KR101017495B1 - Flat type hand phantom for estimating over the air performance - Google Patents

Abstract

The present invention includes a first dielectric fluid container corresponding to the palm of the human body and disposed to face the front surface or the rear surface of the mobile communication terminal and into which the dielectric fluid is injected; A second dielectric fluid container corresponding to a thumb portion of the human body and disposed to face one side of the mobile communication terminal, into which a dielectric fluid is injected; And a third dielectric fluid container corresponding to the remaining finger parts of the human body except for the thumb and facing the opposite side of the mobile communication terminal, and having a dielectric fluid injected therein. Initiates a type hand phantom.

Hand phantom, TRP, TIS, dielectric fluid, cleavage rate, scatter plot matrix, correlation coefficient

Description

Flat type hand phantom for electromagnetic environment evaluation {FLAT TYPE HAND PHANTOM FOR ESTIMATING OVER THE AIR PERFORMANCE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hand phantom for electromagnetic wave environment evaluation, and more particularly, to a flat type hand phantom having a simplified structure for easy mounting of a mobile communication terminal.

With the widespread use of mobile communication terminals such as mobile phones, interest in the effect of the electromagnetic environment on the human body is increasing. In addition, researches are being actively conducted to provide high quality communication quality while satisfying the electromagnetic wave absorption rate standards for the human body. have.

It is important to measure SAR (Specific Absorption Rate) of human body for the evaluation of electromagnetic environment of mobile communication terminal.For this purpose, Phantom model similar to human body is made of various dielectric materials to make electromagnetic distribution and electrical Methods for estimating characteristics have been developed. Patent technologies related to the phantom include Korean Patent Registration No. 490246, Patent Registration No. 332869, Patent Publication No. 2000-15490, and Patent Publication No. 2006-23422.

Patent No. 4490246 is composed of an organic binder composed of an epoxy curing system having a very low curing rate, an organic solvent composed of a mixture of methyl ethyl ketone (MEK), toluene and ethyl acetate, and an internal release agent composed of stearic acid and an antifoaming agent. The present invention discloses a phantom for an electromagnetic wave specific absorption rate measuring system for preventing generation of voids, cracks, and air gaps.

Patent No. 332869 discloses a human head phantom for measuring a radiation pattern of an antenna for a wireless mobile communication terminal, wherein a reference line, a positioning grid, a mounting part, and the like are formed on the human head. This patent document describes that the radiation pattern of the mobile communication terminal antenna can be measured in the same environment as the actual use environment by aligning the antenna of the mobile communication terminal on the same line as the vertical position of the horn antenna for measuring the radiation pattern.

Patent Publication No. 2000-15490 discloses a human body phantom shell in which a dielectric material and a conductor material are mixed with a shape memory polymer as a base material. In this patent document, it is possible to overcome the problem of measurement of specific absorption rate on the phantom surface, which is a problem of the phantom in liquid or quasi-liquid form, and the problem of reproducibility after a certain period of time. It is described as.

Patent Publication No. 2006-23422 discloses a rotating plate, plate motor, connecting rod, base plate, guide roller, main ring, sub ring, sub rod, support plate, and ring roller shaft to fix the wireless terminal or head phantom in the correct position. , A main ring roller, a sub ring roller, a roller motor, and the like. This patent document describes that the base plate, the main ring and the sub ring can be rotated in different directions so that the measuring position of the wireless terminal or the head-phase phantom can be adjusted by combining their rotational directions and degrees.

On the other hand, hand phantom widely used to evaluate the characteristics of the call cutting rate (hereinafter referred to as the 'cutting rate') for the hand portion of the human body as shown in FIG. It is common to provide. In order to maintain a predetermined gap between the hand phantom 10 and the mobile communication terminal 1, a gap means 11 may be provided in the palm of the hand phantom 10.

The hand phantom as described above is preferably made of a material satisfying the dielectric constant and conductivity characteristics similar to human tissue. The relative change can be measured even if the dielectric constant and conductivity characteristics similar to the human body are not satisfied.

However, the conventional hand phantom has a disadvantage that the price is expensive because it is molded in the same shape as the hand of the human body, the mounting of the mobile communication terminal can not be made stably due to the irregular shape to match the hand shape, As a result, there is a weakness of poor reproducibility and repeatability in measuring Total Radiated Power (TRP) or Total Isotropic Sensitivity (TIS), which are OTAP (Over The Air Performance, CTIA TEST PLAN).

The present invention has been made to solve the above problems, to provide a flat-type hand phantom that can be manufactured in a simplified structure through the modeling of the part that has a major influence on the electromagnetic wave absorption characteristics of the human hand form Its purpose is to.

