KR101102933B1 - System for presumption which is occured partial discharge in power cable - Google Patents

Abstract

The present invention provides a power cable for transmitting power; A pulse generator for generating a pulse signal for estimating a position at which the partial discharge is spaced apart from the power cable; A pulse injection unit mounted on the power cable and receiving the pulse signal generated from the pulse generator, and injecting the pulse signal; A first current sensing unit mounted on the power cable, the first current sensing unit detecting a current in the power cable to estimate a phase of the voltage; In communication with the pulse generator, providing a synchronizing signal to the pulse generator in time to provide a reference pulse corresponding to the pulse signal sensed through the first current sensing unit for a predetermined time and the current corresponding to the current detected through the first current sensing unit. When the first trigger pulse mixed with each other is out of the level range of the first trigger pulse on which the first trigger pulse mixed with each other is compared with the level range of the first trigger pulse on which the first current pulse is mixed with each other, A first partial discharge generation position estimation device for estimating a position at which a partial discharge occurs at the measurement point; Being mounted on the power cable, and measuring the pulse signal corresponding to the pulse injection unit spaced apart from the pulse injection unit and the first current sensing unit, the current corresponding to the power being transmitted inside the power cable and the first current sensing unit and time A second current sensing unit for detecting a gap; And a reference pulse corresponding to the pulse signal sensed through the second current sensing unit for a predetermined time by communicating with the pulse generator, providing a synchronization signal that makes a time difference from the first partial discharge generation position estimation device to the pulse generator in time. And the second trigger pulses mixed with each other by comparing the second trigger pulses in which the second current pulses corresponding to the currents detected by the second current sensing unit are mixed with each other is compared with the level range of the second trigger pulses. Provided is a partial discharge generation position estimation system in a power cable including a second partial discharge generation position estimation device for estimating a position where partial discharge occurs at a measurement point of a power cable when it is out of the level range of a second trigger pulse. .

Description

System for presumption which is occured partial discharge in power cable}

The present invention relates to a system for estimating a partial discharge generation position in a power cable.

In general, when a fault occurs in a power equipment consisting of a power cable and an accessory material, a partial discharge occurs at the defective part, and if such a partial discharge is continued, the power cable and the accessory material develop into a breakdown of insulation.

Therefore, in recent years, researches on an improved partial discharge generation position estimating apparatus capable of quickly finding a location of partial discharges generated when power is transmitted through a power cable and preventing insulation breakdown from deteriorating have been continuously conducted. .

An object of the present invention is to quickly find the position of the partial discharge generated when transferring power through the power cable, so that the maintenance time can be further shortened in the power cable that can suppress the increase in maintenance costs It is to provide a partial discharge generation position estimation system of.

Another object of the present invention is to find the location of the partial discharge that occurs when there is a defect in the insulator when transmitting power through the power cable, so that the part in the power cable that can supply stable power more efficiently It is to provide a discharge generation position estimation system.

In order to achieve the above object, the present invention provides a power cable for transmitting power; A pulse generator for generating a pulse signal for estimating a position at which the partial discharge is spaced apart from the power cable; A pulse injection unit mounted on the power cable and receiving the pulse signal generated from the pulse generator, and injecting the pulse signal; A first current sensing unit mounted on the power cable, the first current sensing unit detecting a current in the power cable to estimate a phase of the voltage; In communication with the pulse generator, providing a synchronizing signal to the pulse generator in time to provide a reference pulse corresponding to the pulse signal sensed through the first current sensing unit for a predetermined time and the current corresponding to the current detected through the first current sensing unit. When the first trigger pulse mixed with each other is out of the level range of the first trigger pulse on which the first trigger pulse mixed with each other is compared with the level range of the first trigger pulse on which the first current pulse is mixed with each other, A first partial discharge generation position estimation device for estimating a position at which a partial discharge occurs at the measurement point; Being mounted on the power cable, and measuring the pulse signal corresponding to the pulse injection unit spaced apart from the pulse injection unit and the first current sensing unit, the current corresponding to the power being transmitted inside the power cable and the first current sensing unit and time A second current sensing unit for detecting a gap; And a reference pulse corresponding to the pulse signal sensed through the second current sensing unit for a predetermined time by communicating with the pulse generator, providing a synchronization signal that makes a time difference from the first partial discharge generation position estimation device to the pulse generator in time. And the second trigger pulses mixed with each other by comparing the second trigger pulses in which the second current pulses corresponding to the currents detected by the second current sensing unit are mixed with each other is compared with the level range of the second trigger pulses. And a second partial discharge generation position estimating device for estimating a position at which a partial discharge occurs at a measurement point of the power cable when it is out of the level range of the second trigger pulse.

