KR20050034394A - Mobile station controlling method with muliband system - Google Patents

Abstract

The present invention relates to a control method of a mobile communication terminal having a multi band system, the method comprising: processing a radio signal received through an antenna as an intermediate frequency signal; Digitalizing the intermediate frequency signal to scan an absolute channel number index, which is a channel identification number included in the radio signal; Determining a corresponding frequency band based on the absolute channel number; Providing the determined result to a software side for establishing a radio link with a base station; And determining a control parameter for receiving and processing a radio signal of a corresponding frequency band through the software. Accordingly, the band can be automatically switched and used according to the frequency environment without adding a separate hardware component to the mobile communication terminal having a plurality of bands.

Description

Control method of mobile communication terminal with multi-band system {MOBILE STATION CONTROLLING METHOD WITH MULIBAND SYSTEM}

The present invention relates to a control method of a mobile communication terminal having a multi-band system, in particular, according to the frequency environment without adding a separate hardware component to the mobile communication terminal having a plurality of bands The present invention relates to a control method of a mobile communication terminal having a multi-band system that automatically switches and uses a band.

Generally, mobile communication systems such as the European Time Division Multiple Access (GSM) and European Digital Cellular Systems (DCS) use different frequency bands. do.

Accordingly, in order to provide call service in a wider area, a multiband mobile communication terminal having a frequency band that can be used in another mobile communication system in addition to a unique band used in any one mobile communication system has been developed.

Currently developed multi-band mobile communication terminals are dual band, triple band and quad band terminals according to the number of bands supported. Such a multi-band terminal has an antenna and a filter capable of processing different frequency bands, and receives a frequency signal in a service area having a different radio wave environment, and processes the received signal according to a control parameter defined by a corresponding mobile communication service. do.

However, in order to use a mobile communication terminal in a predetermined service area, a control parameter corresponding to a corresponding band among a plurality of bands must be set, but such a setting process has been manually processed so that a band is directly provided through a menu provided by a user. There is a problem that must be set, or to request the band setting to the mobile carrier or terminal provider.

The present invention has been made to solve the above-described problems, and can be used to automatically switch and control the band according to the frequency environment without adding a separate hardware component to a mobile communication terminal having a plurality of bands Its purpose is to provide a control method of a mobile communication terminal having a band system.

A control method of a mobile communication terminal having a multi-band system according to the present invention for achieving the above object comprises the steps of: processing a radio signal received through an antenna as an intermediate frequency signal; Digitalizing the intermediate frequency signal to scan an absolute channel number index, which is a channel identification number included in the radio signal; Determining a corresponding frequency band based on the absolute channel number; Providing the determined result to a software side for establishing a radio link with a base station; And setting a control parameter for receiving and processing a radio signal of a corresponding frequency band through the software.

The scanning of the absolute channel number index and determining the corresponding frequency band based on the absolute channel number may be performed through a baseband module.

The determining of a control parameter for receiving and processing a radio signal of a corresponding frequency band through the software may include processing the radio signal through an API (Application Programming Interface) by the software in the baseband module. It is possible to provide a control parameter for.

Hereinafter, a control method of a mobile communication terminal having a multi-band system according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 is a control block diagram of a mobile communication terminal having a quad-band system to which the control method according to the present invention is applied.

The mobile communication terminal having the quad band system receives the GSM850, PCS, GSM900, DCS radio signals using the frequency bands of 850 MHz, 900 MHz, 1.8 GHz, and 1.9 GHz, respectively and selectively transmits the received radio signals. 3), a parameter storage unit 14 for storing setting parameters for processing each radio signal, a power amplifier 5 for amplifying the signal, and a saw filter 7 for passing a signal in a band of a desired RF signal. And an RF module 10 for converting the received radio signal into an intermediate frequency signal and outputting the signal, and converting the intermediate frequency signal into a digital signal and determining a frequency band of the received signal to receive and process the radio signal of the corresponding frequency band. And a baseband module 12 that controls the switching unit 3 and the RF module 10.

The antenna switching unit 3 receives a radio signal of a mobile communication service using different frequency bands and RFs the radio signal received in a specific frequency band through the filter 7 under the control of the baseband module 12. To the module 10.

The RF module 10 converts the received radio signal into an intermediate frequency signal and provides it to the baseband module 12.

The baseband module 12 converts an intermediate frequency signal from the RF module 10 into a digital signal and analyzes the received signal to determine a serving base station and a frequency band. The function of the baseband module 12 is internal. It may be performed by a Layer 3 Radio Resource Management (RR) module that is software.