In order to achieve the above object, the present invention discloses a flat type hand phantom having a structure in which three main parts of the hand involved in the grip when using a mobile communication terminal are modeled.

That is, the flat type hand phantom according to an embodiment of the present invention, disposed to face the front or rear of the mobile communication terminal, the first dielectric fluid container in which the dielectric fluid is injected; A second dielectric fluid container corresponding to a thumb portion of the human body and disposed to face one side of the mobile communication terminal, into which a dielectric fluid is injected; And a third dielectric fluid container corresponding to the remaining finger parts of the human body except for the thumb and facing the opposite side of the mobile communication terminal and into which the dielectric fluid is injected.

Preferably, the first dielectric fluid bottle, the second dielectric fluid bottle and the third dielectric fluid bottle have a square tube shape, and the second dielectric fluid bottle and the third dielectric fluid bottle are on one flat surface of the first dielectric fluid bottle. Can be arranged side by side apart from each other in the phase.

Preferably, the flat type hand phantom further includes a base block disposed to support the bottom of the mobile communication terminal.

According to another preferred embodiment of the present invention, a first surface corresponding to the palm portion of the human body and facing the front or rear of the mobile communication terminal, and one side of the mobile communication terminal corresponding to the thumb portion of the human body And a second taping portion including a second surface disposed to face the second surface, and a third surface corresponding to the remaining portion of the human body except for the thumb and facing the opposite side of the mobile communication terminal. A flat type hand phantom is provided.

A spacer may be interposed between the dielectric taping unit and the mobile communication terminal to maintain a gap.

In another configuration, the dielectric taping unit may have a structure for maintaining an air gap between the dielectric taping unit and the mobile communication terminal when the mobile communication terminal is mounted.

The hand phantom according to the present invention can be manufactured at low cost since the shape of the hand is simplified in the form of a flat surface by the dielectric fluid container or the dielectric taping, it can stably mount the mobile communication terminal, and the reproducibility of the TRP / TIS measurement. And repeatability has a good advantage.

Therefore, when using the hand phantom according to the present invention can measure the antenna radiation pattern or the electromagnetic wave absorption rate for the mobile communication terminal at low cost.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in this specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly introduce the concept of terms in order to best explain their invention. It should be interpreted as meanings and concepts in accordance with the technical spirit of the present invention based on the principle that it can be defined. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention, various equivalents that may be substituted for them at the time of the present application It should be understood that there may be variations and variations.

Figure 2 is a perspective view showing the configuration of a flat type hand phantom according to an embodiment of the present invention.

When using the mobile communication terminal 1, the main part of the hand involved in the gripping can be largely divided into palms, thumbs and other fingers except the thumb. The flat type hand phantom according to the preferred embodiment of the present invention has a structure in which the three parts involved in the gripping of the mobile communication terminal 1 are modeled. That is, as shown in FIG. 2, the flat type hand phantom is a combination of the first dielectric fluid container 100, the second dielectric fluid container 101, and the third dielectric fluid container 102 to form a substantially practical hand shape. do.

More specifically, the flat hand phantom is a first dielectric fluid container 100 corresponding to the palm of the human body, a second dielectric fluid container 101 corresponding to the thumb of the human body and the thumb And a third dielectric fluid container 102 corresponding to the remaining fingers. In the flat type hand phantom, the first dielectric fluid reservoir 100, the second dielectric fluid reservoir 101, and the third dielectric fluid reservoir 102 are configured to have a substantially rectangular barrel shape. Can be.

When the mobile communication terminal 1 is mounted, one flat surface of the first dielectric fluid container 100 faces the rear surface of the mobile communication terminal 1. Although not shown in the drawing, one flat surface of the first dielectric fluid container 100 may face the front surface of the mobile communication terminal 1.

As shown in FIG. 3, between the mobile communication terminal 1 and the first dielectric fluid container 100, the correlation coefficient between the flat type hand phantom and the cutting rate is increased when the mobile communication terminal 1 is used. It is preferable to form a predetermined gap G. Preferably, the gap G is designed in the range of 5 mm-1 cm.

The second dielectric fluid container 101 is disposed so that one side thereof faces one side of the mobile communication terminal 1, and the third dielectric fluid container 102 is opposite to the mobile communication terminal 1. Opposite sides to support the sides.

The second dielectric fluid container 101 and the third dielectric fluid container 102 are disposed side by side to be spaced apart from each other, and each rear surface is installed so as to lie on the flat surface of the first dielectric fluid container (100).

In order to further increase the correlation coefficient between the flat-type hand phantom and the cutting rate, the base block 103 supporting the bottom surface of the mobile communication terminal 1 between the second dielectric fluid reservoir 101 and the third dielectric fluid reservoir 102 is provided. It is preferable to arrange further.

