CN113552401A - High-frequency current sensor adopting auxiliary winding degaussing and discharge current detection method - Google Patents

Abstract

Translated fromChinese

本发明公开了一种采用辅助绕组消磁的高频电流传感器，包括磁芯、主绕组N_T和辅助消磁绕组，所述主绕组N_T和辅助消磁绕组均绕制在磁芯上，主绕组N_T与外部信号处理电路相连，得到放电电流；辅助消磁绕组为由匝数为N_S单匝绕组构成的绕组、由匝数相同的多个绕组构成的绕组、由匝数不同的多个绕组构成的绕组、由多个短路环构成的绕组中的任意一个；本发明还公开了一种放电电流检测方法，具体包括：当高频电流传感器一次侧流过工频电流i_p时，辅助消磁绕组上感应出对应大小的电流，其电流总和∑i_s≈i_p，抵消一次侧工频电流i_p的励磁；通过主绕组N_T与外部信号处理电路相连，实现放电电流检测。

The invention discloses a high-frequency current sensor adopting auxiliary winding degaussing, comprising a magnetic core, a main winding_NT and an auxiliary degaussing winding. Both the main winding_NT and the auxiliary degaussing winding are wound on the magnetic core, and the main winding N_T is connected to the external signal processing circuit to obtain the discharge current; the auxiliary degaussing winding is a winding composed of a single-turn winding with the number of turns N_S , a winding composed of a plurality of windings with the same number of turns, and a plurality of windings with a different number of turns. any one of the windings formed by a plurality of short-circuit rings; the invention also discloses a discharge current detection method, which specifically includes: when the power frequency current i_p flows through the primary side of the high-frequency current sensor, the auxiliary degaussing winding is A current of corresponding size is induced on the upper side, and the sum of its currents ∑i_s ≈ i_p , which cancels the excitation of the primary side power frequency current i_p ; the main winding_NT is connected to an external signal processing circuit to realize the detection of the discharge current.

Description

High-frequency current sensor adopting auxiliary winding degaussing and discharge current detection method

Technical Field

The invention belongs to the technical field of current measurement, and particularly relates to a current sensor and a current detection method capable of effectively transmitting high-frequency small current components under the background of power frequency or low-frequency large current.

Background

When the electrical equipment runs for a long time, the temperature can be kept higher, the insulating material becomes brittle and aged, the insulating property is reduced, the discharge phenomenon is easy to occur inside or on the surface of the insulating material of the electrical equipment, and the discharge phenomenon existing in an insulating medium is a complex electrical process. Although it has a small discharge energy and does not directly break down the insulation, it can cause partial damage to the dielectric. When the insulation material is used all the time, the insulation material can be changed in quality and completely broken down under special environment, so that the normal operation of electrical equipment is influenced, and safety accidents are caused.

At present, there are various methods for detecting discharge current, among which the pulse current detection method is the earliest studied and most widely used. The measurement principle is as follows: when a discharge occurs, this causes a movement of the charge, which generates a pulsed current (in the order of mA) in the peripheral measuring circuit, which is detected to enable the measurement of the discharge current.

The existing current sensor is used for detecting the discharge current, and has certain limitation and deficiency in use.

1. The Rogowski coil, a current sensor for detecting the current of a high-voltage side or a transmission line, is generally mainly used for measuring large current, overload current and short-circuit current, and because of the hollow coil, the magnetic core cannot be saturated when the power frequency is large current, but if the Rogowski coil is used for detecting discharge current, the sensitivity is low, and the requirement of milliampere-level high-frequency current measurement cannot be met.

2. A high frequency current sensor for ground side discharge current detects can satisfy milliampere level high frequency current measurement sensitivity requirement, but if be used for high-voltage side or power transmission line time, power frequency operating current can lead to the magnetic core saturation, can not normally pass and become under the power frequency heavy current condition.

Therefore, a high-frequency current sensor is needed, which can eliminate the influence of power frequency current and detect the high-frequency discharge current of mA level. There is currently no relevant technology that meets the needs.

Disclosure of Invention

The purpose of the invention is as follows: in order to solve the problem that a discharge current signal is difficult to effectively extract from a large-current working current when a high-frequency current sensor is used on the high-voltage side of a transformer or a transmission line, the invention provides a high-frequency current sensor adopting an auxiliary winding for demagnetization and a current detection method, and the effective transmission of a high-frequency small current component is realized under the background of power frequency or low-frequency large current.

