KR20110040393A - Pcb type antenna having via hole structure - Google Patents

Abstract

PURPOSE: A PCB antenna which includes a via hole structure is provided to form a via hole and a sub slot in a radiation pattern formed among feeding lines to maximize isolation among the feeding lines, thereby miniaturizing an antenna module. CONSTITUTION: A PCB antenna(100) is composed of a dielectric substrate(110), a radiating unit(130), and a ground unit(150). The radiating unit and the ground unit are composed of copper, silver, gold, and aluminum. Via holes(137) are formed at a fixed interval along with the longitudinal direction of the radiation pattern of the radiating unit. A first feeding line and a second feeding line generate a coupling effect.

Description

PCB Antenna with Via Hole Structure {PCB TYPE ANTENNA HAVING VIA HOLE STRUCTURE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a PCB antenna, and more particularly, to a PCB antenna having a via hole structure in which via holes are formed in a radiation pattern formed between a plurality of feed lines to improve isolation between the plurality of feed lines.

At present, due to the rapid development of analog and digital communication technology, various kinds of mobile communication services such as cellular, PCS, GSM and satellite-based iridium services are being implemented. In Korea, cellular, PCS and IMT-2000 are commercially available. . The mobile terminal used for wireless communication service has been developed with the aim of miniaturization, multifunction, light weight and low power, and the antenna which is essential for the base station and terminal is responsible for the beginning and end of signal input and output and is the core component that determines call quality. It is a highly difficult field of theory and design technology.

As such, the mobile terminal used in the current mobile communication service is rapidly growing, and accordingly, the RF module and the antenna are also rapidly developing and miniaturized and lightweight. The antennas proposed so far are mainly antennas using structures such as helical, meander line, microstrip, and inverted-F antenna.

Although antenna research has been conducted to have multi-band or wide-band characteristics by using the structural characteristics of such antennas, there is a problem that antenna performance is deteriorated due to miniaturization and weight reduction.

The present invention is to provide a PB antenna of the via hole structure that can maximize the antenna performance by forming a via hole in the radiation pattern formed between the plurality of feed lines to improve the isolation (isolation) between the plurality of feed lines.

Technical problems to be achieved by the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned above may be clearly understood by those skilled in the art from the following description. There will be.

PC antenna of the present invention for achieving the above object, a dielectric substrate; A ground part formed at a lower end of the dielectric substrate; A radiation pattern formed on an upper end of the dielectric substrate, wherein the radiation pattern includes: a radiation pattern formed on a central surface to radiate radio waves into a space; Slot lines formed on left and right sides of the radiation pattern to expose the dielectric substrate to the outside; A power supply line formed at each of the slot lines to transfer an electric signal supplied from the outside into a radiation pattern; And a via hole formed at a predetermined interval along the longitudinal direction of the radiation pattern to transfer the surface current flowing to the ground portion according to the coupling effect between the radiation pattern and the power supply line.

Specifically, it comprises a secondary slot which is formed at a predetermined interval along the center surface of the radiation pattern to transfer the surface current transmitted through the feed line to the ground through the via hole.

The via hole may include: a first via hole formed at a predetermined interval along a left edge of the radiation pattern to transfer a surface current flowing in accordance with a coupling effect with the feed line to a ground part; And a second via hole formed at regular intervals along the right edge of the radiation pattern to transfer the surface current flowing to the ground unit according to the coupling effect with the power supply line.

The feeding line is characterized in that the coplanar waveguide feeding method.

As described above, the present invention forms a via hole and an auxiliary slot in a radiation pattern formed between a plurality of feed lines, thereby maximizing isolation between the plurality of feed lines, even when it is difficult to secure space between the plurality of feed lines. Since the performance of the antenna can be guaranteed, there is an advantage in that the antenna module can be miniaturized and design freedom can be increased.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. Like elements in the figures are denoted by the same reference numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a perspective view showing a PC antenna according to the present invention.

As shown, the PB antenna has a radiating part formed on an upper surface based on a dielectric substrate, a ground part formed on a lower surface based on a dielectric substrate, and a radiating pattern and a plurality of slots and feeding lines are required in the radiating part. It has a structure formed according to.

In addition, the first slot line and the second slot line are formed on both sides of the monopole-shaped radiation pattern formed on the central surface of the radiator, and a plurality of outer slots are arranged in a stepwise manner on the left side of the first slot line. A plurality of outer slots are arranged stepwise in the right radiating portion of the second slot line.

In addition, a first feed line is formed at the bottom center surface of the first slot line, and a second feed line is formed at the bottom center surface of the second slot line.

