KR19990041241A - How to save power of mobile terminal - Google Patents

Abstract

The present invention relates to a method for saving power of a mobile terminal that can save power by allowing the mobile terminal to be automatically turned on or off depending on whether a mobile terminal can be called in a mobile communication system. In the mobile terminal which transmits its own information and performs registration, a registration execution step of transmitting subscriber information to perform registration, and when receiving and processing the channel, the channel reception check that frequently checks whether the channel is continuously received from the base station. A time counting step of counting a predetermined time if there is no channel reception from the base station, a power-off step of turning off the power if there is no channel reception after a predetermined time elapses, and whether there is a channel reception from the base station at a predetermined time after the power is turned off. Determining whether to receive a channel, determining the channel If the emitter-channel received by a power-on phase turning on the power source it is characterized in that configured.

Description

How to save power of mobile terminal

The present invention relates to a mobile communication system, and in particular, a method of saving power of a mobile terminal, which can save power by automatically turning on or off the power according to whether a mobile terminal can be called in a mobile communication system. It is about.

At present, with the rapid development of communication technology, a mobile communication system that allows a user to make a call while moving from an arbitrary place or from one place to another has become popular.

1 is a block diagram schematically showing the configuration of the mobile communication system.

In FIG. 1, reference numeral 1 denotes a detailed configuration through FIG. 2 as a mobile terminal which an individual carries and communicates with, an antenna 11 for data transmission and reception, and an RF signal received through the antenna 11. RF signal processing section 12, RF signal processing section 12 and the following to demodulate and amplify and output a transmission signal applied from the baseband conversion section 13, that is, ISK signal, for example, GMSK, to be described later. A baseband converter 13 is provided to perform digital-to-analog conversion and analog-to-digital conversion processing on signals transmitted and received between the digital signal processing processor 16, the speaker 14, and the microphone 15. In addition, the speaker 14 for outputting the voice signal received from the baseband conversion unit 13 as an audible sound, the microphone 15 for converting the user's voice input into an electrical signal, the coding or decoding of the voice signal and multiplexing Is provided with: (Digital Signal Processor, DSP 16) performs the equalizer in order to remove noise, and a digital signal processor for performing an audio-related data processing capability.

In addition, the microprocessor 17 for controlling the overall device is provided, which controls the RF signal processing unit 12 and the DSP 16 or interleaving and block coding for data transmitted and received and COnvolution Coding is executed.

And a subscriber information storage unit (SIM) 18 storing subscriber registration data, a program memory 19 storing a function of a terminal and protocol software for processing messages transmitted and received by the network. Keypad 20 composed of keys and various function keys, LCD display unit 21 for displaying the operating state of the terminal, data storage unit 22 serving as a data buffer when the terminal operating program is executed, telephone number, etc. Information storage unit for non-volatile storage of local information related to the phone (E 2PROM; 23) is configured to include.

In addition, in FIG. 1, reference numerals 2 (2 _{1 to} 2n) identify positions of the plurality of mobile terminals 1, transmit and receive radio signals to the mobile terminal 1, convert communication protocols, encrypt / demodulate, etc. 3 (3 _{1 to} 3n) manages a plurality of base stations (2: 2 _{1 to} 2n), and allocates and controls handover of communication channels for each mobile terminal (1). A base station controller (BSC) that performs functions such as determination.

In addition, reference numeral 4 is a switch to form a public switched telephone network (PSTN) by processing the call request of the general wired terminals, 5 is for temporarily storing the registration information for each terminal (1) from the various base stations (2) Visitor Location Register (VLR).

In addition, reference numeral 6 stores an identification number for each mobile terminal 1 accommodated, such that the exchange 4 can execute a license for an arbitrary mobile terminal 1, etc. (AuC) 7 denotes a Home Location Register (HLR) in which registration information of each mobile terminal 1 already registered is stored.

That is, in the mobile terminal 1 having the above configuration, when the user turns on the power of the mobile terminal 1, the microprocessor 17 sequentially increases or decreases the demodulation frequency of the RF signal processor 12 while the antenna is turned on. In addition to searching the wireless carrier received through (11), the base station 2 to which it belongs is identified based on the level of each demodulated signal input.

At this time, the microprocessor 17 stores the control data for controlling the demodulation signal and the level value of the received reception data in the data storage 22, and sets the demodulation frequency based on the reception frequency having the largest level value. Done.

Then, the microprocessor 17 receives the broadcast channel (BCCH) from the base station 2, grasps the information of the base station, and stores its subscriber information stored in the subscription information storage unit 18 according to the LAPDm protocol. The registration procedure is performed by reading and transmitting the information to the base station.

