KR20140031027A - Antenna with enhanced isolation - Google Patents

Abstract

The present invention relates to an antenna having an improved isolation comprising: a first antenna transmitting and receiving an electrical signal, wherein one side thereof is connected to a ground; a dummy antenna configured to pair the other side of the dummy antenna which is not connected to the ground and the other side of the first antenna which is not connected thereto. According to the present invention, the antenna can improve isolation with other antennas by mounting an additional ground to a monopole-typed antenna in order to generate loop current on the ground.

Description

ANTENNA WITH ENHANCED ISOLATION}

The present invention relates to an antenna having improved isolation, and more particularly, to implement an additional ground (GND) in a monopole type antenna to generate a loop current at the ground, so that it is different from other antennas. An antenna with improved isolation that prevents coupling of the present invention.

In general, a vehicle is provided with a car audio system, and an antenna is provided outside the vehicle to increase the radio reception sensitivity of the car audio system.

Antenna refers to a conductor laid in the air to efficiently radiate radio waves in a space to achieve the purpose of communication in wireless communication or to efficiently dissipate electromotive force by radio waves.

In order to optimize the radiation pattern of the antenna, all antennas are theoretically designed with assuming infinite ground. However, since the lower the frequency, the longer the wavelength λ is, it is necessary to secure sufficient ground to transmit or receive a low frequency signal.

In addition, since the ground use range varies depending on the operating frequency of the antenna, it is necessary to secure a ground suitable for the antenna to be used.

However, since monopole antennas emit radiation in the ground, when implementing MIMO (Multi In Multi Out) or Diversity antennas using monopole antennas, strong coupling occurs in the ground to ensure isolation characteristics between the diversity antennas. There was a problem that could not.

That is, as shown in FIG. 1, when the monopole type first antenna 10 generates a signal through the oscillator 11 and emits it on the ground 40, the second antenna adjacent to the first antenna 10 may be at this time. 30 has absorbed the signal generated by the first antenna 10, there is a problem that the coupling is deteriorated due to the radiation of the signal generated by the first antenna 10 is not made.

Prior art related to the present invention is Republic of Korea Patent Publication No. 10-2011-0083424 (published Jul. 20, 2011, the name of the invention: integrated antenna system for automobiles).

The present invention was devised to improve the above-mentioned problem, and implements an additional ground (GND) in a monopole type antenna to generate a current that forms a loop in the ground, thereby making it different from other antennas. It is an object of the present invention to provide an antenna having an improved degree of isolation which prevents the coupling of the antenna.

An antenna having improved isolation according to an aspect of the present invention includes a first antenna having one side connected to ground and responsible for transmitting and receiving electrical signals; And a dummy antenna having one side connected to the ground, spaced apart from the first antenna, and the other side not connected to the ground configured to be paired with the other side of the first antenna not connected to the ground. .

In the present invention, the other side of the dummy antenna is formed in an open polygon or oval shape, and the other side of the first antenna surrounds the outside of a pairing section with the other side of the dummy antenna and corresponds to the shape of the other side of the dummy antenna. Or it is characterized in that it is formed in an elliptic shape.

In the present invention, the pairing period of the first antenna and the dummy antenna may be formed spaced apart by a predetermined reference distance.

The present invention is characterized in that the operating frequency of the first antenna is controlled by changing at least one of the length of the pairing section or the reference distance.

In the present invention, the dummy antenna is characterized by a lack of a separate oscillator.

In the present invention, the first antenna is characterized in that the monopole type antenna.

According to the present invention, an additional ground (GND) is implemented in a monopole type antenna to generate a current to form a loop at ground, thereby improving isolation from other antennas.

In addition, the present invention can implement the antenna of the desired band by adjusting the interval between the pairing point of the first antenna and the dummy antenna.

1 is a diagram illustrating coupling occurring between antennas when a signal of a conventional monopole antenna is radiated to ground.
2 is a diagram illustrating an antenna having improved isolation including a dummy antenna serving as an extended ground according to an embodiment of the present invention.
3 is a diagram illustrating a prevented coupling between an antenna having an improved isolation degree and another antenna according to an embodiment of the present invention.

Hereinafter, an antenna having improved isolation according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

2 is a diagram illustrating an antenna having improved isolation including a dummy antenna serving as an extended ground according to an embodiment of the present invention.

3 is a diagram illustrating a prevented coupling between an antenna having an improved isolation degree and another antenna according to an embodiment of the present invention.

2 and 3, an antenna having improved isolation includes a first antenna 10 and a dummy antenna 20.

One side of the first antenna 10 is connected to the ground (40), the device responsible for the transmission and reception of electrical signals, in this embodiment the first antenna 10 is a length of 1/4 of the wavelength Since it is formed, it is set to be a monopole type antenna, which is easy to implement, and includes an oscillator 11 for generating a signal.

The dummy antenna 20 has one side connected to the ground 40, the first antenna 10 spaced apart from the first antenna 10, and the other side not connected to the ground 40 connected to the ground 40. 10) is configured to be paired with a predetermined reference distance apart from the other side.

In this case, the reference distance means a distance enough to satisfy the operating frequency range of the first antenna 10. That is, since the operating frequency of the first antenna 10 can be controlled according to the length and interval of the pairing section of the first antenna 10 and the dummy antenna 20 to be described later, the reference distance is set to a desired operating frequency. It becomes a distance.