The feeding lines collectively refer to a line for supplying an electrical signal to a radiation pattern. The feeding lines supply an electrical signal through a conductive connection directly to the radiation pattern or through a contactless capacitive coupling. The feed line mainly uses a microstrip line, and can be variously modified, such as a coaxial line, a coplanar waveguide (CPW), or a slot line.

In the antenna of the present invention, a coplanar waveguide (CPW) feeding method is applied, and a CPW has a shape in which a pair of slots having the same width in a wide radiating part is placed in parallel with a conductor strip interposed therebetween. It refers to a planar transmission line.

As shown in the waveform diagram (S parameter) of FIG. 2, the antenna thus formed has a power level of approximately -4.7 dB in the 1.92 GHz band, that is, the first feed line and the second feed line. This means that the isolation between the feed lines is significantly reduced, which degrades the performance of the antenna.

3 is a perspective view illustrating a PB antenna having a via hole structure according to an exemplary embodiment of the present invention, FIG. 4 is a cross-sectional view of a portion A-A of FIG. 3, and FIG. 5 is a bottom view of FIG. 3.

The PC antenna 100 is basically formed on the dielectric substrate 110 and the top surface of the dielectric substrate 110 to radiate current and serve as a spatial isolation between the conductor and the conductor, or mechanical support. The radiation part 130 having the pattern 131 is formed, and the ground part 150 formed on the bottom surface of the dielectric substrate 110 to serve as the ground. In the radiation part 130 and the ground part 150, metals such as copper, silver, gold, aluminum, and the like may be used.

3, the radiation pattern 131, the first slot line 133-1, the second slot line 133-2, and the first feed line 135-1 in the radiator 130. ), A second feed line 135-2, a via hole 137, an auxiliary slot 139, a first outer slot 141-1, a second outer slot 141-2, and the like.

That is, the radiation part 130 is formed on the center surface and is formed on the left side of the radiation pattern 131 of the monopole shape designed to radiate radio waves into the space, and the radiation pattern 131 on the dielectric substrate 110 The first slot line 133-1 to expose the outside and the second slot line 133-2 formed on the right side of the radiation pattern 131 to expose the dielectric substrate 110 to the outside. And a first feed line 135-1 formed on the bottom center surface of the first slot line 133-1 to transmit an electrical signal supplied from the outside to the radiation pattern 131, and the second slot line. A second feed line 135-2 formed on the lower center surface of the lower surface of the cross section 133-2 to transmit an electrical signal supplied from the outside to the radiation pattern 131, and a left side of the first slot line 133-1; A first outer slot 141-1 arranged in a stepwise manner and having a resonant frequency varying in shape and size, and the second slot The second outer slot (141-2) are arranged in a stepwise manner at the right radiation that the resonance frequency in accordance with the shape and size of the variable (133-2) are formed, respectively.

The radiation unit 130 is formed at a predetermined interval along the longitudinal direction of the radiation pattern 131 to effect the coupling between the first feed line 135-1 and the second feed line 135-2. Via holes 137 for transmitting the surface current flowing along the ground portion 150 and the radiation pattern 131 are formed at regular intervals along the center surface of the first feeding line 135-1 and the second feeding power. Auxiliary slots 139 are further included to excite the surface current flowing according to the coupling effect with the line 135-2 and transfer the surface current to the ground unit 150 through the via hole 137.

The via hole 137 may be formed along both edges of the radiation pattern 131. That is, the via holes 137 are formed at regular intervals along the left edge of the radiation pattern 131 to transfer the surface current flowing in accordance with the coupling effect with the first feed line 135-1 to the ground portion 150. The first via hole 137-1 to be transmitted is formed at a predetermined interval along the right edge of the radiation pattern 131 to contact the surface current flowing according to the coupling effect with the second feed line 135-2. The second via hole 137-2 may be transmitted to the branch 150.

In the case of the via hole 137, a hole penetrating through the radiating part 130, the dielectric substrate 110, and the grounding part 150 of the antenna 100 as shown in FIG. 4 is plated on its inner surface to form a radiation pattern 131. And the surface current transmitted due to the coupling effect between the power supply line 135 and the ground unit 150. In the case of the auxiliary slot 139, the surface current is transferred to the ground unit 150 through the via hole 137. It excites the current which has not been transferred to the ground unit 150 through the via hole 137.

In the case of the ground unit 150, as shown in FIG. The T-shaped ground part 150 has a ground conductor 151 and a via hole 137 electrically connecting the radiation pattern 131 and the ground conductor 151 to each other.

The antenna 100 according to the present invention has a via hole 137 and an auxiliary slot 139 in the radiation pattern 131 to secure the isolation between the first and second feed lines 135-1 and 135-2 of the CPW feeding method. ) Are formed respectively.

