Programmable logic controller, slave device, and duplex system

Abstract

A programmable logic controller includes a state monitoring unit to monitor a state of another programmable logic controller that is a counterpart in the duplication, and a system switching control unit to transmit, to a slave device, status information including information indicating whether the programmable logic controller is a control system or a standby system, to receive the control data that is addressed to the programmable logic controller that is the control system and is transmitted from the slave device in a case where the programmable logic controller is the control system, and to switch the programmable logic controller to the control system when hindrance in the another programmable logic controller is detected in a case where the programmable logic controller is the standby system.

Claims

1. A slave device controlled by one of two duplicate programmable logic controllers functioning as a control system on a basis of control data, the slave device comprising: a control data transmitter configured to periodically receive, from each of the two duplicate programmable logic controllers, status information including information identifying the respective programmable logic controllers as the control system or a standby system, and to check which one of the two duplicate programmable logic controllers is the control system and to transmit the control data to only one of the two duplicate programmable logic controllers identified as the control system on a basis of the information included in the status information, wherein the information transmitted by one of the programmable logic controllers explicitly identifies the one programmable logic controller as the control system and the information transmitted by the other of the programmable logic controllers explicitly identifies the other programmable logic controller as the standby system.

2. A duplex system comprising: a slave device controlled by one of two duplicate programmable logic controllers functioning as a control system on a basis of control data, the slave device comprising: a control data transmitter configured to periodically receive, from each of the two duplicate programmable logic controllers, status information including information identifying the respective programmable logic controllers as the control system or a standby system, and to transmit the control data to only one of the two duplicate programmable logic controllers identified as the control system on a basis of the information included in the status information; and the two duplicate programmable logic controllers, each of which is configured to control the slave device by using the control data received from the slave device when functioning as the control system, wherein each of the duplicate programmable logic controllers includes: a state monitor configured to monitor a state of the other duplicate programmable logic controller; and a system switching controller configured to transmit, to the slave device, the status information including information indicating whether the programmable logic controller is the control system or the standby system, to receive the control data that is addressed to the programmable logic controller functioning as the control system and is transmitted from the slave device after system switching in a case where the programmable logic controller functions as the control system, and to switch the programmable logic controller to the control system when hindrance in the other duplicate programmable logic controller is detected in a case where the programmable logic controller functions as the standby system.

3. The duplex system according to claim 2, wherein each of the programmable logic controllers transmits, to the slave device, the status information in a state included in a header portion of a frame.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) FIG. 1 is a diagram illustrating a configuration of a duplex system in which programmable logic controllers and a slave device are used according to an embodiment of the present invention.

(2) FIG. 2 is a diagram illustrating a hardware configuration of the programmable logic controller according to the embodiment.

(3) FIG. 3 is a diagram illustrating an example of a data configuration transmitted to a slave device by the programmable logic controller according to the embodiment.

(4) FIG. 4 is a diagram illustrating a hardware configuration of the slave device according to the embodiment.

(5) FIG. 5 is a sequence diagram illustrating a flow of an operation of the duplex system in which the programmable logic controllers are used according to the embodiment.

(6) FIG. 6 is a timing chart when system switching is performed in the duplex system in which the programmable logic controllers are used according to the embodiment.

(7) FIG. 7 is a diagram illustrating another configuration of a duplex system in which the programmable logic controllers and the slave device are used according to the embodiment.

DESCRIPTION OF EMBODIMENT

(8) Hereinafter, a programmable logic controller, a slave device, and a duplex system according to an embodiment of the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited by this embodiment.

Embodiment

(9) FIG. 1 is a diagram illustrating a configuration of a duplex system in which programmable logic controllers and a slave device are used according to an embodiment of the present invention. A duplex system 100 includes programmable logic controllers 10.sub.1 and 10.sub.2, one of which is a control system and the other is a standby system; a slave device 103 controlled by one of the programmable logic controllers 10.sub.1 and 10.sub.2 functioning as the control system; a network 31, which connects the programmable logic controller 10.sub.1 to the slave device 103; and a network 32, which connects the programmable logic controller 10.sub.2 to the slave device 103. In the duplex system 100, the programmable logic controllers 10.sub.1 and 10.sub.2 are master stations that control the slave device 103, which is a slave station, and the slave device 103 is a slave station controlled by the programmable logic controllers 10.sub.1 and 10.sub.2, which are master stations. The programmable logic controllers 10.sub.1 and 10.sub.2 are duplicate controllers, and whichever is the control system controls the slave device 103, which is a slave station, by using control data received from the slave device 103. The slave device 103 means all devices that can be slave stations controlled by a master station, and is not limited to specific devices. Specific examples of the slave device 103 include a remote input/output unit and a head unit.

