JP2013258619A - Communication system and backup power supply method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To secure reliability of communication and expand the application range of a system.SOLUTION: A communication system comprises a first node, and a plurality of second nodes 2a connected to the first node by a daisy chain mode. The first node includes a backup power source unit which applies a prescribed power source voltage to a backup power source line 31 of an Ethernet cable 3 connected with its own communication device. Each of the second nodes 2a includes: a frame transfer unit 20 for performing transfer processing of an Ethernet frame with an adjacent communication device; a backup power supply switch 24 for performing connection or cutoff between the backup power source line 31 of the Ethernet cable 3 connected with the own communication device and a power source input terminal of the frame transfer unit 20; and a power supply switch control unit 25 for turning on a backup power supply switch 24 when power supply from a power source unit 22 to the frame transfer unit 20 is cut off.

Description

  The present invention relates to a communication system in which a plurality of communication devices are connected by daisy chain type or ring type wiring.

  Conventionally, when a plurality of nodes are wired in a daisy chain to a controller, the node has two connectors of the same shape, and the second node is connected to the first node. The third node is connected to the third node, and so on. A feature of daisy chain Ethernet (registered trademark) communication is that it is necessary not only to process the frame received by each node but also to transfer to the next node.

  One major problem with such a topology communication method is that when a certain node is turned off, communication with the node ahead is interrupted. The reason is that it is necessary to operate an electric circuit inside the node in order to transfer the frame. When the power supply of the node is turned off, the circuit becomes inoperable and transfer is impossible. In the example of FIG. 4, the power of the third node 2-3 among the nodes 2-1, 2-2, 2-3, 2-4... Connected to the controller 1 is turned off. An example is shown. In this case, communication after the node 2-3 becomes impossible.

  In order to solve such a problem, a proposal using a mechanical relay as shown in FIG. 5 has been proposed (see Non-Patent Document 1). In the example of FIG. 5, the node 2 includes a frame transfer unit 20, a power switch 21, a power supply unit 22, and a mechanical relay 23. When the power switch 21 is on, a power supply voltage is supplied to the frame transfer unit 20 from an external power source (not shown) via the power supply unit 22. When the power switch 21 is turned off and the power of the node 2 is turned off, the mechanical relay 23 is turned on. Thereby, even if the frame transfer unit 20 of the node 2 is not operating, the Ethernet cables 3 before and after the node 2 can be connected via the mechanical relay 23, and the communication function can be maintained.

Daisy Chain Ethernet I / O, MOXA, <http: // www. ibsjapan. co. jp / html / ioLogik_E1200 / index. html>

  In 10BASE-T and 100BASE-TX, which are Ethernet standards, the Ethernet cable wiring length between nodes is set to 100 m or less. However, in the configuration shown in FIG. 5, since the Ethernet cables before and after the node where the power is turned off are connected via the mechanical relay, the total Ethernet cable wiring length may exceed 100 m. If the length of the Ethernet cable exceeds the length specified by the standard, there is no guarantee that communication will be possible. Therefore, the configuration using the mechanical relay has a problem that it can be used only when the total wiring length of the daisy chain Ethernet is limited to the length defined by the Ethernet standard or less.

  SUMMARY An advantage of some aspects of the invention is that it provides a communication system and a backup power supply method that can ensure communication reliability and expand a system application range.

A communication system according to the present invention includes a first communication device, a plurality of second communication devices connected to the first communication device by a daisy chain method, and an Ethernet cable connecting adjacent communication devices. The first communication device includes a backup power supply unit that applies a predetermined power supply voltage to the backup power supply line using an unused core wire of the Ethernet cable connected to the communication device as a backup power supply line, The communication device is connected to a frame transfer unit that performs an Ethernet frame transfer process with an adjacent communication device, a power supply unit that supplies a power supply voltage to a power input terminal of the frame transfer unit, and a self-communication device. A backup power supply line that connects or disconnects the backup power line of the Ethernet cable and the power input terminal of the frame transfer unit. And pitch, when power from the power supply unit to the frame transfer unit detects that it has been blocked, is characterized in that it has a power supply switch controller for turning on the backup power supply switch.
In addition, one configuration example of the communication system of the present invention further includes an Ethernet cable that connects the second communication device at the end of the plurality of second communication devices and the first communication device. It is a feature.

In addition, the present invention includes a first communication device, a plurality of second communication devices connected to the first communication device by a daisy chain method, and an Ethernet cable that connects adjacent communication devices. A backup power supply method for backing up the power supply of the second communication device in a communication system, wherein the second communication device determines whether power is supplied to a frame transfer unit in the communication device. A backup power line of an Ethernet cable connected to the communication device and the frame transfer unit when the determination step determines that the power supply to the frame transfer unit in the communication device is interrupted A backup power feeding step for connecting the power input terminal to the power input terminal, wherein the backup power line is an unused core of an Ethernet cable. Ri, is characterized in that the predetermined power supply voltage from the backup power supply unit in the first communication device is applied.
Further, in one configuration example of the backup power supply method of the communication system according to the present invention, the last second communication device of the plurality of second communication devices and the first communication device are connected by an Ethernet cable. It is characterized by that.

