KR101228533B1 - System for detecting fault of capacitor linked with apparatus for automatically controlling a power factor - Google Patents

Abstract

The present invention uses an existing automatic power factor control circuit to measure three-phase current and voltage, and by installing one more current measurement circuit in the existing circuit, an automatic power factor that can easily detect a capacitor that has simply failed. The present invention relates to a condenser fault detection system associated with a control device and a method thereof.
The present invention for achieving this object, the automatic power factor control device for controlling the power factor through the current and voltage measured by the instrument current transformer and transformer; A capacitor failure detection device for measuring a three-phase current of the capacitor inlet main line and determining whether the capacitor is abnormal; server; To include, The capacitor failure detection device, Signal receiving unit for receiving a synchronization signal from the automatic power factor control device; A current measuring unit for measuring the three-phase current of the capacitor inlet main line; Each phase current measured by the current measuring unit is compared with a preset current to determine whether the outlet is broken, and when it is determined that the capacitor is normal, outputting an opening / closing signal for causing the automatic power factor controller to open and close the circuit of the capacitor. Control unit; A warning display unit displaying each phase current measured by the controller as an abnormality such as an overcurrent or undercurrent compared to a preset current, and determining that the capacitor is defective, on a display window, and outputting a warning signal to the outside; And a communication unit for transmitting a capacitor failure and normal signal to the server; .

Description

 Capacitor failure detection system in connection with automatic power factor control device and its method {SYSTEM FOR DETECTING FAULT OF CAPACITOR LINKED WITH APPARATUS FOR AUTOMATICALLY CONTROLLING A POWER FACTOR}

The present invention relates to a capacitor failure detection system and a method thereof in connection with an automatic power factor control device. More specifically, the capacitor failure detection device receives an operation signal from an automatic power factor control device, and in addition to a current measurement for automatic power factor control, The present invention relates to a capacitor failure detection system and method in connection with an automatic power factor control device that determines whether a failure occurs by measuring an output current, and when there is a failure of a capacitor.

The automatic power factor control device is a device that maintains the power factor within a target range by controlling several capacitors simultaneously by comparing reactive power and capacitor capacity.

In general, demand for energy saving due to high cost is required throughout the industry, and various methods for increasing energy efficiency are considered in order to further expand power efficiency. Peak Demand Control and Power Factor Control that minimize reactive power by preventing peak power condensation are typical.

The conventional automatic power factor control device controls the capacitor by opening and closing the capacitor by comparing the set input value and the measured three-phase current and voltage. In particular, if there is an abnormality among the connected capacitors, it is difficult to identify the target power factor. There was a problem.

In addition, although the automatic power factor control device is used to increase the efficiency, there is a problem in that it is not possible to easily determine whether the capacitor is broken without the installation of a separate capacitor failure detection device.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and by inventing a capacitor fault detection device associated with the automatic power factor control circuit for measuring three-phase current and voltage, it is easy to easily detect a capacitor that has failed. The present invention provides a condenser fault detection system and method associated with an automatic power factor control device that can be detected.

In addition, when a separate capacitor failure detection device is provided, it is possible to synchronize with the automatic power factor control device, to provide a capacitor failure detection system and method associated with the automatic power factor control device for simply detecting the failure of the capacitor.

In the present invention for achieving the technical problem, in the capacitor failure detection system in conjunction with the automatic power factor control device for controlling the power factor by controlling a plurality of capacitors through the current and voltage measured by the current transformer and transformer for instrument, A capacitor failure detection device for measuring a three-phase current of the capacitor inlet main line and determining whether the capacitor is abnormal; And a server for receiving the measured information from the automatic power factor control device and the capacitor failure detection device and controlling the overall system. To include, The capacitor failure detection device, Signal receiving unit for receiving a synchronization signal from the automatic power factor control device; A current measuring unit for measuring the three-phase current of the capacitor inlet main line; Each phase current measured by the current measuring unit is compared with a preset current to determine whether the outlet is broken, and when it is determined that the capacitor is normal, outputting an opening / closing signal for causing the automatic power factor controller to open and close the circuit of the capacitor. Control unit; A warning display unit displaying each phase current measured by the controller as an abnormality such as an overcurrent or undercurrent compared to a preset current, and determining that the capacitor is defective, on a display window, and outputting a warning signal to the outside; And a communication unit for transmitting a capacitor failure and normal signal to the server; It includes.