The technical scheme is as follows: a high-frequency current sensor adopting auxiliary winding for degaussing comprises a magnetic core and a main winding N_TAnd an auxiliary degaussing winding, the main winding N_TThe auxiliary degaussing winding is wound on the magnetic core;

the main windingGroup N_TThe discharge current is obtained by connecting the discharge current with an external signal processing circuit;

the auxiliary degaussing winding is composed of N turns_SThe coil may be any one of a coil formed of a single-turn coil, a coil formed of a plurality of coils having the same number of turns, a coil formed of a plurality of coils having different numbers of turns, and a coil formed of a plurality of short-circuit rings.

Further, the main winding N_TAnd the discharge current is obtained by connecting the non-inductive resistor with an external signal processing circuit.

Further, each output of the auxiliary degaussing winding is short-circuited.

Furthermore, each output of the auxiliary degaussing winding is externally connected with an inductor.

Furthermore, each output of the auxiliary degaussing winding is short-circuited and connected with the magnetic ring in series.

Further, the main winding N_TAnd an auxiliary degaussing winding wound on the frame and provided with a main winding N_TAnd a distance is kept between the framework of the auxiliary degaussing winding and the magnetic core.

The invention provides a discharge current detection method based on the high-frequency current sensor adopting the auxiliary winding for demagnetization, which specifically comprises the following steps:

when the primary side of the high-frequency current sensor flows the power frequency current i_pWhen the auxiliary demagnetization winding induces currents with corresponding magnitude, the sum sigma i of the currents_s≈i_pTo offset the primary side power frequency current i_pExcitation of (3);

through the main winding N_TAnd the detection circuit is connected with an external signal processing circuit to realize discharge current detection.

Has the advantages that: compared with the prior art, the invention has the following advantages:

(1) the high-frequency current sensor adopting the auxiliary winding for demagnetization can transmit milliampere high-frequency current signals under the background of hundreds and thousands of amperes of power frequency current;

(2) the high-frequency current sensor adopting the auxiliary winding for demagnetization has obvious counteraction effect on primary side power frequency current, and can reach 1V/1000A magnitude, namely the induced voltage of 1000A power frequency current is less than 1V;

(3) the high-frequency current sensor for demagnetization of the auxiliary winding can detect a discharge current signal with a frequency band of hundreds of K to tens of M hertz, and the measuring frequency range of the sensor can be adjusted by adjusting the material of the magnetic core;

(4) the multi-winding or short-circuit ring demagnetization is beneficial to reducing the influence of winding parasitic capacitance on the high-frequency transmission characteristic of the sensor, the fault tolerance is stronger, and the reliability of the corresponding primary side power frequency current offset is higher;

(5) the auxiliary windings output short circuits or are externally connected with elements such as inductors, magnetic beads and the like, the short circuit effect on low-frequency current is obvious, and the short circuit effect on high-frequency current is limited due to leakage inductance of the auxiliary windings and impedance of the elements such as the externally connected inductors, the magnetic beads and the like; the auxiliary winding is adopted for demagnetization, so that the influence of the winding parasitic capacitance on a high-frequency current signal can be reduced, and the high-frequency transmission characteristic is improved. Generally, the transmission ratio (voltage/current) of the high-frequency current can reach at least 1V/A, namely, the induced voltage of the current signal of 1mA can reach 1 mV.

Drawings

FIG. 1 is a schematic wiring diagram of a conventional high-frequency current sensor;

FIG. 2 is a schematic diagram of a single winding, multiple windings and short circuit ring degaussing connection;

FIG. 3 is a schematic diagram of demagnetization wiring of a single winding, multiple windings and a short-circuit loop connection inductor or a series of magnetic rings;

fig. 4 is a schematic diagram of a current sensor for auxiliary winding degaussing.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and embodiments.

Referring to fig. 1, when the conventional high-frequency current sensor is used on a high-voltage side or a power line, the primary side operating current easily causes saturation of the sensor core, which makes the measurement impossible.