According to another feature of the invention, the first partial discharge generation position estimation device is a first GPS time synchronizer for communicating with the pulse generator in a GPS manner, providing a synchronization signal in time to the pulse generator; A first pulse measuring filter unit filtering a noise component of a reference pulse corresponding to the pulse signal sensed by the first current sensing unit; A first amplifier for amplifying the reference pulse filtered through the first pulse measurement filter unit into a predetermined reference frequency band; A first current detection filter unit filtering a noise component of a first current pulse corresponding to a current detected through the first current sensing unit; A first current gain compensator for compensating for the first current pulse filtered through the first current detection filter part according to a predetermined reference phase; A first synchronous phase detector for dividing the current phase compensated by the first current gain compensator into a voltage phase; A reference pulse filtered through a first pulse measuring filter and a first amplifier and amplified to a predetermined reference frequency band, and filtered through a first current detecting filter, a first current gain compensator, and a first synchronous phase detector. And mixing the first current pulses detected with the predetermined reference phase with each other, and comparing the first trigger pulses mixed with each other with the level range of the first trigger pulse as the reference, and the first trigger pulses mixed with each other as the reference. A first digital signal processor configured to determine whether the first trigger pulse is outside the level range by a digital signal and to process the digital signal; And when the first trigger pulses that are synchronized with the first GPS time synchronizer and are supplied through the first digital signal processor and are mixed with each other are mixed with each other, the first trigger pulses deviate from the level range of the first trigger pulse that is a reference. The display window includes a first display unit which can be estimated by confirming a position where partial discharge occurs at a measurement point of the power cable.

According to another feature of the present invention, the second partial discharge generation position estimating apparatus communicates with the pulse generator in a GPS manner, and provides a synchronization signal that makes a time difference with the first partial discharge generation position estimation apparatus in time. Providing a second GPS time synchronizer; A second pulse measuring filter unit filtering a noise component of a reference pulse corresponding to the pulse signal sensed by the second current sensing unit; A second amplifier for amplifying the reference pulse filtered through the second pulse measurement filter unit into a predetermined reference frequency band; A second current detection filter unit filtering a noise component of a second current pulse corresponding to a current detected through the second current sensing unit; A second current gain compensator for compensating for the second current pulse filtered through the second current detection filter part according to a predetermined reference phase; A second synchronous phase detector for dividing the current phase compensated by the second current gain compensator to the voltage phase; A reference pulse that is filtered through the second pulse measurement filter and the second amplifier and amplified to a predetermined reference frequency band, and filtered through the second current detection filter, the second current gain compensator, and the second synchronous phase detector. And mixing the second current pulses detected with the predetermined reference phase with each other, and comparing the second trigger pulses mixed with each other with the level range of the second trigger pulse as the reference, and the second trigger pulses mixed with each other as the reference. A second digital signal processor configured to process a digital signal to determine whether it is out of the level range of the second trigger pulse; And when the second trigger pulses, which are synchronized with the second GPS time synchronizer in time and are supplied with the processed digital signals through the second digital signal processor, and are mixed with each other, fall outside the level range of the second trigger pulse, which is the reference, The display window includes a second display unit which can be confirmed by estimating the position where the partial discharge occurs at the measurement point of the power cable.

According to another feature of the present invention, the first partial discharge generation position estimation apparatus measures the starting point of the first trigger pulses mixed with each other to measure the starting point of the first trigger pulses mixed with each other. If it is out of the level range, it is characterized by estimating the position where the partial discharge occurs at the measuring point of the power cable.

According to another feature of the present invention, the second partial discharge generation position estimation apparatus measures the starting point of the second trigger pulses mixed with each other and determines the starting point of the second trigger pulses mixed with each other. If it is out of the level range, it is characterized by estimating the position where the partial discharge occurs at the measuring point of the power cable.