On the other hand, in the capacitor failure detection system, the power factor is controlled by controlling a plurality of capacitors through the current and voltage measured by the instrument current transformer and the transformer, and the three phase current of the capacitor inlet main line is measured to determine whether the capacitor is abnormal. Automatic power factor control and capacitor failure detection device to determine; And a server for receiving the measured information from the automatic power factor control and the capacitor failure detection device and controlling the overall system. Including, but the automatic power factor control and capacitor failure detection device, a setting input unit for receiving information necessary for automatic power factor control, such as setting information of the target power factor, the current transformer for the instrument and the transformer ratio; A first current measurement unit configured to measure a three-phase voltage and current by using an output signal from the current transformer and the transformer according to a connection method among the setting information; A second current measuring unit for recognizing a detection instruction command from the first current measuring unit and measuring a three-phase current of the capacitor inlet main line; The power factor, the active power, and the reactive power are calculated using the three-phase voltage and current measured by the first current measurement unit, and compared with the capacitor capacity set in the setting input unit to find a combination of capacitor capacity that satisfies the target power factor. A first controller; And comparing each phase current measured by the current measuring unit with a preset current, determining whether the outlet is broken, and outputting an opening / closing signal for causing the first control unit to open and close the circuit of the capacitor when it is determined that the capacitor is normal. 2 control unit; When the set value and the measured value are displayed or when each phase current measured by the second control unit has an abnormality such as an overcurrent or an undercurrent compared to a preset current, and it is determined that the capacitor has failed, this is displayed on the display window. A warning display unit for outputting a warning signal for the; And a communication unit which transmits the set value and the measured value to the server, and transmits a capacitor failure and a normal signal to the server. It includes.

According to the present invention as described above, by using the existing automatic power factor control circuit to measure the three-phase current, voltage, by inventing the capacitor failure detection device associated with it can easily detect the failed capacitor simply.

In addition, when a separate capacitor failure detection device is provided, it is possible to synchronize with the automatic power factor control device, so that the failure of the capacitor can be detected easily.

1 is a block diagram of a capacitor failure detection system (1) in conjunction with the automatic power factor control apparatus according to an embodiment of the present invention.
2 is a flowchart of a condenser fault detection method (1) associated with an automatic power factor control apparatus according to an embodiment of the present invention.
3 is a block diagram of a capacitor failure detection system 2 in conjunction with an automatic power factor control apparatus according to another embodiment of the present invention.
4 is a flow chart of a capacitor failure detection method (2) in conjunction with an automatic power factor control apparatus according to another embodiment of the present invention.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

Regarding the condenser fault detection system and method associated with the automatic power factor control apparatus according to an embodiment of the present invention, it will be described with reference to Figures 1 to 4 as follows.

1 to 2 are related to a capacitor failure detection system and method (1) in conjunction with an automatic power factor control apparatus according to an embodiment of the present invention, the conventional automatic power factor control device and a failure detection device connected to the outside Capacitor failure detection system (1) in conjunction with the included automatic power factor control.

1 is a configuration diagram of a capacitor failure detection system 1 in conjunction with an automatic power factor control apparatus according to an embodiment of the present invention, the automatic power factor control apparatus 100, the capacitor failure detection apparatus 200, the server 300 Include.

The automatic power factor control device 100 is a device for controlling power factor by controlling a plurality of capacitors through currents and voltages measured by an instrument current transformer and a transformer. Since the automatic power factor control device is a conventional automatic power factor control device, a detailed description thereof will be omitted. . However, for ease of explanation, a setting input unit for receiving information necessary for automatic power factor control such as target power factor, current transformer and setting ratio of the transformer ratio from the user, from the current transformer and the transformer according to the connection method among the setting information. Using the output signal of the three-phase voltage, the current measuring unit for measuring the current, using the measured three-phase voltage, current to calculate the power factor, active power, reactive power and compared with the capacitor capacity set in the setting input unit to the target power factor And a control unit for controlling the capacitor by finding a combination of capacitor capacities to satisfy, a display unit for displaying the set value and the measured value, and a communication unit transmitting the same to the server.

