KR20050060509A - Antena arrangement of mobile handset - Google Patents

Abstract

The present invention relates to an antenna mounting structure of a mobile communication terminal, comprising: a transmission and reception antenna for transmitting and receiving a wireless signal; A reception antenna installed at a spacing interval to prevent mutual interference with the transmission and reception antenna and receiving a radio signal; And a controller for transmitting a wireless signal through the transmission / reception antenna and processing the wireless signal received at both sides of the transmission / reception antenna and the reception antenna. As a result, the reception sensitivity of the mobile communication terminal can be improved by using space diversity, which makes it possible to use a plurality of antennas for multipath fading.

Description

Antenna mounting structure of mobile communication terminal {ANTENA ARRANGEMENT OF MOBILE HANDSET}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an antenna mounting structure of a mobile communication terminal. In particular, the reception sensitivity of a mobile communication terminal is improved by using space diversity, which is robust to multipath fading using a plurality of antennas. It relates to an antenna mounting structure of a mobile communication terminal.

1 is a schematic block diagram of an antenna mounting structure of a conventional mobile communication terminal. As shown in FIG. 1, a typical mobile communication terminal includes a transmission and reception antenna 1 for wireless transmission and reception, a duplexer 2 for separating a signal through the transmission and reception antenna 1 into a transmission signal and a reception signal, and A low noise amplifier (LNA) 4 interposed at the receiving end of the duplexer 2 and a power amplifier (PA) 6 interposed at the transmitting end, and include a base band analog (BBA) and a mobile station modem (MSM) ( 9) process the signal and control the overall function.

Here, the transmission and reception antenna 1 is mounted in a structure in which a helical antenna and a monopole antenna are combined. For example, the helical antenna is fixed inside the main body and the monopole antenna is extended outward, or the helical antenna is fixed at one end of the monopole antenna so that the helical antenna is separated from the main body when the monopole antenna is pulled out. It is. Such a combination of helical antenna and monopole antenna usually has a structure for simultaneously performing transmission and reception.

However, when transmitting and receiving are simultaneously implemented with one transmitting / receiving antenna as described above, there is a problem of deteriorating performance of the terminal due to interference between transmitting and receiving. In addition, in order to improve the reception rate, the separation distance should be secured enough to prevent mutual interference between the two antennas. However, the conventional structure has a structure in which two antennas are combined and mounted so that a sufficient separation distance cannot be secured. have.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problem, and an object thereof is to provide an antenna mounting structure of a mobile communication terminal that improves reception sensitivity by using space diversity.

An antenna mounting structure of a mobile communication terminal according to the present invention for achieving the above object includes a transmission and reception antenna for transmitting and receiving a radio signal; A reception antenna installed at a spacing interval to prevent mutual interference with the transmission and reception antenna and receiving a radio signal; And a controller for transmitting a wireless signal through the transmission / reception antenna and processing the wireless signal received at both sides of the transmission / reception antenna and the reception antenna.

Here, the transmission and reception antenna and the control unit are always installed on the main body side of the terminal, the reception antenna is most preferably installed on the upper end of the folder hingedly hinged to the main body.

And a flexible printed circuit board (FPCB) for connecting the reception antenna on the folder side and the control unit on the main body side to transfer a signal received through the reception antenna to the control unit. It is possible.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the antenna mounting structure of a mobile communication terminal according to an embodiment of the present invention.

2 is a schematic block diagram of an antenna mounting structure of a mobile communication terminal according to the present invention. As shown in FIG. 2, the present invention provides a transmission / reception antenna 10 for a wireless transmission / reception, a duplexer 12 for separating a signal through the transmission / reception antenna 10 into a transmission signal and a reception signal, and a duplexer 12. PA (Power Amplifier) 14 interposed at the transmitting end and a transmission-and-sew filter 18 for filtering the transmission signal, and a first Low Noise Amplifier (LNA) 16 interposed at the receiving end and the filtering for the received signal. The first receiver filter 20 has a second antenna 36 for amplifying a signal received through the reception antenna 30 and the reception antenna 30 and the reception signal filtering. It further comprises a second receiving filter 40 for. Each transceiver is connected to a base band analog (BBA) and a mobile station modem (MSM) 24 to receive or transmit a transmission signal under the control of the BBA and the MSM 24.

The first and second LNAs 16 and 36 amplify the weak signal from the aerial (base station) to an optimal shape, and then downgrade to an intermediate frequency (IF) through a down converter (not shown). Let's do it.

The PA 14 is an amplifying device that enlarges a transmission signal in order to transmit a sufficient signal from the terminal to the base station through the transmission and reception antenna 10.

In BBA and MSM 24, BASE BAND ANALOG (BBA) downconverts the intermediate frequency signal to baseband for the receiver, converts the analog baseband to digital form, converts the digital data to analog baseband for the transmitter, Convert the base band to an intermediate frequency.

