KR101115380B1 - Slot type small internal antena - Google Patents

Abstract

The present invention relates to a slotted small antenna, comprising: a built-in antenna; A first ground formed on a main fish ratio mounted to the terminal; A second ground connected to the first ground and made of a paint or a deposited conductor applied to an inner wall of the main body case of the terminal; A small antenna having a feed pin connected to the main PCB, grounded to the second ground, protruded and bent to an upper portion of the main PCB, and extended horizontally; And first and second openings formed on an adjacent sidewall on which the antenna is disposed and on a second ground side of the ceiling.

Accordingly, the present invention has a built-in antenna, but by appropriately utilizing the characteristics of the slot and the ground is small and built-in, but can use a wide bandwidth, do not occupy a lot of space, the space utilization is maximized, can reduce the manufacturing cost Provide effect.

Slotted, Internal, Antenna, Ground

Description

Slot-type Small Built-in Antenna {SLOT TYPE SMALL INTERNAL ANTENA}

1 is an exemplary view showing a shape of a built-in antenna according to the prior art,

2 is an enlarged view illustrating main parts schematically showing an installation state of a slot-type small internal antenna according to the present invention;

Figure 3 is a graph of the return loss and radiation pattern experiment results of the antenna shown in the embodiment according to the present invention.

♧ description of the symbols for the main parts of the drawing ♧

100 .... main fish 110 .... dielectric

120 .... Mainland 200 .... Antenna

320 .... Subground 330 .... First Opening

340 .... the second sphere

The present invention relates to a slot-type small antenna, and more particularly, to a slot-type small antenna that is embedded in a terminal so as to increase the space efficiency by using the ground and the slot appropriately, and to expand the bandwidth.

Recent advances in information and communication technologies, including mobile phones, mobile phones capable of free wireless communication regardless of time and place, HPC (Handheld Personal Computer), Personal Digital Assistants (PDA), and Digital Multimedia Broadcasting (PDA) Portable mobile communication terminals such as) are widely used and are becoming common.

The mobile communication terminal, which is a wireless communication device, is a means for receiving radio waves from the outside and transmitting signals transmitted from other devices to the outside. It acts as an intermediary upon reception.

Such antennas mainly use externally projected antennas such as monopole antennas, helical antennas, and the like. However, the externally protruding antenna has a disadvantage in that it is easily broken or damaged by an external interference member during use, is inconvenient to carry, and does not have a beautiful appearance.

Because of these problems, efforts have been made to embed the antenna into a mobile phone at all. Built-in antennas have been disclosed.

For example, in Figure 1 (a), (b) MLMA and IFA is illustrated, but in the case of MLMA 14 illustrated in (a) is connected to the PCB 10 through the feed unit 12, The length was sufficiently secured by taking the shape bent many times, but the log magnitude and Smith chart were analyzed by HFSS simulation to confirm the bandwidth of -10dB. In the case of the IFA 16 illustrated in (b), the antenna is inverted F-type and the ground part is connected to one side of the feed part 12. Radiation gain is improved by setting (12 '), but the bandwidth of -10db is 0.09, which is suitable for narrow band, which has the disadvantage of low efficiency due to its narrow bandwidth. Have

In addition, since the antennas are built in the main body case of the terminal, the internal space of the main body case is narrowed, and the manufacturing cost is increased.

The present invention was created in view of the above-described problems of the prior art, and has been created to solve this problem. The main purpose of the present invention is to provide a slot-type small internal antenna which can reduce the manufacturing cost, because it can be reduced, thereby maximizing space utilization in the main body case of the terminal.

The present invention, in order to achieve the above technical problem, the built-in antenna; A first ground formed on a main fish ratio mounted to the terminal; A second ground connected to the first ground and made of a paint or a deposited conductor applied to an inner wall of the main body case of the terminal; A small antenna having a feed pin connected to the main PCB, grounded to the second ground, protruded and bent to an upper portion of the main PCB, and extended horizontally; The technical feature of the present invention is to provide a slot-type small internal antenna including first and second openings formed on an adjacent sidewall on which the antenna is disposed and on a second ground side of the ceiling.

