JP2005301940A - Plant control apparatus and method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a plant control apparatus which can monitor an event occurring in a plant with time resolution higher than a control operation period and can obtain monitor information of higher reliability without an influence upon the load of a control computational unit, and a plant control method. <P>SOLUTION: A signal input device 2 is provided with an event detection processing part 21 which inputs an input signal from a detector 4 with time resolution higher than the prescribed operation period of a control computational unit 1 and inputs the input signal of event state change and outputs it to the the control computational unit 1, and a time management processing part 22 for adding a time to the input signal which is inputted by the event detection processing part 21 and is outputted to the control computational unit 1. The control computational unit 1 is provided with an event data conversion processing part 23 for directly transmitting the input signal from the event detection processing part 21 of the signal input device 2 to a monitor device 3. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a plant control apparatus and method for a plant monitoring control system that inputs a signal of a detector installed in a plant and monitors and controls the plant.

  In general, a plant supervisory control system inputs a process signal from detectors installed in various parts of the plant and performs a supervisory control calculation based on the process signal. As a plant monitoring control system, process signals from detectors at various locations in the plant are input to each plant control device to perform monitoring control calculations for specific plant equipment, and monitoring information is transmitted to the monitoring device via a network line. There is a monitoring device that monitors the entire plant.

  FIG. 11 is a block diagram of a conventional plant control apparatus in such a plant monitoring control system. The plant control device 11 includes a signal input device 2 that performs input processing on the signal of the detector 4 installed in the plant equipment, and a control arithmetic device 1 that performs plant monitoring control calculation based on the input signal input by the signal input device 2. The monitoring information calculated by the control calculation device 1 of the plant control device 11 is input to the monitoring device 3 via the network 28.

  The process signal detected by the detector 4 installed in the plant equipment is input to the signal input processing unit 5 of the signal input device 2 and converted into a digital signal. Then, the fixed period signal processing unit 6 inputs the information at regular intervals and outputs the information to the control arithmetic unit 1 via the control arithmetic unit I / F processing unit 7. The period at which the process signal is input by the fixed period signal processing unit 6 is synchronized with the period of the supervisory control calculation in the control calculation apparatus 1 described later.

  In the control arithmetic device 1, the signal received from the signal input device 2 is input to the internal arithmetic processing unit 9 through the signal input device I / F processing unit 8, and the plant is controlled by performing a supervisory control calculation and based on the input signal. Create monitoring information. For example, input signal alarm processing, alarm suppression processing, time addition processing, and the like are performed. An input signal with time information output from the internal arithmetic processing unit 9 and its calculation result are input to the transmission processing unit 10 and transmitted to the monitoring device 3 via the network 28, and the monitoring device 3 includes the internal arithmetic processing unit 9. Displayed with calculation time added. The internal arithmetic processing unit 9 of the control arithmetic device 1 operates cyclically and is synchronized with the fixed-cycle signal processing unit 6 of the signal input device 2.

  FIG. 12 is an explanatory diagram of monitoring information processed by the conventional plant control apparatus 11. As shown in FIG. 12, digital signals input from the detector 4 are time T2 (state ON), time T3 (state OFF), time T4 (state ON), time T6 (state OFF), and time T7 (state). ON) and the digital signal input from the detector 4 is changed as shown in FIG. In this case, it is assumed that the internal calculation cycle of the internal calculation processing unit 9 is T, and calculation processing is performed at times T1, T5, and T8.

  In this case, the states of the digital input signal transmitted to the monitoring device 3 are times T1, T5, and T8. However, the states are not changed at times T1 and T8 as compared with the states of the previous cycle. It does not change. Accordingly, the display change of the monitoring device 3 is updated only for the state change of the state ON at time T5. On the other hand, with respect to the analog signal input from the detector 4, the states of state 1 at time T 1, state 2 at time T 5, state 3 at time T 8, which are detected every internal calculation period T of the internal calculation processing unit 9 are displayed. Updated.