According to another feature of the present invention, when the mixed first trigger pulses displayed in synchronization with the first display unit are out of the level range of the first trigger pulse which is a reference, the power cable is measured by an alarm. The apparatus may further include a first alarm unit which may determine and confirm the position where the partial discharge occurs at the point.

According to another feature of the present invention, when the second trigger pulses, which are synchronized with the second display unit and displayed through the second display unit, are outside the level range of the reference second trigger pulse, the power cable is measured by an alarm. It further includes a second alarm unit that can be confirmed by estimating the position where the partial discharge occurs at the point.

According to another feature of the invention, the first current sensing unit is mounted on the power cable, the first pulse measuring sensor spaced apart from the pulse injection unit for measuring the pulse signal corresponding to the pulse injection unit; And a first current detection sensor mounted on the power cable and spaced apart from the pulse injection unit and the first pulse measuring sensor to detect a current corresponding to the power being transmitted inside the power cable.

According to another feature of the invention, the second current sensing unit is mounted on the power cable, the pulse injection unit and the second pulse measuring sensor for measuring the pulse signal corresponding to the pulse injection unit spaced apart from the first current sensing unit; And a power cable, spaced apart from the pulse injection unit, the first current sensing unit, and the second pulse measuring sensor, to detect a current corresponding to the power being transmitted inside the power cable with a time difference from the first current sensing unit. And a second current detection sensor.

According to the partial discharge generation position estimation system in the power cable of the present invention made as described above, the following effects can be obtained.

First, since it is possible to quickly find the location of the partial discharge generated when transmitting power through the power cable, it is possible to shorten the maintenance time has the effect of suppressing the increase in maintenance costs.

Second, since the location of the partial discharge that occurs when there is a defect in the insulator when transmitting power through the power cable can be found quickly, there is another effect that can more efficiently supply stable power.

1 is a diagram illustrating a system for estimating a partial discharge generation position in a power cable according to a first embodiment of the present invention.
FIG. 2 is a diagram illustrating a first digital signal processor and a second digital signal processor illustrated in FIG. 1.
3 is a diagram illustrating a first display unit and a second display unit illustrated in FIG. 1.
4 is a diagram illustrating a system for estimating a partial discharge generation position in a power cable according to a second embodiment of the present invention.

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

<First Embodiment>

1 is a diagram showing a system for estimating a partial discharge generation position in a power cable according to a first embodiment of the present invention, and FIG. 2 is a diagram showing a first digital signal processor and a second digital signal processor shown in FIG. .

3 is a diagram illustrating a first display unit and a second display unit illustrated in FIG. 1.

1 to 3, the partial discharge generation position estimation system 100 of the power cable according to the first embodiment of the present invention includes a power cable 102, a pulse generator 104, and a pulse injection unit 106. ), A first current sensing unit 108, a first partial discharge generation position estimation device 110, a second current sensing unit 112, a second partial discharge generation position estimation device 114, and the like.

The power cable 102 is provided to transmit power, and the pulse generator 104 is provided to generate a pulse signal for estimating a position where the partial discharge is spaced apart from the power cable 102.

The pulse injector 106 is mounted on the power cable 102 and is provided to receive a pulse signal generated from the pulse generator 104 to inject a pulse signal, and the first current sensing unit 108 includes a power cable ( 102 is provided to detect the current corresponding to the power being transmitted inside the power cable 102 while measuring the pulse signal corresponding to the pulse injection unit 106 is spaced apart from the pulse injection unit 106.

In this case, the first current sensing unit 108 may be provided to detect a current in the power cable 102 to estimate the phase of the voltage.

In this case, the first current sensing unit 108 may include a first pulse measuring sensor 108a and a first current detecting sensor 108b.

The first pulse measuring sensor 108a may be mounted on the power cable 102, and may be provided to measure a pulse signal corresponding to the pulse injection unit 106 while being spaced apart from the pulse injection unit 106.

The first current detection sensor 108b is mounted on the power cable 102 and is spaced apart from the pulse injection unit 106 and the first pulse measuring sensor 108a to correspond to the power being transmitted inside the power cable 102. Can be provided to detect the current.

