KR20060037078A - Mobile communication terminal for improving of standby time and method thereof - Google Patents

Abstract

The present invention relates to a mobile communication terminal and a method for improving a reception waiting time by adjusting a response time to a paging from a base station to increase a reception waiting time, and the usable time of the mobile communication terminal is increased.

According to an aspect of the present invention, there is provided a mobile communication terminal which provides a low voltage mode function for reducing power consumption, comprising: a transceiver for transmitting and receiving voice, video or data signals with an external device and responding to paging from a base station; And a controller configured to control transmission and reception of an audio, video or data signal with the outside, and to apply a preset low voltage active period to an active period in response to paging from the base station in the low voltage mode. .

Mobile communication terminal, threshold voltage, low voltage mode, paging, base station, active section

Description

Mobile communication terminal for improving reception waiting time and method thereof

1 is a diagram illustrating a structure of a general mobile communication system.

2 is a diagram illustrating a paging cycle in the mobile communication system of FIG.

3 is a diagram illustrating a structure of mobile communication for improving reception waiting time according to the present invention;

4 is a diagram illustrating a method for improving reception wait time of the present invention.

5 illustrates a low voltage active page section.

<Explanation of symbols for the main parts of the drawings>

300: transceiver unit 301: audio output unit

302: display unit 303: memory unit

304: command input unit 305: voice input unit

306: control unit

The present invention relates to a mobile communication terminal, and more particularly, to a mobile communication terminal and a method for improving a reception waiting time by adjusting a paging response time to increase a reception waiting time.

In the general mobile communication system, as shown in FIG. 1, a base station 101 for transmitting and receiving information and managing radio resources with an exchange station 100 that performs a switch role in connection with another station or another network and a mobile communication terminal 102 to be described later. And a mobile communication terminal 102 that transmits and receives information with the base station 101 while moving.

In order to provide a service such as predetermined information to the mobile communication terminal 102 moving in such a mobile communication system, a connection should be made between the base station 101 and the mobile communication terminal 102. The process for this connection is as follows.

First, the switching center 100 causes the base station 101 to periodically transmit a paging signal to the mobile communication terminal 100 for a call connection with the mobile communication terminal 100. At this time, the mobile communication terminal 102 transitions from the sleep mode to the active mode, continuously scans the paging of the base station 101 and connects to the base station when it receives its paging signal. do. The active mode described above refers to a state in which the mobile communication terminal 102 wakes up from the standby mode and responds to paging from the base station 101.

The mobile communication terminal 102 receives a paging signal at predetermined intervals. That is, the active mode and the standby mode are repeated at predetermined intervals. In this standby mode, the power consumption is relatively small by maintaining only a minimum power supply to essential components for operating the mobile communication terminal 102. In active mode, it consumes more power than in standby mode. This is because the mobile communication terminal 102 consumes the power required to process the paging in response to the paging from the base station 101. This paging cycle is illustrated in FIG. 2.

FIG. 2 is a diagram for describing a paging period in the mobile communication system of FIG. 1. As illustrated, one paging period in the mobile communication system of FIG. 1 may be divided into an active period in which the mobile communication terminal responds to paging from the base station and a standby mode in which power consumption is minimized. Since this active period is in the form of responding to paging from the base station, the determination of the response time depends entirely on the base station. That is, if the base station transmits a paging signal for a period of 100 ms with a period of 1 paging set to 5.12 s (seconds), the mobile communication terminal responds to paging for 100 ms every 5.12 s. As a result, the paging signal transmission interval of the base station is equal to the paging response time of the mobile communication terminal, that is, the length of the active interval.

Accordingly, the mobile communication terminal of the conventional mobile communication system must continuously respond to the paging during the paging transmission time of the base station. That is, the mobile communication terminal cannot determine the paging response time, that is, the length of the active period by itself, and thus, when the paging from the base station is relatively long, power of that length is further consumed.

Moreover, even in a low voltage mode in which the voltage of the supplied power drops below a predetermined voltage, even if relatively small power is consumed, the power of the mobile communication terminal may be turned off. Therefore, there is a problem in that the power is turned off due to only the power consumed in the active mode in which the mobile communication terminal responds to paging from the base station in the low voltage mode.