However, the automatic power factor control apparatus 100 includes a synchronization signal output unit connected to the capacitor failure detection apparatus to implement the capacitor failure detection system 1 linked to the automatic power factor control apparatus according to an embodiment of the present invention. .

As will be described later, the automatic power factor control device 100 is associated with the condenser fault detector 200 by being synchronized, and has a configuration that further includes a synchronization signal output unit for outputting such a signal.

Capacitor failure detection device 200 is in connection with the automatic power factor control device 100, but determines the failure of the capacitor by measuring the three-phase current of the capacitor lead main line. The signal receiver 210, the current measuring unit 220, the controller 230, the warning display unit 240, and the communication unit 250 are included.

The signal receiver 210 receives an operation signal from the automatic power factor controller 100. That is, the signal receiver 210 receives the synchronization signal output from the automatic power factor control apparatus 100 so that both are synchronized and determine this as an operation signal to detect a capacitor failure. That is, the signal receiving unit 210 receives the synchronization signal output from the automatic power factor control apparatus 100, and is linked with the automatic power factor control apparatus 100 to determine the received synchronization signal as an operation signal in the condenser. Capacitor failure is detected by measuring the current output.

The current measuring unit 220 measures the three-phase current of the capacitor lead-in main line. When the signal reception unit 210 receives a signal, the current measurement unit 220 measures the current separately from the automatic power factor control device 100.

The controller 230 compares each phase current measured by the current measuring unit 220 with a preset current to determine whether the outlet is broken.

If each measured phase current has an abnormality such as overcurrent or undercurrent compared to the preset current, it is determined that the capacitor is defective. In other cases, it is determined that the capacitor is normal. When it is determined that the capacitor is normal, the automatic power factor control device 100 sends an opening / closing signal for opening and closing the converter of the capacitor to control the power factor.

When the control unit 230 determines that the capacitor 230 is a failure of the capacitor, the warning display unit 240 displays this on the display window and outputs a warning signal to the outside. When the controller 230 determines that the capacitor is normal, it is displayed on the display window.

The warning display unit 240 refers to a conventional display device, and as a warning display device, a device using a sound other than a visual display device such as a screen and a warning light, including a speaker and a siren, but not limited to the above-described embodiment. Do not.

The communicator 250 transmits a capacitor failure and a normal signal to the server 300.

The server 300 receives the measured information from the automatic power factor control device 100 and the capacitor failure detection device 200 and controls the overall system.

2 is a flowchart of a condenser fault detection method 1 in connection with an automatic power factor control apparatus according to an embodiment of the present invention.

First, the automatic power factor control device 100 receives information necessary for automatic power factor control such as target power factor, current transformer, and transformer ratio setting information from a user, as in a normal automatic power factor control device, and the three-phase voltage of the main line. And three-phase current is measured (S21).

Specifically, the information necessary for the automatic power factor control includes a target power factor, a delay time, a charge and discharge time of a capacitor, a control program, a number of capacitors, a capacitor capacity, a digital output switch number corresponding to each capacitor, a wiring method, a current transformer for an instrument. And the ratio of the transformer and the like, but are not limited thereto.

The automatic power factor control device 100 transmits the information measured in step S21 to the server 300, and outputs a synchronization signal for the operation of the capacitor failure detection device 200 (S22). This operation signal is a synchronization signal output from the operation signal output unit of the automatic power factor control apparatus 100 described above, and the automatic power factor control apparatus 100 and the capacitor fault detector 200 are received by the signal receiver 210 receiving the synchronization signal. ) Can be connected to detect a capacitor failure.

The capacitor failure detection device 200 receives the synchronization signal output from the step S22, and measures the three-phase current of the main line (S23). The synchronization signal output in step S22 is determined to be an operation signal, and the current measuring unit 220 measures the three-phase current of the main line. This is done separately from the current and voltage measurement made by the automatic power factor control device 100.

The capacitor failure detection device 200 compares each phase current measured in step S23 with a preset current to determine whether the capacitor is broken (S24).

If each of the measured phase currents has an abnormality such as an overcurrent or undercurrent compared to a preset current, the controller 230 determines that a capacitor is broken, and the communication unit 250 determines the information determined in step S24. And the warning display unit 240 displays the determined information on the display window, and outputs a warning signal to the outside (S25).

