KR101061162B1 - System for measuring lightning current using condenser and system for accumulating energy using lightning current - Google Patents

Abstract

PURPOSE: A system for measuring a lightning current using a condenser and a system for collecting energy using a lightning current are provided to shorten maintenance time due to lightning, thereby reducing maintenance costs while increasing maintenance efficiency. CONSTITUTION: A lightning current measuring device(104) includes a lightning current detecting unit(104a), a lightning current rectifying unit(104b), a lightning current/voltage converting unit(104c), a lightning voltage storing unit(104d), a lightning voltage modulating unit(104e), a lightning voltage level adjusting unit(104f), a lightning voltage demodulating unit(104g). A lightning voltage/current converting unit(104h), a discharging unit(104i), a controller(104j), and a display unit(104k). The lightning current detecting unit detects a lightning current in a line.

Description

System for measuring lightning current using condenser and System for accumulating energy using lightning current}

The present invention relates to a lightning current measuring system using a capacitor and an energy collection system using a lightning current.

Generally, lightning occurs when the temperature difference between the upper and lower layers of the atmosphere is large and the atmosphere is unstable, and refers to a phenomenon in which electricity accumulated in clouds flows into the ground.

These lightning strikes resulted in very large amounts of electrical energy accumulated in the clouds, which occurred in a very short time and damaged the electronics connected to the tracks as they flowed to the ground.

Therefore, in recent years, researches on an improved lightning current measuring system considering maintenance have been carried out to measure the amount of lightning current corresponding to the lightning current flowing through a line when a lightning strike occurs in real time. Has been done.

An object of the present invention is to measure the amount of lightning current corresponding to the lightning current flowing through the line at the time of lightning occurrence and display it on the screen window, it is possible to shorten the maintenance time due to the lightning strike to improve the efficiency of maintenance It is to provide a lightning current measuring system using a condenser and an energy collection system using a lightning current that can suppress the cost increase.

Another object of the present invention is to collect the lightning voltage filtered to produce the energy required for power supply and provide it to at least one of the power station or renewable energy generator, it is possible to reduce power waste to reduce the power supply cost for power supply It is to provide a lightning current measuring system using a capacitor that can be made and an energy collection system using a lightning current.

It is still another object of the present invention to provide power to the electronic device from the renewable energy generation device and the inverter unit, thereby improving energy efficiency, thereby reducing power waste and reducing the power supply cost for power supply. It is to provide a lightning current measuring system using a capacitor that can be reduced and an energy collection system using a lightning current.

In order to achieve the above object, the present invention provides an electronic device that receives an AC voltage corresponding to the commercial power by receiving commercial power from the power station through the line; And a lightning current measuring device provided on a line electrically connecting a power station and an electronic device, detecting a lightning current flowing through the line when a lightning strike occurs, and displaying a lightning current amount corresponding to the detected lightning current on a screen window. do.

According to another feature of the present invention, the electronic device receives a commercial power from the power station through the line and receives an AC voltage corresponding to the commercial power; A renewable energy generator for generating renewable energy and accumulating a DC voltage; An inverter unit receiving a DC voltage accumulated from the renewable energy generation device and converting the DC voltage into an AC voltage; And a line that is electrically connected to a power station, an inverter unit, and an electronic device, and detects a lightning current flowing through the line when a lightning strike occurs, and measures a lightning current corresponding to the detected lightning current on a screen window Device.

According to another feature of the invention, the lightning current measuring device includes a lightning current detection unit for detecting a lightning current flowing through the line at the time of lightning occurrence; A lightning current rectifying unit electrically connected to the lightning current detecting unit to rectify the lightning current detected through the lightning current detecting unit; A lightning current / voltage converter electrically connected to the lightning current rectifier to convert the lightning current rectified through the lightning current rectifier into a lightning voltage; A lightning voltage storage unit electrically connected to the lightning current / voltage converter to store the lightning voltage converted through the lightning current / voltage converter; A lightning voltage modulation unit electrically connected to the lightning voltage storage unit to modulate the lightning voltage stored through the lightning voltage storage unit; A voltage level controller electrically connected to the lightning voltage modulator to adjust and provide a lightning voltage modulated by the lightning voltage modulator to a level of an appropriate input voltage; A lightning voltage demodulator electrically connected to the voltage level controller to demodulate a lightning voltage corresponding to a level of an appropriate input voltage adjusted through the voltage level controller to an original lightning voltage level; A lightning voltage / current converter electrically connected to the lightning voltage demodulator to convert the lightning voltage demodulated through the lightning voltage demodulator into a lightning current; A discharge unit electrically connected to the lightning voltage storage unit to discharge the lightning voltage stored in the lightning voltage storage unit for a predetermined period; It is electrically connected to the lightning voltage / current converter to receive the converted lightning current through the lightning voltage / current converter to digitally process and provide the turn-off switching signal to the discharge to provide the lightning voltage storage to the lightning voltage storage. A control unit for storing the predetermined period or providing a turn-on switching signal to the discharge unit to discharge the lightning voltage stored in the lightning voltage storage unit during the next period; And a display unit electrically connected to the controller to display a lightning current amount corresponding to the lightning current converted through the lightning voltage / current converting unit under the control of the controller.

