CN200968969Y - Aircore coil current sensor with magnet core - Google Patents

Abstract

The air-core coil current sensor with a magnetic core belongs to the current measurement equipment, which is used for the measurement of AC and transient current, and overcomes the problems of magnetic saturation and residual magnetism to accurately sense the AC and transient current. (1) The sensor head structure of the utility model is: on the annular magnetic core, uniform double wires are wound with the first detection coil and the second detection coil with the same structure and parameters, and a copper or aluminum shielding layer is arranged outside the detection coil; The ring magnetic core is formed by putting magnetic particles into a liquid curable insulating material, and then adding additives to solidify and form; (2) The first detection coil and the second detection coil are connected in parallel to form a detection coil, and the double end of the same name is connected to the resistance end of the RC integral circuit The other end of the resistor is connected to one end of the capacitor, and the double opposite end of the first detection coil and the second detection coil are connected to the other end of the capacitor. The utility model has the advantages of undistorted waveform, wide measurement frequency range, passive sensor and high reliability operation structure, and can be widely used in electric power system and electric technical field.

Description

Air Core Current Sensor with Magnetic Core

technical field

The utility model belongs to current measuring equipment in the electric technology, which is used for the measurement of alternating current and transient current.

Background technique

Patent application number 200410038299.6 for the invention patent application "on-line demagnetization method for electromagnetic current transformer core", is to connect the demagnetization device to the secondary side of the electromagnetic current transformer and connect it in series with the load. The demagnetization device is a power electronic switch Device bidirectional thyristor and its control circuit and current sensor, timing (such as once a year) or operating personnel operate according to the current situation of the circuit; but the secondary side of the electromagnetic current transformer is connected in series or parallel active power electronic switching device or Passive devices, once the device fails or is damaged, especially in the series demagnetization method, the secondary side of the current transformer may be open, which will generate high voltage and cause dangerous consequences; therefore, they have reliability problems that cannot be ignored. The patent application number 200410042701.8 of the invention patent application "Meter Type Electromagnetic Current Transformer Remanence Online Suppression Method" is to connect the residual magnetism suppression device between the secondary side of the electromagnetic current transformer and the load. The output voltage on the secondary side of the current transformer is limited to a preset level, the magnetic flux in the iron core will be limited and will not increase significantly, and the residual magnetism in the iron core will be limited after the current is stopped; but in this application, parallel devices use Anti-series voltage stabilizing or rectifying diodes, transient voltage suppressing diodes or metal oxide varistors are connected in parallel with the load. Due to temperature changes and time changes in long-term use, these devices may have gradual performance changes, such as increased leakage current. Then the measurement error of the load is increased, which is a problem worthy of special attention for the meter type transformer.

Patent No. ZL 03224089.9 is a utility model patent "Hollow Coil Current Transformer", which includes a current signal sensing head and a current sensing signal processing circuit. The current signal sensing head includes a ring-shaped non-magnetic support frame and a signal induction coil wound by an electromagnetic wire. The coil is wound on the non-magnetic support frame and forms an induction body with the frame. This device belongs to the traditional air-core coil current transformer. It does not have the problems of ferromagnetic saturation and residual magnetism. It has a wide measurement frequency range and is light in weight. It may be very large, the signal-to-noise ratio is not high, and it is impossible to transmit weak voltage signals over long distances. It often requires an active integrator to connect nearby to integrate and amplify the signal. It is an active sensor and is subject to many restrictions in use.

Contents of the invention

The utility model provides an air-core coil current sensor with a magnetic core, which overcomes the problems of magnetic saturation and residual magnetism, and accurately senses alternating current and transient current. The operating structure can be widely used in the fields of electric power system and electrotechnical technology.

The hollow coil current sensor with a magnetic core of the utility model is composed of a sensor head, an integral circuit composed of a resistor and a capacitor, and is characterized in that:

(1) The structure of the sensing head is: on the annular magnetic core, a first detection coil and a second detection coil with the same structure and parameters are evenly double-wired, and a copper or aluminum shielding layer is arranged outside the detection coil; The annular magnetic core is formed by putting magnetic particles into a liquid curable insulating material, adding additives, stirring evenly, pouring it into a ring mold, and curing it;

(2) described resistance, electric capacity form RC integral circuit; The homonymous end of described first detection coil, non-homologous end and the homonymous end of second detection coil, non-homologous end are connected in parallel, constitute a detection coil, double homonymous end and One end of the resistor of the RC integral circuit is connected, the other end of the resistor is connected to one end of the capacitor, and the double opposite ends of the first detection coil and the second detection coil are connected to the other end of the capacitor;

(3) During self-calibration, the same-named end and non-identical end of the first detection coil and the second detection coil are disconnected to form two coils with the same structure and parameters for self-calibration.

