KR20100005932U - Circuit for detecting current of ionless current sensor and system using therewith - Google Patents

Abstract

The present invention relates to a current detection circuit of a current sensor and a protection relay using the same, and more particularly, to a current detection circuit having improved reliability and accuracy in a current sensor using a Rogowski coil and a protection relay using the same. To this end, the circuit for detecting the current amount of the iron-free core-type current sensor using a Rogowski coil, comprising: an amplifier for amplifying an electric signal from a Rogowski coil to a predetermined size; A first filter unit which receives the output of the amplifier and removes the DC offset; A second filter unit receiving the output of the first filter unit and removing noise; And an integrator for integrating and outputting the output signal of the second filter unit. The present invention provides a current detection circuit of a non-iron type current sensor and a current detection system using the same.

Rogowski coil, current sensor, protective relay

Description

Circuit for detecting current of ionless current sensor and system using therewith}

The present invention relates to a current detection circuit of a non-iron current sensor and a current detection system using the same, and more particularly, a current detection circuit having improved reliability and accuracy in a non-iron current sensor using Rogowski coils and a current detection system using the same. It is about.

As power loads increase in precision electronic devices such as semiconductors, communication devices, and computers, various technologies are required in power technology fields such as power quality control, distribution automation, and high performance of power facilities. And, of course, such a technique should be preceded by accurate measurement of the amount of electricity, such as current, voltage, their phase, power.

Among them, techniques such as current transformers, hall sensors, optical classifiers, etc. are generally used to measure large currents, and current transformers using cores of ferromagnetic materials are widely used. However, in the case of the magnetic material using the core of the ferromagnetic material, there is a problem in that saturation occurs and the measurement range of the current is limited. In addition, there was a problem that the size is large and heavy, and high voltage and product damage due to the secondary opening of the current transformer.

In addition, an electronic circuit breaker or relay measures up to a short circuit fault current corresponding to several tens to several hundred times of the rated current to determine a break time suitable for the fault current, and measures a wide range of current within a predetermined error range. If a current transformer of a magnetic body using a core of a conventional ferromagnetic material is used in the electronic circuit breaker or the relay, the current of the entire range must be subdivided to use a plurality of current transformers.

The present invention was created to solve the above problems, and an object of the present invention is to provide a current detection circuit and a current detection system using the same, which minimizes the influence of noise and further increases the accuracy of detection of the amount of current.

An object of the present invention as described above, the circuit for detecting the current amount of the iron-free core-type current sensor using a Rogowski coil,

An amplifier for amplifying the electrical signal from the Rogowski coil to a predetermined size;

A first filter unit which receives the output of the amplifier and removes the DC offset;

A second filter unit receiving the output of the first filter unit and removing noise; And

And an integrator for integrating and outputting the output signal of the second filter unit.

The first filter part is a high frequency band filter, and the second filter part uses a low frequency band filter.

In addition, a booster circuit unit for amplifying the output of the integrator may be further included.

An object of the present invention as described above is provided with a current detection circuit of the iron-free current sensor and the iron-free current sensor using a Rogowski coil for measuring a large current,

An A / D converter converting an output signal of the current detection circuit into a digital signal;

A DSP circuit unit for integrating the signal converted by the A / D converter;

A display unit configured to output a current amount measured by the iron-free current sensor to a screen;

It is achieved by a current detection system comprising a; communication unit for transmitting a current amount measured in the iron-free current sensor to a remote user.

Therefore, according to the embodiment of the present invention as described above, there is an advantage that can detect the amount of current of the iron-free current sensor minimized the effect of noise.

In addition, unlike the Rogowski coil, which has a very small output voltage, there is an advantage in that an accurate current amount can be detected by maximizing the output amount while minimizing noise.

In addition, by using the current detection system using the same, there is an advantage that it is possible to immediately monitor and remote control in an industrial site that detects the amount of current and simultaneously measures the amount of current.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. Prior to describing the present invention, if it is determined that a detailed description of related known functions and configurations may unnecessarily obscure the subject matter of the present disclosure, the description thereof will be omitted.

<Current Detection Circuit>

1 is a block diagram of a current detection circuit of the iron-free current sensor according to the present invention. The current detection circuit according to the present invention includes an amplifier 10, the first and second filter units 20 and 30, the integrator 40, the booster circuit unit 50 and the like.

The ironless current sensor 1 uses Rogowski coils. Rogowski coil is a method of measuring the current indirectly by measuring the electromotive force induced by the change of the magnetic flux chain bridge changes the magnetic flux chain bridge generated by the current to be measured in accordance with the ampere rotation law. Unlike the current transformer of the ferromagnetic core, the Rogowski coil of the ironless current sensor uses an air-concentric or nonmagnetic material (μ = 1). Thus, there is a linear relationship between the measured current and the induced voltage over a wide range of currents that are not magnetically saturated.

The amplifier 10 receives the signal of the current output from the non-iron type current sensor 1 and amplifies it to a predetermined size. Since the output voltage of the Rogowski coil is low in the region where the magnitude of the current is small, the ironless current sensor 1 using Rogowski coil should be amplified by the required size.

The first filter unit 20 receives the output of the amplifier 10 and removes the DC offset included in the output voltage of the Rogowski coil amplified by a predetermined size. In this case, the first filter unit 20 preferably uses a high frequency band filter (HPF).