On the other hand, when the base station 2 receives the terminal information from the mobile terminal 1, the base station controller 3 transmits the terminal information to the base station controller 3, and the base station controller 3 transmits the terminal information through the exchange 4 to the visited subscriber location register. (5) and then temporarily stored in the transmission through the GSM network to the authentication center (6) and the authentication center (6) to check whether the terminal 1 is properly registered in the home subscriber location register (7). do.

After that, if it is determined that the mobile terminal 1 is normally registered, the base station controller 3 can use the mobile terminal 1 by transmitting an encryption code or the like to the mobile terminal 1 through the base station 2. It will register as a state.

On the other hand, the microprocessor 17, in the state that the registration process of the mobile terminal 1 is completed, whether a paging channel is received from the base station 2, the user operates the keypad 20, the base station 2 It is detected whether a transmission request (call request) is made or a handover command is received from the base station 2.

Therefore, when the call channel is received, the call response is executed to the base station 2 and the alarm signal output unit of the terminal is driven to alert the user that there is a call from another terminal. If there is a request, after detecting a key input from the keypad 20, the access request is executed by sending a random access channel (RACH: Random Access Channel) to the base station (2).

In this case, after an access grant channel (AGCH) is received from the base station 2 or after executing a call response, a call is made between the user and the user of another terminal by transmitting and receiving a voice signal through an assigned time slot. To make it possible.

However, in the above mobile communication system, when the user makes a call through the mobile terminal, the base station 2 when the mobile terminal is located out of the cell controlled by the base station 2, for example, is located in a mountainous area or a tunnel. You will not receive a radio wave from your phone and you will not be able to make calls.

In addition, when the mobile terminal is operated in a limited battery capacity and the mobile terminal is turned on in the disconnected state where the call is not made as described above, when the mobile terminal is moved to a place where the call is possible due to power consumption, power consumption may be exhausted. This makes the call inoperable.

Accordingly, the present invention has been made in view of the above circumstances, and the mobile terminal can be used to save power by automatically turning on or off the power depending on whether the mobile terminal can communicate in the mobile communication system. The purpose is to provide a power saving method.

1 is a block diagram schematically showing the configuration of a mobile communication system.

2 is a block diagram showing the configuration of the mobile terminal 1 of FIG.

3 is a block diagram showing an apparatus configuration for explaining a power saving method of a mobile terminal according to an embodiment of the present invention.

4 is a flowchart illustrating a power saving method of a mobile terminal according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

1: the mobile terminal 2 (2 ₁ ~2n): the base station (BTS)

3 (3 _{1 to} 3n): Base station controller (BSC) 4: Switching station (MSC)

5: Visitor Location Register (VLR) 6: Certification Center (AuC)

7: Home Subscriber Position Register (HLR) 11: Antenna

12 RF signal processing unit 13 baseband conversion unit

14: speaker 15: microphone

16: DSP (Digital Signal Processor)

17, 33: microprocessor 19: program memory

18: Subscriber Identy Module (SIM)

20: keypad 21: LCD display

22: data storage unit 23: information storage unit

31 power supply unit 32 switching unit

A method for saving power of a mobile terminal according to the present invention for realizing the above object is a registration execution step of transmitting subscriber information and performing registration by transmitting its information to a base station having jurisdiction and performing registration. The channel reception check step of checking whether the channel is continuously received from the base station if it is processed and ready to use, the time count step of counting a predetermined time if there is no channel reception from the base station, and the power supply if there is no channel reception even after a predetermined time has elapsed. A power off step of turning off the power, a channel reception determining step of determining whether there is a channel reception from the base station every predetermined time after the power is turned off, and a power on step of turning on the power if there is a channel reception from the base station. do.

That is, according to the present invention having the above-described configuration, when the mobile terminal is disconnected from the area controlled by the base station and the communication is lost and no channel is received from the base station, the power is automatically turned off, and thereafter, the mobile terminal is turned off every time. It checks whether there is channel reception and turns on the power again when there is reception of broadcasting channel.

Therefore, power consumption can be reduced when communication is interrupted, thereby saving the power used.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 3 is a block diagram showing a device configuration for explaining a method of saving power of a mobile terminal according to an embodiment of the present invention. The same reference numerals are used to designate the same parts as in FIG. do.

In FIG. 3, reference numeral 30 denotes a configuration of a mobile terminal according to the present invention, and 31 is a power supply unit for supplying power required for operation of each device of the mobile terminal 30, which is charged by being charged with AC power. It is in the form of a battery.

In addition, reference numeral 32 denotes a switching unit that is turned on or off according to a predetermined control signal. When turned on, the power of the power supply unit 31 is supplied to the entire apparatus, and when turned off, only to the microprocessor to be described later. do.