The first partial discharge generation position estimator 110 communicates with the pulse generator 104, and provides a synchronization signal to the pulse generator 104 in time to sense the first current sensing unit 108 for a predetermined time. The first trigger pulse in which the reference pulse corresponding to the detected pulse signal and the first current pulse corresponding to the current detected by the first current sensing unit 108 are mixed with each other is compared with the level range of the first trigger pulse as the reference. When the first trigger pulses mixed with each other deviate from the level range of the first trigger pulse as a reference, it is provided to estimate the position where the partial discharge occurs at the measurement point of the power cable 102.

In more detail, the first partial discharge generation position estimating apparatus 110 includes a first GPS time synchronizer 110a, a first pulse measuring filter 110b, a first amplifier 110c, and a first current detection unit. The filter unit 110d, the first current gain compensator 110e, the first synchronous phase detector 110f, the first digital signal processor 110g, the first display unit 110h, and the like may be included.

The first GPS time synchronizer 110a may be provided to communicate with the pulse generator 104 in a GPS manner, but supply the synchronization signal to the pulse generator 104 in time, and the first pulse measurement filter 110b. ) May be provided to filter the noise component of the reference pulse corresponding to the pulse signal sensed by the first current sensing unit 108.

The first amplifying unit 110c may be provided to amplify the reference pulse filtered through the first pulse measuring filter unit 110b into a predetermined reference frequency band, and the first current detecting filter unit 110d may be provided. The first current sensing unit 108 may be provided to filter the noise component of the first current pulse corresponding to the current detected.

The first current gain compensator 110e may be provided to compensate the gain of the first current pulse filtered through the first current detection filter 110d according to a predetermined reference phase. 110f may be provided to divide the current phase compensated by the first current gain compensator 110e to estimate the voltage phase.

As shown in FIGS. 1 and 2, the first digital signal processor 110g is filtered through the first pulse measuring filter 110b and the first amplifier 110c and amplified to a predetermined reference frequency band. A _first pulse filtered through the reference pulse P ₁ , the first current detection filter unit 110d, the first current gain compensator 110e, and the first synchronous phase detector 110f to be detected as a predetermined reference phase. The first trigger pulses P ₃ which are mixed with each other by mixing the current pulses P ₂ with each other and comparing the first trigger pulses P ₃ which are mixed with each other with respect to the level range Trigger LV of the first trigger pulse as a reference. ) Is outside the level range (Trigger LV) of the first trigger pulse, which is a reference, may be provided to determine and process the digital signal.

The first display unit 110h is synchronized with the first GPS time synchronizer 110a in time, and receives a digital signal processed through the first digital signal processor 110g and mixes the first trigger pulse P ₃ with each other. If the value is outside the level range (Trigger LV) of the first trigger pulse to be a reference, the display window may be provided so as to estimate the position (A) where the partial discharge occurs at the measurement point of the power cable 102 can be confirmed. .

At this time, of a first partial discharge generation position estimator 110 of the first trigger pulse (P ₃₎ to measure the start point of the first trigger pulse (P ₃₎ mixing of the mixture with each other as shown in Figure 3 When the start point is out of the level range Trigger LV of the first trigger pulse as a reference, the display window through the first display unit 110h is moved to the position A where the partial discharge occurs at the measurement point of the power cable 102. It can be provided to estimate and confirm.

The second current sensing unit 112 is mounted on the power cable 102 and is spaced apart from the pulse injecting unit 106 and the first current sensing unit 108 to measure a pulse signal corresponding to the pulse injecting unit 106. In addition, the current corresponding to the power being transmitted in the power cable 102 is provided to detect the time difference with the first current sensing unit 108.

In this case, the second current sensing unit 112 may include a second pulse measuring sensor 112a, a second current detecting sensor 112b, and the like.

The second pulse measuring sensor 112a is mounted on the power cable 102 to be spaced apart from the pulse injector 106 and the first current sensing unit 108 to measure the pulse signal corresponding to the pulse injector 106. Can be provided.