The air-core coil current sensor with a magnetic core is further characterized in that: in the ring magnetic core, the magnetic particles are (0.1-99)% by weight, and the others are liquid curable insulating materials and additives.

In the air-core coil current sensor with a magnetic core, the magnetic particles in the annular magnetic core can be Fe, CO, Ni, FeCO, NiFe, Fe ₃ O ₄ , Fe ₂ O ₃ , and the additive can be an amine curing agent, Ethylenediamine, dibutyl fat, and liquid curable insulating materials are resins and modified resins.

The utility model not only has the advantages of the iron core current transformer of the patent application No. 200410042701.8 "on-line suppression method for the residual magnetism of the meter type electromagnetic current transformer", but also belongs to the passive current sensor, does not need to provide power to the sensor, has high reliability, and is resistant to Strong interference ability, easy to use; at the same time, it also has the advantages of the air-core current transformer of the patent number ZL 03224089.9 "air-core coil current transformer". . The utility model can be widely used in the fields of electric power system and electrotechnical technology.

Description of drawings

Fig. 1 is the external figure of the sensor head of the utility model;

Fig. 2 is a cross-sectional view of the sensing head of the utility model;

Fig. 3 is the circuit connection diagram of the utility model.

Detailed ways

The utility model is further described now in conjunction with accompanying drawing.

As shown in Figure 1, the sensing head profile of the present utility model is annular, and its cross-section is as shown in Figure 2: the annular magnetic core C ₁ is magnetic particles, such as Fe, CO, Ni, FeCO, NiFe, Fe ₃ O ₄ , Fe ₂ O ₃ , etc., put into liquid curable insulating materials such as resin or modified resin, add a certain amount of additives, such as amine curing agent, ethylenediamine, dibutyl fat, etc., stir well and pour Into the ring mold, solidify the shaped magnetic core. Outside the annular magnetic core _C1 , a first detection coil _W21 and a second detection coil _W22 are wound in parallel with two wires, and a copper shielding layer E is provided outside the detection coil.

For example, select Fe powder with a weight percentage of 0.1%, put it into a modified resin, add an amine curing agent, stir evenly, pour it into a ring mold, and solidify to form a magnetic core. Fe ₃ O ₄ powder with a weight percentage of 99% can also be selected, put into the resin, add ethylenediamine and dibutyl fat additives, stir evenly, pour into a ring mold, and solidify to form a magnetic core.

The primary winding W ₁ shown in Fig. 3 is the bus bar that transmits the measured AC and transient current i, usually W ₁ = 1, that is, the bus bar has 1 turn, passing through the central hole of the sensor head as shown in Fig. 1 .

Figure 3 shows the circuit diagram of an air-core coil current sensor with a special magnetic core. In the sensor head T, the first detection coil W ₂₁ wound in parallel with the second detection coil W ₂₂ has the same name terminal 1 connected with a wire, and connected to one end of the resistance R of the passive RC integrator, and the other end of the resistance R One end is connected with one end of the capacitor C to form a terminal button of the sensor output voltage signal _U2 . The opposite ends 2 of the first detection coil W ₂₁ and the second detection coil W ₂₂ are connected by wires, and connected to the other end of the capacitor C of the passive RC integrator to form the other end of the sensor output voltage signal U ₂ .

