KR20100040991A - Chip antenna of direction zero type for mobile communication terminal - Google Patents

Abstract

PURPOSE: A directionality zero type chip antenna for a mobile communications terminal is provided to easily expand bandwidth by forming at least two radiation arms. CONSTITUTION: A first pattern(T1) and a second pattern(T2) are formed on the upper side of a dielectric(110). A first and a fourth input pattern are formed in four directions edge part of the lower-part of dielectric. A first and a second function pattern are respectively formed between a first and a second input pattern, a first and a second input pattern. A second and a fifth function pattern are used as the frequency matching circuit or the frequency tuning circuit. The third pattern(A1,A2) and fourth pattern are formed in right and left side of dielectric. The upper end of the third pattern is connected to the first pattern. The upper end of the fourth pattern is connected to the second pattern.

Description

Directional zero chip antenna for mobile communication terminal {CHIP ANTENNA OF DIRECTION ZERO TYPE FOR MOBILE COMMUNICATION TERMINAL}

The present invention relates to a chip antenna for a mobile communication terminal, and more particularly, through the symmetrical structure design of the antenna pattern so that the distinction of directionality is eliminated, and having a plurality of input ports, which one is used as an optional input in any direction The present invention relates to a directional zero type chip antenna for a mobile communication terminal that enables the connection with the main PCB and eliminates problems such as ease of design, mixing, and misinsertion during manufacturing or use.

In general, an antenna is a device for converting electrical energy into a radio wave or receiving a radio wave. Currently, an antenna for a mobile communication terminal has been adopted more internally than an external type.

In addition, looking at the recent global market trend of mobile communication terminals, since each country is building a system that uses a different frequency band, dual antennas to provide a service that integrates all the used frequencies through a single antenna An antenna capable of a wide band above the band is applied.

However, until now, the antenna for mobile communication terminals has been increasing the utilization of wide band, but since the input port is designed and manufactured in a predetermined structure and is used, it is always connected to the main PCB for the terminal according to the determined input port. There was discomfort that should be.

That is, in the prior art, since the directionality is present in the input port during the design and manufacture of the antenna, the designer has to design in consideration of the directionality of the input port. When applied to a terminal, there was a problem in that an incorrect insertion was made when connecting to the main PCB.

The present invention has been made to solve the above-described problems, the directional structure is eliminated through the symmetrical design of the antenna pattern and having a plurality of input ports, which one is used as an optional input in any direction and position The purpose of the present invention is to provide a directional zero type chip antenna for a mobile communication terminal which enables the connection and use of the main PCB, and thus eliminates problems such as convenience in design, manufacturing, and mixing or misinsertion in use.

That is, the present invention is to be able to exhibit a stable operating characteristics as an antenna without increasing the direction of the input port and to increase the utilization value.

Another object of the present invention is to have two or more radiation arms formed to have a wide band and to improve radioactivity.

It is another object of the present invention to enable the radiation arm to be used as the ground according to the position of the input, and to apply different roles of the frequency matching circuit and the frequency change tuning circuit according to the position of the input.

According to the present invention, in configuring a directional zero chip antenna for a mobile communication terminal for use without distinction of directionality, the first pattern T1 and the second pattern partitioned symmetrically on the upper surface of the dielectric 110 forming a rectangular shape (T2); A plurality of input patterns P1, P3, P4 and P6 to be used as one input port at four corners as the lower surface of the dielectric 110 and between the input patterns (between P1 and P3 and P4 and Functional patterns P2 and P5 are formed in a symmetrical structure so as to be used as a matching circuit for frequency matching or a frequency tuning circuit for changing the frequency between P6); The third patterns A1 and A2 and the fourth patterns A3 and A4 having symmetrical structures are formed on the left and right sides of the dielectric 110, respectively, and the upper end, which is a common part of the third pattern, is formed on the first pattern. The A1 and A2 parts of the lower end of the third pattern are connected to the P3 part of the input pattern and the P6 part of the input pattern, respectively, and the upper end, which is a common part of the fourth pattern, is connected to the (T1) side. In addition to connecting to the second pattern (T2) side, the A3 portion and the A4 portion of the lower end of the fourth pattern is connected to the P1 portion of the input pattern and the P4 portion of the input pattern, respectively.