  However, since the time of the input signal from the detector 4 installed in the plant equipment is added only at the calculation cycle T of the internal calculation processing unit 6, the state change at the times T2, T3, T4, T6, and T7 is detected. The display transmitted to the monitoring device 3 is only the state of state ON at time T5. In addition, the analog signal input from the detector 4 is only in the state of state 1 at time T1, state 2 at time T5, state 3 at time T8, which is detected every internal operation period T of the internal operation processing unit 9. Other state changes cannot be captured.

  As described above, when an abnormality occurs in the plant in the internal calculation cycle T of the internal calculation processing unit 9, it is impossible to monitor the change in the state of the plant with a time resolution higher than the calculation cycle of the internal calculation processing unit 9. Further, if it is intended to realize a time resolution higher than the calculation cycle T, the amount of processing of the control calculation device 1 increases accordingly, which affects the monitoring control function.

  An object of the present invention is to provide a plant control apparatus and method capable of monitoring events occurring in a plant with a time resolution higher than the control calculation cycle, and obtaining more reliable monitoring information without affecting the load on the control calculation apparatus. Is to provide.

  The plant control device according to the present invention includes a signal input device that inputs an input signal from a detector installed in the plant, and an input signal from the signal input device at a predetermined calculation cycle to perform monitoring control calculation of the plant and monitor information A signal processing unit that inputs an input signal from a detector in synchronization with a predetermined calculation cycle of the control calculation device and outputs the input signal to the control calculation device; An event detection processing unit that inputs an input signal from the detector with a time resolution higher than a predetermined calculation cycle of the control arithmetic device, inputs an input signal of an event state change, and outputs the input signal to the control arithmetic device, and an event detection process And a time management processing unit that adds time to an input signal that is input by the unit and output to the control arithmetic unit. In addition, the control arithmetic device transmits an input signal from the fixed-cycle signal processing unit to the monitoring device and performs a monitoring control calculation based on the input signal, and an event detection processing unit of the signal input device. And an event data conversion processing unit that directly transmits an input signal to the monitoring device.

  The plant control method of the present invention inputs an input signal from a detector in synchronization with a predetermined calculation cycle of a control calculation device that performs plant monitoring control calculation, while having a time resolution higher than the predetermined calculation cycle of the control calculation device. In addition to inputting the input signal from the detector, the input signal of the event state change is input, the time is added to the input signal, and the input signal input in synchronization with the predetermined calculation cycle of the control arithmetic device is transmitted to the monitoring device In addition, the monitoring control calculation is performed based on the input signal, and the input signal input with a time resolution higher than a predetermined calculation cycle of the control calculation device is directly transmitted to the monitoring device.

  According to the present invention, since event detection with a time resolution higher than the calculation period of the supervisory control calculation is performed, the operation of the plant can be analyzed in more detail, and a highly reliable system can be constructed.

  FIG. 1 is a block configuration diagram of a plant control apparatus according to the first embodiment of the present invention. In the first embodiment, in contrast to the conventional example shown in FIG. 11, an input signal from the detector 4 is input to the signal input device 2 with a time resolution higher than a predetermined calculation cycle of the control arithmetic device 1. In addition, an event detection processing unit 21 that inputs an input signal of an event state change and outputs the input signal to the control arithmetic device 1, and a time that adds time to the input signal that is input by the event detection processing unit 21 and output to the control arithmetic device 1 A management processing unit 22 is additionally provided, and an event data conversion processing unit 23 that directly transmits an input signal from the event detection processing unit 21 of the signal input device 2 to the monitoring device 3 is added to the control arithmetic device 1. It is provided. The same elements as those in FIG. 11 are denoted by the same reference numerals, and redundant description is omitted.

  The process signal detected by the detector 4 installed in the plant equipment is input to the signal input processing unit 5 of the signal input device 2 and converted into a digital signal, and input to the fixed-cycle signal processing unit 6 and the event detection processing unit 21. Is done. In the fixed period signal processing unit 6, the information converted into the digital signal by the signal input processing unit 5 is input every fixed period, and is output to the control calculation device 1 through the control calculation device I / F processing unit 7. The period at which the process signal is input by the fixed period signal processing unit 6 is synchronized with the period of the monitoring control calculation by the internal calculation processing unit 9 of the control calculation device 1.

