KR100645526B1 - Method for transmitting signal using plural antennas in communication terminal and communication terminal of enabling the method - Google Patents

Abstract

A method for outputting signals in a mobile communication terminal by using plural antennas and the mobile communication terminal adopting the same are provided to minimize consumed power of a signal transmission by enabling the transmitted or received signal to have a maximum horizontal gain or vertical gain toward a base station. A mobile communication terminal adopting a method for outputting signals in a mobile communication terminal by using plural antennas comprises four antennas(410-440) and a controller(409). The four antennas(410-440) are arranged at a set portion of the mobile communication terminal. The controller(409) fixes phases of two among the four antennas(410-440), varies phases of the remaining antennas to a set range, measures an RSSI(Received Signal Strength Indicator) value after the phase variation, detects a high point of the RSSI value, and applies phase values of the two antennas which have the high point of the RSSI value.

Description

A method of outputting a signal using a plurality of antennas in a mobile communication terminal and a mobile communication terminal employing the method TECHNICAL FIELD

1 is a block diagram showing one embodiment of a conventional mobile communication terminal configuration;

2 is a perspective view showing an embodiment of a mobile communication terminal according to an embodiment of the present invention;

3 is a flowchart illustrating a process of outputting a signal by controlling phases of a plurality of antennas in a mobile communication terminal according to an embodiment of the present invention;

4 is a block diagram showing a configuration of a mobile communication terminal according to an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

401: duplexer 402: low noise amplifier

403: reception bandpass filter 404: RF receiver

405: isolator 406: amplifier

407: transmission band filter 408: RF transmitter

409: control unit 410: first antenna

420: second antenna 430: third antenna

440: fourth antenna 450: first phase shifter

460: second phase shifter 470: third phase shifter

480: fourth phase shifter 490: data storage means

The present invention relates to a method for outputting a signal using a plurality of antennas in a mobile communication terminal, and a mobile communication terminal employing the method. More specifically, the first to fourth antennas are provided in a predetermined portion of the mobile communication terminal. And outputting signals using a plurality of antennas in a mobile communication terminal for fixing a phase of some of the plurality of antennas, adjusting a phase of the remaining antennas, and searching for an output high point of the received signal to improve reception sensitivity. A method and a mobile communication terminal employing the method.

Today, with the development of communication technology, the spread of mobile communication terminals has become common. However, since the installation of the base station is not expensive, it is difficult to infinitely expand the number of base stations. In addition, a number of shaded areas are generated under the influence of special terrain, buildings, obstacles, etc. located between the mobile communication terminal and the base station. For these reasons, the sensitivity of the signal received from the base station to the terminal is often low. Hereinafter, the configuration of the mobile communication terminal of the prior art will be described and its problems will be described.

1 is a block diagram showing an example of a configuration of a mobile communication terminal of the prior art. Referring to FIG. 1, a conventional mobile communication terminal includes an antenna 100, a duplexer 110 combining a transmission and a reception path, a low noise amplifier 120, a reception band filter 130, a SAW, and an RF receiver ( 140, an RF receiver, an isolator 150, an amplifier 160, a transmission band filter 170, an RF transmitter 180, and a controller 190.

In the conventional mobile communication terminal, the signal received from the antenna 100 passes through the low noise amplifier 120 and the reception bandpass filter 130 and is converted into I and Q signals by the RF receiver 140 to the controller 190. The controller 190 processes the signal and outputs the signal to the outside.

In addition, the I and Q signals of the control unit 190 are converted into RF signals by the RF transmitter 180 and pass through the transmission band pass filter 170, the amplifier 160, the isolator 150, the duplexer 110, and the antenna. It passes through and is sent to the base station.

Referring to FIG. 1, the conventional mobile communication terminal uses only one antenna 100, and thus transmits or receives a signal in all directions regardless of the direction in which the base station is located.

Therefore, when the mobile communication terminal is far away from the base station, there is a problem that the loss of the transmission power and the reception sensitivity is caused by the fading of the signal.

Accordingly, a method and a method employing the method of outputting a signal using a plurality of antennas in a mobile communication terminal which are less affected by fading of a transmitted / received signal and which can maximize transmission output and improve reception sensitivity. There is an urgent need for the development of communication terminals.