In this case, the small antenna may be any one selected from MLMA, IFA, PIFA, chip antenna, or a variant thereof, and in particular, the chip antenna may be installed by the LTCC technique. .

In addition, the first and second openings have a technical feature in that any one selected from a polygon including a circle, an irregular closed surface or a non-closed surface, or a combination thereof is formed.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

Figure 2 is an enlarged view of the main portion showing the installation state of the slot-type small internal antenna according to the present invention.

As shown in FIG. 2, the slot-type small internal antenna according to the present invention has a form of an aperture antenna.

The antenna 200 according to the present invention has, for example, a feed pin 210 connected to the main PCB 100 of the mobile communication terminal and connected to the main ground 120 formed on the dielectric 110 of the main PCB 100. do.

In addition, the antenna 200 is not limited to the shape shown in the figure. Existing built-in antennas, that is, a miniaturized size such as a Meander Line Monopole Antenna (MLMA), an Inverted F Antenna (IFA), a Planar Inverted F Antenna (PIFA), etc. are reduced in size. It may be used as it is, the shape may be modified and used, and a conventional chip antenna may also be used.

In this case, the chip antenna may be applied using a low temperature cofired ceramics (LTCC) technique.

Here, LTCC is a technique that is interpreted as Korean low-temperature co-fired ceramic. It is mainly applied to passive devices for high frequency communication, and it is literally Co (fire) process technology that metal and its ceramic substrate are made together at low temperature. And the outcomes.

In general, when a circuit is made, a substrate is made of a substrate and a metal is coated on the substrate. However, this method has a lot of obstacles in the integration. Because it had to be used, it had a disadvantage of large transmission loss besides price. However, using glass-based or mixed ceramics can sinter metal-clad substrates at around 800 to 1000 degrees, and also have good characteristics at high frequencies.

Using this LTCC method, a thin film multilayer circuit can be constructed, which is particularly advantageous when implementing a large device such as an inductor. For example, placing an inductor on a chip die, such as an MMIC or RFIC, is expensive because of its size, which can be spread under the LTCC, and the devices that need to go outside can also be placed under the chip in a thin film to save space. It may be.

By using the LTCC process, not only internal devices integrated with MMIC / RFIC but also general stacked unit passive devices such as C and L or passive devices such as chip couplers can be manufactured.

On the other hand, in the embodiment of the present invention, the antenna 200 is small and built in the main body case of the terminal, is disposed with a predetermined height from the upper surface of the main fish ratio 100, the first and second openings 330, 340 to be described later Placed across.

Then, the sub ground 320 is provided, the sub ground 320 refers to a coating or a conductor to be sprayed to prevent static electricity on the inner wall surface of the case of the mobile communication terminal.

At this time, the sub ground 320 is configured to be connected to the main ground 120 on the main PCB (120) as shown.

In addition, the sub-ground 320 is formed by applying or depositing the upper end is bent at approximately right angles along the shape of the main body case of the terminal.

In addition, the antenna 200 of the present invention is grounded with the sub ground 320.

In addition, a part of the sub ground 320 forms the first and second openings 330 and 340. The first and second openings 330 and 340 do not apply paint to a part of the sub ground 320, for example. Or by not depositing a conductor.

In other words, a portion of the main body case of the terminal is not perforated and not perforated, but a portion of the inner wall, that is, the first and second openings 330 and 340 only means that no coating or conductor is applied or deposited.

In this case, the first and second openings 330 and 340 are formed in a substantially rectangular shape in the preferred embodiment in the vertically extending portion from one side of the main PCB 100 in an upward direction. Although the second opening 340 communicating with the first opening 330 is formed in a substantially rectangular shape in a portion of the shape which is bent vertically from the upper end to the front again, the shape is necessarily It is not limited and can vary with bandwidth.