According to another feature of the invention, provided in a line for electrically connecting at least one of the power station or inverter unit and the electronic device, to protect the electronic device by absorbing the surge voltage or surge current flowing from the commercial power source of the power station, or the inverter It further includes a surge protector for absorbing the surge voltage or surge current flowing from the negative alternating voltage to protect the electronic device.

According to still another aspect of the present invention, an electronic device is supplied with an AC voltage corresponding to a commercial power supply by receiving commercial power through a line from a power station; And it is provided on the line electrically connecting the power station and the electronic device, and detects the lightning current flowing through the line in the event of a lightning strike and displays the lightning current corresponding to the lightning current on the screen window, and the detected lightning current as the lightning voltage It includes a lightning current measuring / collecting device that collects and supplies the filtered lightning voltage to the power station to filter after conversion to produce the energy required for power supply.

According to still another aspect of the present invention, an electronic device is provided with an AC voltage corresponding to a commercial power supply by receiving commercial power through a line from a power station; A renewable energy generator for generating renewable energy and accumulating a DC voltage; An inverter unit receiving a DC voltage accumulated from the renewable energy generation device and converting the DC voltage into an AC voltage; And a line electrically connected to the power station, the inverter unit, and the electronic device, and detects a lightning current flowing through the line when a lightning strike occurs, and displays a lightning current corresponding to the lightning current on a screen window and displays the detected lightning current. It includes a lightning current measuring / collecting device for converting to the lightning voltage and filtering to collect the filtered lightning voltage to produce the energy required for power supply and to at least one of the power station or renewable energy generator.

According to another feature of the invention, the lightning current measurement / collection device includes a lightning current detection unit for detecting a lightning current flowing through the line when the lightning strikes; A lightning current rectifying unit electrically connected to the lightning current detecting unit to rectify the lightning current detected through the lightning current detecting unit; A lightning current / voltage converter electrically connected to the lightning current rectifier to convert the lightning current rectified through the lightning current rectifier into a lightning voltage; A lightning voltage storage unit electrically connected to the lightning current / voltage converter to store the lightning voltage converted through the lightning current / voltage converter; A lightning voltage modulation unit electrically connected to the lightning voltage storage unit to modulate the lightning voltage stored through the lightning voltage storage unit; A voltage level controller electrically connected to the lightning voltage modulator to adjust and provide a lightning voltage modulated by the lightning voltage modulator to a level of an appropriate input voltage; A lightning voltage demodulator electrically connected to the voltage level controller to demodulate a lightning voltage corresponding to a level of an appropriate input voltage adjusted through the voltage level controller to an original lightning voltage level; A lightning voltage / current converter electrically connected to the lightning voltage demodulator to convert the lightning voltage demodulated through the lightning voltage demodulator into a lightning current; A first switching unit electrically connected to the lightning voltage storage unit to selectively provide the lightning voltage stored in the lightning voltage storage unit for a predetermined period; A second switching unit electrically connected to the first switching unit to selectively provide a lightning voltage selectively supplied through the first switching unit; A filter unit electrically connected to the second switching unit to filter an unnecessary component of the lightning voltage to receive the lightning voltage selectively provided through the second switching unit to produce energy for power supply; An energy collection / supply unit which is electrically connected to the filter unit to collect unnecessary voltage through the filter unit and collects a lightning voltage to produce energy required for power supply, and provides it to at least one of a power station or a renewable energy generator; It is electrically connected to the lightning voltage / current converter to receive the converted lightning current through the lightning voltage / current converter to digitally process and provide a turn-off switching signal to the first and second switches to store the lightning voltage. The control unit stores the lightning voltage in the unit for a predetermined period or provides turn-on switching signals to the first and second switching units, respectively, and provides the lightning voltage stored in the lightning voltage storage unit to the energy collection / supply unit through the filter unit during the next period. ; And a display unit electrically connected to the controller to display a lightning current amount corresponding to the lightning current converted through the lightning voltage / current converting unit under the control of the controller.

According to another feature of the present invention, provided on a line for electrically connecting at least one of the power station or the inverter unit and the electronic device, to protect the electronic device by absorbing the surge voltage or surge current flowing from the commercial power source of the power station, or the inverter It further includes a surge protector for absorbing the surge voltage or surge current flowing from the negative alternating voltage to protect the electronic device.