The second current detection sensor 112b is mounted to the power cable 102, but is spaced apart from the pulse injection unit 106, the first current sensing unit 108, and the second pulse measurement sensor 112a, and is separated from the power cable 102. ) May be provided so as to detect a current corresponding to the power being transmitted from the inside of the C) at a time difference from the first current sensing unit 108.

The second partial discharge generation position estimating apparatus 114 communicates with the pulse generator 104, and provides a synchronization signal to the pulse generator 104 in time with the first partial discharge generation position estimation apparatus 110. Providing a reference pulse P ₄ corresponding to the pulse signal sensed by the second current sensing unit 112 for a predetermined time and a second current pulse corresponding to the current detected by the second current sensing unit 112 ( P ₅₎ is a second trigger pulse (P ₆₎ level range of a second trigger pulse for serving as a reference (trigger LV) and to the second trigger pulse mixing of compare (P ₆₎ is serving as a reference the second mixing together When outside the level range (Trigger LV) of the trigger pulse, it is provided to estimate the position A at which the partial discharge occurs at the measurement point of the power cable 102.

At this time, the pulse signal generated from the pulse generator 104 is injected into the power cable 102 through the pulse injection unit 106, the second pulse measuring sensor 112a is a pulse synchronized through the power cable 102 The signal can be detected.

Here, the pulse generator 104 synchronizes the first partial discharge generation position estimation device 110 and the second partial discharge generation position estimation device 114 by using a GPS receiver (not shown) which is a GPS communication method. In addition, it can be provided to simultaneously measure the partial discharge occurrence position.

At this time, when the pulse generator 104 synchronizes the first partial discharge generation position estimation apparatus 110 and the second partial discharge generation position estimation apparatus 114 in time, time information synchronized by a GPS receiver (not shown) It has a correction function to compensate for the delayed time difference.

The pulse generator 104 generates a pulse in synchronization with the first GPS time synchronizer 110a of the first partial discharge generation position estimating apparatus 110 to be described later, and the second current sensing unit 112. The time point of the pulse detected by the same time as the time of the pulse detected by the first current sensing unit 108 and the length of the power cable 102 is moved, it is possible to accurately estimate the position of the partial discharge generation .

In more detail, the second partial discharge generation position estimation device 114 includes a second GPS time synchronizer 114a, a second pulse measurement filter 114b, a second amplifier 114c, and a second current detection device. The filter unit 114d, the second current gain compensator 114e, the second synchronous phase detector 114f, the second digital signal processor 114g, the second display unit 114h, and the like may be included.

The second GPS time synchronizer 114a communicates with the pulse generator 104 in a GPS manner, but provides a synchronization signal to the pulse generator 104 in time with the first partial discharge generation position estimation device 110. Can be provided to supply.

The second pulse measuring filter 114b may be provided to filter noise components of the reference pulse corresponding to the pulse signal sensed by the second current sensing unit 112.

The second amplifier 114c may be provided to amplify the reference pulse filtered through the second pulse measurement filter 114b to a predetermined reference frequency band, and the second current detection filter 114d may be provided. The second current sensing unit 112 may be provided to filter noise components of the second current pulse corresponding to the current detected.

The second current gain compensator 114e may be provided to compensate the gain of the second current pulse filtered through the second current detection filter part 114d according to a predetermined reference phase, and the second synchronous phase detector ( 114f) may be provided to divide the current phase compensated by the second current gain compensator 114e to estimate the voltage phase.

As shown in FIGS. 1 and 2, the second digital signal processor 114g is filtered through the second pulse measuring filter 114b and the second amplifier 114c and amplified to a predetermined reference frequency band. A second pulse filtered through the reference pulse P ₄ , the second current detection filter unit 114d, the second current gain compensator 114e, and the second synchronous phase detector 114f and detected as a predetermined reference phase; The second trigger pulses P ₆ mixed with each other by mixing the current pulses P ₅ with each other and comparing the second trigger pulses P ₆ mixed with each other with respect to the level range Trigger LV of the reference second trigger pulse. ) Is outside the level range (Trigger LV) of the reference second trigger pulse can be provided to determine and process as a digital signal.