For example, the first and second openings 330 and 340 may be in communication with each other, or may be separated from each other, and may have a polygonal shape including a circle, an irregular closed surface, a non-closed surface, or a combination thereof. It may be formed by the, it is possible to design sufficiently variable according to the reactance component and the gain of the antenna in consideration of the frequency characteristics of the terminal, that is, the required radiation area.

For example, the radiation pattern and bandwidth are different when the aperture is one and two, and the gain of the antenna is also changed, and also depends on the user's gripping state. There is no need to limit to the particular shape and number of apertures.

The core of the present invention is to provide a slot-type small internal antenna which can have a desired radiation pattern and antenna gain by appropriately combining such shapes, and above all, to reduce the size and expand the bandwidth by using a slot, that is, an opening surface. It is.

The operation relationship of the present invention having such a configuration is as follows.

Antenna 200 of the present invention is built in a miniaturized form inside the main body case of the terminal.

Then, when the current is fed through the feed pin 210, the radiation occurs while the electromagnetic wave proceeds through the antenna 200.

The electromagnetic wave thus radiated, ie, the signal, is finally radiated through a slot, that is, the first and second openings 330 and 340.

At this time, the first and second openings 330 and 340 become kitchen bodies.

In this way, it is possible to implement a small antenna using a slot with a high bandwidth but high antenna gain, and as a result, the terminal can be made slimmer and smaller.

Hereinafter, the experimental example will be described whether the antenna of the present invention can be used for the bandwidth of the mobile communication terminal.

[Experimental Example]

In order to confirm whether the antenna of the present invention can be applied to a mobile communication terminal, a sample is manufactured according to the shape of the above-described embodiment, and then an antenna return loss test and an antenna radiation pattern for confirming whether the antenna is applicable as an antenna for a terminal is confirmed. It was.

Since the antenna return loss test and the antenna radiation pattern test are one of the conventional antenna characteristic tests, a detailed description thereof will be omitted, and the experimental results are shown in FIGS. 3A and 3B.

As shown in (a) of FIG. 3, a portion of the antenna having the lowest peak loss as a result of measuring the return loss of the antenna according to the exemplary embodiment of the present invention, that is, the portion of which the power of the antenna is best transmitted as the portion of the largest reflection value is 0.7. As the ~ 0.8 GHz band, for example, it is confirmed that the 700 ~ 800 MHz band which is the main frequency band of the mobile communication terminal.

In addition, as shown in (b) of FIG. 3, as a result of measuring the radiation pattern of the antenna according to the embodiment of the present invention, the radiation pattern in the form of a circle when measured in the horizontal direction, it is approximately '8 when measured in the vertical direction 'The shape of the radiation pattern is shown, confirming that the terminal meets the radiation pattern required.

As a result, the present invention is capable of miniaturization of the antenna by using an opening surface (slot), a wider bandwidth than the existing built-in type, a small antenna having a variety of optimized radiation patterns and reflection loss depending on the shape of the opening surface It was confirmed that can be implemented.

As described in detail above, the present invention has a built-in antenna, but by appropriately utilizing the characteristics of the slot and the ground is small and built-in, but can use a wide bandwidth, do not occupy a lot of space to maximize space utilization, manufacturing cost Provides savings.

Claims (4)

A built-in antenna; A first ground formed on a main fish ratio mounted to the terminal; A second ground connected to the first ground and made of a paint or a deposited conductor applied to an inner wall of the main body case of the terminal; A small antenna having a feed pin connected to the main PCB, grounded to the second ground, protruded and bent to an upper portion of the main PCB, and extended horizontally; And a first opening and a second opening formed on an adjacent sidewall of the antenna and a second ground side of the ceiling. The method according to claim 1; The small antenna is any one selected from MLMA, IFA, PIFA, chip antenna, or a variant thereof. The method according to claim 2; The chip antenna is a slot-type small internal antenna, characterized in that installed by the LTCC method. The method according to claim 1; The first and second openings are slot-type small internal antennas, characterized in that formed in the shape of any one or a combination of polygonal, irregular closed surface or non-closed surface including a circle.

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