After the sensor is put into measurement operation, the busbar W ₁ (W ₁ = 1) passes through the measured AC or transient current i, and the magnetic field generated by the current i is coupled by the special ring magnetic core C ₁ , and the first detection coil W ₂₁ in parallel Between the two ends 1 and 2 of the second detection coil W ₂₂ , a mutual inductance voltage U ₁ is generated, and U ₁ =M·di/dt, where M is the mutual inductance coefficient. Since the ring magnetic core is to put magnetic particles, such as Fe, CO, Ni, FeCO, NiFe, Fe ₃ O ₄ , Fe ₂ O _3, etc., into a liquid curable insulating material such as resin, and add a certain amount of additives, such as Amine curing agent, ethylenediamine, dibutyl fat, etc., and then cure the formed magnetic core. ①It has the characteristics of low magnetic permeability, low magnetic induction, wide frequency band, and wide linear range of magnetic field intensity. The first detection coil W ₂₁ and the second detection coil W ₂₂ are similar to traditional air-core coil current transformers, which are open-circuit operation mode of voltage output, so they are called air-core coil current sensors with magnetic cores. From the mutual inductance formula M=μ ₀ NS/L of the air-core coil, it can be known that the magnetic core increases the magnetic permeability of the air-core coil μ ₀ to a moderate μ _r , and the mutual inductance M can be increased accordingly, so that the induced voltage of the air-core coil increases to several volts to several Ten volts of safe voltage, which is much larger than the noise interference voltage, and the signal-to-noise ratio is high, and the signal can be directly transmitted within hundreds of meters from the field to the control room; at the same time, the magnetic core plays a more effective role in restraining the measured current and magnetic field . ②From the formula of mutual inductance M, it can be seen that if the mutual inductance M, the length L of the air-core coil, and the cross-sectional area S are constant, since μ ₀ is increased to μ _r , the number of turns N of the air-core coil can be reduced, thereby reducing the parasitic parameter inductance L ₀ of the air-core coil , capacitance C ₀ , and resistance R ₀ , it can be seen from the formula f=1/[2π(L ₀ C ₀ ) ^1/2 ] of the upper limit frequency of the air-core coil that the broadband effect is achieved. ③Because the output voltage signal of this air-core coil with a magnetic core is greatly improved, the passive RC integrator can be directly connected behind the coil. Like the integrator, the passive integrator can also obtain a relatively ideal output effect, that is, U ₂ =-Mi/(RC). Because the mutual inductance M, capacitance C, and resistance R are all constants, the output voltage U ₂ is proportional to the measured current i, and the measured current can be accurately measured.

The utility model combines the iron core structure of the core transformer, which is the core, with the principle of the hollow transformer with the secondary coil open-circuit operation, to form a hollow coil current sensor with a magnetic core, which has the hollow transformer without magnetic circuit saturation and It has the characteristics of remanence, small distortion, wide frequency band and simple structure. It also has the characteristics of iron core transformer without auxiliary power supply, strong anti-interference ability, flexible and convenient use, and passive sensor; because the magnetic source of this magnetic core is magnetic Particles can also be used efficiently in high frequency bands; since the magnetic field strength of the magnetic core maintains linearity in the magnetization curve within a wide range, this sensor has the characteristics of low distortion when measuring AC and transient currents.

Claims (3)

1. A kind of hollow coil current sensor with magnetic core, is made up of the integrating circuit that sensing head and resistance, electric capacity form, it is characterized in that: (1) The structure of the sensing head is: on the annular magnetic core, a first detection coil and a second detection coil with the same structure and parameters are evenly double-wired, and a copper or aluminum shielding layer is arranged outside the detection coil; The annular magnetic core is formed by putting magnetic particles into a liquid curable insulating material, and then adding additives to solidify and form it; (2) described resistance, electric capacity form RC integral circuit; The homonymous end of described first detection coil, non-homologous end and the homonymous end of second detection coil, non-homologous end are connected in parallel, constitute a detection coil, double homonymous end and One end of the resistor of the RC integral circuit is connected, the other end of the resistor is connected to one end of the capacitor, and the double opposite ends of the first detection coil and the second detection coil are connected to the other end of the capacitor; (3) During self-calibration, the same-named end and non-identical end of the first detection coil and the second detection coil are disconnected to form two coils with the same structure and parameters for self-calibration. 2. The air-core coil current sensor with a magnetic core as claimed in claim 1, characterized in that: in the annular magnetic core, the magnetic particles are (0.1-99)% by weight, and the others are liquid curable insulating materials and additives. 3. The air-core coil current sensor with a magnetic core as claimed in claim 1 or 2, wherein the magnetic particles in the annular magnetic core are Fe, Co, Ni, FeCo, NiFe, Fe ₃ O ₄ , Fe ₂ O ₃ , the additives are amine curing agents, ethylenediamine, and dibutyl fat, and the liquid curable insulating materials are resins and modified resins.

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