SUMMARY OF THE INVENTION An object of the present invention is to provide a mobile communication terminal and a method for improving reception waiting time to improve reception waiting time by reducing a period of an active mode responding to paging in a low voltage mode. .

According to an aspect of the present invention, there is provided a mobile communication terminal which provides a low voltage mode function for reducing power consumption, comprising: a transceiver for transmitting and receiving voice, video or data signals with an external device and responding to paging from a base station; And a controller configured to control transmission and reception of an audio, video, or data signal with the outside, and to apply a preset low voltage active period as an active period in response to paging from the base station in the low voltage mode. .

The low voltage mode is set under the control of the controller when the voltage of the power supplied from the outside is less than or equal to the threshold voltage.

The threshold voltage is characterized in that the 3.4V or more and 3.6V or less.

The low voltage active period is 30ms or more and 60ms or less.

The present invention also provides a voltage level determining step of determining whether a voltage of a power supplied from a power supply is less than or equal to a threshold voltage, and when the supplied voltage is less than or equal to a threshold voltage, a mobile communication terminal in a low voltage mode. And a low voltage active period applying step of applying a low voltage active period preset to an active period responding to paging from the base station.

The low voltage active period is 30ms or more and 60ms or less.

Hereinafter, a mobile communication terminal and a method for improving reception waiting time of the present invention will be described in detail with reference to the accompanying drawings.

3 is a diagram illustrating a structure of a mobile communication terminal for improving reception waiting time according to the present invention. As shown, the mobile communication terminal for improving the reception waiting time of the present invention includes a transceiver 300, a voice output unit 301, a display unit 302, a memory unit 303, a command input unit 304, a voice input unit 305 and control unit 306. The mobile communication terminal having such a configuration operates by receiving power from a predetermined power supply means, for example, a battery (not shown).

The transceiver 300 transmits and receives an audio, video or data signal to the outside through an antenna. Also, it receives a paging signal from a base station (not shown) and transmits a response signal in response to the received paging signal.

The voice output unit 301 is composed of voice output means such as a speaker, and outputs a voice signal so that a user can listen.

In view of the size of the mobile communication terminal, the display unit 302 is preferably a flat panel display device such as an LCD (Liquid Crystal Display), and displays characters or images on the screen.

The memory unit 303 stores information such as a predetermined program for performing mobile communication.

The command input unit 304 is composed of a command input means such as a predetermined keypad, and has various keys for inputting a predetermined control command for transmitting and receiving an audio, video or data signal.

The voice input unit 305 is composed of voice input means such as a microphone and converts external voice into an electric voice signal.

The control unit 306 controls the transmission and reception of audio, video or data signals, and checks the voltage of the power applied from an external power supply means and sets the low voltage mode when the voltage falls below a predetermined voltage. In addition, in this low voltage mode, it controls the adjustment of the time in response to paging from the base station, that is, the length of the active section.

When a mobile communication terminal having such a configuration receives an audio, video or data signal from the outside, the transceiver 300 receives a signal such as audio, video or data from the outside through an antenna under the control of the controller 306. Upon reception, the received audio signal is output so that the audio output unit 301 can be listened to by the user under the control of the controller 306, and the video signal, for example, a text, is displayed on the display unit 302 under the control of the controller 306. Displays. In addition, the memory unit 303 stores data signals such as a predetermined program under the control of the control unit 306. In contrast, when a predetermined voice, video or data signal is transmitted, when a user inputs a predetermined character through the command input unit 304 or inputs a predetermined voice through the voice input unit, the transmitter / receiver unit ( 300 transmits the text or voice input by the user to the outside through the antenna.

In addition, the mobile communication terminal of this configuration periodically responds to paging from the base station.

In addition, the mobile communication terminal having such a configuration operates in the low voltage mode when the voltage of an external power supply means, for example, the power supplied from the battery is less than or equal to the threshold voltage. The determination of the low voltage mode is performed by the controller 306. For example, in the low voltage mode determination, the threshold voltage is set in advance to enter the low voltage mode when the threshold voltage is 3.5V, that is, the voltage of the supplied power supply is 3.5V or less. In this case, when the voltage supplied from the battery, that is, the voltage supplied by the battery is 3.5V or less, the controller 306 recognizes the low voltage mode and outputs a control signal to the mobile communication terminal to operate in the low voltage mode. The threshold voltage at which the mobile communication terminal operates in the low voltage mode is preferably 3.4V or more and 3.6V or less considering the power consumption of the mobile communication terminal and the power supply capability of the battery.