  On the other hand, in the event detection processing unit 21, the input signal converted into the digital signal by the signal input processing unit 5 is input at a cycle having a higher time resolution than the internal arithmetic processing unit 9 of the control arithmetic device 1. Then, time information from the time management processing unit 22 is attached to the inputted input signal, and input signal information with time information is transmitted to the control arithmetic device 1 via the control arithmetic device I / F processing unit 7.

  In the control arithmetic device 1, a signal received from the signal input device 2 is received by the signal input device I / F processing unit 8, and an input signal from the fixed-cycle signal processing unit 6 of the signal input device 2 is sent to the internal arithmetic processing unit 9. The input signal from the event detection processing unit 21 of the signal input device 2 is input to the event data conversion processing unit 23.

  The internal calculation processing unit 9 performs monitoring control calculation based on the input signal from the fixed period signal processing unit 6 to control the plant and create monitoring information. For example, input signal alarm processing, alarm suppression processing, time addition processing, and the like are performed. An input signal with time information output from the internal arithmetic processing unit 9 and its calculation result are input to the transmission processing unit 10 and transmitted to the monitoring device 3 via the network 28. On the other hand, in the event data conversion processing unit 23, the input signal from the event detection processing unit 21 is directly converted into a transmission format, input to the transmission processing unit 10, and transmitted to the monitoring device 3 via the network 28.

  Thereby, the input signal with time information output from the internal arithmetic processing unit 9 and the calculation result thereof, and the input signal with time information output from the event data conversion processing unit 23 are transmitted from the transmission processing unit 10 to the network 28. To the monitoring device 3, each time is added and displayed on the display device of the monitoring device 3.

  FIG. 2 is an explanatory diagram of the monitoring information processed by the plant control apparatus 11 according to the first embodiment. As shown in FIG. 2, the digital signals input from the detector 4 are time T3 (state ON), time T4 (state OFF), time T6 (state ON), time T9 (state OFF), and time T10 (state). ON) and the digital signal input from the detector 4 is changed as shown in FIG. In this case, the internal calculation cycle (cycle 1-0, cycle 2-0, cycle 3-0...) Of the internal calculation processing unit 9 is T, and calculation processing is performed at times T1, T7, T12. The calculation cycle (cycle 1-1, cycle 1-2, cycle 2-1, cycle 2-2 ...) in the event detection processing unit 21 is S, and calculation processing is performed at times T2, T5, T8, and T11. Suppose that

  In this case, the state of the digital input signal transmitted to the monitoring device 3 is the state at the time of the state change from the event data conversion processing unit 23 and the state at the time of the internal arithmetic processing cycle from the internal arithmetic processing unit 9. That is, times T3, T4, T6, T9, and T10 when the state is changed from the event data conversion processing unit 23, and T1, T7, and T12 when the internal calculation processing period is from the internal calculation processing unit 9. At times T1, T7, and T12, since the state has not changed compared to the previous display update state, the display does not change. Therefore, the state of the digital input signal can indicate the state input from the detector 4.

On the other hand, for the analog signal input from the detector 4, the state 1 at the time T 1, the state 4 at the time T 7, the state 7 at the time T 12, and the event data detected every internal calculation cycle T of the internal calculation processing unit 9. State 2 at time T2, state 3 at time T5, state 5 at time T8, and state 6 at time T11 detected every calculation cycle S of the conversion processing unit 23. These states 1 to 7 are updated. The That is, the analog signal input from the detector 4 is detected at time T1 (state 1), time T7 (state 4), and time T12 (state 7) detected every internal calculation cycle T of the internal calculation processing unit 9. In addition, the state change at time T2 (state 2), time T5 (state 3), time T8 (state 5), and time T11 (state 6) is changed by the analog detection cycle S of the event detection processing unit 21 that is calculated at higher speed. Can be caught.

