KR100631700B1 - Polarization diversity antenna structure of portable terminal - Google Patents

Abstract

The present invention relates to a polarization diversity antenna structure of a portable terminal, wherein a microphone and a speaker are respectively formed in the main body of the terminal to communicate with others and display various information and images. Each fixed member attached at intervals, each rotating shaft coupled to one end of the fixed member so as to be rotatable based on the fixed member, and protruded in the left and right side directions of the main body to be satellite digital broadcasting. One end of the rotational shaft is equipped with a microstrip HT C antenna or RH antenna of 2630Mhz ~ 2655Mhz band, and the other end of the rotational shaft is a microstrip LAC of 2630Mhz ~ 2655Mhz band Is equipped with an antenna or LCP antenna It will have to be able to receive satellite digital broadcasting.

Description

Polarization diversity antenna structure of portable terminal {DIVERSITY ANTENNA STRUCTURE OF MOBILE PHONE}

1 and 2 are perspective views illustrating a portable terminal having a polarization diversity antenna structure according to an embodiment of the present invention.

1 is a perspective view showing a state in which the antenna is deployed;

2 is a perspective view showing a state in which the antenna is folded,

3 is an enlarged cross-sectional view of a portion A of FIG.
** Description of the symbols for the main parts of the drawings **

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1: main body 101, 102: fixing member

103, 104: rotation axis 105: microstrip RPC antenna

106: Microstrip LL C Antenna

The present invention relates to a structure of a polarization diversity antenna of a portable terminal, and more particularly, to a microstrip antenna for reception of RHCP and LHCP waves in the left and right sides of the portable terminal, respectively. The present invention relates to a polarization diversity antenna of a portable terminal capable of receiving satellite digital multimedia broadcasting using a polarization diversity technique having a polarization diversity technique.

In general, diversity is a method for overcoming the fading phenomenon caused by such a multipath in a current mobile communication device having a structure in which a transmission signal is received at a receiving antenna through a diverged path in the air. It is a method of receiving and properly combining several signals affected by independent fading.

In order to use a method of properly combining and receiving a plurality of signals affected by independent fading as described above, the portable terminal receives two signals using two antennas and two RF (Radio Frequency) receivers. The baseband processor combines the two received signals.

Among these diversity schemes, a spatial diversity scheme is used in which a sufficient separation distance between two or more antennas is secured and a signal received from each of the antennas spaced from each other is used, and two or more antennas are different from each other. A polarization diversity scheme that combines signals after receiving radio waves with different polarization characteristics by having polarization characteristics is mainly used.

The polarization diversity technique used in the conventional portable terminal is disclosed in Korean Patent Laid-Open Publication No. 2001-0101124 (published date: November 14, 2001) and Korean Patent Publication No. 2002-0078372 (published date: October 18, 2002) ), As disclosed in Korean Patent Publication No. 2003-0055737 (published date: 2003.7.4), the first antenna and linear polarization receiving linear polarization are changed due to obstacles such as buildings, land, and trees. It is composed of a second antenna for receiving linear polarization and combines the signals received from the first antenna and the second antenna, and also CDMA (Code Division Mutiple Access) and GPS (GPS) Global Positioning System (GPS) Although the polarization diversity scheme is implemented using a multiband antenna for receiving signals simultaneously, there is no description on how to effectively arrange diversity antennas.

In addition, the multiband antenna illustrated in the above-mentioned patent publication should be configured in a helical form, and this type of multiband antenna cannot effectively receive a signal transmitted from a satellite. Because satellites transmit RHCP (Right-Hand side Circularly Polarized), it is more effective to use a dedicated RHCP antenna to receive RHCP waves.

In addition, the GPS signal uses the 1575.42Mhz and 1227.6Mhz band, while satellite broadcasting uses the 2630Mhz ~ 2655Mhz band, there is a problem that the signal attenuation becomes more severe.