When the controller 230 determines that the capacitor is normal in step S25, the communication unit 250 transmits the information determined in step S24 to the server 300, and the warning display unit 240 displays the determined information on the display window. In operation S26, the controller 230 transmits an opening / closing signal for opening and closing the converter of the capacitor to the automatic power factor control apparatus 100 (S26).

3 to 4 are related to a capacitor failure detection system and a method (2) in conjunction with an automatic power factor control apparatus according to another embodiment of the present invention, the conventional automatic power factor control apparatus further includes a current measuring unit Condenser fault detection system (2) in conjunction with an automatic power factor control device capable of fault detection.

3 is a configuration diagram of a capacitor failure detection system 2 in conjunction with an automatic power factor control apparatus according to another embodiment of the present invention, and includes an automatic power factor control and a capacitor failure detection apparatus 400 and a server 500. .

Automatic power factor control and capacitor failure detection device 400 controls the power factor by controlling a plurality of capacitors through the current and voltage measured by the current transformer and transformer for the instrument, to control the power factor, to measure the three-phase current of the capacitor inlet main line To determine whether the abnormality of the setting input unit 410, the first current measurement unit 420, the second current measurement unit 430, the first control unit 440, the second control unit 450, the warning display unit 460, The communication unit 470 is included.

The setting input unit 410 receives from the user information necessary for automatic power factor control, such as target power factor, setting information of the instrument current transformer and the transformer ratio. Specifically, the information necessary for the automatic power factor control includes a target power factor, a delay time, a charge and discharge time of a capacitor, a control program, a number of capacitors, a capacitor capacity, a digital output switch number corresponding to each capacitor, a wiring method, a current transformer for an instrument. And the ratio of the transformer and the like, but are not limited thereto.

The first current measuring unit 420 is a measuring unit of a conventional automatic power factor control device, and measures three-phase voltage and current by using output signals from the current transformer and the transformer according to the connection method among the setting information.

The second current measurement unit 430 recognizes a detection instruction command from the first current measurement unit 420 to measure the three-phase current of the capacitor lead main line to detect whether the capacitor is abnormal. As another embodiment of the present invention, the capacitor failure detection system 2 in conjunction with the automatic power factor control device implements the automatic power factor control device and the capacitor failure detection device as a single device. Unlike the condenser fault detection system 1 in conjunction with the need for a separate synchronization signal output unit or signal receiving unit is not necessary. Therefore, in this case, when the first current measuring unit measures the current and voltage, it is recognized as a detection instruction command without a separate receiving unit, and the second current measuring unit 430 measures the three-phase current of the capacitor inlet main line.

The first controller 440 calculates the power factor, active power, and reactive power by using the three-phase voltage and current measured by the first current measurement unit 420, and compares the target capacitor with the capacitor capacity set in the setting input unit 410. Control the capacitor by finding a combination of capacitor capacities that meet the power factor.

The second controller 450 compares each phase current measured by the second current measuring unit 430 with a preset current to determine whether the outlet is faulty.

If each measured phase current has an abnormality such as overcurrent or undercurrent compared to the preset current, it is determined that the capacitor is defective. In other cases, it is determined that the capacitor is normal. When it is determined that the capacitor is normal, the first control unit 440 sends an opening / closing signal for opening and closing the converter of the capacitor to control the power factor.

The warning display unit 460 displays the set value and the measured value or, if the second control unit 450 determines that the capacitor is defective, displays it on the display window and outputs a warning signal to the outside. When the second controller 450 determines that the capacitor is normal, the second controller 450 displays it on the display window.

The warning display unit 460 means a conventional display device, and the set value and the measured value are displayed on a screen, and as a warning display device, a speaker and a siren as a device using sound other than a visual display device such as a screen and a warning lamp. And the like, but are not limited to the above-described embodiment.

 The communication unit 470 transmits the set value and the measured value to the server 500, and transmits a capacitor failure and a normal signal to the server 500.

The server 500 receives the measured information from the automatic power factor control of the capacitor failure detection device 400 and controls the overall system.

4 is a flowchart illustrating a condenser fault detection method 2 in conjunction with an automatic power factor control apparatus according to an embodiment of the present invention.