The present invention can increase the utilization value while meeting the market demands, can be used by applying the antenna without directional distinction through the symmetrical structure design of the antenna pattern, and process the input and ground differently according to the input position and direction of the input pattern In addition to being able to form two or more radiation arms, it is possible to increase bandwidth, pursue wideband, use radiation arms as ground, and change the role of the frequency matching circuit and the frequency tuning circuit differently. There is an effect that can be applied.

The present invention can provide stable operation characteristics as an antenna, and can be used without directivity in any direction and position, thereby providing convenience in design and eliminating problems such as mixing or misinsertion during manufacturing or use.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a main PCB side application state showing a directional zero type multi-input chip antenna according to the present invention, FIG. 2 is a bottom perspective view of a main PCB side application state showing a directional zero type multi-input chip antenna according to the present invention; 3 is a diagram showing the top, bottom, left and right structures of the directional zero-type multi-input chip antenna according to the present invention, and FIG. 4 is a diagram showing a connection structure between the directional zero-type multi-input chip antenna and the main PCB according to the present invention.

As shown in FIGS. 1 to 4, the directional zero type multi-input chip antenna 100 for a mobile communication terminal according to the present invention includes a first pattern T1 having a symmetrical partition on an upper surface of the dielectric 110 forming a rectangular shape. And a second pattern T2, and between the plurality of input patterns P1, P3, P4 and P6 to be used as one input port at four corners of the lower surface of the dielectric 110. The functional patterns P2 and P5 are formed in a symmetrical structure (between P1 and P3 and between P4 and P6), and a third pattern A1 having a symmetrical structure on the left and right sides of the dielectric 110, respectively. , A2) and a fourth pattern (A3, A4) are formed so that the upper end of the third pattern is connected to the first pattern side, the lower end is connected to the input pattern side, and the upper end of the fourth pattern is 2 is connected to the pattern side and the lower end is configured to be connected to the input pattern side.

At this time, the plurality of input patterns (P1, P3, P4, P6) formed in the symmetrical structure on both sides of the lower surface of the dielectric 110 in any one of the input patterns when the main PCB (1) is mounted on the main PCB (1) The functional patterns P2 and P5 formed between the P1 and P3 portions of the input pattern and between the P4 and P6 portions of the input pattern are connected to the main PCB 1. It is configured to act as a matching circuit for frequency matching or a frequency tuning circuit for changing the frequency according to the position of any one selected input pattern connected to the signal line.

The upper end of the third patterns A1 and A2 formed on the left side of the dielectric 110 is a common part of the A1 and A2 portions forming the third pattern and is disposed on the first pattern T1 side. The lower ends of the third patterns A1 and A2 are configured to connect the A1 and A2 portions of the symmetrical structure to the P3 portion and the P6 portion of the input pattern, respectively.

The upper end of the fourth patterns A3 and A4 formed on the right side of the dielectric 110 is a common part of the A3 and A4 portions forming the fourth pattern and is disposed on the second pattern T2 side. The lower ends of the fourth patterns A3 and A4 are configured to connect the A3 and A4 portions of the symmetrical structure to the P1 portion and the P4 portion of the input pattern, respectively.

Meanwhile, the main PCB 1 having the antenna connection structure as shown in FIG. 4 is provided to facilitate the application of the directional zero type chip antenna 100 for a mobile communication terminal according to the symmetrical structure design as described above. It would be preferable.

Here, in FIG. 4, any one of a plurality of input patterns is connected to the main PCB 1 by designing the antenna pattern of the chip antenna 100 according to the present invention in a symmetrical structure in a diagonal direction. It is shown that it is selectively connected to the signal line of the can be applied without the distinction of the direction, it shows that the chip antenna 100 can be connected in any direction and position, regardless of the connection structure of the main PCB (1), FIG. 4A illustrates a case where P4 is used as an input among a plurality of input patterns, FIG. 4B illustrates a case where P1 is used as an input among a plurality of input patterns, and FIG. 4C illustrates a plurality of input patterns. P6 is used as an input, and FIG. 4 (d) shows a case where P3 is used as an input among a plurality of input patterns.