According to the lightning current measuring system using the condenser made as described above and the energy collection system using the lightning current, the following effects can be obtained.

First, when the lightning strike occurs, the lightning current amount corresponding to the lightning current flowing through the line is measured and displayed on the screen. Therefore, the maintenance time due to the lightning strike can be shortened. There is an effect that can be suppressed.

Second, by collecting the lightning voltage filtered to produce energy for power supply and providing it to at least one of a power station or a renewable energy generator, it is possible to reduce power waste and reduce the power supply cost for power supply. There is.

Third, since the power supplied from the renewable energy generation device and the inverter unit can be provided to the electronics to improve energy efficiency, it is possible to reduce the waste of power and to reduce the power supply cost for power supply. It works.

1 is a block diagram showing a lightning current measuring system using a capacitor according to a first embodiment of the present invention.
2 is a block diagram illustrating a lightning current measuring system using a capacitor according to a second exemplary embodiment of the present invention.
3 is a block diagram illustrating a lightning current measurement and an energy collection system using a lightning current using a capacitor according to a third embodiment of the present invention.
Figure 4 is a block diagram showing a lightning current measurement using a capacitor and an energy collection system using a lightning current according to a fourth embodiment of the present invention.

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

<First Embodiment>

1 is a block diagram showing a lightning current measuring system using a capacitor according to a first embodiment of the present invention.

Referring to FIG. 1, a lightning current measuring system 100 using a capacitor according to a first embodiment of the present invention includes an electronic device 102, a lightning current measuring device 104, and the like.

The electronic device 102 is provided to receive commercial power from the power station 101 through a line to receive an AC voltage corresponding to the commercial power.

The lightning current measuring device 104 is provided on a line electrically connecting the power station 101 and the electronic device 102, and detects a lightning current flowing through the line when a lightning strike occurs, and converts the detected lightning current into a lightning voltage. It converts and stores the converted lightning voltage into a capacitor, and converts the converted lightning voltage into a lightning current and displays the amount of lightning current corresponding to the converted lightning current on a screen window.

More specifically, the lightning current measuring device 104 includes a lightning current detector 104a, a lightning current rectifying unit 104b, a lightning current / voltage converter 104c, a lightning voltage storage 104d, and a lightning voltage modulator 104e. ), A voltage level adjusting unit 104f, a lightning voltage demodulating unit 104g, a lightning voltage / current converting unit 104h, a discharge unit 104i, a control unit 104j, a display unit 104k, and the like.

The lightning current detector 104a may be provided to detect a lightning current flowing through a line when a lightning strike occurs, and the lightning current rectifier 104b is electrically connected to the lightning current detector 104a to provide a lightning current detector 104a. Can be provided to rectify the detected lightning current.

The lightning current / voltage converter 104c may be provided to be electrically connected to the lightning current rectifier 104b so as to convert the lightning current rectified through the lightning current rectifier 104b into a lightning voltage. 104d may be provided to be electrically connected to the lightning current / voltage converter 104c to store the lightning voltage converted through the lightning current / voltage converter 104c using a circuit including a capacitor.

The lightning voltage modulating unit 104e may be electrically connected to the lightning voltage storing unit 104d to modulate the lightning voltage to prevent the electronic device 102 from being damaged by the lightning voltage stored in the lightning voltage storing unit 104d. The voltage level controller 104f may be provided to be electrically connected to the lightning voltage modulator 104e to adjust and supply the lightning voltage modulated by the lightning voltage modulator 104e to a level of an appropriate input voltage. .

The lightning voltage demodulator 104g is electrically connected to the voltage level adjuster 104f to convert the modulated lightning voltage corresponding to the level of the appropriate input voltage adjusted through the voltage level adjuster 104f to the original lightning voltage level. It can be provided to demodulate.

The lightning voltage / current converter 104h may be provided to be electrically connected to the lightning voltage demodulator 104g to convert the lightning voltage demodulated through the lightning voltage demodulator 104g into a lightning current.

The discharge unit 104i may be electrically connected to the lightning voltage storage unit 104d to discharge the lightning voltage stored in the lightning voltage storage unit 104d for a predetermined period.

The controller 104j is electrically connected to the lightning voltage / current converter 104h, receives the lightning current converted through the lightning voltage / current converter 104h, and performs a digital operation to process the discharge 104c. Provide a turn-off switching signal to store the lightning voltage in the lightning voltage storage unit 104d for a predetermined period, or provide a turn-on switching signal to the discharge unit 104i to supply the lightning voltage stored in the lightning voltage storage unit 104d. It can be provided to discharge during the cycle.

The display unit 104k is electrically connected to the control unit 104j and may be provided to display a lightning current amount corresponding to the lightning current converted through the lightning voltage / current converting unit 104h under the control of the control unit 104j in a screen window. have.