The dielectric fluid injected into the first dielectric fluid container 100, the second dielectric fluid container 101, and the third dielectric fluid container 102 preferably has physical properties of 20 to 40 dielectric constant and a conductivity of 0.09 S / m or less. However, of course, it is not limited to this example. When the numerical condition is applied, it is easy to detect the power or sensitivity characteristics of the mobile communication terminal 1 by measuring TRP (Total Radiated Power) or TIS (Total Isotropic Sensitivity), and is substantially the same as the specific absorption rate of the electromagnetic wave for the human hand. Or similar absorption properties can be obtained.

4 shows a cutting rate, a flat type hand phantom (LL0811) provided according to an embodiment of the present invention, and an actual hand-shaped hand phantom with silicon provided according to a comparative example of the present invention (Sil1, Ksil, LG_Sil1). Scatter plot matrix for. When performing correlation analysis with reference to FIG. 4, the correlation coefficient between the cutting rate and the flat type hand phantom (LL0811) is almost 0.8, and these results are compared with the hand phantom (Sil1) having a correlation coefficient of about 0.8. It can be seen that the performance of the hand phantom is comparable.

As described above, according to the present invention, the main portion of the hand involved in the gripping of the mobile communication terminal 1 includes the first oil reservoir 100, the second oil reservoir 101, and the third oil reservoir 102. The three parts provide a simplified flat type hand phantom. The flat-type hand phantom is installed in the anechoic chamber, and after the dielectric fluid is injected into each dielectric fluid reservoir, the first dielectric fluid reservoir 100, the second dielectric fluid reservoir 101, and the third dielectric fluid reservoir 102 are provided. The mobile communication terminal 1 can be stably mounted so as to be surrounded by. After placing the mobile communication terminal 1 in the flat type hand phantom, for example, a test such as TRP / TIS measurement may be performed to obtain power or sensitivity characteristics of electromagnetic waves.

5 is a perspective view showing the configuration of a flat hand phantom according to another preferred embodiment of the present invention, Figure 6 is a plan view of FIG.

5 and 6, the flat type hand phantom includes a first surface 201a facing the rear surface of the mobile communication terminal 1 to be measured, and a side facing one side of the mobile communication terminal 1. A dielectric taping portion 201 is provided, including a second surface 201b and a third surface 201c facing the opposite side of the mobile communication terminal 1. Although not shown in the drawings, the first surface 201a of the dielectric taping unit 201 may face the front surface of the mobile communication terminal 1.

Similar to the above-described embodiment, the flat-type hand phantom according to the present embodiment has a structure in which the palms, the thumb and the other fingers except the thumb, which are main parts involved in the gripping of the mobile communication terminal 1, are modeled. That is, the flat type hand phantom according to the present embodiment is substantially shaped by the hands of the dielectric taping unit 201 surrounding the left and right sides and the back of the mobile communication terminal 1.

In the dielectric taping portion 201, the first surface 201a corresponds to the palm of the human body, the second surface 201b corresponds to the thumb of the human body, and the third surface 201c excludes the thumb. Corresponds to the remaining finger parts. In order to further increase the correlation between the flat type hand phantom and the cutting rate, a surface facing the bottom surface of the mobile communication terminal 1 is further provided between the second surface 201b and the third surface 201c of the dielectric taping portion 201. It is preferable to provide.

The dielectric taping portion 201 is formed by a tape made of a dielectric material. The dielectric taping portion 201 preferably has a dielectric constant of 20 to 40 and a conductivity of 0.09 S / m or less, but is not limited thereto. When applying the numerical conditions as described above, it is easy to detect the power or sensitivity characteristics of the mobile communication terminal 1 by measuring the TRP or TIS, and can obtain the absorption characteristics substantially the same as or similar to the specific absorption ratio of the human hand. .

A spacer for maintaining a gap G by separating the space between the mobile communication terminal 1 and the dielectric taping unit 201 between the first surface 201a of the dielectric taping unit 201 and the rear surface of the mobile communication terminal 1. (Spacer) 200 is interposed. In this case, the first surface 201a of the dielectric taping portion 201 has a structure attached to the rear surface of the spacer 200.

The spacer 200 is preferably provided in a plate form by styrofoam, wood, polycarbonate (PC), or the like. When the spacer 200 is disposed in close contact with the rear surface of the mobile communication terminal 1 mounted, the rear surface of the mobile communication terminal 1 and the first surface 201a of the dielectric taping unit 201 are as thick as the spacer 200. A gap G may be formed in the liver.

As shown in FIG. 7, the spacer 200 may be provided to have a bottom structure bent. In this case, more stable mounting is possible by placing the mobile communication terminal 1 on the bent portion.