In addition, when the RH CIF transmitted from the satellite is reflected by trees, water, and other obstacles, the polarization characteristic is changed to L. C.F. In the case of receiving such satellite broadcasting in the city center, it is possible to receive it through the ground repeater, but it is difficult to install the ground repeater, and in mountainous areas, it is necessary to receive the broadcasting directly through the satellite. You must use an antenna.

The object of the present invention devised in view of the above point is to install RPC antenna and LPC antenna on both left and right sides of the portable terminal, and receive each RPC and LPC wave through each antenna and the signal It is to provide a polarization diversity antenna structure of a portable terminal to increase the satellite broadcasting reception rate of the portable terminal using a polarization diversity technique combining the two.

The polarization diversity antenna structure of a portable terminal for achieving the object of the present invention as described above in the portable terminal having a display unit for displaying a variety of information and images while the microphone and speaker are formed in the main body of the terminal to communicate with others; Each of the fixing members attached to the rear surface of the terminal main body at regular intervals, and each of the rotating shaft is coupled to one end of the fixing member so as to be rotatable based on the fixing member, the left and right of the main body The one end of the pivot shaft is equipped with a microstrip H. C. antenna or R. C. antenna in the 2630Mhz to 2655Mhz band so as to protrude laterally and receive satellite digital broadcasting, and the other end of the pivot shaft has 2630Mhz. Microstrip HT C antenna and LL of 2655Mhz band The antenna is mounted and mounted.

In addition, the rotation shaft is formed with a protrusion extending its outer diameter in the circumferential direction at the end of the bent portion, one end of which is bent in a vertical direction, the fixing member is recessed to a predetermined depth so that the bent portion is inserted It is effective that the rotating hole is provided with a locking jaw for supporting the projection so as not to be separated.

In addition, the microstrip Rp antenna and the microstrip L antenna are fixed to the fixing member is preferably configured to be mounted so as to form an overlapping state by varying the vertical mounting height relative to the back of the main body.

In addition, it is effective that each of the fixing member is configured by varying its protruding height.

Hereinafter, a polarization diversity antenna structure of a portable terminal according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are perspective views illustrating a portable terminal having a polarization diversity antenna structure according to an embodiment of the present invention. FIG. 1 is a perspective view showing an unfolded antenna, and FIG. 2 shows a folded state of the antenna. It is a perspective view, and FIG. 3 is an expanded sectional view of the A part of FIG.

As shown in FIGS. 1 and 3, a portable terminal having a polarization diversity antenna structure according to an embodiment of the present invention has a keypad (not shown) capable of inputting information and a microphone (not shown), which is a transmitter for transmitting voice, on one side. Each of which is formed in the main body 1 having a battery 2 for supplying power required for driving the terminal, and a hinge coupling part hinged to be rotatable at an upper end of the main body 1. It is connected to 4), consisting of a folder (3) formed with a display unit (not shown) on the inner surface that is exposed to the outside when unfolded.

In addition, the rotation holes 101a and 102a in which the other side surface opposite to one side coupled to the rear surface 1a of the main body 1 is recessed to a predetermined depth and the locking projections 101b and 102b are formed in the opening are formed. Each of the fixing members 101 and 102 provided is mounted at regular intervals. At this time, it is preferable to vary the installation height of the fixing members (101, 102).

In addition, bending portions 103a and 104a are formed in each of the rotation holes 101a and 102a to be bent and inserted in one vertical direction thereof, and the ends of the bent portions 103a and 104a are circumferentially formed. Rotating shafts 103 and 104 each having protrusions 103b and 104b which extend their outer diameters and interfere with the locking projections 101b and 102b are rotatably mounted to the fixing members 101 and 102, respectively. In addition, the protrusions 103b and 104b formed on the pivot shafts 103 and 104 are configured to have a protrusion height that can be detached from the locking jaws 101b and 102b of the fixing members 101 and 102. It can be configured as a detachable structure.

