KR101211699B1 - Capacitor compansation apparatus and method for low loss of high frequency cable - Google Patents

Abstract

PURPOSE: A capacitor compensation device and method for a low loss of a high frequency cable are provided to connect a capacitor compensating the inside of the cable having a high inductance value by applying a Litz wire structure. CONSTITUTION: An inductance value as much as a difference between an inductance value of an inner wall wire(50) and an inductance value of an outer layer wire(90) is compensated for reducing the inductance value of the inner layer wire of a cable. A compensation capacitor(70) of 70 uF is connected only to the inner layer wire for reducing the inductance value of the inner layer wire. An L-C serial circuit is formed by connecting the compensation capacitor to the inner layer wire of the cable.

Description

CAPACCITOR COMPANSATION APPARATUS AND METHOD FOR LOW LOSS OF HIGH FREQUENCY CABLE}

The present invention relates to a capacitor compensation device and method for low loss of a high-frequency cable, and more particularly, when the current flows in the high-frequency cable, the current flows to the outside of the cable due to the skin effect generated in the high frequency region. The present invention relates to a capacitor compensation device and method for low loss of a high frequency cable that reduces current loss by reducing current loss by allowing current to flow evenly inside and outside the cable.

The existing cable has a stronger skin effect toward the high frequency region, and the current tends to flow only to the outside of the cable, resulting in a large loss. This is because the inductance (L) value inside the cable is larger than the outside, and the higher frequency, the impedance due to the inductance (L) inside the cable is much larger than the outside.

Conventionally, to solve this problem, the cable is divided into small wires using a Litz wire structure and twisted to mix the inside and the outside of the cable. There is a problem that it is difficult to twist the inside and the outside of the cable with thin wires that are thinner than the skin depth, which is an indicator of how much the thickness (thickness) flows through.

The present invention was devised to solve such a problem, and when it is difficult to twist the inside and outside of the cable, it is difficult to twist the Litz wire (Litz wire) by applying a capacitor to compensate for the inside of the cable having a large inductance (L) value It is an object of the present invention to provide a capacitor compensation device and method for low loss of a high-frequency cable so that the inductance (L) value of the inside and outside of the cable is equal by the connection.

According to one aspect of the capacitor compensation device for low loss of the high-frequency cable according to the present invention for achieving the above object, the inner layer of the cable consisting of n wires; An outer layer wire of a cable composed of 2n element wires on the outer side of the inner layer wire; And a compensation capacitor connected to the inner layer wire to compensate an inductance value equal to a difference between the inductance value of the inner layer wire and the inductance value of the outer layer wire so as to equalize the inductance value with respect to the area of the inner layer wire and the outer layer wire. .

In addition, according to one aspect of the capacitor compensation method for low loss of the high-frequency cable according to the present invention for achieving the above object, (a) the inner wire consisting of n wires and 2n wires on the outside of the inner wire Connecting a compensation capacitor to an inner wire of the cable, wherein the cable comprises an outer wire of the wire; (b) compensating an inductance value equal to a difference between an inductance value of the inner layer wire and an inductance value of the outer layer wire by a compensation capacitor connected to the inner layer wire of the cable; And (c) equalizing inductance values to areas of inner and outer wires of the cable by inductance compensation in step (b).

According to the present invention, when the inside and the outside of the cable is difficult to be twisted, by applying a Litz wire structure, connecting the capacitor to compensate the inside of the cable having a large inductance (L) value, the area inside and outside the cable Contrast inductance (L) is the same value has the effect of minimizing the loss.

1 is a view showing a cable of a Litz wire structure.
FIG. 2 is a diagram showing current test results of a cable of the Litz wire structure of FIG. 1. FIG.
FIG. 3 is a diagram illustrating current test results when a compensation capacitor is connected to an inner wire of the cable of the Litz wire structure of FIG. 1. FIG.
4 is a view showing the structure of a high-frequency low loss cable including a compensation capacitor according to another embodiment of the present invention.
5 is a view showing a capacitor compensation method for low loss of the high-frequency cable of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

1 is a diagram illustrating a cable of a Litz wire structure.

As shown in FIG. 1, a cable having a Litz wire structure braided only in each layer is hard to be twisted to the innermost and outermost wires. That is, since the inner wire 10 of the cable is twisted only inside, and the outer layer wire 30 is only twisted outside, the wires of the inner wire 10 have a larger inductance L value than the outer wire 30.