(10) Note that the configuration of the programmable logic controller 10.sub.1 is the same as that of the programmable logic controller 10.sub.2. Therefore, in the following description, only when it is necessary to distinguish these two from each other, they are written as the programmable logic controllers 10.sub.1 and 10.sub.2 so that they are distinguished from each other. For the descriptions of common matters where these two do not need to be distinguished from each other, they are written as the programmable logic controllers 10. The subscript 1 or 2 is attached to the reference symbol of constituent elements in the programmable logic controllers described below only when it is necessary to distinguish between a constituent element of the programmable logic controller 10.sub.1 and a constituent element of the programmable logic controller 10.sub.2.

(11) The programmable logic controller 10 includes a system switching control unit 11, which controls switching of the control system and the standby system; and a state monitoring unit 12, which monitors the state of the programmable logic controller 10 that is the counterpart in the duplication.

(12) FIG. 2 is a diagram illustrating a hardware configuration of the programmable logic controller according to the embodiment. The programmable logic controller 10 includes an arithmetic device 21, which executes a program; a memory 22 used as a work area by the arithmetic device 21; a storage device 23, which stores a program and data; a network communication device 24 for communicating with the slave device 103; and an inter-device communication device 25 for communications between the programmable logic controllers.

(13) A central processing unit (CPU) can be used for the arithmetic device 21. A random access memory (RAM) can be used for the memory 22. A nonvolatile semiconductor memory can be used for the storage device 23. The system switching control unit 11 illustrated in FIG. 1 is implemented by the arithmetic device 21 executing software by using the memory 22 as a work area and communicating with the slave device 103 by using the network communication device 24. Furthermore, a plurality of arithmetic devices and a plurality of memories may cooperate with each other to execute the above functions. The state monitoring unit 12 illustrated in FIG. 1 is implemented by the arithmetic device 21 executing software by using the memory 22 as a work area and communicating with the programmable logic controller 10 that is the counterpart in the duplication by using the inter-device communication device 25. Furthermore, a plurality of arithmetic devices and a plurality of memories may cooperate with each other to execute the above functions.

(14) A system switching control unit 11.sub.1 periodically transmits, to the slave device 103, status information S1 including information indicating whether the programmable logic controller 10.sub.1 is the control system or the standby system. A system switching control unit 11.sub.2 periodically transmits, to the slave device 103, status information S2 including information indicating whether the programmable logic controller 10.sub.2 is the control system or the standby system. FIG. 3 is a diagram illustrating an example of a data configuration transmitted to a slave device by the programmable logic controller according to the embodiment. The data transmitted to the slave device by the programmable logic controller includes a header portion and a data portion, and the header portion includes status information including information indicating whether the programmable logic controller is the control system or the standby system. Because the status information is included in the header portion, the slave device 103 can acquire the status information without looking through the data portion, and thus the processing load on the slave device 103 can be reduced.

(15) As illustrated in FIG. 1, the slave device 103 includes a control data storage unit 52, which stores control data 51; and a control data transmission unit 53, which transmits the control data 51 to one of the two duplicate programmable logic controllers 10.sub.1 and 10.sub.2 functioning as the control system on the basis of the information included in the status information received from the programmable logic controllers 10.

(16) FIG. 4 is a diagram illustrating a hardware configuration of the slave device according to the embodiment. The slave device 103 includes an arithmetic device 41, which executes a program; a memory 42 used as a work area by the arithmetic device 41; a storage device 43, which stores a program and the control data 51; and a network communication device 44 for communicating with the programmable logic controllers 10.

(17) A CPU can be used for the arithmetic device 41. A RAM can be used for the memory 42. A nonvolatile semiconductor memory can be used for the storage device 43. The control data storage unit 52 illustrated in FIG. 1 is implemented by the storage device 43. The control data transmission unit 53 illustrated in FIG. 1 is implemented by the arithmetic device 41 executing software by using the memory 42 as a work area and communicating with the programmable logic controller 10 by using the network communication device 44. Furthermore, a plurality of arithmetic devices and a plurality of memories may cooperate with each other to execute the above functions.

(18) FIG. 5 is a sequence diagram illustrating a flow of an operation of the duplex system in which the programmable logic controllers are used according to the embodiment. Here, a case where the programmable logic controller 10.sub.1 is the control system is taken as an example, but an operation is performed in a similar manner in a case where the programmable logic controller 10.sub.2 is the control system. In step S11, the system switching control unit 11.sub.1 transmits status information to the slave device 103. In step S12, the system switching control unit 11.sub.2 transmits status information to the slave device 103. In step S13, the control data transmission unit 53 checks which one of the programmable logic controllers 10.sub.1 and 10.sub.2 is the control system. In step S14, the control data transmission unit 53 transmits control data to the programmable logic controller 10.sub.1 that is the control system. In step S15, the programmable logic controller 10.sub.1 controls the slave device 103 by using the control data received from the slave device 103.