On the other hand, the surge protector 106 is provided on a line for electrically connecting the power station 101 and the electronic device 102, the electronic device 102 by absorbing the surge voltage or surge current flowing from the commercial power source of the power station 101 ) Can be provided to protect.

As such, the lightning current measuring system 100 using the capacitor according to the first embodiment of the present invention includes an electronic device 102, a lightning current measuring device 104 and the like.

Therefore, since the lightning current measuring system 100 using the capacitor according to the first embodiment of the present invention measures the lightning current corresponding to the lightning current flowing through the line at the time of lightning occurrence and displays it on the screen window, it is maintained by lightning Since the maintenance time can be shortened, the cost of maintenance can be suppressed while improving the efficiency of maintenance.

&Lt; Embodiment 2 >

2 is a block diagram illustrating a lightning current measuring system using a capacitor according to a second exemplary embodiment of the present invention.

Referring to FIG. 2, the lightning current measuring system 200 using the capacitor according to the second embodiment of the present invention is the electronic device 102 in the same manner as the lightning current measuring system 100 using the capacitor according to the first embodiment. And a lightning current measuring device 104 or the like.

The function of each of the components corresponding to the lightning current measuring system 200 using the capacitor according to the second embodiment of the present invention and the organic relation therebetween are the lightning current using the capacitor according to the first embodiment. Since the functions of the respective components corresponding to the measurement system 100 and the organic relationship therebetween are the same, each description thereof will be omitted below.

However, the lightning current measuring system 200 using the capacitor according to the second embodiment of the present invention further includes a renewable energy generation device 208, an inverter unit 210, and the like.

The renewable energy generator 208 is provided to generate a DC voltage by generating renewable energy, and the inverter unit 210 receives the DC voltage accumulated from the renewable energy generator 208 and converts it into an AC voltage. It is provided to make.

At this time, the lightning current measuring device 104 is provided on a line for electrically connecting the power station 101, the inverter unit 210 and the electronic device 102.

On the other hand, the surge protector 106 is provided on a line for electrically connecting at least one of the power station 101 or the inverter unit 210 and the electronic device 102, the surge voltage or from the commercial power source of the power station 101 or It may be provided to protect the electronic device 102 by absorbing a surge current, or to protect the electronic device 102 by absorbing a surge voltage or a surge current flowing from an AC voltage of the inverter unit 210.

As described above, the lightning current measuring system 200 using the capacitor according to the second embodiment of the present invention is the electronic device 102 and the lightning current in the same manner as the lightning current measuring system 100 using the capacitor according to the first embodiment. Measuring device 104 and the like.

Therefore, the lightning current measuring system 200 using the condenser according to the second embodiment of the present invention is the same as the lightning current measuring system 100 using the condenser according to the first embodiment when a lightning strike occurs through a line. Since the amount of lightning current corresponding to the current is measured and displayed on the screen, it is possible to shorten the maintenance time due to the lightning, thereby improving the efficiency of maintenance and restraining the increase in maintenance cost.

In addition, the lightning current measuring system 200 using the capacitor according to the second embodiment of the present invention further includes a renewable energy generation device 208, the inverter unit 210 and the like.

Therefore, the lightning current measuring system 200 using the capacitor according to the second embodiment of the present invention can provide the electronic device 102 with power supplied from the renewable energy generation device 208 and the inverter unit 210. Since the energy efficiency can be improved, power waste can be reduced, thereby reducing the power supply cost for power supply.

Third Embodiment

3 is a block diagram illustrating a lightning current measurement using a capacitor and an energy collection system using a lightning current according to a third embodiment of the present invention.

Referring to FIG. 3, the lightning current measurement using the capacitor and the energy collection system 300 using the lightning current according to the third embodiment of the present invention include an electronic device 102, a lightning current measurement / collection device 304, and the like. Include.

The electronic device 102 is provided to receive commercial power from the power station 101 through a line to receive an AC voltage corresponding to the commercial power.

The lightning current measuring / collecting device 304 is provided on a line electrically connecting the power station 101 and the electronic device 102, detects a lightning current flowing through the line when a lightning strike occurs, and detects the detected lightning current. Converts the voltage into a voltage and stores the converted lightning voltage into a capacitor, converts the converted lightning voltage into a lightning current, displays the amount of lightning current corresponding to the converted lightning current on the screen, and filters the converted lightning voltage to supply power. The lightning voltage filtered to produce the required energy is collected and provided to the power station 101.

More specifically, the lightning current measuring / collecting device 304 includes a lightning current detecting unit 104a, a lightning current rectifying unit 104b, a lightning current / voltage converting unit 104c, a lightning voltage storing unit 104d, and a lightning voltage modulating unit. 104e, voltage level adjusting unit 104f, lightning voltage demodulating unit 104g, lightning voltage / current converting unit 104h, first switching unit 304i, second switching unit 304j, filter unit 304k ), An energy collection / supply unit 404l, a control unit 304m, a display unit 104k, and the like.