  According to the present invention, when the power supply to the frame transfer unit in the second communication device is interrupted, the backup power line of the Ethernet cable connected to the second communication device and the power input terminal of the frame transfer unit Can be connected to the frame transfer unit of the second communication device from the backup power supply unit of the first communication device. In the present invention, since a means such as a conventional mechanical relay for connecting the Ethernet cable is not used, the wiring length of the Ethernet cable before and after the second communication device changes depending on the on / off of the power supply of the second communication device. This makes it easy to keep the length of the Ethernet cable below the length specified by the Ethernet standard. As a result, in the present invention, communication reliability can be ensured, and the application range of the communication system can be expanded as compared with the case where a conventional mechanical relay is used.

  Further, in the present invention, ring-type wiring can be realized by providing an Ethernet cable that connects the last second communication device and the first communication device among the plurality of second communication devices. Even if one of the two Ethernet cables connected to the second communication device is disconnected, power is supplied to the frame transfer unit of the second communication device via the backup power line of the other Ethernet cable. Can do.

It is a block diagram which shows the structure of the daisy chain Ethernet communication system which concerns on the 1st Embodiment of this invention. It is a block diagram which shows the structure of the node which concerns on the 1st Embodiment of this invention. It is a block diagram which shows the structure of the daisy chain Ethernet communication system which concerns on the 2nd Embodiment of this invention. It is a figure explaining the conventional problem. It is a block diagram which shows the structure of the conventional node.

[First Embodiment]
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a configuration of a daisy chain Ethernet communication system according to the first embodiment of the present invention, and FIG. 2 is a block diagram showing a configuration of a node according to the first embodiment of the present invention.
The daisy chain Ethernet communication system is a communication device such as a facility device or a terminal that is connected to the first node 1a, which is a communication device such as a controller or a switching hub, and connected to the first node 1a in a daisy chain manner. A plurality of second nodes 2a-1 to 2a-N (N is an integer of 2 or more) and an Ethernet cable 3 connecting the nodes.

  The first node 1a uses the communication unit 10 that performs Ethernet frame transmission / reception processing with an adjacent node and the unused core wire of the Ethernet cable 3 connected to the first node 1a as a backup power supply line. And a backup power supply unit 11 for applying a predetermined power supply voltage to the power supply line.

  As shown in FIG. 2, the second node 2a (2a-1 to 2a-N) includes a frame transfer unit 20, a power switch 21, and a second switch that performs an Ethernet frame transfer process with adjacent nodes. A power supply unit 22 which is a circuit for supplying a predetermined power supply voltage to each component of the node 2a, a backup power supply line of the Ethernet cable 3 connected to the second node 2a, and a power input terminal of the frame transfer unit 20 A backup power supply switch 24 that connects or disconnects, a power supply switch control unit 25 that turns on the backup power supply switch 24 when it is detected that power supply from the power supply unit 22 to the frame transfer unit 20 is interrupted, A port 26 for connecting to the node on the left side of FIGS. 1 and 2 and a port 27 for connecting to the node on the rear side (right side of FIGS. 1 and 2). Having.

  In the present embodiment, the power of the frame transfer unit 20, which is an electric circuit necessary for frame transfer, is maintained so that the transfer of the Ethernet frame is not interrupted even when the power of any second node 2a is turned off. Back up. The power supply for this backup is provided by using one set of two unused core wires of the Ethernet cable 3 (100BASE-TX CAT5 cable) as the backup power supply line 31.

  In the second node 2a, the backup power supply line 31 of the Ethernet cable 3 connected to the port 26 and the backup power supply line 31 of the Ethernet cable 3 connected to the port 27 are connected by the wiring 28. ing. That is, the backup power supply line 31 of the Ethernet cable 3 before and after the second node 2a is connected via the second node 2a.

  When the power supply of the second node 2a is on, the power supply switch control unit 25 turns off the backup power supply switch 24. In this case, a power supply voltage is supplied from an external power source (not shown) to the frame transfer unit 20 via the power supply unit 22. As described above, in normal times, power is supplied from the external power source to the entire configuration of the node including the frame transfer unit 20.

The communication unit 10 of the first node 1a transmits an Ethernet frame to the adjacent second node 2a (2a-1 in the example of FIG. 1), and receives the Ethernet frame transmitted from the adjacent second node 2a. To do.
Each frame transfer unit 20 of the second node 2a processes the Ethernet frame received from the forward (left side of FIG. 1, FIG. 2) node as necessary, and processes this Ethernet frame backward (FIG. 1, FIG. 2). Transfer to the node on the right. Further, the frame transfer unit 20 processes the Ethernet frame received from the rear node as necessary, and transfers the Ethernet frame to the front node.