(19) When the programmable logic controller 10.sub.2 is the control system, the transmission destination of the control data in step S14 is the programmable logic controller 10.sub.2, and the programmable logic controller 10.sub.2 controls the slave device 103 in step S15.

(20) FIG. 6 is a timing chart when system switching is performed in the duplex system in which the programmable logic controllers are used according to the embodiment. At time t1, a failure occurs in the programmable logic controller 10.sub.1 that is controlling the slave device 103 by using data C, and the programmable logic controller 10.sub.1 cannot continue controlling the slave device 103. The state monitoring unit 12.sub.1 of the programmable logic controller 10.sub.1 detects the occurrence of the failure in the programmable logic controller 10.sub.1, and the system switching control unit 11.sub.1 switches the programmable logic controller 10.sub.1 from the control system to the standby system. In addition, the state monitoring unit 12.sub.2 of the programmable logic controller 10.sub.2 detects the occurrence of the failure in the programmable logic controller 10.sub.1, and the system switching control unit 11.sub.2 switches the programmable logic controller 10.sub.2 from the standby system to the control system.

(21) At time t2, the system switching control unit 11.sub.2 transmits, to the slave device 103, status information S2 including information indicating that the programmable logic controller 10.sub.2 is the control system. At time t3, the system switching control unit 11.sub.2 receives, from the slave device 103, the data C, which is control data. Therefore, after time t3, the programmable logic controller 10.sub.2 controls the slave device 103 by using the data C.

(22) The duplex system according to the embodiment includes the programmable logic controllers 10 each including the state monitoring unit 12, which monitors the state of the other programmable logic controller 10 that is the counterpart in the duplication, and the system switching control unit 11, which transmits, to the slave device 103, status information including information indicating whether the programmable logic controller is the control system or the standby system, which, in a case where the programmable logic controller is the control system, receives control data that is addressed to the programmable logic controller that is the control system and is transmitted from the slave device 103, and which, in a case where the programmable logic controller is the standby system, switches the programmable logic controller to the control system when hindrance in the other programmable logic controller is detected. In addition, the duplex system according to the embodiment includes the slave device 103 including the control data transmission unit 53, which receives, from both the two duplicate programmable logic controllers 10, status information including information indicating whether the programmable logic controller is the control system or the standby system, and which transmits control data to one of the two duplicate programmable logic controllers 10 functioning as the control system on the basis of the information included in the status information. Therefore, while control of the slave device 103 is normally performed, the processing load of the programmable logic controller 10 that is the control system is not increased. In addition, the programmable logic controller that has been switched from the standby system to the control system does not control the slave device by using old data.

(23) By using the duplex system according to the embodiment for controlling a manufacturing facility, it is possible to prevent the occurrence of a manufacturing defect caused by a master station controlling a slave station by using old data and to improve the yield of products. In addition, it is possible to prevent failures in a manufacturing facility caused by a master station controlling a slave station by using old data and to realize a longer life of the manufacturing facility.

(24) In the above description, the duplicate programmable logic controllers 10.sub.1 and 10.sub.2 are connected to the slave device 103 via different networks 31 and 32, but the duplicate programmable logic controllers 10.sub.1 and 10.sub.2 may be connected to the slave device 103 via the same network. FIG. 7 is a diagram illustrating a configuration of a duplex system in which the programmable logic controllers are used according to the embodiment. The duplicate programmable logic controllers 10.sub.1 and 10.sub.2 are connected to the slave device 103 via the same network 33. Even when the duplicate programmable logic controllers 10.sub.1 and 10.sub.2 are connected to the slave device 103 via the same network 33, switching of the systems can still be made by performing a similar operation to that in the above description.

(25) The configurations described in the above embodiment shows examples of the content of the present invention, and they can be combined with other known techniques and can be omitted or changed partially without departing from the gist of the present invention.

REFERENCE SIGNS LIST

(26) 10, 10.sub.1, 10.sub.2 programmable logic controller, 11, 11.sub.1, 11.sub.2 system switching control unit, 12, 12.sub.1, 12.sub.2 state monitoring unit, 21, 41 arithmetic device, 22, 42 memory, 23, 43 storage device, 24, 44 network communication device, 25 inter-device communication device, 31, 32, 33 network, 51 control data, 52 control data storage unit, 53 control data transmission unit, 103 slave device.