In addition, the mobile communication terminal having such a configuration reduces the time for responding to paging from the base station in the low voltage mode, thereby reducing power consumption in the low voltage mode. That is, an active period that responds to paging from the base station in a paging period having a predetermined period is shortened. As a result, the sleep mode of the mobile communication terminal with relatively low power consumption is further increased in one paging period, and the power consumption is reduced in the low voltage mode by further reducing the active period with relatively high power consumption.

Looking at the method of improving the reception waiting time using the mobile communication terminal is made as shown in FIG.

4 is a view showing a method of improving the reception wait time of the present invention. As shown, the method of improving the reception waiting time of the present invention, first, when the power is applied from the outside (S400) it is determined whether the voltage of the applied power is less than the predetermined voltage (S401). The power applied from the outside is, for example, the power applied from the battery. The predetermined voltage is preferably 3.4V or more and 3.6V or less, more preferably 3.5V.

As a result of the determination in step S401, when the applied voltage is not less than the predetermined voltage, the mobile communication terminal is set to the normal mode (S402).

On the other hand, when it is determined in step S401 that the applied voltage is less than or equal to the predetermined voltage, the mobile communication terminal is set to the low voltage mode (S403).

After the low voltage mode is set in step S403, the low voltage active period is applied to the active period that responds to the paging from the base station (S404). The low voltage active period is preferably 30 ms or more and 60 ms or less, more preferably 50 ms. As a result, as shown in FIG. 5, when one paging period is assumed to be 5.12 s and the active period is 50 ms, the standby mode that consumes minimal power and waits for reception is 5.15 s as shown in FIG. 5. Becomes As a result, the sleep mode, which consumes less power, increases, and the active mode, which consumes less power, decreases. That is, the paging response time of the mobile communication terminal can be adjusted regardless of the paging signal transmission interval of the base station. Therefore, in the low voltage mode, the sleep mode, which consumes less power, is further increased, thereby reducing the overall power consumption.

Accordingly, the present invention reduces the time for responding to paging from the base station, that is, the active period, in the low voltage mode in which the voltage of the supplied power supply falls below the threshold voltage, thereby reducing the power consumed for the response of paging from the base station.

As described above, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features.

Therefore, the above-described embodiments are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the appended claims rather than the detailed description, and the meaning and scope of the claims and All changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

As described in detail above, the present invention has the effect of reducing the power consumption in the low voltage mode to increase the reception latency by reducing the active period in response to paging from the base station in the low voltage mode.

Claims (6)

A mobile communication terminal providing a low voltage mode function to reduce power consumption, Transmitting and receiving unit for transmitting and receiving voice, video or data signals with the outside, and responds to the paging from the base station; Control unit for controlling the transmission and reception of the audio, video or data signal to the outside, and controls to apply a low voltage active period that is preset to the active period in response to the paging from the base station in the low voltage mode Mobile communication terminal for improving the reception wait time, characterized in that it comprises a. The method of claim 1, The low voltage mode is set according to the control of the controller when the voltage of the power supplied from the outside is below the threshold voltage. The method of claim 2, The threshold voltage is a mobile communication terminal for improving the reception wait time, characterized in that more than 3.4V 3.6V. The method of claim 1, The low voltage active period is a mobile communication terminal for improving the reception wait time, characterized in that 30ms or more and less than 60ms. A voltage level determining step of determining, by the controller, whether the voltage of the power supplied from the power supply is less than or equal to the threshold voltage; A low voltage mode setting step of setting the mobile communication terminal to a low voltage mode when the supplied voltage is below a threshold voltage; A low voltage active period application step of applying a preset low voltage active period to an active period responsive to paging from a base station. Method of improving the reception latency comprising a. The method of claim 5, wherein The low voltage active period is 30ms or more 60ms or less method for improving reception latency.

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