 7, when power is supplied from the power supply unit 200, power is applied from the power supply unit 200 to the signal relay coil 500, and the signal relay coil 500 is activated.

According to the operation of the signal relay coil 500, in the switching unit 400, as shown in FIG. 7, each of the first external daisy chain port 110 and the second external daisy chain port 120 is an internal switching hub semiconductor To be connected to the controller 300. In this case, the internal switching hub semiconductor controller 300 operates normally, and the first external daisy chain port 110 and the second external daisy chain port 120 are connected through the internal switching hub semiconductor controller 300, and a plurality of The internal communication ports 100 are all connected through the internal switching hub semiconductor controller 300 .

As described above, in the redundant device in the Ethernet environment according to the present invention, the ports connecting the first and second external daisy chains are configured to be physically directly connected when power is not connected to the hub, and when power is applied to the hub , configured so that the externally connected daisy chain ports are disconnected from each other and connected to the internal hub ports.

Therefore, only the device that is powered off disappears from the network and all other devices can be connected.

Next, another example of a duplication device in an Ethernet environment according to the present invention will be described with reference to FIG. 8 .

8 is a configuration diagram of a duplication device in an Ethernet environment according to another embodiment of the present invention.

As shown in FIG. 8, a duplexing device in an Ethernet environment according to another embodiment of the present invention is a duplexing device in an Ethernet environment to which a daisy chain method is applied, and a plurality of internal communication ports 100 shared therein, First and second external daisy-chain ports 110 and 120 connected to a lower level, a power supply unit 200 supplying power necessary for the redundant device, the plurality of internal communication ports 100 and the first and second external The internal switching hub semiconductor controller 300 controls the connection state of the daisy chain ports 110 and 120, the switching unit 400 switches the connection terminals of the first and second external daisy chain ports 110 and 120, A relay coil 500 outputting a signal controlling switching of the switching unit 400 and a redundant port link controller 600 controlling the relay coil 500 may be included.

As shown in FIG. 8, in the duplication device in an Ethernet environment according to another embodiment of the present invention, the duplication port link controller 600 transmits a link signal of the first external daisy chain port 110, which is the seventh port, and the eighth port. When the link signal of the first external daisy chain port 110 is disconnected by controlling the relay coil 500 using the link signal of the second external daisy chain port 120, the connection signal relay is turned off. In this case, it is connected to the second external daisy chain port 120 so that communication can be continued.

Therefore, unlike the embodiment shown in FIG. 6 due to the structure of the connection signal relay, the first external daisy chain port 110 and the second external daisy chain port 120 cannot be connected at the same time, so congestion of communication data may occur. doesn't wake up

In addition, when the second external daisy chain port 120 is connected, the duplication port controller 600 continues to communicate using the second external daisy chain port 120, and the second external daisy chain port 120 When the link signal of is disconnected, the relay coil 500 is controlled to be switched to the first external daisy chain port 110 again.

Since the redundant port controller 600 operates according to power supply from the hub power supply unit 200, a time delay occurs until a link signal is received when the power is turned on. Accordingly, the first external daisy chain port 110 is connected and the link signal is checked with a sufficient time delay to control the signal relay coil 500 to operate.

In addition, when the link signal of the second external daisy chain port 120 is disconnected, it is switched back to the first external daisy chain port 110 to continue the network.

As described above, the redundant signal hub configured according to the present invention can efficiently redundant Ethernet systems at a low price and can be effectively utilized in a daisy chain system.

Although the invention made by the present inventors has been specifically described according to the above embodiments, the present invention is not limited to the above embodiments and can be changed in various ways without departing from the gist of the invention.

By using the redundant device in the Ethernet environment according to the present invention, when a failure occurs in a specific node, only the device connected to the specific node disappears from the network, and all other devices can maintain a connected state.

100: internal communication port
110, 120: first and second external daisy chain ports
400: switching unit
500: relay coil

Claims (5)

As a redundancy device in the Ethernet environment applying the daisy chain method,
A number of internal communication ports shared internally;
First and second external daisy chain ports connected from top to bottom,
A power supply unit supplying power necessary for the redundant device;
An internal switching hub semiconductor controller controlling a connection state between the plurality of internal communication ports and the first and second external daisy chain ports;
A switching unit for switching connection terminals of the first and second external daisy chain ports;
And a relay coil for outputting a signal for controlling the switching of the switching unit,
In the relay coil, when power supply from the power supply unit is cut off, the connection terminal of the switching unit is provided so that the first external daisy chain port and the second external daisy chain port are physically connected to each other, so that the external daisy chain port is connected to the outside. 1 external daisy chain port and the second external daisy chain port are connected to each other, and when power is supplied from the power supply unit, the externally connected first external daisy chain port and the second external daisy chain port are disconnected from each other and the internal hub A redundancy device in an Ethernet environment, characterized in that it is connected to a port. delete In paragraph 1,
The redundancy device in the Ethernet environment, characterized in that it operates according to the power supply from the power supply unit, and further comprises a redundancy port link controller for controlling the relay coil. In paragraph 3,
The redundant port controller continues to communicate using the second external daisy chain port when the second external daisy chain port is connected, and when the link signal of the second external daisy chain port is disconnected, the first external daisy chain port is disconnected again. Redundant device in an Ethernet environment, characterized in that for controlling the relay coil to be switched to a port. In paragraph 4,
The first external daisy chain port and the second external daisy chain port are redundant devices in an Ethernet environment, characterized in that not connected at the same time.

Images