  The event detection processing unit 21 inputs the time from the time management processing unit 22 and assigns the time with a higher time resolution than the internal calculation processing unit 9. Therefore, the monitoring device 3 displays the monitoring information input from the internal arithmetic processing unit 9 and the event data conversion unit 23 side by side based on the given time.

  According to the first embodiment, since the event detection processing unit 21 and the time management processing unit 22 are provided in the signal input device 2, it is possible to detect an event with a time resolution higher than the internal calculation cycle of the internal calculation processing unit 9. Thus, the operation of the plant can be analyzed in more detail, and a highly reliable system can be constructed.

  FIG. 3 is a block diagram of a plant control apparatus according to the second embodiment of the present invention. This second embodiment is different from the first embodiment shown in FIG. 1 in that an analog signal is input from the detector 4 with a time resolution higher than a predetermined calculation cycle T of the control arithmetic unit 1, An input signal / set value comparison processing unit 24 is added to the signal input device 2 for comparing whether or not the signal exceeds the set value and outputting the comparison result to the event data conversion processing unit 23 of the control arithmetic device 1. It is provided. The same elements as those in FIG. 1 are denoted by the same reference numerals, and redundant description is omitted.

  In FIG. 3, an input signal / set value comparison processing unit 24 is additionally provided in the signal input device 2, and the input signal / set value comparison processing unit 24 has a high time resolution like the event detection processing unit 21. An analog signal is input from the signal input processing unit 5, compared with a set value held by itself or given from the outside, and the comparison result and time information from the time management processing unit 22 are added to the control arithmetic unit I / F The information is output to the processing unit 7.

  In the control arithmetic unit 1, the comparison result with time information from the input signal / set value comparison processing unit 24 is input to the event data conversion processing unit 23 via the signal input device I / F processing unit 8, and is directly converted into the transmission format. The data is converted and transmitted to the monitoring device 3 through the transmission processing unit 10. The monitoring device 3 displays the comparison result together with the time information.

  FIG. 4 is an explanatory diagram of monitoring information processed by the plant control apparatus 11 according to the second embodiment. As shown in FIG. 4, the analog set value and hysteresis value are set in advance for the analog input signal, and the analog input set value comparison signal is turned on when it detects that the analog input signal exceeds the analog set value. The analog input set value comparison signal is turned off when the state where the analog input signal is less than the hysteresis value is detected.

  That is, since the analog input signal exceeds the analog set value at the time of cycle 2-1 of the input signal / set value comparison processing unit 24, the analog input set value comparison signal is turned on at time T8, and the analog input value at that time The information of the input signal is displayed on the monitoring device 3 together with (State 5). Similarly, in period 2-2 of the input signal / set value comparison processing unit 24, the analog input signal is below the hysteresis set value, so that the analog input set value comparison signal is turned off at time T11, and the analog signal at that time Information of the input signal is displayed on the monitoring device 3 together with the input value (state 6).

  According to the second embodiment, since the input signal / set value comparison processing unit 24 is provided, it is possible to detect an event of the analog set value comparison signal with a time resolution higher than the internal calculation cycle of the internal calculation processing unit 9. Become. Therefore, the operation of the plant can be analyzed in more detail, and a highly reliable system can be constructed. Moreover, since the set value comparison calculation performed in the control arithmetic device 1 can be performed by the signal input device 2, the load on the control arithmetic device 1 can be reduced.

  FIG. 5 is a block diagram of a plant control apparatus according to the third embodiment of the present invention. This third embodiment is different from the second embodiment shown in FIG. 3 in that the comparison result or event detection of the input signal / set value comparison processing unit 24 in a state where the analog signal exceeds the set value. An alarm processing unit 25 that adds alarm information to the event state change detected by the processing unit 21 and outputs the alarm information to the event data conversion processing unit 23 of the control arithmetic device 1 is added to the signal input device 2. . The same elements as those in FIG. 3 are denoted by the same reference numerals, and redundant description is omitted.