In addition, reference numeral 33 is applied to the switching unit 32 when there is no channel reception from the base station 2 after being registered in the base station 2 to be turned off, and after the predetermined time after the off It is a microprocessor that checks whether data can be transmitted / received with the base station 2 and controls the switching unit 32 to be turned on if possible.

Next, the operation of the device having the above-described configuration will be described with reference to the flowchart shown in FIG.

First, when the user turns on the power of the mobile terminal 30 by inputting a key relating to the power provided in the keypad 20 (step ST11), the microprocessor 33 adjusts the demodulation frequency of the RF signal processor 12. While sequentially increasing or decreasing, the wireless carrier received through the antenna 11 is searched and the base station 2 to which it belongs is identified based on the level of each demodulated signal input.

At this time, the microprocessor 33 stores the control data for controlling the demodulation signal and the level value of the received reception data in the data storage unit 22 and sets the demodulation frequency based on the reception frequency having the largest level value. Done.

Then, the microprocessor 33 receives the broadcasting channel (BCCH) from the base station 2, grasps the information of the base station, and stores its subscriber information stored in the subscription information storage unit 18 according to the LAPDm protocol. The registration procedure is performed by reading and transmitting the information to the base station (step ST12).

On the other hand, when the base station 2 receives the authentication data information of the terminal from the mobile terminal 30, it transmits it to the base station controller 3, the base station controller 3 transmits the terminal information through the exchange (4) After the temporary storage in the location register (5), it is transmitted to the authentication center (6) through the GSM network, the authentication center (6) is the terminal 30 is legally registered in the home subscriber location register (7) Will be checked.

After that, if it is determined that the mobile terminal 1 is normally registered, the base station controller 3 can use the mobile terminal 30 by transmitting an encryption code or the like to the mobile terminal 30 through the base station 2. It will register as a state.

Therefore, upon receiving a signal indicating that the authentication procedure is completed and available from the base station 2 (step ST13), the microprocessor 33 receives the base station from the base station 2 through a broadcast channel (BCCH). The encryption code and the like of (2) are checked from time to time (ST14 step).

When the user moves during the frequent check as described above, when the location of the mobile terminal 30 is in a mountainous area, when the broadcast channel is not received from the base station 2 due to difficulty in receiving radio waves, communication is not possible at all (ST15). Step) The microprocessor 33 counts a predetermined time, for example, 60 seconds. If no communication is performed during the counting of 60 seconds, the microprocessor 33 applies a predetermined control signal to the switching unit 32 to turn off. (ST16 to ST17 steps).

Therefore, power supply to the entire apparatus from the power supply unit 31 is stopped, and only the microprocessor 33 is supplied, thereby saving the use power. In addition, the microprocessor 33 is continuously supplied with power from the power supply unit 31 to be in a control operation capable of controlling the entire apparatus.

On the other hand, even after the power supply through the power supply unit 31 is stopped, the microprocessor 33 checks whether a broadcast channel or the like is received from the base station 2 every predetermined time, for example, every 180 seconds (step ST18).

Therefore, when a signal such as a broadcasting channel transmitted from the base station 2 is received during the check every predetermined time as described above (ST19), the microprocessor 33 sends a predetermined control signal to the switching unit 32. The switch unit 32 is turned on (ST20 step).

Therefore, since the power of the power supply unit 31 is supplied to each device, the mobile terminal 30 is operable.

On the other hand, in step ST15, when the broadcast channel is received from the base station 2 at predetermined time intervals and there is a call request by the user or a handover signal is received, the microprocessor 33 performs a corresponding function. Normal control processing is performed (step ST21).

That is, according to the above embodiment, the mobile terminal 30 automatically turns off the power when the communication is interrupted out of the area controlled by the base station 2, and then it is possible to communicate with the base station 2 at regular intervals. If possible, turn the power back on and enable it.

In addition, this invention is not limited to the said Example, It can variously deform and implement within the range which does not deviate from the technical summary of this invention.

As described above, according to the present invention, the mobile terminal can be turned off automatically when communication is lost, and can be turned on again when communication becomes possible, thereby realizing a power saving method of the mobile terminal, which can save the power consumption. It becomes possible.

Claims (1)

In the mobile terminal that transmits its information to the base station having jurisdiction and performs registration, A registration execution step of transmitting registration information and executing registration; When the channel is registered and available, the channel reception check step checks whether the channel is continuously received from the base station, A time counting step of counting a predetermined time when there is no channel reception from the base station, A power off step of turning off the power if there is no channel reception even after a predetermined time elapses; Determining whether or not the channel is received by the base station every predetermined time after the power is turned off, Power saving method of a mobile terminal, characterized in that it comprises a power-on step of turning on the power when there is a channel reception from the base station.