Such an antenna is a structure that can easily change the resonant frequency by adjusting the length of the feed line 135 and the interval and length of the outer slots (141-1, 141-2), for example, 800MHz to 5GHz band It is possible.

The via holes 137 and the auxiliary slots 139 are formed in the center of the plurality of feed lines 135-1 and 135-2, so that the first and second feed lines 135-1 and 135-2 are formed. The electric field and magnetic field energy induced by coupling with the radiation pattern 131 flows to the ground unit 150 through the via hole 137, and a current not transmitted to the ground unit 150 through the via hole 137 is provided in the auxiliary slot 139. Excitation through) may maximize the isolation between the plurality of feed lines 135 as it flows back to the ground portion 150 through the via hole 137.

Such an antenna structure is useful when used in a structure in which it is difficult to secure sufficient space between the plurality of power supply lines 135-1 and 135-2.

As shown in the waveform diagram (S parameter) of FIG. 6, the antenna thus formed has a power level of approximately -12.5 dB in the S2,1 or S1,2 band in the 1.92 GHz band. This means that the isolation between 1) and the second feed line 135-2 is significantly superior, which improves the performance of the antenna.

In the exemplary embodiment of the present invention, the via hole 137 and the auxiliary slot 139 are both provided in the radiation pattern 131, but only the via hole 137 may be formed as necessary. Even when only the via holes 137 are formed, the via holes 137 may be formed along the length direction of the center surface of the radiation pattern 131 or in two rows along both edges of the radiation pattern 131. Of course, if necessary, the via holes 137 may be formed in a zigzag manner in a plurality of rows along the length direction of the radiation pattern 131.

The present invention has been described with reference to the preferred embodiments, and those skilled in the art to which the present invention pertains to the detailed description of the present invention and other forms of embodiments within the essential technical scope of the present invention. Could be. Here, the essential technical scope of the present invention is shown in the claims, and all differences within the equivalent range will be construed as being included in the present invention.

1 is a perspective view showing a PC antenna according to the present invention.

FIG. 2 is a S parameter graph illustrating antenna characteristics of FIG. 1.

3 is a perspective view showing a PC antenna according to an embodiment of the present invention.

4 is a cross-sectional view illustrating a portion A-A of FIG. 3.

5 is a bottom view illustrating the bottom of FIG. 3.

FIG. 6 is a S parameter graph illustrating antenna characteristics of FIG. 3.

* Explanation of symbols for the main parts of the drawings

100: antenna 110: dielectric substrate

130: radiation unit 131: radiation pattern

133-1,133-2: first and second slot lines 135-1,135-2: first and second feed lines

137-1, 137-2: first and second via holes 139: auxiliary slot

141-1, 141-2: first and second outer slots 150: ground portion

Claims (7)

Dielectric substrates; A ground part formed at a lower end of the dielectric substrate; It includes; the radiating portion formed on the top of the dielectric substrate, The radiation unit, the radiation pattern is formed on the central surface to radiate radio waves into the space; Slot lines formed on left and right sides of the radiation pattern to expose the dielectric substrate to the outside; A power supply line formed at each of the slot lines to transfer an electric signal supplied from the outside into a radiation pattern; And a via hole formed at a predetermined interval along a longitudinal direction of the radiation pattern to transfer a surface current flowing to the ground portion according to a coupling effect between the radiation pattern and a power supply line. The method of claim 1, The via-hole antenna of the via hole structure is formed along the center surface of the radiation pattern and comprises an auxiliary slot for transmitting the surface current transmitted through the feed line to the ground through the via hole. The method of claim 1, The via hole may include: a first via hole formed at a predetermined interval along a left edge of the radiation pattern to transfer a surface current flowing in accordance with a coupling effect with the feed line to a ground part; And a second via hole formed at regular intervals along the right edge of the radiation pattern to transfer the surface current flowing to the ground part according to the coupling effect with the power supply line. 2. The method of claim 1, The feed line is a coplanar waveguide (Coplanar Waveguide) feeding method of the via hole structure of the PC antenna. The method of claim 1, The slot line may include: a first slot line formed at a left side of the radiation pattern to expose a dielectric substrate to the outside; And a second slot line formed at a right side of the radiation pattern to expose a dielectric substrate to the outside. The method of claim 5, The power supply line may include: a first power supply line formed at a lower center surface of the first slot line to transmit an electrical signal supplied from the outside in a radiation pattern; And a second feed line formed at a lower center surface of the second slot line to transfer an electrical signal supplied from the outside into a radiation pattern. The method of claim 5, A plurality of first outer slots which are arranged stepwise on the left side of the first slot line and whose resonance frequencies vary according to shape and size; And a plurality of second outer slots which are arranged stepwise on the right side of the second slot line and whose resonant frequencies vary according to shape and size.

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