Litz wire is a cable made by insulating each of the wires with a diameter sufficiently smaller than the skin depth instead of one thick cable. Even if the wires are insulated, currents do not flow evenly inside and outside the cable unless the inside and outside are twisted to mix with each other, so that the loss cannot be reduced.

In addition, in large current cables with large currents, it is difficult to twist the inner and outer wells with thin wires sufficiently thinner than the skin depth of about 0.47 mm at 20 ㎑. This is because the number of wires is very large, and the additional space required due to the twisted structure increases.

FIG. 2 is a diagram illustrating a current test result of a cable of the Litz wire structure of FIG. 1.

As shown in FIG. 2, in the cable of the Litz wire structure of FIG. 1, 6 current strands of the inner layer wire 10 and 12 strands of the outer layer wire 30 were separately separated, and the current flowing was measured.

Since the outer layer wire 30 of the cable is 12 strands and is twice as wide as the inner layer wire 10 having 6 strands, the current must be twice as large as that of the inner layer wire 10 so that the current is uniformly distributed. Smallest However, as a result of the experiment, when the total current was 17.3 [A], the current flowing in the outer layer wire 30 of the cable was 15.1 [A], and the current flowing in the inner layer wire 10 was 2.2 [A]. That is, much more current flows through the outer layer wires 30 due to the skin effect.

FIG. 3 is a diagram illustrating a current test result when a compensation capacitor is connected to an inner wire of the cable of the Litz wire structure of FIG. 1.

As shown in FIG. 3, since the inductance L value of the inner layer wire 50 of the cable of the Litz wire structure is larger than the inductance L value of the outer layer wire 90, the surface effect increases toward the high frequency region. The skin effect becomes stronger, and the current tends to flow only to the outer layer wire 90 of the cable.

In the present invention, to reduce the inductance (L) value of the inner layer wire 50 of the cable to compensate the inductance value by the difference between the inductance (L) value of the inner layer wire 50 and the inductance (L) value of the outer layer wire (90). The 75uF compensation capacitor 70 is connected only to the inner wire 50. When the compensation capacitor 70 is connected to the inner layer wire 50 of the cable, an L-C series circuit is configured, and the synthesized impedance of the L-C series circuit is j (wL-1 / wC). Here, the value of (wL-1 / wC) is adjusted so that the inductance L value of the inner layer wire 50 and the outer layer wire 90 of the cable is equal to each other.

As described above, in the state in which the 75uF compensation capacitor 70 was connected to only the inner layer wire 50 of the cable, 6 current strands of the inner layer wire 50 and 12 outer layers of the outer layer wire 90 were separately measured as in FIG. . Here, the capacity of the compensation capacitor 70 connected only to the inner layer wire 50 of the cable is inductance L value of the inner layer wire 50 and the inductance L value of the outer layer wire 90 according to the length or structure of the cable. Since they are different, they are determined to be variable, and when the length of the cable is long, the compensation capacitor 70 is connected at predetermined intervals.

As a result of the experiment, when the total current flowing through the cable was 17.3 [A], the current flowing through the outer layer wire 90 of the cable was 11.1 [A], and the current flowing through the inner layer wire 50 was 6.2 [A]. That is, since the outer layer wire 90 of the cable is 12 strands and twice as wide as the inner layer wire 50 having an area of 6 strands, the current flowing through the outer layer wire 90 of the cable flows through the inner layer wire 50. Almost twice as much current flows as compared to the current distribution, and the loss is minimized.

4 is a view showing the structure of a high-frequency low loss cable including a compensation capacitor according to another embodiment of the present invention.

As shown in FIG. 4, the compensation capacitor 130 is connected to the inner layer wire 110 inside the cable of the Litz wire structure. The compensation capacitor 130 has an inductance L value and an outer layer wire 150 of the inner layer wire 110 inside the cable in order to reduce the inductance L value of the inner layer wire 110 inside the cable as described above with reference to FIG. 3. Compensate for the inductance value by the difference between the inductance values of

By the compensation capacitor 130 connected to the inner layer wires 110 in the cable, the inductance L value of the inner layer wires 110 and the outer layer wires 150 in the cable becomes equal. The capacity of the compensation capacitor 130 is variable because the inductance (L) value of the inner layer wire 110 and the inductance (L) value of the outer layer wire 150 are different depending on the length or structure of the cable. In the long case, the compensation capacitor 130 is connected to the inner layer wire 110 inside the cable at predetermined intervals.

