KR100693218B1 - Stub short type wide band antenna - Google Patents

Abstract

A short-stub type wide band antenna is provided to improve a bandwidth of a low frequency resonant frequency by forming a stub of a radiation unit in a short stub shape having a length of 0.3-0.5lambda. A short-stub type wide band antenna includes a radiation unit(310), a short-stub(330), a short circuit unit, and a feeding unit. The radiation unit(310) is formed to have a predetermined length and a width on a side plane and an upper plane. The radiation unit(310) has the short-stub(330) to be operated as a planar type inverse-F antenna which is resonant by adjusting a predetermined length and width through a slot according to a plurality of resonant frequencies. The short circuit unit is connected to a side of the radiation unit(310), and makes a current of the radiation unit short. The feeding unit feeds the current to the radiation unit. The short-stub has a first short-stub(370) which forms a wide band low frequency resonant frequency, and a second short-stub(380) which forms a wide band high frequency resonant frequency according to a position of the slot.

Description

 Stub Short Type Wide Band Antenna}

1 is a perspective view of a conventional chip-shaped PIFA

2 is a structural diagram illustrating a state in which the PIFA of FIG. 1 is mounted on a PCB;

3A is a top perspective view of a stub short-circuit broadband antenna according to an embodiment of the present invention;

3B is a bottom perspective view of a stub short-circuit broadband antenna according to an embodiment of the present invention;

4 is a characteristic graph for the antenna of the type shown in FIG.

* Description of the main drawing codes *

Reference numeral 110: conductor part 120: dielectric part 210: PIFA feed part 220: PCB metal foil

230: PCB dielectric portion 240: PCB ground portion

300: stub short-circuit broadband antenna

310: radiator 320: slot

325: first slot portion 330: stub

340: short circuit 350: feed line

360: feeder 370: first short-circuit stub

375: First short stub end portion 380: Second short stub

385: second short stub end portion 390: through groove

The present invention relates to a stub short-circuit broadband antenna, and relates to a stub short-circuit broadband antenna in which a plurality of broadband resonant frequencies are formed by forming a stub of a radiator in a short-circuit structure.

Currently, wireless communication is changing service from narrowband communication to broadband communication such as internet and multimedia. Also, due to the necessity of developing an integrated system that can provide multiple services to one terminal, Broadband features are required with complex functions.

1 is a perspective view of a conventional chip-shaped PIFA, Figure 2 is a structural diagram for explaining the state that the PIFA of Figure 1 mounted on a PCB.

As shown in FIG. 1, a conventional planar inverted-F antenna (PIFA) includes an inverted-F antenna conductor part 110 and a dielectric part 120 holding it.

The antenna conductor 110 has an open end.

When the antenna of FIG. 1 is installed on a PCB as shown in FIG. 2, as shown in FIG. 2, the PIFA feed part 210, the PCB metal foil 220, the PCB dielectric part 230, and the PCB ground part 240 are shown. ), And the polarization direction of electromagnetic waves is horizontally radiated to the PCB. The antenna is radiated more than a certain size compared to the length L of the conductor portion 110, the width of the antenna is constant (W = 0.4cm), the antenna when the dielectric constant of the dielectric portion 120 is 2.8 The resonance frequency is generated according to the length L and the height H, and exhibits a very narrow band characteristic.

In order to improve the narrow band characteristics, the antenna conductor unit 110 may be short circuited to be improved. However, when the short circuit structure is long, the length of the conductor has to be increased.

In addition, the conventional planar inverted-F antenna (PIFA) has a problem that is difficult to utilize in a wideband wireless communication system due to the narrowband characteristics.

The present invention has been made to solve the above problems, an object of the present invention is to provide a stub short-circuit antenna in which a plurality of broadband resonant frequencies are formed by forming a stub of a radiator into a short-circuit structure having a length of 0.3λ to 0.5λ.

One embodiment according to the present invention for achieving the above object is formed with a predetermined length and width on the upper surface and side surface, the planar inverted F antenna that is adjusted by a predetermined length and width by the slot according to a plurality of resonant frequencies And a radiating part comprising a shorting stub to operate, a shorting part connected to one side of the radiating part to short-circuit a current, and a feeding part feeding electric current to the radiating part.