The lightning current detector 104a may be provided to detect a lightning current flowing through a line when a lightning strike occurs, and the lightning current rectifier 104b is electrically connected to the lightning current detector 104a to provide a lightning current detector 104a. Can be provided to rectify the detected lightning current.

The lightning current / voltage converter 104c may be provided to be electrically connected to the lightning current rectifier 104b so as to convert the lightning current rectified through the lightning current rectifier 104b into a lightning voltage. 104d may be provided to be electrically connected to the lightning current / voltage converter 104c to store the lightning voltage converted through the lightning current / voltage converter 104c using a circuit including a capacitor.

The lightning voltage modulating unit 104e may be electrically connected to the lightning voltage storing unit 104d to modulate the lightning voltage to prevent the electronic device 102 from being damaged by the lightning voltage stored in the lightning voltage storing unit 104d. The voltage level controller 104f may be provided to be electrically connected to the lightning voltage modulator 104e to adjust and supply the lightning voltage modulated by the lightning voltage modulator 104e to a level of an appropriate input voltage. .

The lightning voltage demodulator 104g is electrically connected to the voltage level adjuster 104f to convert the modulated lightning voltage corresponding to the level of the appropriate input voltage adjusted through the voltage level adjuster 104f to the original lightning voltage level. It can be provided to demodulate.

The lightning voltage / current converter 104h may be provided to be electrically connected to the lightning voltage demodulator 104g to convert the lightning voltage demodulated through the lightning voltage demodulator 104g into a lightning current.

The first switching unit 304i may be electrically connected to the lightning voltage storage unit 104d to selectively supply the lightning voltage stored in the lightning voltage storage unit 104d for a predetermined period, and the second switching unit 304j ) May be electrically connected to the first switching unit 304i to selectively supply a lightning voltage selectively supplied through the first switching unit 304i.

The filter unit 304k is electrically connected to the second switching unit 304j to receive an unnecessary lightning voltage selectively provided through the second switching unit 304j to generate an unnecessary component of the lightning voltage to produce energy for power supply. Can be provided to filter.

The energy collection / supply unit 304l is electrically connected to the filter unit 304k to filter out unnecessary components through the filter unit 304k, and collects a lightning voltage to produce energy required for power supply. It is provided with at least one of the energy generators 208.

The controller 304m is electrically connected to the lightning voltage / current converter 104h, receives the lightning current converted through the lightning voltage / current converter 104h, and digitally calculates and processes the first and second switching units. Providing turn-off switching signals to the 304i and 304j, respectively, to store the lightning voltage in the lightning voltage storage unit 104d for a predetermined period, or to provide the turn-on switching signals to the first and second switching units 304i and 304j, respectively. Is supplied to supply the lightning voltage stored in the lightning voltage storage unit 104d to the energy collection / supply unit 404l through the filter unit 304k during the next period.

The display unit 104k is electrically connected to the control unit 304m and may be provided to display a lightning current amount corresponding to the lightning current converted through the lightning voltage / current converting unit 104h under the control of the control unit 304m in a screen window. have.

On the other hand, the surge protector 106 is provided on a line for electrically connecting the power station 101 and the electronic device 102, the electronic device 102 by absorbing the surge voltage or surge current flowing from the commercial power source of the power station 101 ) Can be provided to protect.

As described above, the lightning current measurement using the capacitor and the energy collection system 300 using the lightning current according to the third embodiment of the present invention include an electronic device 102, a lightning current measurement / collection device 304, and the like.

Therefore, the lightning current measurement using the capacitor according to the third embodiment of the present invention and the energy collection system 300 using the lightning current measure the amount of lightning current corresponding to the lightning current flowing through the line at the time of lightning occurrence to the screen window. As a result, it is possible to shorten the maintenance time due to the lightning strike and to suppress the increase in the cost of maintenance while improving the efficiency of the maintenance.

In addition, the lightning current measurement using the capacitor according to the third embodiment of the present invention and the energy collection system 300 using the lightning current collects the lightning voltage filtered to produce the energy required for power supply to the power station 101 As a result, power waste can be reduced, thereby reducing the power supply cost for power supply.

<Fourth Embodiment>

4 is a block diagram illustrating a lightning current measurement using a capacitor and an energy collection system using a lightning current according to a fourth embodiment of the present invention.

Referring to FIG. 4, the lightning current measurement using the condenser and the energy collection system 400 using the lightning current according to the fourth embodiment of the present invention use the lightning current measurement and the lightning current using the condenser according to the third embodiment. Similar to the energy collection system 300 includes an electronic device 102, lightning current measuring / collecting device 404 and the like.