The present invention controls the signal transmitted and received in the mobile communication terminal to have a horizontal maximum gain and a vertical maximum gain in the direction of the base station, so that it is less affected by the fading (fading) of the transmission and reception signal, and improves the reception sensitivity and the base station Another object of the present invention is to provide a method for outputting a signal using a plurality of antennas and a mobile communication terminal employing the method in a mobile communication terminal which enables a smooth communication even in an area where communication is not possible.

In addition, the present invention uses a plurality of antennas in a mobile communication terminal that can control the signal transmitted and received in the mobile communication terminal has a horizontal maximum gain and a vertical maximum gain in the direction of the base station to minimize the power consumed for signal transmission Another object is to provide a method of outputting a signal and a mobile communication terminal employing the method.

In order to achieve the above object and to solve the above problems of the prior art, a mobile communication terminal for outputting a signal by controlling the phase of a plurality of antennas according to an embodiment of the present invention is a predetermined portion of the mobile communication terminal After the phases of two antennas among the first, second, third, and fourth antennas provided, and the first to fourth antennas are fixed, the phases of the remaining antennas are changed to a predetermined range, and the signal received after the change And a control unit for detecting a high point of the RSSI value by measuring a RSSI value of the high value, and applying a phase value of the two antennas having the high RSSI value.

In addition, according to another embodiment of the present invention, a method for outputting a signal by controlling phases of a plurality of antennas in a mobile communication terminal includes two antennas among first to fourth antennas provided in a predetermined portion of the mobile communication terminal. After fixing the phase, changing the phases of the remaining antennas to a predetermined range, and searching for a high point of the RSSI value by measuring the RSSI value of the signal received after the change, and having the RSSI value of the high point. And applying a phase value of the dog antenna.

Hereinafter, a method of outputting a signal using a plurality of antennas and a mobile communication terminal employing the method will be described in detail with reference to the accompanying drawings.

The mobile communication terminal of the present invention is a PDC (Personal Digital Cellular) phone, PCS (Personal Communication Service) phone, PHS (Personal Handyphone System) phone, CDMA-2000 (1X, 3X) phone, WCDMA (Wideband CDMA) phone, dual band Communication features such as Dual Band / Dual Mode phones, Global Standard for Mobile (GSM) phones, Mobile Broadband System (MBS) phones, Digital Multimedia Broadcasting (DMB) phones, Smart phones, mobile phones, etc. Portable devices, personal digital assistants (PDAs), hand-held PCs, notebook computers, laptop computers, WiBro terminals, MP3 players, MD players, and more, and international roaming As a portable electric and electronic device, which refers to all types of handheld-based wireless communication devices including an IMT-2000 terminal that provides services and an extended mobile communication service, the code division multiplexing access (CDMA) ) Predetermined communication modules such as wireless communication devices equipped with GPS chips to enable location tracking via modules, Bluetooth modules, Infrared Data Association, wired and wireless LAN cards, and Global Positioning System (GPS). It is interpreted as a concept that collectively includes a terminal capable of performing a predetermined operation by mounting a microprocessor.

2 is a perspective view showing an embodiment of a mobile communication terminal according to an embodiment of the present invention. 2, the mobile communication terminal according to the present invention includes a first antenna 200, a second antenna 210, a third antenna 220, and a fourth antenna 230 at each corner. Hereinafter, the mobile communication terminal of the present invention is configured with a rectangular parallelepiped, and an antenna is installed at each corner. For example, the mobile communication terminal may be implemented in various shapes, and the plurality of antennas are mobile. It can be arranged and used in a predetermined portion of the communication terminal.

3 is a flowchart illustrating a process of outputting a signal by controlling phases of a plurality of antennas in a mobile communication terminal according to an embodiment of the present invention. Referring to FIG. 3, a method of controlling a phase of a plurality of antennas and outputting a signal in a mobile communication terminal according to an embodiment of the present invention is as follows.

In step S301, the mobile communication terminal according to the present invention completes call setup and connects a call, and in step S302, data storage means based on a first RSSI (Received Signal Strength Indicator) value, which is strength information of a received signal. Store in

In step S303, the mobile communication terminal according to the present invention fixes the phases of the first antenna and the second antenna located on the upper side to scan the direction of the antenna transmission / reception signal in the vertical direction, and is located on the lower side of the mobile communication terminal. After the phase values of the third antenna and the fourth antenna are stored in the data storage means as the first initial values, the phases of the third antenna and the fourth antenna are changed to the first range. In the present invention, the "phase of the antenna" means the phase of the signal transmitted and received by each antenna.