The second display unit 114h is synchronized with the second GPS time synchronizer 114a in time, and receives a digital signal processed through the second digital signal processor 114g and mixes the second trigger pulse P ₆ with each other. Is outside the level range (Trigger LV) of the second trigger pulse, which is a reference, the display window may be provided so as to estimate and confirm the position (A) where the partial discharge occurs at the measuring point of the power cable 102. .

At this time, of the second partial discharge generation position estimator 114, the second trigger pulse (P ₆₎ by measuring the starting point of the second trigger pulse (P ₆₎ mixing together a mixture with each other as shown in Figure 3 When the starting point is out of the level range Trigger LV of the second trigger pulse, the reference point is moved to the position A where the partial discharge occurs at the measuring point of the power cable 102 through the second display 114h. It can be provided to estimate and confirm.

As described above, the partial discharge generation position estimation system 100 of the power cable according to the first embodiment of the present invention includes a power cable 102, a pulse generator 104, a pulse injection unit 106, and a first current sensing device. The unit 108, a first partial discharge generation position estimation device 110, a second current sensing unit 112, a second partial discharge generation position estimation device 114, and the like.

Therefore, the partial discharge generation position estimation system 100 in the power cable according to the first embodiment of the present invention can quickly find the generation position of the partial discharge generated when transmitting power through the power cable 102, Since maintenance time can be shortened, it is possible to suppress an increase in maintenance cost and to efficiently supply stable power.

&Lt; Embodiment 2 >

4 is a diagram illustrating a system for estimating a partial discharge generation position in a power cable according to a second embodiment of the present invention.

Referring to FIG. 4, the partial discharge generation position estimation system 400 in the power cable according to the second embodiment of the present invention is the same as the partial discharge generation position estimation system 100 in the power cable according to the first embodiment. The power cable 102, the pulse generator 104, the pulse injection unit 106, the first current sensing unit 108, the second current sensing unit 112, and the like.

The function of each component corresponding to the partial discharge generation position estimation system 400 in the power cable according to the second embodiment of the present invention and the organic relationship therebetween are the power cable according to the first embodiment. Since the functions of the respective components corresponding to the partial discharge generation position estimation system 100 and the organic relationship therebetween are the same, the descriptions thereof will be omitted below.

However, the partial discharge occurrence position estimation system 400 of the power cable according to the second embodiment of the present invention is synchronized with the first display unit 110h and mixed with each other displayed through the first display unit 110h. for out-of-pulses (in Fig. 3 P ₃₎ level range (trigger LV) of the first trigger pulse as a reference, the estimated position (a) to the partial discharge generated in the measuring branch of the alarm power cable (102) The first partial discharge generation position estimation device 410 further includes a first alarm unit 410i that can be confirmed.

In addition, the partial discharge occurrence position estimation system 400 of the power cable according to the second embodiment of the present invention is synchronized with the second display portion 114h and the second trigger mixed with each other displayed through the second display portion 114h When the pulse (P _{6 in} FIG. 3) is out of the level range (Trigger LV) of the second trigger pulse as a reference, an alarm is estimated as a position (A) where partial discharge occurs at a measuring point of the power cable 102. The second partial discharge generation position estimation device 414 further includes a second alarm unit 414i that can be confirmed.

As described above, the partial discharge generation position estimation system 400 of the power cable according to the second embodiment of the present invention includes a power cable 102, a pulse generator 104, a pulse injection unit 106, and a first current sensing device. The unit 108, the first partial discharge generation position estimation device 410, the second current sensing unit 112, the second partial discharge generation position estimation device 414, and the like.

Accordingly, the partial discharge occurrence position estimation system 400 of the power cable according to the second embodiment of the present invention identifies the occurrence position of the partial discharge generated when the power is transmitted through the power cable 102 by the display window and the alarm. As a result, the generation position of the partial discharge can be found more quickly.

Accordingly, the partial discharge occurrence position estimation system 400 of the power cable according to the second embodiment of the present invention is more maintenance time than the partial discharge occurrence position estimation system 100 of the power cable according to the first embodiment. It is possible to further shorten and to suppress the increase in maintenance costs, and it is possible to supply stable power more efficiently.