The function of each component corresponding to the lightning current measurement using the capacitor and the energy collection system 400 using the lightning current according to the fourth embodiment of the present invention and the organic relation therebetween are described in the third embodiment. Measurement of lightning current using a capacitor according to the function and the organic relationship between the functions of the respective components corresponding to the energy collection system 300 using the lightning current and the same, so that each description of this is omitted below Let's do it.

However, the lightning current measurement and the energy collection system 400 using the lightning current according to the fourth embodiment of the present invention further include a renewable energy generator 208, an inverter unit 210, and the like.

The renewable energy generator 208 is provided to generate a DC voltage by generating renewable energy, and the inverter unit 210 receives the DC voltage accumulated from the renewable energy generator 208 and converts it into an AC voltage. It is provided to make.

At this time, the lightning current measuring / collecting device 404 is provided on a line electrically connecting the power station 101, the inverter unit 210 and the electronic device 102, the energy collection of the lightning current measuring / collecting device 404 The supply unit 404l collects a lightning voltage to produce energy for power supply and provides it to at least one of the power station 101 or the renewable energy generator 208.

On the other hand, the surge protector 106 is provided on a line for electrically connecting at least one of the power station 101 or the inverter unit 210 and the electronic device 102, the surge voltage or from the commercial power source of the power station 101 or It may be provided to protect the electronic device 102 by absorbing a surge current, or to protect the electronic device 102 by absorbing a surge voltage or a surge current flowing from an AC voltage of the inverter unit 210.

As described above, the lightning current measurement using the capacitor and the energy collection system 400 using the lightning current according to the fourth embodiment of the present invention include an electronic device 102, a lightning current measurement / collection device 404, and the like.

Therefore, the lightning current measurement using the condenser and the energy collection system 400 using the lightning current according to the fourth embodiment of the present invention are the energy collection system using the lightning current measurement and the lightning current using the condenser according to the third embodiment ( In the same way as 300), since the lightning current corresponding to the lightning current flowing through the line is measured and displayed on the screen, the maintenance time due to the lightning can be shortened, improving the efficiency of the maintenance and improving the maintenance efficiency. Cost increase can be suppressed.

In addition, the lightning current measurement using the capacitor according to the fourth embodiment of the present invention and the energy collection system 400 using the lightning current collects the lightning voltage filtered to produce the energy required for power supply to the power station 101 or new By providing at least one of the renewable energy generators 208, it is possible to reduce power waste, thereby reducing the power supply cost for power supply.

Furthermore, the lightning current measurement and the energy collection system 400 using the lightning current according to the fourth embodiment of the present invention further include a renewable energy generator 208, an inverter unit 210, and the like.

Accordingly, the lightning current measurement using the capacitor and the energy collection system 400 using the lightning current according to the fourth exemplary embodiment of the present invention may provide power to the electronic device from the renewable energy generation device 208 and the inverter unit 210. Since it can provide to 102 and can improve energy efficiency, power waste can be reduced and power supply cost for electric power supply can be reduced.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Therefore, the above-described embodiments are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the appended claims rather than the foregoing description, and the meaning and scope of the claims and All changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

100, 200: lightning current measurement system using a capacitor
101: power station 102: electronic equipment
104: lightning current measuring device 104a: lightning current detection unit
104b: lightning current rectifier 104c: lightning current / voltage converter
104d: lightning voltage storage unit 104e: lightning voltage modulation unit
104f: voltage level control unit 104g: lightning voltage demodulation unit
104h: lightning voltage / current converter 104i: discharge part
104j: control unit 104k: display unit
106: surge protector 208: renewable energy generator
210: inverter unit
300, 400: lightning current measurement using a capacitor and energy collection system using a lightning current
304, 404: lightning current measuring and collecting device 304i: first switching unit
304j: second switching unit 304k: filter unit
304l, 404l: Energy Collection / Supply Section 304m: Control Unit

Claims (8)