As shown in fig. 2, 3 and 4, the core of the high-frequency current sensor employing auxiliary winding degaussing is in the design of winding, the winding includes a main winding and an auxiliary degaussing winding, the main winding and the auxiliary degaussing winding are both wound around a magnetic core, and the main winding and the auxiliary degaussing winding are located at different positions of a magnetic ring, and the area occupied by the main winding is usually small; the number of turns and the wire diameter of the main winding and the auxiliary demagnetizing winding are determined according to the rated working current of the primary side, the main winding and the auxiliary demagnetizing winding are normally wound in a forward direction without overlapping, and in order to reduce parasitic capacitance, the windings can be wound on the framework and keep a certain distance from the magnetic core. According to the application, the magnetic core in the current sensor can adopt a whole ring, two semi-rings or a magnetic core in other shapes or spliced by a plurality of blocks, the size of the magnetic core is determined according to the application, the magnetic core in the current sensor usually adopts ferrite with good high-frequency characteristics, and the magnetic core can also adopt other magnetic cores made of materials with better high-frequency characteristics.

The main winding functions similarly to a conventional high-frequency current sensor, the main winding N_TThe output is generally connected with a noninductive resistor of dozens of ohms, or not connected with the resistor, a signal processing circuit is directly sent by adopting a shielding twisted pair or a coaxial cable, and the current on a main winding is relatively small (mA level).

Referring to fig. 2, the auxiliary degaussing winding may be made of enameled wire or insulated wire, and may have N turns_SThe single-turn winding may be a plurality of windings N1-Nn with the same number of turns, or a plurality of windings with different numbers of turns, and the number of corresponding turns is k 1-kn, or may be a plurality of (number N) single-turn windings (called short-circuit rings), and these windings have the common characteristic of low-frequency impedance, and each winding output in the auxiliary degaussing winding can be directly short-circuited, or connected with an inductor, or short-circuited and connected in series with a magnetic ring, so as to improve the impedance at high frequency, as shown in fig. 2 to 4, where Lr 1-Lrn in fig. 4 are parasitic inductors or external inductors of the auxiliary degaussing winding.

The main winding and the auxiliary degaussing winding are arranged in the same shell, and the shell can be made of metal (with an opening at the inner layer) or nonmetal.

During operation, supplementary demagnetization winding offsets the excitation of a power frequency current to the sensor magnetic core to utilize winding impedance frequency characteristic to reduce the influence to the high frequency current transmission, thereby improve discharge current signal transmission SNR by a wide margin, it is specific: when the high-frequency current sensor is used onceSide flowing industrial frequency current i_pWhen the high-frequency current sensor is used, a current with a corresponding magnitude is induced on an auxiliary demagnetizing winding of the high-frequency current sensor, and the sum sigma i of the currents_sAnd a power frequency current i of the primary side_pApproximately equal to each other, and the excitation of primary side power frequency current is counteracted to the maximum extent. The auxiliary degaussing winding has certain influence on a high-frequency current signal, mainly aims to induce and shunt the high-frequency current by the auxiliary degaussing winding, particularly reduces the high-frequency impedance of the auxiliary degaussing winding due to parasitic capacitance at high frequency, can be connected with an inductor or a magnetic ring (magnetic bead) at the output of the auxiliary degaussing winding in order to reduce the influence on the high-frequency signal as much as possible, improves the high-frequency impedance, and can reduce the influence of the parasitic capacitance to the maximum extent by adopting a plurality of short circuit rings for degaussing.

Based on the sensor with the structure, the invention also discloses a discharge current detection method, which specifically comprises the following steps:

when the primary side of the high-frequency current sensor flows the power frequency current i_pWhen the auxiliary demagnetization winding induces currents with corresponding magnitude, the sum sigma i of the currents_s≈i_pTo offset the primary side power frequency current i_pExcitation of (3);

through the main winding N_TAnd the detection circuit is connected with an external signal processing circuit to realize discharge current detection.

The high-frequency current sensor adopting the structure has the characteristic of effectively transmitting the high-frequency small current component under the background of power frequency or low-frequency large current. Now, the practical test is carried out on the high-frequency current sensor for demagnetizing the auxiliary winding with the structure, and the specific structural parameters are as follows: the size of the magnetic core is 120/85/20(mm), the sampling winding has 16 turns (load 50 ohm noninductive resistance), and 40 single turns (string magnetic beads) are short-circuited. The degaussing effect of the actual test is shown in table 1, and the high frequency transmission characteristic is shown in table 2. As can be seen from tables 1 and 2, the high-frequency current sensor for demagnetizing the auxiliary winding having the above-described structure has a characteristic of effectively transmitting a high-frequency small current component in a background of a large current at a power frequency or a low frequency.