As described above with reference to FIG. 3, the outer layer wire 150 of the cable is 12 strands and twice as wide as the inner layer wire 110 having an area of 6 strands, so that the current flowing through the outer layer wire 150 of the cable is the inner layer wire ( Almost twice as much current flows as compared to the current flowing through 110), so that the current distribution is good and the loss is minimized.

5 is a view showing a capacitor compensation method for low loss of the high-frequency cable of the present invention.

As shown in FIG. 5, since the inductance (L) value of the inner layer wire of the cable of the Litz wire structure is larger than the inductance (L) value of the outer layer wire, the skin effect becomes stronger toward the high frequency region. There is a strong tendency for current to flow only through the outer layer wires of the cable.

In the present invention, in a cable composed of an inner wire consisting of n wires and an outer wire consisting of 2n wires on the outside of the inner wire, a compensation capacitor is provided only in the inner wire of the cable to reduce the inductance (L) value of the inner wire of the cable. Connect (S10).

An inductance value equal to the difference between the inductance value of the inner layer wire and the inductance value of the outer layer wire is compensated by the compensation capacitor connected to the inner wire of the cable (S30). The capacity of the compensation capacitor, which is connected only to the inner layer cable of the cable, is variable because the inductance (L) value of the inner layer wire and the inductance (L) value of the outer layer wire vary depending on the length or structure of the cable. In this case, the compensation capacitors are connected at predetermined intervals.

By the inductance value compensation in step S30, the inductance value of the inner layer wires and the outer layer wires of the cable becomes equal (S50). Accordingly, the current flowing through the outer wire of the cable flows almost twice as much as the current flowing through the inner wire so that the current is well distributed and the loss is minimized.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be understood that various modifications and changes may be made without departing from the scope of the appended claims.

50, 110: inner layer wire
70, 130: compensation capacitor
90, 150: outer layer wire

Claims (9)

Capacitor compensation device for low loss of high frequency cable,
inner wire of a cable consisting of n strands;
An outer layer wire of a cable composed of 2n element wires on the outer side of the inner layer wire; And
A compensation capacitor connected to the inner layer wire to compensate the inductance value by the difference between the inductance value of the inner layer wire and the inductance value of the outer layer wire to equalize the inductance value to the area of the inner layer wire and the outer layer wire
Capacitor compensation device for low loss of the high-frequency cable comprising a.
The method according to claim 1,
The capacity of the compensation capacitor connected to the inner layer wire is variable depending on the length or structure of the cable.
Capacitor compensation for low loss of the high-frequency cable, characterized in that.
The method according to claim 1,
The compensation capacitor is connected to the inner layer wires every predetermined distance when the length of the cable is long
Capacitor compensation for low loss of the high-frequency cable, characterized in that.
As a capacitor compensation method for low loss of high frequency cable,
(a) connecting a compensation capacitor to an inner wire of the cable, wherein the cable comprises an inner wire consisting of n wires and an outer wire consisting of 2n wires outside the inner wire;
(b) compensating an inductance value equal to a difference between an inductance value of the inner layer wire and an inductance value of the outer layer wire by a compensation capacitor connected to the inner layer wire of the cable; And
(c) the inductance value of the inner layer wires and the outer layer wires of the cable are equalized by the inductance value compensation in the step (b);
Capacitor compensation method for low loss of the high-frequency cable comprising a.
The method of claim 4,
In the step (a), the capacity of the compensation capacitor connected to the inner wire of the cable includes the step of varying depending on the length or structure of the cable
Capacitor compensation method for low loss of the high-frequency cable, characterized in that.
The method of claim 4,
In the step (a), the compensation capacitor includes the step of connecting the inner layer wire of the cable at predetermined intervals if the length of the cable is long;
Capacitor compensation method for low loss of the high-frequency cable, characterized in that.
A moving body comprising a capacitor compensation device for low loss of the high-frequency cable of claim 1.
The method of claim 7,
The mobile body is an electric vehicle
A moving body, characterized in that.
The method according to claim 8,
The electric vehicle is an electric vehicle that is wirelessly supplied with power while driving from a feeder line installed on a road.
A moving body, characterized in that.

Images