On the other end of each of the pivot shafts 103 and 104, the microstrip RHC antenna 105 and the microstrip LHC antenna 106 of 2630Mhz ~ 2655Mhz band are respectively mounted to receive satellite digital broadcasting. do. At this time, the left and right directions of the portable terminal, which are the mounting positions of the microstrip RPC antenna 105 and the microstrip RPC antenna 106, may be interchanged with each other.

In addition, the upper end of the main body 1 of the portable terminal is equipped with a helical antenna 5 of the double resonance mode.

As shown in FIG. 1, the microstrip RHC antenna 105 and the microstrip RHC antenna 106 of the portable terminal having the polarization diversity antenna structure configured as described above are rotated. It is possible to protrude in the direction of the left and right sides of 1) or to be folded in contact with the back 1a of the main body 1 as shown in FIG. 2, and such a portable terminal can be used in general urban areas. In this case, since the ground repeater is installed, the CDMA signal and the satellite broadcast signal transmitted from the ground repeater can be received using the double resonant helical antenna 5 in the double resonant mode.

In addition, when the portable terminal is used in a mountain mountain wall, the rotating shafts 1103 and 104 are fixed to the respective fixing members 101 and 102 so as to be able to directly receive a signal transmitted from the satellite in the form of RPC. ), The microstrip HT C antenna 105 and the microstrip LL C antenna 106 are extended to face the left and right directions of the main body 1, and then the H. C. wave transmitted from the satellite is the microstrip RP C antenna. Receive via the antenna 105.

And, when the transmitted RPC wave hits an obstacle and its polarization characteristic is changed to RPC, the RPC wave is received through the microstrip RPC antenna 106.

Signals received as described above are signal processed using two separate RF receivers, and then the two received signals are combined at baseband.

As described above, the polarization diversity antenna structure of the portable terminal according to the present invention is mounted on the rear surface 1a of the main body 1 of the portable terminal at a predetermined interval and rotates, and the microstrip protrudes in the left and right directions of the main body 1. The RPC antenna 105 and the microstrip LPC antenna 106 are mounted to increase the reception rate of satellite broadcasting.

As described above, the polarization diversity antenna structure of the portable terminal according to the present invention is mounted on the back of the main body of the portable terminal at a predetermined interval and rotates, and the microstrip RHC antenna and the micro protruding in the left and right directions of the main body. Equipped with a strip LPC antenna, it increases the reception rate of satellite broadcasting to improve the reliability of the product.

Claims (5)

In the portable terminal provided with a display unit for forming a microphone and a speaker in the main body of the terminal, respectively, to talk to others and display various information and images, Respective fixing members attached to the rear surface of the terminal body at a predetermined interval; Respective rotation shafts having one end coupled to the fixing member to be rotatable based on the fixing member; Protruding in the left and right side direction of the main body to receive satellite digital broadcasting, the one end of the rotating shaft is equipped with a microstrip RPC antenna or RPC antenna of 2630Mhz ~ 2655Mhz band, the other The polarizing diversity antenna structure of a portable terminal, characterized in that the end of the rotating shaft is equipped with a microstrip L. C. C antenna or L. C. antenna of 2630Mhz ~ 2655Mhz band. According to claim 1, wherein the rotating shaft is formed at the end of the bent portion is bent in the vertical direction of its one end is formed with a projection extending its outer diameter in the circumferential direction, the fixing member is a predetermined depth so that the bent portion is inserted A polarization diversity antenna structure of a portable terminal, characterized in that it is provided with a rotating hole is formed recessed to support the depression and to prevent the projection from being separated. 3. The polarization diversity antenna structure of claim 2, wherein the protrusion has a protrusion height so as to be detached from the latching jaw of the fixing member. The antenna of claim 1, wherein the microstrip Rp antenna and the microstrip L antenna are fixed to the fixing member, and are mounted to form an overlapping state by varying their vertical mounting heights based on the rear surface of the main body. A polarization diversity antenna structure of a portable terminal. 5. The polarization diversity antenna structure of claim 4, wherein each of the fixing members is configured by varying its protruding height.

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