The first range is a range for changing to search for a phase having the maximum gain in the vertical direction of the signal, and may be set to various values.

In step S304, the mobile communication terminal according to the present invention measures the second RSSI value, which is the RSSI value of the received signal after changing the phases of the third antenna and the fourth antenna, and stores the second RSSI value as a comparison value in the data storage means.

In step S305, the mobile terminal according to the present invention compares the second RSSI value with the first RSSI value.

If the second RSSI value is greater than the first RSSI value as a result of the determination in step S305, the mobile communication terminal changes and sets the phases of the third antenna and the fourth antenna by the first range, and again. By performing the steps S302 to S305, the transmission / reception signal may be sufficiently set in the direction of the base station.

In this case, the number of times of performing steps S302 to S305 may be repeatedly performed until the RSSI value of the signal has a predetermined value, or may be set to be performed for a predetermined time. As described above, according to the present invention, the phase of the antenna having the maximum gain in the vertical direction and the phase of the antenna having the maximum gain in the horizontal direction are repeatedly performed, thereby optimizing the phase of the signal transmitted and received at the antenna toward the base station. It can work.

If the second RSSI value is less than the first RSSI value as a result of the determination in step S305, since the existing phase is a phase having the maximum gain to the base station, the mobile communication terminal of the present invention in step S306 uses the first RSSI value. The phases of the third antenna and the fourth antenna are restored to the first initial value.

In order to search for the phase having the maximum gain in the horizontal direction, in step S307, the mobile communication terminal of the present invention fixes the phases of the first and third antennas located on one side and is located on the other side of the mobile communication terminal. After storing the phase values of the second antenna and the fourth antenna in the data storage means as a second initial value, the phases of the second antenna and the fourth antenna are changed to the second range.

The second range is a range in which the second range is changed to search for a phase having the maximum gain in the horizontal direction, and may be set to various values.

In step S308, the mobile communication terminal of the present invention measures the third RSSI value, which is the RSSI value of the signal received after the change, and stores the third RSSI value as a comparison value in the data storage means.

In step S309, the mobile communication terminal of the present invention compares the third RSSI value with the first RSSI value.

As a result of the determination in step S309, when the third RSSI value is greater than the first RSSI value, the mobile communication terminal of the present invention changes the phases of the second antenna and the fourth antenna to the second range. In addition, steps S307 to S309 may be performed to sufficiently set the transmission / reception signal toward the base station.

In this case, the number of times of performing the steps S307 to S310 may be repeatedly performed until the RSSI value of the signal has a predetermined value, or may be set to be performed for a predetermined time.

If the third RSSI value is smaller than the first RSSI value as a result of the determination in step S309, since the existing phase is a phase having the maximum gain to the base station, the mobile communication terminal of the present invention in step S310 is performed. The phases of the second and fourth antennas are restored to the second initial value.

In step S311, the mobile communication terminal of the present invention determines whether the call setup for the telephone connection is terminated, if the call setup is completed, terminates all processes, and if the call setup is maintained, until the call setup ends Steps S302 to S310 are repeatedly performed.

Therefore, the present invention has the effect of controlling the phase of the plurality of antennas included in each corner of the mobile communication terminal so that the signal transmitted and received in the mobile communication terminal can have a maximum gain in the vertical and horizontal direction toward the base station to transmit and receive have.

In addition, the present invention is controlled so that the signal transmitted and received in the mobile communication terminal has a horizontal maximum gain and a vertical maximum gain in the direction of the base station, so that it is less affected by the fading (fading) of the transmission and reception signals, and improves the reception sensitivity of the base station It is effective to make a smooth call even in an area where communication with the user is not possible.

In addition, the present invention has the effect of minimizing the power consumed for signal transmission by controlling the signal to be transmitted and received to have a horizontal maximum gain and vertical maximum gain toward the base station.

The method for outputting signals using a plurality of antennas in the mobile communication terminal according to the present invention may be implemented in the form of program instructions that can be executed by various computer means and recorded in a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions recorded on the media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks, such as floppy disks. Magneto-optical media, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. The medium may be a transmission medium such as an optical or metal wire, a waveguide, or the like including a carrier wave for transmitting a signal specifying a program command, a data structure, and the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

4 is a block diagram illustrating a configuration of a mobile communication terminal according to an embodiment of the present invention. Referring to FIG. 4, the mobile communication terminal according to the present invention includes a first antenna 410, a second antenna 420, a third antenna 430, and a fourth antenna 440 at each corner.