According to an embodiment of the present invention, the stub comprises a first short stub for forming a wideband low frequency resonant frequency and a second short stub for forming a wideband high frequency resonant frequency by the position of the slot.

According to one embodiment according to the invention, the first short stub is characterized in that it is terminated with a predetermined length from the feed section is connected to the short circuit.

According to one embodiment according to the invention, the first short stub and the second short stub are characterized in that each of 0.3λ ~ 0.5λ length of the center frequency.

According to one embodiment according to the invention, the second short stub is characterized in that it is terminated with a predetermined length from the feed section is connected to the short circuit.

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

3A is a top perspective view of a stub short-circuit broadband antenna according to an embodiment of the present invention, and FIG. 3B is a bottom perspective view of a stub short-circuit broadband antenna according to an embodiment of the present invention.

As shown in Figure 3a, the stub short-circuit broadband antenna 300 of the present invention is a metal plate is formed in a rectangular shape in a predetermined length and width on the upper surface and the side surface, in any shape by a plurality of slot positions Radiating part 310 consisting of a plurality of stubs 330 formed, a portion of the side surface of the radiating portion 310 is connected to the external ground and the short circuit portion 340, adjacent to the short circuit portion 340 It is extended to the stub 330 formed on the side surface of the radiating part 310, the feed line 350 and the feed line 350 of the predetermined length and width formed on the lower surface of the radiating part 310 It is formed in the end portion is made up of a feeder 360 for feeding a current.

The stub 330 is formed in a predetermined length and width on the upper surface and the side surface of the radiating portion 310, and is randomly selected from the top surface of the radiating portion 310 to the side surface by the position of the slot 320. It is divided into the shape of the first short stub 370 and the second short stub 380 is composed of.

The first short stub 370 is a meander line shape on the side surface of the radiating part 310 by the slot 320 from the feed part 360 through the feed line 350. The end portion 375 of the terminal is terminated with a length of 0.3λ ~ 0.5λ is connected to the short circuit portion 340, the first slot portion 325 of a predetermined shape is formed on one side of the upper surface of the radiating portion (310). .

The second short stub 380 is terminated by a length of 0.3λ to 0.5λ by the slot 320 through the feed line 350 from the feed part 360 and is connected to the first short stub 370. .

The short circuit 340 is connected to an external ground portion of the side surface of the radiator 310 to short-circuit current.

The feed line 350 is generally formed in a straight shape, but by forming multiple bends to increase the length of the stub 330, it is possible to reduce the size of the antenna.

In addition, as shown in Figure 3b, the feed line 350 is extended from the stub 330 formed on the side surface of the radiating portion 310 is bent c-shaped multi-fold, the through groove 390 is formed Multipath is achieved. It may also be of a variety of shapes within the r-shape or limited height.

The feeder 360 is formed at an end of the feeder line 350 in a quadrangular shape having a predetermined width to feed current to the radiator.

The stub short-circuit broadband antenna 300 is formed of a metal plate having a predetermined length and width on the upper surface and the side surface of the radiating portion 310 having a rectangular parallelepiped shape, and by the position of the plurality of slots 320. The stub 330 formed in a shape is divided into a first shorting stub 370 and a second shorting stub 380 so that the first shorting stub 370 of the first shorting stub 370 is formed by the slot 320 from the feed line 350. The length is increased in the shape of a meander line on the side surface of the radiating portion 310 is connected to the short circuit portion 340 with a length of 0.3λ ~ 0.5λ, thereby forming a broadband low frequency resonance frequency. The length is adjusted by the size of the first slot portion 325 formed in a predetermined shape on one side of the upper surface of the radiating portion 310.

The first short-circuit stub 370 is formed in a short-circuit type connecting the end portion of the meander line shape with the short-circuit portion 340.