When explaining the embodiment and operation of the directional zero type chip antenna 100 for a mobile communication terminal according to the present invention having such a configuration as follows.

(Example 1)

In the case of using the P1 portion of the input pattern of the chip antenna 100 according to the present invention, the P2 portion, the P3 portion, and the P5 portion of the input pattern are connected to the ground.

At this time, the A4 portion of the fourth pattern and the T2 portion of the first pattern, which are connected to the P1 portion of the input pattern, respectively, form a radiation arm so as to be in charge of radiation, thereby acting to form a wider bandwidth than before. The T1 portion of the pattern serves as the ground, resulting in an improvement in radiation performance.

(Example 2)

When using the P3 portion of the input pattern of the chip antenna 100 according to the present invention, the P1 portion, P2 portion and P5 portion of the input pattern is connected to the ground.

At this time, the A2 portion of the fourth pattern and the T1 portion of the first pattern connected to the P3 portion of the input pattern respectively form radiation arms, which are responsible for the radiation, thereby improving the bandwidth, and the T2 portion of the first pattern is It functions as a ground, resulting in an improvement in radioactivity.

Here, when the P1 portion or P3 portion of the input pattern of the chip antenna 100 according to the present invention is used as an input, the P2 portion of the functional pattern to act as a matching circuit and the P5 portion of the functional pattern can change the frequency Act as a frequency tuning circuit.

(Example 3)

When using the P4 portion of the input pattern of the chip antenna 100 according to the present invention, the P2 portion, P5 portion and P6 portion of the input pattern is connected to the ground.

At this time, the A3 portion of the fourth pattern and the T2 portion of the first pattern, which are connected to the P4 portion of the input pattern, respectively, form a radiation arm to be responsible for radiation, thereby improving the bandwidth, and the T2 portion of the first pattern is It functions as a ground, resulting in an improvement in radioactivity.

(Example 4)

When using the P6 portion of the input pattern of the chip antenna 100 according to the present invention, the P2 portion, P5 portion and P6 portion of the input pattern is connected to the ground.

At this time, the A1 portion of the fourth pattern and the T1 portion of the first pattern, which are connected to the P6 portion of the input pattern, respectively, form radiation arms to be responsible for radiation, thereby improving the bandwidth, and the T2 portion of the first pattern is It functions as a ground, resulting in an improvement in radioactivity.

Here, when the P4 portion or P6 portion of the input pattern of the chip antenna 100 according to the present invention is used as an input, the P5 portion of the functional pattern to act as a matching circuit and the P2 portion of the functional pattern can change the frequency Act as a frequency tuning circuit.

In addition, the present invention has a symmetrical design of the antenna pattern to function as an antenna, so that even if any of the input pattern is used as an input port, the length of the antenna is the same, thus having a similar resonance frequency, and accordingly, Even if the input port is used, the same operation characteristics as the antenna are exhibited.

In particular, the present invention can be used by applying the antenna to the main PCB (1) side without distinction of the direction and connected to the signal line of the main PCB (1) side input and according to the input position and direction of the input pattern to be an input port The ground can be treated differently, and two or more radiation arms can be formed according to the input position and direction by the input pattern, so that the bandwidth can be widened and the wide band can be pursued. It can be used as ground and it is useful to change and apply the role of frequency matching circuit and frequency tuning circuit according to input position and direction.

5 and 6 illustrate return loss characteristics and radiation pattern characteristics according to an embodiment of the directional zero type chip antenna 100 for a mobile communication terminal according to the present invention. Characteristic when P6 part is used as input.

7 and 8 illustrate return loss characteristics and radiation pattern characteristics according to another embodiment of the directional zero type chip antenna 100 for a mobile communication terminal according to the present invention. Characteristic when used as this input.

Here, the return loss characteristics in FIGS. 5 and 7 are calculated using HFSS, which is a commercially available program, and thus, two or more radiation arms are formed, thereby showing a characteristic in which bandwidth is widened. The radiation pattern characteristic shows that the radiation performance of the antenna is good.

