KR200452370Y1 - Antenna coupler for wireless terminal test - Google Patents

Abstract

The present invention relates to an antenna coupler for a wireless communication terminal test, the antenna coupler for a wireless communication terminal test according to the present invention, each of the upper and lower surfaces in the shape of a square, the groove is formed in the center except the edge portion, An antenna base having an opening for accommodating a connection jack at a part of the edge of the upper surface; An antenna printed circuit board coupling antenna transmission / reception of the wireless communication terminal in a non-contact manner, and coupled through a jig and an edge of an upper surface of the antenna base; And an electromagnetic wave absorber attached to a lower groove formed on a lower surface of the antenna base. According to the present invention, it is small and easy to be embedded in a manufacturing line, and to measure the radiosensitivity of a wireless terminal having various frequency bands. It is possible.

Antenna, coupler, wireless communication terminal, electromagnetic wave, test

Description

ANTENNA COUPLER FOR TESTING A WIRELESS COMMUNICATION DEVICE}

The present invention relates to an antenna coupler for testing a wireless communication terminal, and more particularly, to an antenna coupler for testing a wireless communication terminal capable of testing a small size and wideband wireless communication terminal.

A general wireless communication terminal is essentially provided with an input / output device, a handset, and an antenna device to have a voice call or a video call with a counterpart. The wireless communication terminal is completed as a final finished product through a predetermined assembly process, and the test is performed in the final finished product or semi-finished state before completion. In particular, the antenna device mounted on the wireless communication terminal performs a test through a test device including an antenna coupler for transmitting and receiving sensitivity.

The antenna coupler is used to test transmitters and / or receivers, in particular wireless communication terminals such as mobile phones. The antenna coupler will test the radio characteristics of antenna efficiency. The test of the wireless communication terminal is examined various characteristics and parameters of the wireless communication terminal, which can be roughly divided into a transmitter test and a receiver test. For example, in the case of a transmitter test, measurements of phase error, frequency error, power and spectrum are performed. For reception tests, for example, the bit error rate is measured.

The antenna characteristic test of the wireless communication terminal is usually performed in a separate shielding room for measuring radio signals.

Frequency bands typically used in wireless communication terminals are 174-200 MHz for terrestrial DMB, approximately 850 MHz for CDMA, 950 MHz for GSM, 1750 MHz for GPS, 1800-1900 MHz for PCS, and Bluetooth (bluetooth). ) Is 2.45GHz, satellite DMB, 2.3-2.6GHz for Wireless-Broadband, and 5.8GHz for WLAN.

Conventional antenna couplers do not cover this frequency band as a whole, and the test was performed through each antenna coupler for each frequency band.

Therefore, there is a need for a small antenna coupler while covering all frequency bands used in a wireless communication terminal.

Accordingly, an object of the present invention is to provide an antenna coupler for a wireless communication terminal test that can overcome the above-mentioned conventional problems.

Another object of the present invention is to provide an antenna coupler for testing a wireless communication terminal capable of measuring the radiosensitivity of a wireless terminal having a small size and various frequency bands.

Still another object of the present invention is to provide an antenna coupler for testing a wireless communication terminal having electromagnetic wave absorption characteristics.

According to an embodiment of the present invention for achieving some of the technical problems described above, the antenna coupler for testing a wireless communication terminal according to the present invention, each of the upper surface and the lower surface of the square is formed in the center except the edge portion An antenna base having an opening for accommodating a connection jack at a part of the edge portion of the upper surface; An antenna printed circuit board coupling antenna transmission / reception of the wireless communication terminal in a non-contact manner, and coupled through a jig and an edge of an upper surface of the antenna base; It is provided with an electromagnetic wave absorber attached to the lower groove formed on the lower surface of the antenna base.

The antenna printed circuit board may include a rectangular first conductor region at a center portion of an upper surface thereof, and a second conductor region spaced apart from the first conductor region at left and right edges of the first conductor region. have.