In general, a signaling protocol of a mobile communication terminal is composed of three layers. Layer 1 (Layer1) is a physical layer corresponding to a channel structure, layer 2 (Layer2) is a data link layer, and layer 3 (Layer3) is It is in charge of radio resource management and mobility management. Here, the RR is responsible for setting up a radio link between the mobile communication terminal and the base station to determine the setting value for the reception band and other received signal processing.

The base station transmits a periodic signal through the traffic channel and the control channel to the mobile communication terminal of the service area to maintain a state in which the terminal can always be connected. Among the control channels, BCCH (Broad Casting Channel) and SACCH (Slow Associated Control Channel) are channels for providing system information from the base station to the mobile communication terminal.

Accordingly, the baseband module 12 of the mobile communication terminal checks an absolute channel number (ARFCN) index, which is a channel identification number included in the received radio signal, determines a frequency band, checks reception sensitivity, and the like to provide an appropriate serving base station. To judge. The baseband module 12 determines the frequency band and other control parameters through the layer 3 RR module 16 according to the determined result, and the determined parameters are transmitted to the antenna switching unit 3 and the RF module 10. Accordingly, the setting of the antenna 1 (ATN) or the like corresponding to the layer 1 and the switching path of the antenna switching unit 3 are set, and the RF module 10 processes the radio signal of the corresponding frequency band.

Here, the control parameter determined by the layer 3 RR module 16 may be transmitted to the RF module 10 through an API (Application Programming Interface), which is an interface between programs.

As described above, the present invention stores the control parameters for each frequency band in the terminal in advance, and then checks the corresponding frequency band by analyzing the absolute channel number (ARFCN) included in the received radio signal. The configuration of the components for the radio signal reception processing such as the RF module 10 is automatically changed, and this process is performed through the layer 3 RR module 16 which is software.

A control method of a mobile communication terminal having a multi-band system according to the present invention is shown in the flowchart of FIG.

When a radio signal is received through the antenna 1 (S10), the signal received by the RF module 10 is processed as an intermediate frequency signal (S12).

The baseband module 12 converts the intermediate frequency signal processed by the RF module 10 into a digital signal and scans an absolute channel number (ARFCN) index which is a channel identification number (S14).

The baseband module 12 determines the frequency band based on the identified absolute channel number ARFCN, and determines the serving base station by checking the sensitivity of the received signal (S16).

The baseband module 12 provides the determined result to the layer 3 RR module 16 for establishing a radio link with the base station (S18).

The layer 3 RR module 16 sets the control parameters according to the frequency band determined by the baseband module 12 (S20), thereby receiving and processing radio signals through the corresponding frequency band.

As described above, in the control method of the mobile communication terminal having the multi-band system of the present invention, after storing the control parameters for each frequency band in the terminal in advance, and confirms the frequency band through the absolute channel number included in the received radio signal Therefore, according to the control parameter for the processing of the frequency band, the configuration of the component for receiving the radio signal is automatically changed. Accordingly, the band can be automatically switched and controlled according to the frequency environment without adding a separate hardware component to the mobile communication terminal having a plurality of bands.

1 is a control block diagram of a mobile communication terminal having a quad-band system to which the control method according to the present invention is applied;

2 is a flowchart of a control method of a mobile communication terminal having a multi-band system according to the present invention.

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

 1 antenna 3 antenna switch

 5: power amplifier 7: saw filter

10: RF module 12: baseband module

14: Parameter storage unit 16: Layer 3 RR module

Claims (3)

In the control method of a mobile communication terminal having a multi-band system, Processing the radio signal received through the antenna into an intermediate frequency signal; Digitalizing the intermediate frequency signal to scan an absolute channel number index, which is a channel identification number included in the radio signal; Determining a corresponding frequency band based on the absolute channel number; Providing the determined result to a software side for establishing a radio link with a base station; And setting a control parameter for receiving and processing a radio signal of a corresponding frequency band through the software. The method of claim 1, The step of scanning the absolute channel number index, and determining the frequency band based on the absolute channel number is a step performed by a baseband module, the control method of a mobile communication terminal having a multi-band system . The method of claim 2, Determining a control parameter for receiving and processing a radio signal of the corresponding frequency band through the software, The software in the baseband module is a step of providing a control parameter for the processing of the radio signal through the API (Application Programming Interface) to the RF module control method of a mobile communication terminal having a multi-band system.