1 is a perspective view of an application state of a main PCB side showing a directional zero type multi-input chip antenna according to the present invention;

Figure 2 is a bottom perspective view of the main PCB side application state showing a directional zero type multi-input chip antenna according to the present invention.

3 is a top, bottom, left and right structure of a directional zero type multi-input chip antenna according to the present invention;

4 is a diagram illustrating a connection structure between a directional zero type multi-input chip antenna and a main PCB according to the present invention;

5 and 6 illustrate return loss characteristics and radiation pattern characteristics according to an embodiment of a directional zero-type multi-input chip antenna according to the present invention.

7 and 8 illustrate return loss characteristics and radiation pattern characteristics according to another embodiment of the directional zero-type multi-input chip antenna according to the present invention.

      Explanation of symbols on the main parts of the drawings

100 antenna of the present invention 110 dielectric

T1: first pattern T2: second pattern

P1, P3, P4, P6: Input Pattern P2, P5: Function Pattern

A1, A2: third pattern A3, A4: fourth pattern

Claims (5)

In constructing a directional zero chip antenna for a mobile communication terminal for use without distinction of directionality, Forming a partitioned first pattern T1 and a second pattern T2 on a top surface of the dielectric 110 forming a rectangular shape; A plurality of input patterns P1, P3, P4 and P6 to be used as one input port at four corners as the lower surface of the dielectric 110 and between the input patterns (between P1 and P3 and P4 and Functional patterns P2 and P5 are formed in a symmetrical structure so as to be used as a matching circuit for frequency matching or a frequency tuning circuit for changing the frequency between P6); The third patterns A1 and A2 and the fourth patterns A3 and A4 having symmetrical structures are formed on the left and right sides of the dielectric 110, respectively, and the upper end, which is a common part of the third pattern, is formed on the first pattern. The A1 and A2 parts of the lower end of the third pattern are connected to the P3 part of the input pattern and the P6 part of the input pattern, respectively, and the upper end, which is a common part of the fourth pattern, is connected to the T1 side. And connecting the A3 and A4 portions of the lower end of the fourth pattern to the P1 portion of the input pattern and the P4 portion of the input pattern, respectively, while connecting to the second pattern T2 side. Zero type multi-input chip antenna. The method of claim 1, When using the P1 portion of the input pattern as an input, P2 portion, P3 portion and P5 portion of the input pattern is connected to the ground, The A4 portion of the fourth pattern and the T2 portion of the first pattern connected to the P1 portion of the input pattern each form a radiation arm, and the T1 portion of the first pattern functions as a ground. The P2 part of the functional pattern is used as a frequency matching circuit and the P5 part is used as a frequency tuning circuit. The method of claim 1, When using the P3 portion of the input pattern as an input, P1 portion, P2 portion and P5 portion of the input pattern is connected to the ground, The A2 portion of the fourth pattern and the T1 portion of the first pattern connected to the P3 portion of the input pattern respectively form a radiation arm, and the T2 portion of the first pattern functions as a ground. The P2 part of the functional pattern is used as a frequency matching circuit and the P5 part is used as a frequency tuning circuit. The method of claim 1, When using the P4 portion of the input pattern as an input, P2 portion, P5 portion and P6 portion of the input pattern is connected to the ground, The A3 portion of the fourth pattern and the T2 portion of the first pattern connected to the P4 portion of the input pattern respectively form a radiation arm, and the T2 portion of the first pattern functions as a ground. And a P2 portion of the functional pattern is used as a frequency matching circuit and a P2 portion is used as a frequency tuning circuit. The method of claim 1, When using the P6 portion of the input pattern as an input, P2 portion, P5 portion and P6 portion of the input pattern is connected to the ground, The A1 portion of the fourth pattern and the T1 portion of the first pattern connected to the P6 portion of the input pattern respectively form a radiation arm, and the T2 portion of the first pattern functions as a ground. And a P2 portion of the functional pattern is used as a frequency matching circuit and a P2 portion is used as a frequency tuning circuit.

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