JP2008219824A - Communication apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication apparatus capable of appropriately assigning communication bands to a plurality of traffics. <P>SOLUTION: An address teaching means 36 of a relay circuit 34 selects one of either a connection port 33e or a connection port 33f of an Ethernet (R) interface 33 in accordance with a transmission source MAC address of a frame transmitted via a network 5 and a network interface 37 on the basis of a predetermined table and transmits frame from the selected connection port. An Ethernet (R) switch 21 comprises a function for learning correspondence between connection ports and communication destinations, such that the connection port 21e or 21f, namely, a line 31 or 32 is automatically selected in accordance with a communication partner. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention learns by associating a transmission source address of a frame transmitted via a network with a connection port used when receiving the frame, and selecting the connection port when transmitting a frame to the address. The present invention relates to a communication device used together with a switch having a function.

As a method for connecting a plurality of Ethernet (registered trademark) (registered trademark) devices to a network, there is a connection method as shown in FIG. In the network configuration of FIG. 3, each of the Ethernet (registered trademark) switch 21 and the Ethernet (registered trademark) switch 22 is a general layer 2 Ethernet (registered trademark) switch. A function of automatically learning a transmission source MAC address of a previously connected device is provided. When transmitting a frame to the device, the connection port is selected based on the learning result, and the frame is transmitted from the connection port toward the device (MAC address). As a result, communication is possible between the devices 1a, 1b, 1c, and 1d and the devices 1A, 1B, 1C, and 1D via the network 5.
JP 2006-74412 A

  However, in the conventional network configuration, there is a problem that even if traffic with different priorities is mixed, it is not possible to distinguish between them. For example, when the amount of communication is limited by the communication band of the network 5, communication with a high priority is hindered, and there is a possibility of serious influence.

  An object of the present invention is to provide a communication device that can appropriately allocate communication bands to a plurality of traffics.

The communication device of the present invention includes a plurality of connection ports, learns the transmission source address of a frame transmitted via the network and the connection port used when receiving the frame, and learns the frame to the address In a communication device provided between a switch having a selection function for selecting the connection port at the time of transmission and the network, a plurality of connections respectively connected to a plurality of connection ports of the connection ports of the switch And a selection of a connection unit to be used among the plurality of connection units according to a transmission source address of a frame transmitted from the network toward the switch. An address that causes the switch to learn the correspondence between the address and the connection port corresponding to the address. Characterized in that it comprises a scan teaching means.
According to this communication apparatus, by selecting a connection unit to be used according to a transmission source address of a frame transmitted from the network to the switch, the switch selection function allows the communication partner to set the address and the address of the communication partner. Since the switch learns the correspondence with the corresponding connection port, the communication band can be appropriately assigned.

  The address teaching means may receive an input by a user of information associating a transmission source address of the frame with the connection unit, and may select the connection unit according to the input information.

  The address teaching unit may select the connection unit based on a unique value of the frame transmitted from the transmission source address.

  The connection unit selected by the address teaching unit may be associated with the priority of the communication partner.

  When transferring a frame transmitted from the switch to the network, the communication amount for each connection unit is limited to a communication amount communicable on the network according to a distribution ratio defined in advance for the connection unit. Distributing means may be provided.

  According to the communication device of the present invention, by selecting the connection unit to be used according to the transmission source address of the frame transmitted from the network to the switch, the switch selection function allows the communication partner's address and the communication partner to Since the switch learns the association with the connection port corresponding to the address, the communication band can be appropriately allocated.

  Hereinafter, an embodiment of a communication apparatus according to the present invention will be described with reference to FIGS.

  FIG. 1 is a block diagram showing a configuration of a communication network to which an adapter as a communication device of the present embodiment is applied, and FIG. 2 is a block diagram showing a configuration of the adapter.

  As shown in FIG. 1, the devices 1a, 1b, 1c, and 1d, which are Ethernet (registered trademark) devices, are connected to a connection port 21a, a connection port 21b, and a connection port 21b of an Ethernet (registered trademark) switch 21, respectively. The port 21c and the connection port 21d are connected to each other. Similarly, the devices 1A, 1B, 1C, and 1D that are Ethernet (registered trademark) devices are the connection port 22a, the connection port 22b, the connection port 22c, and the connection port 22d of the Ethernet (registered trademark) switch 22, respectively. Are connected to each. The Ethernet (registered trademark) switch 21 and the Ethernet (registered trademark) switch 22 are connected to the network 5 via the adapter 30 and the adapter 40, respectively, and the device 1a, the device 1b, and the device 1c are connected via the network 5. The device 1d can communicate with the device 1A, the device 1B, the device 1C, and the device 1D. A MAC address is assigned to each of the devices 1a, 1b, 1c, 1d, 1A, 1B, 1C, and 1D.