TABLE 1 Primary side Power frequency Current demagnetization Effect

TABLE 2 Voltage-Current Transmission relationship at high frequencies

Claims (7)

Translated fromChinese

1.一种采用辅助绕组消磁的高频电流传感器，其特征在于：包括磁芯、主绕组N_T和辅助消磁绕组，所述主绕组N_T和辅助消磁绕组均绕制在磁芯上；1. a high-frequency current sensor adopting auxiliary winding degaussing is characterized in that: comprise magnetic core, main winding_NT and auxiliary degaussing winding, and described main winding_NT and auxiliary degaussing winding are all wound on the magnetic core;所述主绕组N_T与外部信号处理电路相连，得到放电电流；The main winding_NT is connected with an external signal processing circuit to obtain a discharge current;所述辅助消磁绕组为由匝数为N_S单匝绕组构成的绕组、由匝数相同的多个绕组构成的绕组、由匝数不同的多个绕组构成的绕组、由多个短路环构成的绕组中的任意一个。The auxiliary degaussing winding is a winding composed of a single-turn winding with a number of turns of N_S , a winding composed of a plurality of windings with the same number of turns, a winding composed of a plurality of windings with different turns, and a winding composed of a plurality of short-circuit rings. any of the windings.2.根据权利要求1所述的一种采用辅助绕组消磁的高频电流传感器，其特征在于：所述主绕组N_T通过无感电阻与外部信号处理电路相连，得到放电电流。2 . The high-frequency current sensor using auxiliary winding demagnetization according to claim 1 , wherein the main winding_NT is connected to an external signal processing circuit through a non-inductive resistor to obtain the discharge current. 3 .3.根据权利要求1所述的一种采用辅助绕组消磁的高频电流传感器，其特征在于：所述辅助消磁绕组的每个输出短接。3 . The high-frequency current sensor using auxiliary winding degaussing according to claim 1 , wherein each output of the auxiliary degaussing winding is short-circuited. 4 .4.根据权利要求1所述的一种采用辅助绕组消磁的高频电流传感器，其特征在于：所述辅助消磁绕组的每个输出外接电感。4 . The high-frequency current sensor using auxiliary winding degaussing according to claim 1 , wherein each output of the auxiliary degaussing winding is connected to an external inductance. 5 .5.根据权利要求1所述的一种采用辅助绕组消磁的高频电流传感器，其特征在于：所述辅助消磁绕组的每个输出短接并串磁环。5 . The high-frequency current sensor using auxiliary winding degaussing according to claim 1 , wherein each output of the auxiliary degaussing winding is short-circuited with a parallel-serial magnetic ring. 6 .6.根据权利要求1所述的一种采用辅助绕组消磁的高频电流传感器，其特征在于：所述主绕组N_T和辅助消磁绕组绕制在骨架上，绕制有主绕组N_T和辅助消磁绕组的骨架与磁芯之间保持距离。6. A high-frequency current sensor using auxiliary winding degaussing according to claim 1, characterized in that: the main winding_NT and the auxiliary degaussing winding are wound on the bobbin, and are wound with the main winding NT and the auxiliary winding_. Keep the distance between the bobbin of the degaussing winding and the magnetic core.7.基于权利要求1至6任意一项所述的一种采用辅助绕组消磁的高频电流传感器的一种放电电流检测方法，其特征在于：具体包括：7. A discharge current detection method based on a high-frequency current sensor employing auxiliary winding degaussing according to any one of claims 1 to 6, characterized in that: it specifically comprises:当高频电流传感器一次侧流过工频电流i_p时，辅助消磁绕组上感应出对应大小的电流，其电流总和∑i_s≈i_p，抵消一次侧工频电流i_p的励磁；When the power frequency current i_p flows through the primary side of the high-frequency current sensor, a corresponding current is induced on the auxiliary degaussing winding, and the current sum ∑i_s ≈ i_p , which cancels the excitation of the power frequency current i_p on the primary side;通过主绕组N_T与外部信号处理电路相连，实现放电电流检测。The discharge current detection is realized by connecting the main winding_NT with the external signal processing circuit.

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