  In FIG. 5, an alarm processing unit 25 is additionally provided in the signal input device 2, and the alarm processing unit 25 inputs with time input from the event detection processing unit 21 and the input signal / set value comparison processing unit 24. Regarding signal information, it is possible to specify an alarm for each signal. If an alarm is specified, the alarm information is added to the input signal information and the information is sent to the control arithmetic unit I / F processing unit 7. Is output.

  In the control arithmetic unit 1, the comparison result with alarm information and the input signal from the alarm processing unit 25 are input to the event data conversion processing unit 23 via the signal input device I / F processing unit 8, and directly converted into the transmission format. Then, the data is transmitted to the monitoring device 3 through the transmission processing unit 10. The monitoring device 3 displays input signals and comparison results together with time information and alarm information.

  FIG. 6 is an explanatory diagram of the monitoring information processed by the plant control apparatus 11 according to the third embodiment. FIG. 6 shows a case where an alarm is designated when the digital input signal is on and when the analog input set value comparison signal is on. In the case of a digital signal, the alarm state also changes at the time when the contact changes at T3, T4, T6, T9, and T10. The analog input set value comparison signal also changes the alarm state at the time when the contact changes at T8 and T11. Since the alarm processing unit 25 inputs time-attached data from the event detection processing unit 21 and the input signal / set value comparison processing unit 24, it is possible to attach an alarm with a higher time resolution than the internal arithmetic processing unit 9.

  According to the third embodiment, the alarm processing unit 25 adds alarm information to the comparison result of the input signal / set value comparison processing unit 24 or the event state change detected by the event detection processing unit 21 and outputs the alarm information. Since it is provided, it is possible to perform alarm processing with a time resolution higher than the internal calculation cycle of the internal calculation processing unit 9, and to grasp the alarm state of the plant in more detail, and to build a highly reliable system. . In addition, since the alarm processing performed by the control arithmetic device 1 can be performed by the signal input device 2, the load on the control arithmetic device 1 can be further reduced.

  FIG. 7 is a block diagram of a plant control apparatus according to the fourth embodiment of the present invention. In contrast to the third embodiment shown in FIG. 5, the fourth embodiment is an alarm suppression that suppresses the addition of alarm information by the alarm processing unit 25 when the input signal from the detector 4 is abnormal. A processing unit 26 is provided. The same elements as those in FIG.

  In FIG. 7, the signal input device 2 is additionally provided with an alarm suppression processing unit 26, which diagnoses an abnormal state of the input signal detected by the signal input processing unit 5 and diagnoses that the input signal is abnormal The alarm processing of the alarm processing unit 25 performed on the input signal is suppressed. That is, the output of alarm information is stopped.

  FIG. 8 is an explanatory diagram of the monitoring information processed by the plant control apparatus 11 according to the fourth embodiment. FIG. 8 shows a case where the analog input signal becomes abnormal between time T6 and time T7, and an analog input signal abnormality is detected at time T7. In that case, even if it is detected that the analog input set value comparison signal is turned on at time T7, the alarm processing is stopped because the analog input abnormality signal is established. The analog input abnormality signal is displayed on the monitoring device 3 via the control arithmetic unit 1, and the change in the analog input set value comparison signal indicated by a circle in the figure is not displayed on the monitoring device 3. Therefore, an analog input signal alarm signal is not output. Since the analog signal is abnormal, the display of the analog signal state after time T7 is excluded. Here, the abnormality of the analog signal includes the abnormality of the detector. Although the above description has been given of the case where the analog input signal becomes abnormal, the same applies to the case where the digital signal becomes abnormal.

  According to the fourth embodiment, in addition to the effects of the third embodiment, an alarm suppression processing unit that suppresses addition of alarm information by the alarm processing unit 25 when the input signal from the detector 4 is abnormal. 26 is provided, the processing time of invalid information when the input signal is abnormal can be omitted.