The second filter unit 30 receives the output of the first filter unit 20 and removes noise included in the output voltage passing through the first filter unit 20, in particular, noise of harmonic components. In the case of Rogowski coil, there is a disadvantage in that the accuracy is reduced in detecting the current under the influence of the external noise, and it is preferable to remove the noise using the second filter unit 30. As the second filter unit 30, a low frequency band filter (LPF) is preferably used.

As shown in FIG. 1, the first filter unit 20 and the second filter unit 30 may be configured such that an output voltage of the first filter unit 20 is an input of the second filter unit 30. In addition, the order of the output voltage of the second filter unit 30 may be changed so that the first filter unit 20 is input.

Since the output signal of the second filter unit 30 is a differential form of current, as shown in FIG. 1, the integrator 40 may be provided to integrate the output signal of the second filter unit 30. The output signal passing through the integrator 40 may pass through the booster circuit unit 50 to be amplified for a predetermined frequency band.

<Current Detection System>

2 is a schematic block diagram of a current detection system using a current detection circuit according to the present invention. As shown in FIG. 2, the current detection system 1000 according to the present invention includes a current sensor 1, a current detection circuit 100, an A / D conversion unit 200, a DSP circuit unit 300, and a display unit 400. ), The communication unit 500 and the like.

Since the current sensor 1 and the current detection circuit 100 using the Rogowski coil is the same as mentioned above, the above description is replaced with the above description, and hereinafter, the rest of the configuration will be described.

The current detection system 1000 may include a plurality of current sensors 1 using Rogowski coils to receive signals from the voltage sensor 1 'as well as various current signals. The signal generated from the current sensor 1 passes through the current detection circuit 100 described above, and the noise is removed and the signal is also amplified. As the signal generated from the voltage sensor 1 'passes through the voltage detection circuit 100', noise may be removed and the signal may be output in an amplified state similarly to the current sensor 1. In addition, of course, a plurality of current sensors 1 may be provided.

The signals of the voltage sensor 1 ′ and the current sensor 1 are applied to the multiplexer 150, and the multiplexer 150 selectively applies a plurality of current signals and voltage signals to the A / D converter 200. .

The A / D converter 200 receives an output signal from the current detection circuit 100 and converts the signal into a digital signal. The output signal of the current detection circuit 100 is an analog signal, is converted into a digital signal by the A / D converter 200 and is applied to the DSP circuit unit 300.

The DSP circuit unit 300 integrates the signal applied from the A / D converter 200 and performs an algorithm according to the case where the current detection system 1000 according to the present invention is used. More specifically, when the current detection system 1000 according to the present invention is used as a motor protection relay, the DSP circuit unit 300 stores the current measurement or the algorithm for protecting the motor based on the current measurement or the motor based on the stored algorithm. Operation of a breaker (not shown) for protection is made.

The display unit 400 outputs the amount of current measured by the ironless current sensor 1 to the user on the screen. The display unit 400 has the advantage that the user can immediately visually check the amount of current in the industrial field in which the current detection system according to the present invention is used. The display unit 400 may be configured of an LCD, an organic LED, and the like.

The communication unit 500 transmits data corresponding to the amount of current measured by the ironless current sensor 1 to a computer terminal of a remote user. If the display unit 400 is intended for a user of an industrial site in which the current detection system 1000 according to the present invention is used, the communication unit 500 is configured for a remote user. The communication unit 500 preferably includes a receiver (not shown) that receives a remote control signal of a remote user.

The current detection system 1000 having the configuration as described above is applicable not only to the motor protection relay but also to all industrial fields that detect and use the current.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications or variations without departing from the spirit and scope of the invention. Accordingly, the appended claims will cover such modifications and variations as long as they fall within the spirit of the present invention.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present specification, and together with the detailed description of the present invention, serve to further understand the technical spirit of the present invention. It should not be interpreted.

1 is a block diagram of a current detection circuit of the iron-free current sensor according to the present invention,

2 is a schematic block diagram of a current detection system using a current detection circuit of the iron-free current sensor according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: iron-free current sensor

10: amplification unit

20: first filter unit

30: second filter unit

40: integrator

50: booster circuit

100: current detection circuit

150: multiplexer

200: A / D converter

300: DSP circuit part

400: display unit

500: communication unit

1000: current detection system

Claims (4)

A circuit for detecting the amount of current of the iron-free core type current sensor using a Rogowski coil, An amplifier for amplifying the electrical signal from the Rogowski coil to a predetermined size; A first filter unit which receives the output of the amplifier and removes the DC offset; A second filter unit which removes noise by receiving the output of the first filter unit; And And an integrator for integrating and outputting the output signal of the second filter unit. The method of claim 1, And the first filter part is a high frequency band filter, and the second filter part is a low frequency band filter. The method of claim 1, And a booster circuit unit for amplifying the output of the integrator. And a current detecting circuit of the ironless core current sensor using a Rogowski coil for measuring a large current and the ironless core current sensor according to any one of claims 1 to 3, An A / D converter converting the output signal of the current detection circuit into a digital signal; A DSP circuit unit for integrating the signal converted by the A / D converter; A display unit which outputs a current amount measured by the iron-free current sensor to a screen; And a communication unit for transmitting the amount of current measured by the iron-free current sensor to a remote user.

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