  Each of the Ethernet (registered trademark) switch 21 and the Ethernet (registered trademark) switch 22 is a general layer 2 Ethernet (registered trademark) switch, and based on the received frame, the device connected to the end of the connection port. A function for automatically learning the source MAC address is provided. When transmitting a frame to the device, the connection port is selected based on the learning result, and the frame is transmitted from the connection port toward the device (MAC address).

  As shown in FIG. 2, the adapter 30 includes an Ethernet (registered trademark) interface 33, a relay circuit 34, and a network interface 37. As shown in FIGS. 1 and 2, the connection port 33e and the connection port 33f of the Ethernet (registered trademark) interface 33 are connected to the connection port 21e and the connection port of the Ethernet (registered trademark) switch 21 via the line 31 and the line 32, respectively. 21f. The network interface 37 is connected to the network 5. The relay circuit 34 includes a distribution unit 35 and an address teaching unit 36 and relays between the Ethernet (registered trademark) interface 33 and the network interface 37.

  The distribution means 35 of the relay circuit 34 connects the Ethernet (registered trademark) interface 33 so that the communication volume of frames transmitted to the network 5 via the network interface 37 is limited to the communication capacity of the network 5 or less. The port 33e and the connection port 33f are provided with a function of allocating a communication band (number of passing bits per unit time) equally or unevenly. Due to such a function of the distribution means 35, the total communication amount in the right direction in the network 5 in FIGS. 1 and 2 is limited. In addition, a predetermined band is secured as a communication band for communication in the right direction on the line 31 and the line 32. For example, the communication amount can be secured in the line 31 and the line 32 at a ratio of 5: 5, or can be ensured at a ratio of 7: 3.

  The address teaching means 36 of the relay circuit 34 is connected to the connection port of the Ethernet (registered trademark) interface 33 according to the transmission source MAC address of the frame transmitted via the network 5 and the network interface 37 based on the predetermined table 36t. 33e or one of the connection ports 33f is selected, and the frame is transmitted from the selected connection port. As described above, since the Ethernet (registered trademark) switch 21 has a function of learning the association between the connection port and the communication destination, the connection port 21e or the connection port 21f, that is, the line 31 or the line is selected according to the communication partner. 32 will be automatically selected.

  The table 36t for associating the frame source MAC address with the connection port of the Ethernet (registered trademark) interface 33 can be arbitrarily set by the user. Thereby, for example, either the line 31 or the line 32 can be secured as a line dedicated to communication with a specific device. If communication with the devices 1A and 1B as communication partners is important and high priority communication is performed, the MAC addresses of these devices are associated with the connection port 33e, and the MAC addresses of other devices are connected to the connection port. 33f can be associated. In this case, the line 31 is used as a dedicated line for a frame having the devices 1A and 1B as communication partners. For this reason, if a sufficient communication capacity is secured on the line 31 by the distribution means 35, it is possible to prevent a situation in which high priority communication is delayed.

  Similarly, the adapter 40 includes an Ethernet (registered trademark) interface 43, a relay circuit 44, and a network interface 47. As shown in FIGS. 1 and 2, the connection port 43e and the connection port 43f of the Ethernet (registered trademark) interface 43 are connected to the connection port 22e and the connection port of the Ethernet (registered trademark) switch 22 via the line 41 and the line 42, respectively. 22f. The network interface 47 is connected to the network 5. The relay circuit 44 includes a distribution unit 45 and an address teaching unit 46 and relays between the Ethernet (registered trademark) interface 43 and the network interface 47.

  The distribution means 45 of the relay circuit 44 is a connection port of the Ethernet (registered trademark) interface 43 so that the communication volume of the frame transmitted to the network 5 via the network interface 47 is limited to the network communication capacity or less. 43e and connection port 43f are provided with a function of allocating a communication band (number of passing bits per unit time) equally or unevenly. Due to such a function of the distribution means 45, the total communication amount in the left direction in the network 5 in FIGS. 1 and 2 is limited. In addition, a predetermined band is secured as a communication band for leftward communication on the line 41 and the line 42.

  The address teaching means 46 of the relay circuit 44 connects the connection port of the Ethernet (registered trademark) interface 43 according to the transmission source MAC address of the frame transmitted via the network 5 and the network interface 47 based on the predetermined table 46t. 43e or one of the connection ports 43f is selected, and the frame is transmitted from the selected connection port. As described above, since the Ethernet (registered trademark) switch 22 has a function of learning the association between the connection port and the communication destination, the connection port 22e or the connection port 22f, that is, the line 41 or the line is selected according to the communication partner. 42 will be automatically selected.