The length of the antenna base and the antenna printed circuit board is 30 ~ 50mm, the width may be 10 ~ 30mm smaller than the length.

According to the present invention, it is small and easy to be embedded in a manufacturing line, etc., it is possible to measure the radio sensitivity of the wireless terminal of various frequency bands. In addition, the electromagnetic wave absorption characteristics can be smoothly tested.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings without any intention other than to provide a thorough understanding of the present invention to those skilled in the art.

1 is an exploded perspective view of an antenna coupler 100 (hereinafter, referred to as an 'antenna coupler') for testing a wireless communication terminal according to an embodiment of the present invention, and FIG. 2 is a combined perspective view of FIG. 1.

As shown in FIG. 1 and FIG. 2, the antenna coupler 100 according to an embodiment of the present invention includes an antenna base 120 made of a synthetic resin material, an antenna printed circuit board 130, and an electromagnetic wave absorber 110. .

The antenna base 120 has a quadrangular shape, and a groove 122 is formed at the center of the upper surface except for the edge portion 127, and a groove (not shown) is formed at the center portion of the lower surface 124 except for the edge portion. Is formed. In other words, the upper surface of the antenna base 120 may be divided into a groove 122 and an edge portion 127 formed in the center portion. In addition, an opening 126 for accommodating the connection jack 150 is formed at a part of the edge portion of the upper surface. The opening 126 is provided at a position where the connection jack is easily received among the edge portions 127, and is formed to be the same or deeper than the depth of the groove 122, and the opening 126 is formed at the edge portion of the edge portion 127. It is formed to penetrate a portion laterally.

The edge portion 127 of the upper surface of the antenna base 120 is provided with a plurality of coupling grooves 128 for coupling with the antenna printed circuit board 130. The electromagnetic wave absorber 110 is attached to the groove formed on the lower surface 124 of the antenna base 120.

The antenna base 120 has a size smaller than the length or width of a general wireless communication terminal (for example, a mobile phone). The length is approximately 30 ~ 50mm, the width may have a size 10 ~ 30mm smaller than the length. The size of the antenna base 120 may be appropriate enough to accommodate a general wireless communication terminal.

The antenna printed circuit board 130 couples the antenna transmission and reception of the wireless communication terminal in a non-contact manner, and is coupled through the jig 140 and the upper surface of the edge portion 127 of the upper surface of the antenna base 120. do.

A rectangular first conductor region 132 is formed at the center of the upper surface of the antenna printed circuit board 130, and the first conductor region 132 is formed at left and right edges of the first conductor region 132. The second conductor region 134 is formed to be spaced apart from each other.

The second conductor region 134 may be formed in the same structure on the lower surface of the antenna printed circuit board 130 at the same position. In addition, in the center portion of the lower surface of the antenna printed circuit board 130 where the second conductor region 134 is not formed, electrical and electronic components required for resistance or other circuit configuration electrically connected to the first conductor region 132. The elements will be arranged.

The antenna printed circuit board 130 is electrically connected to the connection jack 150, and the connection jack 150 is exposed to the outside through the opening 126 formed in the antenna base 120.

The antenna printed circuit board 130 may be formed in the same size as that of the antenna base 120.

The electromagnetic wave absorber 110 absorbs electromagnetic waves generated during a test operation and is attached to a lower groove formed in the lower surface 124 of the antenna base 120. The electromagnetic wave absorber 110 may be an electromagnetic wave absorber well known to those skilled in the art.

The electromagnetic wave absorber 110 enables smooth and easy test operation through electromagnetic wave absorption, and is intended to prevent or minimize a test error or an error caused by the reflection signal of the electromagnetic wave during the test operation.