Signals received through the first to fourth antennas 410, 420, 430, 440 are integrated by a 4-way power divider 400, via a duplexer 401, a low noise amplifier 420 and a receive bandpass. After passing through the filter 403, the RF receiver 404 is converted into I and Q signals and applied to the controller 409.

The controller 409 measures RSSI (Received Signal Strength Indicator), which is information indicating the strength of the received signal, and adjusts the phases of the first to fourth antennas 410, 420, 430, and 440 with reference thereto. In this case, the controller 409 may include phase shifters 450, 460, 460, and 480 connected to each antenna in order to adjust the phases of the plurality of antennas according to an exemplary embodiment.

The controller 409 fixes the phases of two antennas among the first to fourth antennas, changes the phases of the remaining antennas to a predetermined range, measures the RSSI value of the signal received after the change, and measures the RSSI value. Search for the high point of, and determine and apply the phase value of the two antennas having the RSSI value of the high point.

At this time, the control unit 409 of the present invention after fixing the phase of the first antenna and the second antenna located on the upper side of the mobile communication terminal of the first to fourth antenna, the third located below the mobile communication terminal The phases of the antenna and the fourth antenna are changed to the range, the RSSI value of the signal received after the change is measured, the high point of the RSSI value is searched, and the third and fourth antennas having the RSSI value of the high point. The phase value having the maximum gain in the horizontal direction may be searched by determining and applying a phase value of.

In addition, the controller 409 of the present invention fixes the phases of the first and third antennas located on one side of the mobile communication terminal, and then changes the phases of the second and fourth antennas located on the other side of the mobile communication terminal. Measure a RSSI value of a signal received after the change, search for a high point of the RSSI value, and determine and apply phase values of the second and fourth antennas having the RSSI value of the high point to a maximum in the vertical direction. We can find the phase with gain.

The mobile communication terminal of the present invention may include data storage means 490. When the call setup is completed in the mobile communication terminal, the mobile communication terminal stores the first RSSI value, which is an RSSI value of a received signal, in the data storage means. do.

The control unit may be configured to fix phases of the first and second antennas located above the mobile communication terminal, and set phase values of the third and fourth antennas located below the mobile communication terminal as first initial values. After storing in the data storage means, the phases of the third antenna and the fourth antenna are changed to the first range, and after the change, the second RSSI value, which is the RSSI value of the received signal, is measured and compared with the first RSSI value. And when the second RSSI value is greater than the first RSSI value, the phases of the third and fourth antennas are changed and set in the first range, and the second RSSI value is smaller than the first RSSI value. If the value, the phases having the maximum gain in the vertical direction can be searched and applied by restoring the phases of the third and fourth antennas to the first initial value.

The controller may be further configured to fix phases of the first and third antennas located on one side of the mobile communication terminal, and set phase values of the second and fourth antennas located on the other side of the mobile communication terminal as second initial values. After storing in the data storage means, the phases of the second antenna and the fourth antenna are changed to the second range, and after the change, the third RSSI value, which is the RSSI value of the received signal, is measured and compared with the first RSSI value. And when the third RSSI value is greater than the first RSSI value, the phases of the second antenna and the fourth antenna are set to be changed to the second range, and the third RSSI value is set to the first RSSI. If the value is smaller than the value, the phases having the maximum gain in the horizontal direction may be searched and applied by restoring the phases of the second antenna and the fourth antenna to the second initial value.

The I and Q signals transmitted from the controller 409 are converted into RF signals by the RF transmitter 408 and passed through the transmission band pass filter 407, and then through the amplifier 406 and the isolator 405, a 4-way power divider. Is passed to 400. The transmission signal divided into four paths in the 4-way power divider 400 is phase shifted through each phase shifter 450, 460. 470. 480, and output through the respective antennas 410, 420, 430, 440. do.

Therefore, the mobile communication terminal according to the present invention can control the phase of the plurality of antennas included in each corner so that the signal transmitted and received in the mobile communication terminal can have a maximum gain in the vertical and horizontal direction in the direction of the base station can transmit and receive It works.

In addition, the present invention is controlled so that the signal transmitted and received in the mobile communication terminal has a horizontal maximum gain and a vertical maximum gain in the direction of the base station, so that it is less affected by the fading (fading) of the transmission and reception signals, and improves the reception sensitivity of the base station It is effective to make a smooth call even in an area where communication with the user is not possible.