  The table 46t that associates the frame source MAC address with the connection port of the Ethernet (registered trademark) interface 43 can be arbitrarily set by the user. Thereby, for example, either the line 41 or the line 42 can be secured as a line dedicated to communication with a specific device. If communication with the device 1a as a communication partner is important and communication is high priority, the MAC address of the device 1a is associated with the connection port 43e, and the MAC addresses of other devices are associated with the connection port 43f. Can do. In this case, the line 41 is used as a dedicated line for a frame having the device 1a as a communication partner. For this reason, if a sufficient communication capacity is ensured for the line 41 by the distribution means 45, it is possible to prevent a situation in which high priority communication is delayed.

  Thus, according to the communication apparatus of the present embodiment, two lines (lines 31, 32 or lines 41, 42) can be allocated according to the communication partner, so that the communication band can be used effectively. It becomes. For example, an appropriate communication band can be assigned to each of a plurality of traffic having different priorities.

  In the above embodiment, the case where two lines are allocated has been illustrated, but the communication amount can also be distributed to three or more lines. In this case, each line is connected to an individual connection port of the Ethernet (registered trademark) switch. Also, the same number of Ethernet (registered trademark) interface connection ports as the number of lines are provided.

  In the above embodiment, the line is selected according to the transmission source device. However, the line may be automatically selected according to the eigenvalue included in the frame. For example, the priority of communication can be indicated by a unique value, and the address teaching means can select a line according to this priority. A table for associating the priority with the connection port is prepared, and the address teaching means may select the connection port based on this table. In this case, for example, in FIGS. 1 and 2, the address teaching means 36 may select the connection port 33 e or the connection port 33 f based on the unique value included in the frame transmitted via the network 5 and the network interface 37. it can. In this case, if the connection port 33e is selected when the eigenvalue indicates a high priority, and if the connection port 33f is selected when the eigenvalue indicates a low priority, the line 31 is set as a communication partner having a high priority. It can be used as a dedicated line for communication with.

  Further, the distribution ratio by the distribution means may be automatically changeable according to the communication status. For example, when the line 31 is used as a dedicated line for high-priority communication, the communication band necessary for the line 31 can always be secured by adjusting the distribution ratio according to the communication amount of the line 31.

  As described above, according to the communication device of the present invention, by selecting the connection unit to be used according to the transmission source address of the frame transmitted from the network to the switch, the switch selection function enables communication. Since the switch learns the correspondence between the address of the other party and the connection port corresponding to the address, the communication band can be appropriately allocated.

  The scope of application of the present invention is not limited to the above embodiment. The present invention includes a plurality of connection ports, learns by associating a transmission source address of a frame transmitted via a network with a connection port used when receiving the frame, and transmits a frame to the address. The present invention can be widely applied to communication devices used in combination with a switch having a selection function for selecting the connection port.

The block diagram which shows the structure of the communication network to which the adapter as a communication apparatus of one Embodiment is applied. The block diagram which shows the structure of an adapter. The block diagram which shows the structure of the conventional communication network.

Explanation of symbols

5 Network 21, 22 Ethernet (registered trademark) switch (switch)
30, 40 adapter (communication device)
33e, 33f, 43e, 43f Connection port (connection part)
35, 45 Distributing means 36, 46 Address teaching means

Claims (5)

It has a plurality of connection ports, learns the source address of the frame transmitted via the network and the connection port used when receiving the frame, and learns the connection port when transmitting the frame to the address. In a communication device provided between a switch having a selection function to select and the network,
A plurality of connection portions respectively connected to a plurality of connection ports among the connection ports of the switch;
By selecting a connection unit to be used from among the plurality of connection units according to a transmission source address of a frame transmitted from the network to the switch, the selection function of the switch causes the address of the communication partner to be used. Address teaching means for causing the switch to learn the correspondence between the address and the connection port corresponding to the address;
A communication apparatus comprising: The said address teaching means receives the input by the user of the information which matches the transmission source address of the said flame | frame, and the said connection part, and selects the said connection part according to the said input information, The said connection part is characterized by the above-mentioned. Communication device. The communication apparatus according to claim 1, wherein the address teaching unit selects the connection unit based on a unique value of the frame transmitted from the transmission source address. The communication apparatus according to claim 1, wherein the connection unit selected by the address teaching unit is associated with a priority of the communication partner. When transferring a frame transmitted from the switch to the network, the communication amount for each connection unit is limited to a communication amount communicable on the network according to a distribution ratio defined in advance for the connection unit. The communication apparatus according to claim 1, further comprising a distribution unit that performs distribution.

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