Therefore, the reference distance may be differently set by the interval between the pairing periods of the first antenna 10 and the dummy antenna 20 spaced apart from each other to correspond to the operating frequency of the first antenna 10.

At this time, the other side not connected to the ground 40 of the dummy antenna 20 is formed in an open polygon or ellipse shape, and the other side not connected to the ground 40 of the first antenna 10 is the dummy antenna 20. The outer side of the pairing section with the other side of the is formed in the same polygon or ellipse shape corresponding to the shape of the other side of the dummy antenna.

In particular, in the present embodiment, since the dummy antenna 20 does not generate a signal because it does not include a separate oscillator such as the oscillator 11 of the first antenna 10, the coupling with the first antenna 10 does not occur. It serves to absorb only the signal of the first antenna 10.

Looking at an example in which the first antenna 10 and the dummy antenna 20 are coupled to each other according to the present embodiment, as shown in FIG. 2, one side of the dummy antenna 20 is connected to the ground 40. The other side of the dummy antenna 20 which is not connected to the 40 has an open rectangular shape, and the first antenna 10 has one side connected to the ground 40 and the first antenna not connected to the ground 40. The other side of 10 is formed to surround the outside of the rectangular-shaped portion of the dummy antenna 20 spaced apart by a reference distance.

The shape of the first antenna 10 and the dummy antenna 20 of the present invention is not limited to the rectangular shape, but may be configured to be paired in the same shape. In addition, since the positions of the first antenna 10 and the dummy antenna 20 are not fixed, the first antenna 10 and the dummy antenna 20 may be located in a space or may be positioned on a substrate in a pattern form such as a glass antenna of a vehicle.

Referring to the operation of the antenna having an improved isolation according to an embodiment of the present invention having the above structure as follows.

When only the first antenna 10 and the dummy antenna 20 are connected to the ground 40, as shown in FIG. 2, since the first antenna 10 is a monopole antenna, the signal is radiated from the ground 40. .

However, since the dummy antenna 20 is connected to one side of the ground 40 in the present embodiment, the dummy antenna 20 serves as an extended ground. Therefore, as shown in FIG. 2, the signal radiated from the first antenna 10 to the ground 40 is absorbed by the dummy antenna 20 which is an extended ground.

In addition, the pairing sections of the first antenna 10 and the dummy antenna 20 are formed to be spaced apart by a reference distance, and since the signal emitted by the first antenna 10 has a frequency, the first antenna 10 and the dummy antenna 10 have a frequency. The pairing section of 20 serves as a capacitor to enable signal movement.

That is, the first antenna 10 and the dummy antenna 20 form a loop signal path with the ground 40 therebetween. Therefore, the path from which the signal of the first antenna 10 is radiated through the dummy antenna 20 becomes orthogonal with the second antenna 30 as shown in FIG. 3, thereby reducing coupling at ground 40. Can be.

As shown in FIG. 3, the path through which the second antenna 30 receives the signal through the oscillator 31 is orthogonal to the path of the signal generated by the first antenna 10 through the oscillator 11. have.

In this case, the operating frequency of the first antenna 10 may be controlled by changing at least one of the length or interval of the pairing section of the first antenna 10 and the dummy antenna 20 shown in FIG. 2. That is, as described above, since the pairing period acts like a capacitor, the same effect as changing the width or length of the capacitor can be obtained.

Therefore, by extending or increasing the length of the pairing section of the first antenna 10 and the dummy antenna 20, the operating frequency of the first antenna 10 can be raised, the first antenna 10 and the dummy antenna ( By reducing the length of the pairing section 20 or narrowing the interval, the operating frequency of the first antenna 10 can be lowered.

According to the present embodiment, an additional ground (GND) is implemented in the monopole type antenna through the dummy antenna 20 to generate a current that forms a loop in the ground 40, thereby generating another current. The isolation from the antenna can be improved.

In addition, the present embodiment may implement an antenna having a desired operating frequency by adjusting the length or interval of the pairing point of the first antenna 10 and the dummy antenna 20.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, I will understand. Accordingly, the true scope of the present invention should be determined by the following claims.

10: first antenna 11: oscillator
20: dummy antenna 30: second antenna
31: oscillator 40: ground

Claims (6)

A first antenna having one side connected to a ground and responsible for transmitting and receiving an electrical signal; And
A dummy antenna having one side connected to the ground and spaced apart from the first antenna, and the other side not connected to the ground is configured to be paired with the other side of the first antenna not connected to the ground.
Antenna with improved isolation comprising a.
The method of claim 1,
The other side of the dummy antenna is formed in an open polygon or ellipse shape,
The other side of the first antenna surrounds the outer side of the pairing section with the other side of the dummy antenna and has an improved isolation, characterized in that formed in a polygonal or oval shape corresponding to the shape of the other side of the dummy antenna.
3. The method of claim 2,
The pairing period between the first antenna and the dummy antenna is formed to be spaced apart by a predetermined reference distance is an antenna having improved isolation.
The method of claim 3, wherein
And controlling an operating frequency of the first antenna by changing at least one of the length of the pairing section or the reference distance.
The method of claim 1,
And said dummy antenna lacks a separate oscillator.
The method of claim 1,
And the first antenna is a monopole type antenna.

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