An electronic device that receives commercial power through a line from a power station and receives an AC voltage corresponding to the commercial power; And
A lightning current detection unit provided to the line electrically connecting the power station and the electronic device, the lightning current detecting unit detecting a lightning current flowing through the line when a lightning strike occurs, and the lightning current detecting unit electrically connected to the lightning current detecting unit. A lightning current rectifying unit configured to rectify the lightning current detected through the lightning current; a lightning current / voltage converter electrically connected to the lightning current rectifying unit to convert the lightning current rectified through the lightning current rectifying unit into a lightning voltage; and the lightning current / A lightning voltage storage unit electrically connected to a voltage converter to store the lightning voltage converted through the lightning current / voltage converter, and a lightning voltage electrically connected to the lightning voltage storage unit and stored in the lightning voltage storage unit. A fallout that modulates the lightning voltage to prevent damage to the electronic device A voltage level adjusting unit, a voltage level adjusting unit electrically connected to the lightning voltage modulating unit to adjust and provide a lightning voltage modulated by the lightning voltage modulating unit to a level of an appropriate input voltage; A lightning voltage demodulator connected to demodulate a modulated lightning voltage corresponding to a level of an appropriate input voltage adjusted through the voltage level controller to an original lightning voltage level, and electrically connected to the lightning voltage demodulator; A lightning voltage / current converter for converting a lightning voltage demodulated through a demodulation part into a lightning current, a discharge part electrically connected to the lightning voltage storage part to discharge the lightning voltage stored in the lightning voltage storage part for a predetermined period; The lightning strike is electrically connected to the lightning voltage / current converter and converted through the lightning voltage / current converter. A digital signal is supplied to the discharge unit and a turn-off switching signal is provided to the discharge unit to store the lightning voltage in the lightning voltage storage unit for a predetermined period, or to provide the turn-on switching signal to the discharge unit to store the lightning voltage. A control unit for discharging the lightning voltage stored in the unit during the next period, and a display unit electrically connected to the control unit to display a lightning current amount corresponding to the lightning current converted through the lightning voltage / current converting unit under the control of the control unit on a screen window. Lightning current measuring device comprising a;
Lightning current measurement system using a capacitor comprising a.
An electronic device that receives commercial power through a line from a power station and receives an AC voltage corresponding to the commercial power;
A renewable energy generator for generating renewable energy and accumulating a DC voltage;
An inverter unit receiving the DC voltage accumulated from the renewable energy generation device and converting the DC voltage into an AC voltage; And
A lightning current detection unit provided to the line for electrically connecting the power station, the inverter unit, and the electronic device to detect a lightning current flowing through the line when a lightning strike occurs, and electrically connected to the lightning current detection unit; A lightning current rectifier for rectifying the lightning current detected by the lightning current detector; a lightning current / voltage converter electrically connected to the lightning current rectifier to convert the lightning current rectified through the lightning current rectifier into a lightning voltage; A lightning voltage storage unit electrically connected to the lightning current / voltage conversion unit to store the lightning voltage converted through the lightning current / voltage conversion unit, and electrically connected to the lightning voltage storage unit and stored in the lightning voltage storage unit. The lightning voltage to prevent the electronic device from being damaged by the lightning voltage A lightning voltage modulator for modulating, a voltage level controller electrically connected to the lightning voltage modulator to adjust and provide a lightning voltage modulated by the lightning voltage modulator to a level of an appropriate input voltage; A lightning voltage demodulator electrically connected to the electronic device to demodulate a modulated lightning voltage corresponding to a level of an appropriate input voltage adjusted through the voltage level controller to an original lightning voltage level, and electrically connected to the lightning voltage demodulator. A lightning voltage / current converter for converting a lightning voltage demodulated through the lightning voltage demodulator into a lightning current, and electrically connected to the lightning voltage storage unit to discharge the lightning voltage stored in the lightning voltage storage unit for a predetermined period. A whole, and electrically connected to the lightning voltage / current converting unit, By receiving the converted lightning current through the digital operation processing and providing a turn-off switching signal to the discharge unit to store the lightning voltage in the lightning voltage storage unit for a predetermined period or to provide a turn-on switching signal to the discharge unit A control window for discharging the lightning voltage stored in the lightning voltage storage unit during a next period, and a lightning current amount corresponding to the lightning current electrically connected to the control unit and converted through the lightning voltage / current converting unit under the control of the control unit; Lightning current measuring device comprising a display unit to display;
Lightning current measurement system using a capacitor comprising a.
delete delete An electronic device that receives commercial power through a line from a power station and receives an AC voltage corresponding to the commercial power; And