An end portion 385 of the second shorting stub formed in the radiation portion 310 having a length of 0.3λ to 0.5λ is connected to the first shorting stub 370 formed at the side surface of the radiation portion 310. By adjusting by the length of the termination portion 385 of the second short stub, a high frequency resonant frequency is formed.

By bringing the position of the end portion 385 of the second short stub close to the first short stub end portion 375, the high frequency resonant frequency is adjusted downward, and away from the first short stub end portion 375 so as to be far from the first short stub end portion 375. The frequency is adjusted up.

By adjusting the position of the second short stub end 385 as described above, the high frequency resonant frequency can be adjusted, and a plurality of resonant frequencies can be formed.

On the other hand, the capacitive capacitance and inductance components are formed by adjusting the length and the interval of the feed line 350 is bent in the c-shape, the current flow is changed by the multi-path formed in the feed line 350 An inductive inductance component is formed and adjusted by the size of the through hole 390. The short circuit part 340 is connected to an external ground to adjust the capacitive capacitance component by the height between the radiating part 310 and the area of the feed line 350, and the capacitance formed in the feed line 350. Impedance is matched by the gender capacitance and the inductive inductance component to obtain a wider resonance frequency.

FIG. 4 is a characteristic graph for the antenna of the type as shown in FIG. 3.

As shown in FIG. 4, the reflection characteristics of the antenna 300 having the form shown in FIG. 3 according to the frequency from 700 MHz to 2400 MHz were measured. The standing wave ratio (SWR) of the antenna 300 is expanded to a bandwidth of 3 or less so that the broadband characteristics of the antenna improved from the bandwidth of about 8 to 9% of the existing PIFA antenna can be well understood. have.

The stub short-circuit wideband antenna of the present invention made as described above has a stub of the radiator having a length of 0.3λ to 0.5λ, thereby forming a wide resonance frequency and a meander line shape on the side surface of the radiator. By forming the length in the range of 0.3λ to 0.5λ, the antenna can be miniaturized.

By forming the stub of the radiator in the form of a short circuit having a length of 0.3λ to 0.5λ, there is an effect of improving in a low frequency resonant frequency bandwidth and an effect of forming a plurality of broadband resonant frequencies by adjusting the end of the stub.

In addition, the multipath is made by the multi-folded length and interval of the feed line has the effect of obtaining a wider resonance frequency.

Claims (10)

A planar inverted-F antenna formed on upper and side surfaces of a predetermined length and width, the predetermined length and width being adjusted by a slot according to a plurality of resonant frequencies to resonate, the radiating portion comprising a shorting stub to operate; A short circuit part connected to one side of the radiator to short-circuit a current of the radiator; And A stub short-circuit broadband antenna, characterized in that the feeder for feeding the current to the radiating portion. The stub short-circuit broadband antenna according to claim 1, wherein the stub comprises a first short stub for forming a wideband low frequency resonant frequency and a second short stub for forming a wideband high frequency resonant frequency by the position of the slot. The stub short-circuit broadband antenna according to claim 2, wherein the first short stub is connected to the short circuit part by terminating a predetermined length from the power supply part. The stub short-circuit wideband antenna according to claim 2, wherein the first short stub and the second short stub are 0.3λ to 0.5λ length of the center frequency, respectively. The stub short-circuit wideband antenna according to claim 2, wherein the second short stub is terminated by a predetermined length from the feed section and connected to the short circuit. 6. The stub short-circuit broadband antenna according to claim 5, wherein the second short stub adjusts the length of the side surface by forming a meander line. 4. The stub short-circuit broadband antenna according to claim 3, wherein the first short stub is configured to adjust the length by forming a side surface as a meander line. 6. The stub short-circuit broadband antenna according to claim 5, wherein the terminated second short stub has a high frequency resonant frequency adjusted upward or downward by a terminated position of the first short stub. The stub short-circuit wideband antenna according to claim 1 or 8, wherein the stub adjusts a length, a width, and a terminated position to adjust a resonance frequency and a bandwidth of the resonance frequency. The stub short-circuit broadband antenna according to claim 1, wherein the feed part is bent in multiple times.

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