KR19980083128A - Multitask fast performance device in PLC system - Google Patents

Abstract

The present invention relates to a multi-task fast performing apparatus in a PLC system. In the prior art, one interrupt task program has a single task structure in which another task cannot enter while the task is being executed. Since a task has been performed, there are many problems in that a number of task programs can be executed.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and provides an apparatus for determining the priority of a plurality of tasks at high speed, so that the priority of each task is determined at a high speed at a predetermined time. Therefore, the task is performed with the highest priority among the required tasks, and when the interrupt task is input from the high speed input device in the workplace, a corresponding task can be performed, thereby performing a plurality of tasks at high speed.

Description

Multitask fast performance device in PLC system

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a multitask fast performing apparatus in a PL system, and more particularly, to a multi task fast performing apparatus in a PCI system for determining a priority of a plurality of tasks at high speed.

1 is a block diagram of a multi-task fast performing apparatus in the conventional PLC system, as shown in the peripheral unit 10 for creating a program desired by the user; A memory unit 11 for storing a program created by the peripheral unit 10; A gate array unit 12 that executes a program written by a user at high speed; An input / output unit 14 for outputting a result calculated by the gate array unit 12 or reading an input from the outside; The microprocessor unit 13 controls the flow of the entire signal, transmits a run / stop control signal to the gate array unit 12, and executes an operation that the gate array unit 12 cannot perform. A conventional operation process configured as described above will be described.

FIG. 2 is a user program in the peripheral unit shown in FIG. 1. As shown therein, a user program composed of a scan program and a task program is a memory in which the contents of data are maintained by the microprocessor unit 13 even in case of power failure. The memory 11 is sequentially stored in the unit 11, and sets the execution time of the task program every time desired by the peripheral unit 10 in the memory unit 11.

If the microprocessor unit 13 transmits a RUN signal to the gate array unit 12 after the configuration as described above, the gate array unit 12 sequentially reads a user program from 000 steps to perform a high speed operation. If the user turns on L012 in 12 steps, after the user task is enabled and pauses the scan program at a predetermined time, the microprocessor unit 13 stops the gate array unit 12 and then starts from step 015. Interrupt task program is executed, and after all the task programs are executed, the program is switched back to a scan program, and the result calculated by the gate array unit 12 turns on / off an output desired by a user through the input / output unit 14. By doing so, control is achieved.

FIG. 3 is a timing diagram of task execution in FIG. 1, and as shown therein, the microprocessor unit 13 performs the self-diagnosis of the PLC system and the common execution with the gate array unit 12. When 12) is stopped, the microprocessor unit 13 executes a complicated application instruction. In contrast, the microprocessor unit 13 performs a communication process while the gate array unit 12 is in operation, and waits only for the gate array unit 12 to be stopped. .

As described above, in the prior art, one interrupt task program has a single task structure that no other task can enter while the task is executed. Therefore, the task that is required is executed after the task being executed is completed. In this case, there were problems with many restrictions.

Accordingly, an object of the present invention is to provide a device for determining a priority of a plurality of tasks at high speed.

1 is a block diagram of a multi-task fast performing apparatus in the conventional PLC system.

Figure 2 is a user program in the peripheral unit in Figure 1;

3 is a task performance timing diagram in FIG.

Figure 4 is a block diagram of a multi-task fast performing apparatus in the present invention PRC system.

Figure 5 is a user program in the peripheral unit according to the present invention.

6 is a task performance timing diagram in FIG.

*** Description of the symbols for the main parts of the drawings ***

10: peripheral portion 11: memory portion

12, 20: gate array portion 13: microprocessor portion

14: input / output unit 21: high speed performing unit

22: task mask portion 23: task request portion

24: task performance display unit 30: high speed input unit

In order to achieve the above object, the configuration of the multi-task fast performing apparatus in the PLC system of the present invention includes a peripheral unit 10 for creating a program desired by a user as shown in FIG. 4; A memory unit 11 for storing a program created by the peripheral unit 10; A gate array unit 20 which executes a program written by a user at high speed; An input / output unit 14 for outputting a result calculated by the gate array unit 20 or reading an input from the outside; A microprocessor unit 13 for controlling the flow of the entire signal, transmitting a run / stop control signal to the gate array unit 20, and executing an operation that the gate array unit 20 cannot perform; When the user inputs the desired external input condition, it characterized in that it comprises a high-speed input unit 30 for processing the response in response to the external task at high speed.

The gate array unit 20 includes: a high speed execution unit 21 for determining which task has the highest priority when a plurality of tasks enters, and stopping a currently executing task or waiting for a low priority task; A task mask portion 22 for enabling or disabling a plurality of tasks; A task request unit 23 for receiving a command from the microprocessor to perform a task; Characterized in that it consists of a task performance display unit 24 that displays which task is currently being performed.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 5 is a user program in the peripheral unit according to the present invention, and FIG. 6 is a timing diagram of task execution in FIG. 4. As shown in FIG. 5, a user program created by a user consisting of a scan program and a task program is a microprocessor unit ( 13) are sequentially stored in the memory unit 11 in which the contents of the data are retained even during a power failure, and the peripheral unit 10 sets a plurality of task conditions.

That is, 315 lines (ISBRT 1) of the task programs are performed every second so that the task time of each task is set and the task program of the user is executed when the external input is input to the high speed input unit 30. Line 321 (ISBRT 2) is to be performed every three seconds, and line 327 (ISBRT n) is set to be performed when an external input is input to the high speed input unit 30, and also corresponds to each interrupt task. The lower priority is determined so that the lower the subroutine number (ISBRT number), the higher priority is stored in the memory unit 11.

After the user sets the RUN operation to the PLC, the microprocessor unit 13 performs the high-speed operation by reading the user program sequentially from the gate array unit 20 000 lines. If the user selects the 012 line, the task of the 315 line (ISBRT 1) of the task program is enabled and the microprocessor 13 causes the second of the task mask unit 22 of the gate array unit 20 every second. Bits are set, and the second bit of the task requester 23 is set so that the constraint performer 21 determines the priority.

In this case, the high speed execution unit 21 compares the task performance display unit 24 with the priority of the currently requested task, and if the priority is higher than the requested task, the standby state becomes a standby state, and conversely, if the requested task has a high priority, Stops the task being executed, performs the task of high priority, performs the task of low priority, and when all the required tasks have been performed, switches back to the scan program. Thus, the result calculated by the gate array unit 20 is finally performed. Is output by the input / output unit 14.

As described above, the multi-task high speed performing apparatus of the present invention PLC system determines the priority of each task at a high speed when a certain time, and performs the task of the highest priority among the required tasks, When the interrupt task comes from the input device, the task can be performed correspondingly, so that the task can be executed at high speed.

Claims (2)

A peripheral unit for creating a program desired by the user; A memory unit for storing a program created by the peripheral unit; A gate array unit which executes a program written by a user at high speed; An input / output unit for outputting a result calculated by the gate array unit or reading an input from the outside; A microprocessor unit which controls the flow of the entire signal, transmits a run / stop control signal to the gate array unit, and executes an operation that the gate array unit cannot perform; A multi-task high speed performance device in a PLC system comprising a high speed input unit configured to process an external task at high speed when an external input condition desired by a user comes in. The apparatus of claim 1, wherein the gate array unit comprises: a fast performing unit configured to determine which task has the highest priority when a plurality of tasks are received, to stop a currently executing task or to wait for a task having a low priority; A task mask unit for enabling or disabling a plurality of tasks; A task request unit configured to receive a command from a microprocessor and perform a task; A multi-task high speed performance device in a PLC system comprising a task performance display unit for displaying which task is currently being performed.