In the inner, outer surface or the spacer 200 of the dielectric taping unit 201, it is preferable that a graduation display unit 202 is provided for guiding the alignment position when the mobile communication terminal 1 is mounted.

An air gap G _A is formed between the second and third surfaces 201b and 201c of the dielectric taping unit 201 and both sides of the mobile communication terminal 1. Although not shown in the drawings, a spacer structure is interposed between the second surface 201b and the third surface 201c of the dielectric taping unit 201 and the mobile communication terminal 1 by a plate or a filler. It is also possible.

As shown in FIG. 8, the flat type hand phantom has air between the first surface 201a, the second surface 201b and the third surface 201c of the dielectric taping portion 201 and the mobile communication terminal 1. It may be provided in a structure in which a gap (Air Gap) (G _A ) is formed.

When the air gap G _A is formed between the dielectric taping unit 201 and the mobile communication terminal 1, the dielectric taping unit 201 is made of a material having an appropriate bending strength to maintain its shape, or It is desirable to have a structure attached to a reinforcing plate or support structure.

As described above, when the gap G is formed between the mobile communication terminal 1 and the dielectric taping unit 201, the correlation coefficient between the flat type hand phantom and the cutting rate may be increased. Preferably, the thickness of the spacer 200 is designed in the range of 5mm ~ 1cm.

As described above, the present invention provides a flat type hand phantom in which a main portion of the hand involved in holding the mobile communication terminal 1 is simplified by the dielectric taping unit 201. The flat type hand phantom is installed in the anechoic chamber, and can be stably mounted on the mobile communication terminal 1 by taping with a dielectric tape to surround both sides and the back (or front) of the mobile communication terminal 1. After placing the mobile communication terminal 1 in the flat type hand phantom, for example, a test such as TRP / TIS measurement may be performed to obtain power or sensitivity characteristics of electromagnetic waves.

Although the present invention has been described above by means of limited embodiments and drawings, the present invention is not limited thereto and will be described below by the person skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of the claims.

The following drawings, which are attached to this specification, illustrate preferred embodiments of the present invention, and together with the detailed description of the present invention serve to further understand the technical spirit of the present invention, the present invention includes matters described in such drawings. It should not be construed as limited to.

1 is a perspective view showing the configuration of a hand phantom according to the prior art.

Figure 2 is a perspective view showing the configuration of a flat type hand phantom according to an embodiment of the present invention.

3 is a plan view of FIG. 2.

4 is a diagram illustrating a scatterplot matrix of hand phantoms and cutting rates according to Examples and Comparative Examples of the present invention.

Figure 5 is a perspective view showing the configuration of a flat type hand phantom according to another embodiment of the present invention.

6 is a plan view of FIG. 5.

FIG. 7 is a side cross-sectional view illustrating a modified example of the spacer in FIG. 5.

8 is a plan view illustrating a modification of FIG. 6.

<Description of Major Reference Marks in Drawings>

1: mobile communication terminal 100: a first oil container

101: second oil bottle 102: third oil bottle

103: base block 200: spacer

201: dielectric taping

Claims (6)

In the hand phantom equipped with a mobile communication terminal, A first dielectric fluid container corresponding to the palm of the human body and disposed to face the front surface or the rear surface of the mobile communication terminal and into which the dielectric fluid is injected; A second dielectric fluid container corresponding to a thumb portion of the human body and disposed to face one side of the mobile communication terminal, into which a dielectric fluid is injected; And A third dielectric fluid container corresponding to the remaining finger portions of the human body except for the thumb and facing the opposite side of the mobile communication terminal, into which a dielectric fluid is injected; Hand Phantom. The method of claim 1, The first dielectric fluid bottle, the second dielectric fluid bottle and the third dielectric fluid bottle has a rectangular barrel shape, And the second dielectric fluid reservoir and the third dielectric fluid reservoir are arranged side by side to be spaced apart from each other on one flat surface of the first dielectric fluid reservoir. The method of claim 1, And a base block disposed to support a bottom surface of the mobile communication terminal. In the hand phantom equipped with a mobile communication terminal, A first surface corresponding to the palm portion of the human body and facing the front or rear surface of the mobile communication terminal, a second surface corresponding to the thumb portion of the human body and facing one side of the mobile communication terminal; A flat type hand phantom comprising: a dielectric taping part including a third surface of the human body, the third surface corresponding to a portion of the finger except the thumb and facing the opposite side of the mobile communication terminal. The method of claim 4, wherein And a spacer disposed between the dielectric taping unit and the mobile communication terminal to maintain a gap. The method of claim 4, wherein The dielectric taping unit is a flat type hand phantom, characterized in that having a structure for maintaining an air gap (gap) between the dielectric taping unit and the mobile communication terminal when the mounting of the mobile communication terminal.

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