Those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

100, 400: position estimation system of partial discharge occurrence in power cable
102: power cable 104: pulse generator
106: pulse injection unit 108: first current sensing unit
108a: first pulse measuring sensor 108b: first current detecting sensor
110, 410: first partial discharge generation position estimation device
110a: first GPS time synchronizer 110b: first pulse measurement filter unit
110c: first amplifier 110d: first current detection filter
110e: first current gain compensator 110f: first synchronous phase detector
110g: first digital signal processing unit 110h: first display unit
112: second current sensing unit 112a: second pulse measuring sensor
112b: second current detection sensor
114, 414: Second partial discharge generation position estimation device
114a: 2nd GPS time synchronizer 114b: 2nd pulse measurement filter part
114c: second amplifier section 114d: second current detection filter section
114e: second current gain compensator 114f: second synchronous phase detector
114g: second digital signal processing unit 114h: second display unit
410i: first alarm unit 414i: second alarm unit
P ₁ , P ₄ : Reference pulse P ₂ : First current pulse
P ₃ : First trigger pulse P ₅ : second current pulse
P ₆ : Second trigger pulse A: Location where partial discharge occurs

Claims (9)

A power cable for transmitting electric power;
A pulse generator for generating a pulse signal spaced apart from the power cable to estimate a position at which partial discharge occurs;
A pulse injection unit mounted on the power cable and receiving the pulse signal generated from the pulse generator, and injecting the pulse signal;
A first current sensing unit mounted on the power cable and configured to detect a current in the power cable and estimate a phase of the voltage;
Communicating with the pulse generating device, the synchronization signal is provided to the pulse generating device in time to detect the reference pulse corresponding to the pulse signal sensed through the first current sensing unit and the first current sensing unit for a predetermined time. The level range of the first trigger pulse, which is mixed with each other, is compared with the level range of the first trigger pulse, on which the first current pulse corresponding to the current is mixed with each other, compared to the level range of the first trigger pulse. A first partial discharge generation position estimating device for estimating a position at which the partial discharge occurs at a measurement point of the power cable when out of?
A current corresponding to the electric power being transmitted inside the power cable while being mounted on the power cable and measuring the pulse signal corresponding to the pulse injection part spaced apart from the pulse injection part and the first current sensing part. A second current sensing unit detecting a time difference from the first current sensing unit; And
The pulse generator communicates with the pulse generator, and provides the pulse generator with a synchronizing signal having a time difference from the first partial discharge generation position estimating device in time to the pulse signal sensed through the second current sensing unit for a predetermined time. The second mixed pulse which is compared with the level range of the second trigger pulse which is a reference is compared to the second trigger pulse in which the corresponding reference pulse and the second current pulse corresponding to the current detected by the second current sensing unit are mixed with each other. In the power cable comprising a second partial discharge generation position estimation device for estimating the position where the partial discharge occurs at the measurement point of the power cable when the trigger pulse is out of the level range of the reference second trigger pulse Partial discharge generation position estimation system.
The method of claim 1,
The first partial discharge generation position estimation device,
A first GPS time synchronizer communicating with the pulse generator in a GPS manner and providing a synchronization signal to the pulse generator in time;
A first pulse measuring filter unit filtering a noise component of a reference pulse corresponding to the pulse signal sensed by the first current sensing unit;
A first amplifier for amplifying the reference pulse filtered through the first pulse measurement filter unit to a predetermined reference frequency band;
A first current detection filter unit filtering a noise component of a first current pulse corresponding to the current detected through the first current sensing unit;
A first current gain compensator for compensating a gain of the first current pulse filtered through the first current detection filter part according to a predetermined reference phase;
A first synchronous phase detector for dividing the current phase compensated through the first current gain compensator into a voltage phase;
The reference pulse filtered through the first pulse measurement filter unit and the first amplifier unit and amplified to the predetermined reference frequency band, the first current detection filter unit, the first current gain compensator, and the first The first current pulses filtered through a first synchronous phase detector and detected by the predetermined reference phase are mixed with each other, and the mixed first trigger pulses are compared with the level range of the first trigger pulse as the reference. A first digital signal processor configured to determine whether the first trigger pulses mixed with each other deviate from the level range of the first trigger pulse as the reference, and process the digital signal; And