  FIG. 9 is a block diagram of a plant control apparatus according to the fifth embodiment of the present invention. This fifth embodiment is different from the fourth embodiment shown in FIG. 7 in that the input signal / set value comparison processing unit 24 of the signal input device 2 is replaced with the alarm processing unit 25 of the signal input device 2. The comparison result in which the analog signal in the state exceeds the set value or the event state change detected by the event detection processing unit 21 is input, and the alarm occurrence time is generated within the predetermined calculation cycle of the internal calculation processing unit 6 The control arithmetic device 1 is provided with an alarm / time correction processing unit 27 for changing to the earliest event time. The same elements as those in FIG.

  In FIG. 9, the alarm processing performed by the alarm processing unit 25 of the signal input device 2 is performed by the alarm / time correction processing unit 27 of the control arithmetic device 1. Further, the alarm / time correction processing unit 27 does not process the alarm at high speed, and performs the alarm processing in synchronization with the internal arithmetic processing unit 9 or in a considerable cycle. In this case, the alarm time is replaced with the time when the earliest event detected within the same control calculation cycle is detected, not the cycle of the internal calculation processing unit 9.

  FIG. 10 is an explanatory diagram of the monitoring information processed by the plant control apparatus 11 according to the fifth embodiment. FIG. 10 shows a case where the alarm / time correction processing unit 27 is synchronized with the internal calculation cycle 6. In this case, the alarm / time correction processing unit 27 captures the change of the digital input signal at time T7 of cycle 2-0, but the fastest state change occurs at time T3 within the same internal calculation cycle. Therefore, the state change of the digital input signal is replaced at time T3. Information indicating that the state change has occurred at the time T3 is held by the event data conversion processing unit 23. The event data conversion processing unit 23 assigns the state change of the digital input signal to the time T3 and transmits it to the transmission processing unit. 10 to the monitoring device 3. The monitoring device 3 displays an alarm from the time T3.

  Also, the display is not updated at time T4 and time T6. Then, at time T12 of the next cycle 3-0, the state is not changed as compared with the state of the previous cycle 2-0, so the display is not updated. As described above, the alarm / time correction processing unit 27 is operated in synchronization with the internal arithmetic processing unit 9 or in a considerable cycle. By referring to the event information from the event data conversion processing unit 23, the alarm processing is performed with high time resolution. It becomes possible to do.

  Although the above description has been given for digital input signals, the same applies to analog input signals. That is, the analog input set value comparison signal is established between time T8 and time T11, but time T1 of cycle 1-0, which is the calculation cycle of alarm / time correction processing unit 27, time of cycle 2-0 At time T12 of T7 and period 3-0, the analog input set value comparison signal is not established, and therefore the alarm of the analog input signal is not output in the case of FIG.

  According to the fifth embodiment, since the alarm / time correction processing unit 27 that performs the alarm processing in synchronization with the internal arithmetic processing unit 9 or at a considerable cycle is provided, the load on the control arithmetic device 1 and the signal input device 2 is increased. Monitoring information can be obtained with high temporal resolution while reducing the above.

The block block diagram of the plant control apparatus concerning the 1st Embodiment of this invention. Explanatory drawing of the monitoring information processed with the plant control apparatus concerning the 1st Embodiment of this invention. The block block diagram of the plant control apparatus concerning the 2nd Embodiment of this invention. Explanatory drawing of the monitoring information processed with the plant control apparatus concerning the 2nd Embodiment of this invention. The block block diagram of the plant control apparatus concerning the 3rd Embodiment of this invention. Explanatory drawing of the monitoring information processed with the plant control apparatus concerning the 3rd Embodiment of this invention. The block block diagram of the plant control apparatus concerning the 4th Embodiment of this invention. Explanatory drawing of the monitoring information processed with the plant control apparatus concerning the 4th Embodiment of this invention. The block block diagram of the plant control apparatus concerning the 5th Embodiment of this invention. Explanatory drawing of the monitoring information processed with the plant control apparatus concerning the 5th Embodiment of this invention. The block block diagram of the conventional plant control apparatus. Explanatory drawing of the monitoring information processed with the conventional plant control apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Control arithmetic unit, 2 ... Signal input device, 3 ... Monitoring apparatus, 4 ... Detector, 5 ... Signal input processing part, 6 ... Fixed period signal processing part, 7 ... Control arithmetic unit I / F processing part, 8 ... Signal input device I / F processing unit, 9 ... internal arithmetic processing unit, 10 ... transmission processing unit, 11 ... plant control device, 21 ... event detection processing unit, 22 ... time management processing unit, 23 ... event data conversion processing unit, 24 ... Input signal / set value comparison processing unit, 25 ... Alarm processing unit, 26 ... Alarm suppression processing unit, 27 ... Alarm / time correction processing unit, 28 ... Network