The setting input unit 410 receives information necessary for automatic power factor control such as target power factor, setting current of the current transformer and the transformer ratio from the user, and the first current measurement unit 420 receives the three-phase voltage and three-phase current of the main line. It measures (S41).

Specifically, the information necessary for the automatic power factor control includes a target power factor, a delay time, a charge and discharge time of a capacitor, a control program, a number of capacitors, a capacitor capacity, a digital output switch number corresponding to each capacitor, a wiring method, a current transformer for an instrument. And the ratio of the transformer and the like, but are not limited thereto.

The communication unit 470 transmits the information measured in step S41 to the server 500, and the second current measuring unit 430 recognizes the step S41 as a detection instruction command (S42).

As another embodiment of the present invention, the capacitor failure detection system 2 in conjunction with the automatic power factor control device implements the automatic power factor control device and the capacitor failure detection device as a single device. Unlike the condenser fault detection system 1 associated with the present invention, when there is no synchronization signal output unit or signal receiving unit to be synchronized separately, and the first current measurement unit 420 measures the three-phase voltage and three-phase current of the main line in step S41. The second current measuring unit 430 recognizes this as a detection instruction command.

When the second current measuring unit 430 recognizes the operation signal from the step S42, it measures the three-phase current of the main line (S43).

The second controller 450 compares each phase current measured in the step S43 with a preset current to determine whether the capacitor is abnormal (S44).

The second controller 450 determines that a failure of the capacitor occurs when each of the measured phase currents has an abnormality such as an overcurrent or undercurrent compared to a preset current, and the communication unit 470 determines the information determined in step S44. In step S45, the warning display unit 460 displays the determined information on the display window and outputs a warning signal to the outside (S45).

When the second controller 450 determines that the capacitor is normal in step S45, the communication unit 470 transmits the information determined in step S44 to the server 500, and the warning display unit 460 displays the determined information. Displayed on the window, the second control unit 440 controls the power factor by sending an opening and closing signal to open and close the converter of the first control unit (S46).

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications may be made without departing from the invention. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

Claims (6)