In addition, MSM (MOBILE STATION MODEM) is a core part of the terminal with a built-in CPU (CENTER PROCESS UNIT) that performs the overall operation of the terminal.Microprocessor, QCELP vocoder, RF interface, BBA interface, codec interface, input / output interface , Mode selection interface, and the like.

On the other hand, the transmission and reception antenna 10 is a helical antenna fixed to one end of the monopole antenna used to draw out from the main body, it may have the same structure as the antenna installed in the conventional mobile communication terminal.

In addition, the reception antenna 30 is a reception-only antenna additionally installed to improve the reception rate, and is installed to secure a sufficient separation distance from the transmission / reception antenna 10 for spatial diversity. The receiving antenna 30 is most preferably mounted in the form of a chip antenna embedded in the terminal body.

According to this configuration, when transmitting a signal through the mobile communication terminal, the BBA and the MSM 24 filter the transmission signal through the transmission source filter 18 and amplify the specific frequency signal to the PA 14 to duplexer 12. And transmits through the transmission and reception antenna 10.

On the other hand, when receiving a radio signal, the radio signal is simultaneously received to both the transmission and reception antenna 10 and the reception antenna 30. The signal received through the transmit / receive antenna 10 is transmitted to the BBA and the MSM 24 through the receiving end of the duplexer 12 through the first LNA 16 and the first receiving filter 20 for filtering the received signal. . The signal received through the reception antenna 30 is transmitted to the BBA and the MSM 24 via the second LNA 36 and the second reception filter 40 for filtering the reception signal. Here, since the received signal passing through the first receiving filter 20 and the receiving signal passing through the second receiving filter 40 are the same received signals at the same time, the mixers 22 and 42 interposed at each receiving end have the same signal. (Example: RX_LO)

As described above, the present invention additionally installs a separate reception antenna 30 in the mobile communication terminal in consideration of the spatial diversity to improve reception sensitivity. Here, in order to improve the spatial diversity, it is preferable that the spacing between the antennas 10 and 30 is wider.

3 is an antenna mounting state of a mobile communication terminal according to an embodiment of the present invention. 3 illustrates a state in which an antenna mounting structure according to the present invention is applied to a folding mobile communication terminal 50 having a folder 52 which is foldably hinged to the main body 54.

On the main body 54 side, a main board 56 mounted with a BBA and an MSM 24 for controlling the overall functions of the mobile communication terminal 50 is mounted, and a transmission / reception antenna 10 capable of external drawing is mounted.

In addition, a reception-only reception antenna 30 is built into the folder 52 at an upper end of the folder 52 that can maintain a maximum distance from the transmission / reception antenna 10 during a phone call. Here, the reception antenna 30 is connected to the main board 56 through a circuit printed circuit board (FPCB) 26 in which a fine circuit is printed on a thin sheet of flexible plastic material, and receives the received signals from the BBA and MSM. To 24.

Accordingly, even when the folder 52 is folded or opened, a sufficient separation interval between the transmitting and receiving antenna 10 and the receiving antenna 30 is secured, so that the spatial diversity can be improved and the reception sensitivity can be improved.

As described above, the present invention further includes a reception-only antenna in a space capable of securing a transmission / reception antenna and a sufficient separation distance, thereby improving spatial diversity and improving reception sensitivity of the mobile communication terminal. Such embodiments according to the present invention are not limited to the above-described embodiments, and various modifications can be made within a range apparent to those skilled in the art in connection with the present invention.

According to the antenna mounting structure of the mobile communication terminal of the present invention as described above, the reception sensitivity can be improved by mounting the reception-only antenna in the area where the spatial diversity is guaranteed for the transmission and reception antenna mounted on the mobile communication terminal.

1 is a schematic block diagram of an antenna mounting structure of a conventional mobile communication terminal;

2 is a schematic block diagram of an antenna mounting structure of a mobile communication terminal according to the present invention;

3 is an antenna mounting state of a mobile communication terminal according to an embodiment of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

10: transmit and receive antenna 12: duplexer

14: PA 16: first LNA

18: Transmission Sour Filter 20: First Reception Sour Filter

24: BBA and MSM 26: FPCB

30: reception antenna 36: second LNA

40: second receiving filter 50: mobile communication terminal

52: folder 54: main body

56: mainboard

Claims (3)

In the mobile communication terminal, A transmission and reception antenna for transmitting and receiving a wireless signal; A reception antenna installed at a spacing interval to prevent mutual interference with the transmission and reception antenna and receiving a radio signal; And a controller for transmitting a radio signal through the transmission / reception antenna and processing the radio signal received at both sides of the transmission / reception antenna and the reception antenna. The method of claim 1, Always transmitting and receiving antenna and the control unit is installed on the main body side of the terminal, The receiving antenna is an antenna mounting structure of the mobile communication terminal, characterized in that installed in the upper end of the folder hingedly coupled to the main body. The method of claim 2, And a flexible printed circuit board (FPCB) for connecting the reception antenna of the folder side and the control unit of the main body side to transfer a signal received through the reception antenna to the control unit. Antenna mounting structure of the mobile communication terminal.