The first trigger pulses, which are synchronized with the first GPS time synchronizer and are processed through the first digital signal processor, and are mixed with each other, are out of the level range of the first trigger pulse as the reference. In this case, the partial discharge generation position estimation system in the power cable comprising a first display that can be identified by the display window to determine the position where the partial discharge occurs at the measurement point of the power cable.
The method of claim 1,
The second partial discharge generation position estimation device,
A second GPS time synchronizer communicating with the pulse generator in a GPS manner and providing a synchronization signal to the pulse generator in time difference with the first partial discharge generation position estimation device;
A second pulse measuring filter unit filtering a noise component of a reference pulse corresponding to the pulse signal sensed by the second current sensing unit;
A second amplifying unit amplifying the reference pulse filtered through the second pulse measuring filter unit into a predetermined reference frequency band;
A second current detection filter unit filtering a noise component of a second current pulse corresponding to the current detected through the second current sensing unit;
A second current gain compensator for compensating a gain of the second current pulse filtered through the second current detection filter to a predetermined reference phase;
A second synchronous phase detector for dividing the current phase compensated by the second current gain compensator as a voltage phase;
The reference pulse filtered through the second pulse measurement filter unit and the second amplifier unit and amplified to the predetermined reference frequency band, the second current detection filter unit, the second current gain compensator, and the first The second current pulses filtered through a second synchronous phase detector are detected by the predetermined reference phase, and are mixed with each other, and the mixed second trigger pulses are compared with a level range of the reference second trigger pulses. A second digital signal processor configured to determine whether the second trigger pulses mixed with each other deviate from the level range of the reference second trigger pulse as a digital signal and process the digital signal; And
The second trigger pulses, which are synchronized with the second GPS time synchronizer in time and are processed through the second digital signal processor, and are mixed with each other, are out of the level range of the second trigger pulse which becomes the reference. In this case, the partial discharge generation position estimation system in the power cable comprising a second display that can be confirmed by the display window to determine the position where the partial discharge occurs at the measurement point of the power cable.
The method of claim 1,
The first partial discharge generation position estimation device,
When the start point of the mixed first trigger pulse is measured so that the start point of the mixed first trigger pulse is out of the level range of the reference first trigger pulse, the portion at the measuring point of the power cable A system for estimating partial discharge occurrence position in a power cable, characterized by estimating the position at which discharge occurs.
The method of claim 1,
The second partial discharge generation position estimation device,
Measuring the starting point of the mixed second trigger pulse so that the starting point of the mixed second trigger pulse is outside the level range of the reference second trigger pulse; A system for estimating partial discharge occurrence position in a power cable, characterized by estimating the position at which discharge occurs.
The method of claim 2,
When the mixed first trigger pulses displayed through the first display unit in synchronization with the first display unit deviate from the level range of the first trigger pulse which becomes the reference, a partial discharge at a measuring point of the power cable with an alarm Partial discharge generation position estimation system in the power cable further comprises a first alarm unit that can be confirmed by estimating the location to occur.
The method of claim 3, wherein
When the mixed second trigger pulses displayed through the second display unit in synchronization with the second display unit deviate from the level range of the reference second trigger pulse, a partial discharge is generated at an measuring point of the power cable with an alarm. Partial discharge generation position estimation system in the power cable further comprises a second alarm unit that can be confirmed by estimating the location to occur.
The method of claim 1,
The first current sensing unit,
A first pulse measuring sensor mounted on the power cable and spaced apart from the pulse injecting unit to measure the pulse signal corresponding to the pulse injecting unit; And
In the power cable is mounted to the power cable, including a first current detection sensor spaced apart from the pulse injection unit and the first pulse measuring sensor to detect a current corresponding to the power being transmitted inside the power cable Partial discharge occurrence position estimation system of
The method of claim 1,
The second current sensing unit,
A second pulse measuring sensor mounted on the power cable and spaced apart from the pulse injection unit and the first current sensing unit to measure the pulse signal corresponding to the pulse injection unit; And
The first current sensing unit is mounted on the power cable, the current corresponding to the power being transmitted inside the power cable spaced apart from the pulse injection unit, the first current sensing unit, and the second pulse measuring sensor. And a second current detection sensor for detecting a time difference with the second power generation position estimation system in the power cable.

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