Antenna coupler 100 having the structure as described above has a structure that is coupled as shown in Figure 2, the size is 30 ~ 50mm in length, 10 ~ 30mm in width, thickness is composed of about 5 ~ 10mm. One example may be configured to have a length of 50mm, a width of 30mm, a thickness of 8mm. Therefore, it has a small size compared to the conventional, it is easy to embed (embedded) on the manufacturing line.

In recent years, the position of the antenna of the wireless communication terminal used is increasing in the whole of the wireless communication terminal in the upper portion. Therefore, the antenna is fixed in a variety of places, the antenna coupler should be a size and structure that can be easily mounted through a variety of positions, such as the bottom end, side (upright), the top surface of the wireless communication terminal to perform the test something to do.

In addition, there may be two or more kinds of antennas in the wireless communication terminal. Accordingly, two or more antennas are freely mounted. Therefore, the antenna coupler according to the present invention should have a structure capable of multi-testing.

Typical frequency bands used in wireless communication terminals are 174-200 MHz for terrestrial DMB, approximately 850 MHz for CDMA, 950 MHz for GSM, 1750 MHz for GPS, 1800-1900 MHz for PCS, and Bluetooth. (bluetooth) is 2.45GHz, satellite DMB, Wi-Fi (Wireless-Broadband) is 2.3 ~ 2.6GHz, WLAN is 5.8GHz, the frequency range of the antenna coupler of the present invention has a 100 ~ 6000MHz, The radiosensitivity test of all these wireless communication terminals is possible.

As shown in FIG. 3, the test target wireless communication terminal 200 is positioned on the top surface of the antenna printed circuit board 130 and the test is performed. In this case, the wireless communication terminal 200 may be positioned in a state in which an insulating plate or other insulating material film is disposed on the antenna printed circuit board 130, and the wireless communication is immediately performed without placing an insulating plate or other insulating material film. It may be possible to perform a test while the terminal 200 is located. For example, if the exterior of the wireless communication device 200 is not made of metal, it may be possible to perform a test in a state where the wireless communication terminal 200 is placed on the antenna coupler 100 without disposing an insulating material. .

In addition, the coupling loss (coupling loss) is less than 10dB, the weight is about 20g, the reflection coefficient (VSWR) has a value within 1: 1.6.

As described above, according to the present invention, it is small and easy to be embedded in a manufacturing line or the like, and it is possible to measure the radiosensitivity of the radio terminal of various frequency bands. In addition, the electromagnetic wave absorption characteristics can be smoothly tested.

 Since the description of the above embodiment is merely an example with reference to the drawings for a more thorough understanding of the present invention, it should not be construed as limiting the present invention. In addition, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the basic principles of the present invention.

1 is an exploded perspective view of an antenna coupler for testing a wireless communication terminal according to an embodiment of the present invention,

2 is a perspective view of the combination of FIG.

3 illustrates an example of an antenna coupler and a test target wireless communication terminal of FIG. 2.

* Description of the symbols for the main parts of the drawings *

110: electromagnetic wave absorber, 120: antenna base

130: antenna printed circuit board 140: jig

150: connection jack

Claims (3)

In the antenna coupler for testing wireless communication terminals: An antenna base each having a top surface and a bottom surface formed with a groove in a center portion except for an edge portion, and an opening for accommodating a connection jack at a portion of the edge portion of the upper surface; An antenna printed circuit board coupling antenna transmission / reception of the wireless communication terminal in a non-contact manner, and coupled through a jig and an edge of an upper surface of the antenna base; And an electromagnetic wave absorber attached to a lower groove formed on a lower surface of the antenna base. The method of claim 1, wherein the antenna printed circuit board, Wireless communication terminal test, characterized in that the central portion of the upper surface is provided with a rectangular first conductor region, and the second conductor region spaced apart from the first conductor region on the left and right side edge portions of the first conductor region. Antenna coupler. The method according to claim 2, And a length of the antenna base and the antenna printed circuit board is 30 to 50 mm, and a width of 10 to 30 mm smaller than the length.

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