A lightning current detection unit provided to the line electrically connecting the power station and the electronic device, the lightning current detecting unit detecting a lightning current flowing through the line when a lightning strike occurs, and the lightning current detecting unit electrically connected to the lightning current detecting unit. A lightning current rectifying unit configured to rectify the lightning current detected through the lightning current; a lightning current / voltage converter electrically connected to the lightning current rectifying unit to convert the lightning current rectified through the lightning current rectifying unit into a lightning voltage; and the lightning current / A lightning voltage storage unit electrically connected to a voltage converter to store the lightning voltage converted through the lightning current / voltage converter, and a lightning voltage electrically connected to the lightning voltage storage unit and stored in the lightning voltage storage unit. A fallout that modulates the lightning voltage to prevent damage to the electronic device A voltage level adjusting unit, a voltage level adjusting unit electrically connected to the lightning voltage modulating unit to adjust and provide a lightning voltage modulated by the lightning voltage modulating unit to a level of an appropriate input voltage; A lightning voltage demodulator connected to demodulate a modulated lightning voltage corresponding to a level of an appropriate input voltage adjusted through the voltage level controller to an original lightning voltage level, and electrically connected to the lightning voltage demodulator; A lightning voltage / current converter for converting a lightning voltage demodulated through a demodulator into a lightning current, and a first voltage electrically connected to the lightning voltage storage to selectively provide a lightning voltage stored in the lightning voltage storage for a predetermined period. A switching unit, and electrically connected to the first switching unit, selectively through the first switching unit A second switching unit for selectively providing a lightning lightning voltage, and a lightning strike to generate energy required for power supply by receiving a lightning voltage electrically connected to the second switching unit and selectively provided through the second switching unit A filter unit for filtering an unnecessary component of a voltage, and an energy collection unit electrically connected to the filter unit to collect the lightning voltage through which the unnecessary component is filtered and to produce energy for supplying power to the power station; And a supply unit and an electrical connection to the lightning voltage / current converting unit to receive the lightning current converted through the lightning voltage / current converting unit, and to digitally process and process a turn-off switching signal on the first and second switching units. Respectively provide a lightning voltage to the lightning voltage storage unit for a predetermined period of time. Or a control unit configured to provide a turn-on switching signal to the first and second switching units, respectively, to provide a lightning voltage stored in the lightning voltage storage unit to the energy collection / supply unit through the filter unit during a next period, and electrically connected to the control unit. A lightning current measurement / collection apparatus connected to the display unit to display a lightning current amount corresponding to the lightning current converted through the lightning voltage / current conversion unit on the screen window under the control of the controller;
Lightning current measurement using a capacitor including a and energy collection system using the lightning current.
An electronic device that receives commercial power through a line from a power station and receives an AC voltage corresponding to the commercial power;
A renewable energy generator for generating renewable energy and accumulating a DC voltage;
An inverter unit receiving the DC voltage accumulated from the renewable energy generation device and converting the DC voltage into an AC voltage; And
A lightning current detection unit provided to the line for electrically connecting the power station, the inverter unit, and the electronic device to detect a lightning current flowing through the line when a lightning strike occurs, and electrically connected to the lightning current detection unit; A lightning current rectifier for rectifying the lightning current detected by the lightning current detector; a lightning current / voltage converter electrically connected to the lightning current rectifier to convert the lightning current rectified through the lightning current rectifier into a lightning voltage; A lightning voltage storage unit electrically connected to the lightning current / voltage conversion unit to store the lightning voltage converted through the lightning current / voltage conversion unit, and electrically connected to the lightning voltage storage unit and stored in the lightning voltage storage unit. The lightning voltage to prevent the electronic device from being damaged by the lightning voltage A lightning voltage modulator for modulating, a voltage level controller electrically connected to the lightning voltage modulator to adjust and provide a lightning voltage modulated by the lightning voltage modulator to a level of an appropriate input voltage; A lightning voltage demodulator electrically connected to the electronic device to demodulate a modulated lightning voltage corresponding to a level of an appropriate input voltage adjusted through the voltage level controller to an original lightning voltage level, and electrically connected to the lightning voltage demodulator. A lightning voltage / current converter for converting a lightning voltage demodulated through the lightning voltage demodulator into a lightning current, and electrically connected to the lightning voltage storage unit to selectively provide a lightning voltage stored in the lightning voltage storage unit for a predetermined period. A first switching unit configured to be electrically connected to the first switching unit, and the first switching unit A second switching unit selectively providing a lightning voltage selectively supplied through the second switching unit, and electrically connected to the second switching unit to receive a lightning voltage selectively provided through the second switching unit to produce energy for power supply A filter unit for filtering an unnecessary component of the lightning voltage, and electrically connected to the filter unit to collect the lightning voltage through which the unnecessary component is filtered and to produce energy for supplying the power to the power station or the An energy collection / supply unit for providing at least one of renewable energy generation devices and a lightning current converted through the lightning voltage / current conversion unit electrically connected to the lightning voltage / current conversion unit to perform a digital processing operation Turn-off switching signals to the first and second switching units, respectively. Provide a lightning voltage to the lightning voltage storage unit for a predetermined period or provide turn-on switching signals to the first and second switching units, respectively, to store the lightning voltage stored in the lightning voltage storage unit through the filter unit during the next period. Lightning includes a control unit provided to the energy collection / supply unit, and a display unit for electrically connecting to the control unit and a display window for displaying the lightning current amount corresponding to the lightning current converted through the lightning voltage / current conversion unit under the control of the control unit Current measurement / collection devices;
Lightning current measurement using a capacitor including a and energy collection system using the lightning current. delete delete

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