  Next, when the power of at least one second node 2a among the plurality of second nodes 2a is turned off due to, for example, the power switch 21 being turned off or a failure of the power supply unit 22 due to a user operation error. The power supply from the external power supply is cut off, and the operation of the second node 2a is stopped. At this time, the power supply switch controller 25 of the second node 2a turns on the backup power supply switch 24 at the same time as the power is turned off. The backup power supply unit 11 of the first node 1 a applies a predetermined DC power supply voltage (for example, DC 12 V) to the backup power supply line 31 of the Ethernet cable 3. Accordingly, since the power supply voltage is supplied from the backup power supply unit 11 only to the frame transfer unit 20 via the backup power supply line 31 and the backup power supply switch 24, the frame transfer unit 20 has communication functions such as reception and transfer of Ethernet frames. Can be maintained.

  In the present embodiment, since a means such as a conventional mechanical relay for connecting the Ethernet cable is not used, the wiring length of the Ethernet cable 3 before and after the second node 2a is set to turn on / off the power of the second node 2a. It is easy to keep the length of the Ethernet cable 3 below the length (for example, 100 m) defined by the Ethernet standard without being changed by turning off. As a result, in the present embodiment, communication reliability can be ensured, and the application range of the daisy chain Ethernet communication system can be expanded as compared with the case where a conventional mechanical relay is used.

  The power supply switch control unit 25 always receives power from the backup power supply line 31 and controls the backup power supply switch 24. However, during normal times when the power supply of the second node 2a is on, power may be supplied from an external power supply as in the other configurations of the second node 2a.

[Second Embodiment]
Next, a second embodiment of the present invention will be described. FIG. 3 is a block diagram showing a configuration of a daisy chain Ethernet communication system according to the second embodiment of the present invention. In the present embodiment, an Ethernet cable 3 for connecting the last second node 2a-N and the first node 1a to the daisy chain wiring of the first embodiment is added, and a ring ( Ring) type wiring.

The operations of the first node 1a and the second node 2a are as described in the first embodiment.
In the present embodiment, by using ring-type wiring, even if one of the two Ethernet cables 3 connected to the second node 2a is disconnected, the backup power supply line 31 of the other Ethernet cable 3 is connected. Power can be supplied to the frame transfer unit 20 of the second node 2a.

  Note that each of the first node 1a and the second node 2a in the first and second embodiments controls, for example, a computer including a CPU, a storage device, a power supply circuit, and an interface, and these hardware resources. It can be realized by a program to do. The CPU of each node executes the processing described in the first and second embodiments according to the program stored in the storage device.

  The present invention can be applied to a communication system in which a plurality of communication devices are connected by daisy chain or ring wiring.

  DESCRIPTION OF SYMBOLS 1a ... 1st node, 2a-1-2a-N ... 2nd node, 3 ... Ethernet cable, 10 ... Communication part, 11 ... Backup power supply part, 20 ... Frame transfer part, 21 ... Power switch, 22 ... Power supply 24, backup power supply switch, 25 ... power supply switch control unit, 26, 27 ... port, 31 ... backup power supply line.

Claims (4)

A first communication device;
A plurality of second communication devices connected in a daisy chain manner to the first communication device;
Ethernet cable to connect between adjacent communication devices,
The first communication device is:
Having an unused core wire of an Ethernet cable connected to its own communication device as a backup power supply line, and having a backup power supply unit that applies a predetermined power supply voltage to this backup power supply line,
The second communication device is:
A frame transfer unit that performs Ethernet frame transfer processing between adjacent communication devices;
A power supply unit for supplying a power supply voltage to the power input terminal of the frame transfer unit;
A backup power supply switch for connecting or blocking the backup power line of the Ethernet cable connected to the communication device and the power input terminal of the frame transfer unit;
And a power supply switch control unit that turns on the backup power supply switch when it is detected that power supply from the power supply unit to the frame transfer unit is cut off. The communication system according to claim 1, wherein
The communication system further comprises an Ethernet cable for connecting the second communication device at the end of the plurality of second communication devices and the first communication device. In the communication system, comprising: a first communication device; a plurality of second communication devices connected to the first communication device by a daisy chain method; and an Ethernet cable connecting adjacent communication devices. A backup power supply method for backing up the power of the communication equipment of
A power supply determination step for determining whether the second communication device is supplied with power to a frame transfer unit in the communication device;
When the second communication device determines that the power supply to the frame transfer unit in the communication device is cut off, the backup power line of the Ethernet cable connected to the communication device and the power input terminal of the frame transfer unit And a backup power supply step for connecting
The backup power supply method for a communication system, wherein the backup power supply line is an unused core wire of an Ethernet cable, and a predetermined power supply voltage is applied from a backup power supply unit in the first communication device. In the backup power supply method of the communication system according to claim 3,
Further, a backup power feeding method for a communication system, characterized in that the last second communication device of the plurality of second communication devices and the first communication device are connected by an Ethernet cable.

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