In the capacitor failure detection system in conjunction with the automatic power factor control device 100 for controlling the power factor by controlling a plurality of capacitors through the current and voltage measured by the instrument current transformer and transformer,
A capacitor fault detection device (200) for measuring a three-phase current of the capacitor inlet main line to determine whether a capacitor is abnormal; And
A server (300) for receiving the measured information from the automatic power factor control device (100) and the condenser fault detection device (200) and controlling the overall system; Including but not limited to:
The capacitor failure detection device 200,
A signal receiver 210 for receiving a synchronization signal from the automatic power factor controller 100;
A current measuring unit 220 measuring a three-phase current of the capacitor inlet main line;
Each phase current measured by the current measuring unit 220 is compared with a preset current to determine whether the outlet is broken, and if it is determined that the capacitor is normal, the automatic power factor controller 100 opens and closes the converter's converter. A control unit 230 for outputting an opening / closing signal;
Each phase current measured by the controller 230 has an abnormality such as an overcurrent or undercurrent compared to a preset current, and if it is determined that the capacitor is defective, a warning display unit displays this on the display window and outputs a warning signal to the outside. 240; And
Communication unit 250 for transmitting a capacitor failure and normal signal to the server 300; Capacitor failure detection system in conjunction with an automatic power factor control device comprising a.
The method of claim 1,
The capacitor failure detection device 200,
The signal receiving unit 210 receives the synchronization signal output from the automatic power factor control device 100, and is linked with the automatic power factor control device 100 to determine the received synchronization signal as an operation signal to detect a capacitor failure. Capacitor failure detection system in conjunction with an automatic power factor control device characterized in that.
In the capacitor failure detection system,
Automatic power factor control and capacitor failure by controlling power factor by measuring current and voltage measured by instrument current transformer and transformer, and determining the abnormality of capacitor by measuring three phase current of capacitor inlet main line. Detection device 400; And
A server 500 for receiving the measured information from the automatic power factor control and the capacitor failure detection device 400 and controlling the overall system; Including but not limited to:
The automatic power factor control and capacitor failure detection device 400,
A setting input unit 410 configured to receive information necessary for automatic power factor control, such as target power factor, setting information of a current transformer for the instrument, and a transformer ratio;
A first current measuring unit (420) for measuring three-phase voltage and current by using an output signal from the current transformer and the transformer according to the connection method among the setting information;
A second current measurement unit 430 for recognizing a detection instruction command from the first current measurement unit 420 to measure a three-phase current of the capacitor inlet main line;
The power factor, the active power, and the reactive power are calculated using the three-phase voltage and current measured by the first current measuring unit 420, and the capacitor capacity satisfying the target power factor is compared with the capacitor capacity set in the setting input unit 410. A first controller 440 for finding a combination and controlling the capacitor;
Each phase current measured by the second current measuring unit 430 is compared with a preset current to determine whether the outlet is broken, and when it is determined that the capacitor is normal, the first control unit 440 opens and closes the circuit of the capacitor. A second control unit 450 which outputs an open / close signal to be transmitted;
When the set value and the measured value are displayed or when each phase current measured by the second control unit 450 has an abnormality such as an overcurrent or undercurrent compared to a preset current, and it is determined that the capacitor is defective, A warning display unit 460 for outputting a warning signal to the outside; And
A communication unit 470 which transmits the set value and the measured value to the server 500 and transmits a capacitor failure and a normal signal to the server 500; Capacitor failure detection system in conjunction with an automatic power factor control device comprising a.
In the capacitor failure detection system in conjunction with the automatic power factor control device,
(a) the automatic power factor control apparatus 100 receiving information necessary for automatic power factor control such as target power factor, current transformer and transformer ratio setting information from a user, and measuring three-phase voltage and three-phase current of the main line;
(b) outputting a synchronization signal for operating the capacitor failure detection device 200 while the automatic power factor control device 100 transmits the information measured in step (a) to the server 300;
(c) the capacitor failure detecting apparatus 200 receiving the synchronization signal outputted from the step (b) and measuring the three-phase current of the main line;
(d) determining, by the capacitor failure detection device, whether the capacitor is broken by comparing each phase current measured in the step (c) with a preset current;
(e) If the capacitor failure detection device 200 determines that the failure in the step (d), the information determined in the step (d) is transmitted to the server 300, and displayed on the display window, the external Outputting a warning signal to the user; And
(f) When the capacitor failure detection device 200 determines that the operation is normal in the step (d), the information determined in the step (d) is transmitted to the server 300 and displayed on the display window, and the automatic Controlling the power factor by the automatic power factor controller 100 by sending an opening / closing signal for causing the power factor controller 100 to open and close the converter of the capacitor; Capacitor failure detection method associated with an automatic power factor control device comprising a.
The method of claim 4, wherein
In step (b),
The synchronization signal for the operation of the capacitor fault detection device 200,
As a synchronization signal output from the automatic power factor control apparatus 100, it is received and associated with the automatic power factor control apparatus 100, and judges the received synchronization signal as an operating signal to detect a capacitor failure. Capacitor failure detection method linked with automatic power factor control.
In the capacitor failure detection system in conjunction with the automatic power factor control device,
(a`) The setting input unit 410 receives from the user information necessary for automatic power factor control such as target power factor, setting current of the instrument current transformer and the instrument transformer ratio, and the first current measurement unit 420 receives three phases of the main line. Measuring voltage and three-phase current;
(b`) the communication unit 470 transmitting the information measured in step (a`) to the server 500, and the second current measuring unit 430 recognizes the step (a`) as a detection instruction command. ;
(c`) measuring the three-phase current of the main line when the second current measuring unit 430 recognizes the operation signal from the step (b`);
(d`) comparing the phase current measured in the step (c`) with the preset current by the second controller 450 to determine whether the capacitor is abnormal;
(e`) When the second controller 450 determines that the failure occurs in the step (d`), the communication unit 470 transmits the information determined in the step (d`) to the server 500, and warns. Displaying by the display unit 460 on the display window and outputting a warning signal to the outside; And
(f`) If the second controller 450 determines that the operation is normal in the step (d`), transmits the information determined in the step (d`) to the server 500 and displays the information on the display window. Controlling the power factor by the first controller 440 by sending an opening / closing signal to cause the first controller 440 to open and close the converter of the capacitor; Capacitor failure detection method associated with an automatic power factor control device comprising a.

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