In addition, the present invention has the effect of minimizing the power consumed for signal transmission by controlling the signal to be transmitted and received to have a horizontal maximum gain and vertical maximum gain toward the base station.

The mobile communication terminal according to the present invention has been described so far, and since the technical contents described in the above embodiments can be applied as it is in FIG. 4, the detailed description thereof will be omitted below.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above-described embodiments, which can be variously modified and modified by those skilled in the art to which the present invention pertains. Modifications are possible. Therefore, the spirit of the present invention should be grasped only by the claims described below, and all equivalent or equivalent modifications thereof will belong to the scope of the present invention.

The present invention can control the phase of a plurality of antennas included in each corner of the mobile communication terminal so that the signal transmitted and received in the mobile communication terminal has a maximum gain in the vertical and horizontal direction in the direction of the base station can be transmitted and received.

In addition, the present invention is controlled so that the signal transmitted and received in the mobile communication terminal has a horizontal maximum gain and a vertical maximum gain in the direction of the base station, so that it is less affected by the fading (fading) of the transmission and reception signals, and improves the reception sensitivity of the base station It is effective to make a smooth call even in an area where communication with the user is not possible.

In addition, the present invention has the effect of minimizing the power consumed for signal transmission by controlling the signal transmitted and received in the mobile communication terminal has a horizontal maximum gain and a vertical maximum gain toward the base station.

Claims (7)

A mobile communication terminal which outputs a signal by controlling phases of a plurality of antennas, First, second, third and fourth antennas provided in a predetermined portion of the mobile communication terminal; And After fixing the phases of two antennas among the first to fourth antennas, the phases of the remaining antennas are changed to a predetermined range, the RSSI value of the signal received after the change is measured, and the high point of the RSSI value is searched. And a control unit applying a phase value of the two antennas having the RSSI value of the high point. Mobile communication terminal comprising a. The method of claim 1, The control unit, A phase value having a high RSSI value by fixing phases of two antennas located above the mobile communication terminal among the first to fourth antennas, and changing phases of two antennas located below the mobile communication terminal; Mobile communication terminal, characterized in that for applying. The method of claim 1, The control unit, A phase having the RSSI value of the high point by fixing phases of two antennas located at one side of the mobile communication terminal among the first to fourth antennas and changing the phases of the two antennas located at the other side of the mobile communication terminal; A mobile communication terminal, characterized in that for applying a value. The method of claim 1, Data storage means for storing a first RSSI value that is an RSSI value of a received signal when call setup is completed in the mobile communication terminal; More, The control unit, The phases of the two antennas located on the upper side of the mobile communication terminal are fixed, and the phase values of the two antennas located on the lower side of the mobile communication terminal are stored as the first initial values in the data storage means. A phase of two antennas is changed to a first range, a second RSSI value, which is an RSSI value of a signal received after the change, is measured and compared with the first RSSI value, and the second RSSI value is the first RSSI value. If the value is larger, the phases of the two antennas positioned below the lower side are changed and set in the first range, and if the second RSSI value is smaller than the first RSSI value, the phases of the third antenna and the fourth antenna are set. The mobile communication terminal, characterized in that for restoring to the first initial value. The method of claim 4, wherein The control unit, The phases of the two antennas located on one side of the mobile communication terminal are fixed, and the phase values of the two antennas located on the other side of the mobile communication terminal are stored as the second initial values in the data storage means, and then located on the other side. The phases of the two antennas are changed to a second range, and after the change, the third RSSI value, which is the RSSI value of the received signal, is measured and compared with the first RSSI value, and the third RSSI value is greater than the first RSSI value. When the value is large, the phases of the second antenna and the fourth antenna are set to be changed to the second range, and when the third RSSI value is smaller than the first RSSI value, the second and fourth antennas are set. And restore the phase to the second initial value. A method of outputting a signal by controlling phases of a plurality of antennas in a mobile communication terminal, Fixing phases of two antennas among the first to fourth antennas provided in a predetermined portion of the mobile communication terminal, and then changing phases of the remaining antennas to a predetermined range; And Measuring a RSSI value of a signal received after the change, searching for a high point of the RSSI value, and applying a phase value of the two antennas having the RSSI value of the high point Signal output method in a mobile communication terminal comprising a. A computer-readable recording medium in which a program for executing the method of claim 6 is recorded.

Images