Claims (6)

  A signal input device that inputs an input signal from a detector installed in the plant, and a control that takes in the input signal from the signal input device at a predetermined calculation cycle and performs monitoring control calculation of the plant and outputs monitoring information to the monitoring device In a plant control device comprising a calculation device, the signal input device is a fixed-cycle signal processing unit that inputs an input signal from a detector in synchronization with a predetermined calculation cycle of the control calculation device and outputs the input signal to the control calculation device And an event detection processing unit that inputs an input signal from a detector with a time resolution higher than a predetermined calculation cycle of the control arithmetic device and inputs an input signal of an event state change and outputs the input signal to the control arithmetic device, A time management processing unit that adds time to an input signal that is input by the event detection processing unit and output to the control arithmetic device, Transmits an input signal from the periodic signal processing unit to the monitoring device and directly monitors an input signal from the event detection processing unit of the signal input device, and an internal calculation processing unit that performs a monitoring control calculation based on the input signal A plant control device comprising: an event data conversion processing unit for transmitting to the device.   The signal input device inputs an analog signal from a detector with a time resolution higher than a predetermined calculation cycle of the control arithmetic device, compares whether the analog signal exceeds a set value, and compares the comparison result with the control signal. The plant control device according to claim 1, further comprising an input signal / set value comparison processing unit that outputs to an event data conversion processing unit of the arithmetic device.   The signal input device adds alarm information to a comparison result of the input signal / set value comparison processing unit or an event state change detected by the event detection processing unit in a state where the analog signal exceeds the set value. The plant control device according to claim 1, further comprising an alarm processing unit that outputs to an event data conversion processing unit of the control arithmetic device.   The plant control according to claim 3, wherein the signal input device includes an alarm suppression processing unit that suppresses addition of alarm information by the alarm processing unit when an input signal from the detector is abnormal. apparatus.   In place of the alarm processing unit of the signal input device, the analog signal in the input signal / set value comparison processing unit of the signal input device is detected by the comparison result in which the analog signal exceeds the set value or the event detection processing unit The control arithmetic unit is provided with an alarm / time correction processing unit that inputs an event state change that is performed and replaces the alarm occurrence time with the time of the earliest event that occurred within a predetermined calculation cycle of the internal arithmetic processing unit. The plant control apparatus according to claim 3 or 4, characterized by the above. An input signal from a detector installed in a plant is input by a signal input device, the input signal from the signal input device is input to a control arithmetic device at a predetermined arithmetic cycle, and monitoring control calculation of the plant is performed to monitor monitoring information In the plant control method for outputting to the control input device, the input signal is input from the detector in synchronization with the predetermined calculation cycle of the control calculation device, while the detection signal from the detector is higher in time resolution than the predetermined calculation cycle of the control calculation device. An input signal is input and an event state change input signal is input to add a time to the input signal, and the input signal input in synchronization with a predetermined calculation cycle of the control calculation device is transmitted to the monitoring device and input Monitor control calculation is performed based on the signal, and an input signal input with a time resolution higher than a predetermined calculation cycle of the control calculation device is directly transmitted to the monitoring device. Plant control method comprising and.

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