KR100618770B1 - Method for saving power of mobile communication terminal - Google Patents

Abstract

The present invention relates to a power control method of a mobile communication terminal, the method comprising: storing a transmission power amount data value used for power control obtained by performing adjustment in one of a plurality of frequency channels in a memory area; After calculating the power deviation between the channels by the difference between the power that is controlled and output from each channel by the transmission power amount data value, and the power that is controlled and output from the channel that has been adjusted by the power amount data value, the database Storing the memory in the memory area; Reading the transmit power amount data value from the memory area when the frequency channel is changed; Determining whether the changed channel is the same channel as the channel on which the adjustment is performed; If the changed channel is not the same channel as the channel on which the adjustment is performed, searching for a power deviation between the changed channel and the channel on which the adjustment is performed in the inter-channel power deviation database; Compensating for the transmission power amount data value using the retrieved power deviation; Preferably, the method includes controlling power with the compensated transmission power amount data value.

Power control, channel power deviation, transmit power data value

Description

METHOD FOR SAVING POWER OF MOBILE COMMUNICATION TERMINAL}             

1 is a flowchart illustrating a power control method of a mobile communication terminal according to an embodiment of the present invention.

2 is a diagram illustrating a process of shifting and correcting a transmission power amount data value by a power deviation according to the present invention.

The present invention relates to a power control method of a mobile communication terminal, and more particularly, to a power control method of a mobile communication terminal which is shifted by power deviation between frequency channels so as to control power with a compensated transmission power amount data value.

In general, the power control is to adjust the transmission power of the mobile station so that the reception power of each mobile station received from the base station is constant. In the CDMA system, since the power control directly affects the channel capacity, a very sophisticated power control system is applied. Should be implemented.

As described above, power control is performed at both ends of the base station and the terminal. On the terminal side, open loop power control is performed independently without a control command of the base station, and a closed loop is performed with the help of the base station. ) There is power control.

When the terminal performs power control in the aforementioned closed loop power control scheme, in order to perform efficient power control, the terminal stores data called transmit power amount Tx Rasram as a digital value in the memory.

The above-mentioned transmit power amount (Tx Rasram) data is a value obtained by performing an adjustment on one channel (for example, channel index 11) among the 20 frequency channels currently used in the DCS (Digital Cellular System). Tx Rasram data obtained by performing adjustment in one center channel among the 20 frequency channels currently used in DCS is equally applied to all 20 channels currently used in DCS.

Accordingly, a problem arises in that the transmission power is different due to the transmission power (Tx Power) deviation between the channels.
In more detail, in the DCS using the frequencies Rx (869-889) and Tx (824-849) in the 800 MHz band, since 20 channels are equally divided, a frequency difference of about 1.25 MHz occurs for each channel. Thus, each frequency channel has a different frequency characteristic. Accordingly, when the transmission power amount data value having the same value is substituted for each channel having different frequency characteristics, the output power is different from each other, resulting in a different transmission power between channels.

In other words, when determining the power of the currently communicating frequency channel, the terminal reads the previously stored transmission power amount (Tx Rasram) data value from the memory and performs power control. If the frequency channel is a frequency channel (e.g., channel index 11) that has been tuned to obtain a Tx Rasram data value, then the Tx Rasram data value read from memory may be applied, If the existing frequency channel is not the frequency channel where the adjustment was made to obtain the Tx Rasram data value, and the Tx Rasram data value read from the memory is applied, the transmit power is caused by the difference in the transmit power between the frequency channels. This will come out differently.

As described above, in order to solve the problem, adjustment may be performed for each channel to obtain Tx Rasram data for each channel. However, this may require a lot of time and cost.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and by adjusting the output power with a transmission power amount data value compensated by shifting the power deviation between channels when handing off to a predetermined channel, the adjustment is performed even in a frequency channel in which adjustment is not performed. It is an object of the present invention to provide a power control method of a mobile communication terminal capable of outputting the same power as the performed frequency channel.

According to an aspect of the present invention, there is provided a power control method of a mobile communication terminal. The method includes controlling a transmission power amount data value used for power control obtained by performing adjustment in one of a plurality of channels. Storing in; After calculating the power deviation between the channel by the difference between the power that is controlled and output from each channel by the transmission power amount data value, and the power output by the power control is controlled in the channel performing the adjustment by the power amount data value, the database Storing the data in the memory area; Reading the transmission power amount data value from the memory area when a channel is changed; Determining whether the changed channel is the same channel as the channel on which the adjustment is performed; If the changed channel is not the same channel as the channel on which the adjustment is performed, searching for a power deviation between the changed channel and the channel on which the adjustment is performed in the inter-channel power deviation database; Compensating for the transmission power amount data value using the retrieved power deviation; Preferably, the method includes controlling power with the compensated transmission power amount data value.

Further, when the determined channel is the same channel as the channel on which the adjustment is made, the method may further include controlling power by the transmission power amount data value.

The compensation of the transmission power amount data value is preferably performed by shifting the transmission power amount data value by the searched power deviation.

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

1 is a flowchart illustrating a power control method of a mobile communication terminal according to an embodiment of the present invention.

First, the transmission power amount data used for power control is obtained by performing adjustment at a center frequency channel, for example, channel index 11, among the 20 frequency channels currently used in DCS, and performing the adjustment. The value is recorded in the predetermined memory area (S10).

Subsequently, the power deviation between channels generated when power control is performed in each frequency channel using the transmission power amount data value calculated through the process S10 is performed, and the calculated power deviation between the channels is databased to a predetermined memory. Store in the area (S12).

In the above-described frequency channel (the remaining channels except the channel index 11 that has been adjusted) in the step S12, when the power is adjusted and output by the transmission power amount data value obtained by adjusting the channel index 11, the frequency characteristics, etc. As a result, a difference occurs between the power output from the remaining channel that has not been adjusted and the power output from the channel that has been adjusted.

As described above, when the output power is controlled by applying the same transmit power amount data value, the power difference between the channel on which adjustment is performed and the remaining channel on which adjustment is not performed is referred to as a power deviation between channels. Deviation is calculated on a PDM basis.

Thereafter, when the frequency channel currently being used is changed due to handoff (S14), the mobile communication terminal reads the transmission power amount data value adjusted in the memory through the process S10 and stored in the memory area (S16). In step S18, it is determined whether the changed frequency channel due to the handoff is the same channel as the frequency channel which has been adjusted to obtain a transmission power amount data value.

When the changed channel is the same channel as the channel on which the adjustment is made in step S18, the output power is controlled by applying the transmission power amount data value read from the memory in step S16 (S20).

On the other hand, if the changed channel is not the same channel as the adjustment channel as a result of the determination of step S18, the power deviation between the changed channel and the channel performing the adjustment in the inter-channel power deviation database (S22), As shown in FIG. 2, the transmission power amount data read from the memory through the process S16 is shifted as much as the power deviation retrieved through the step S22 to compensate for the transmission power amount data to be used in the changed channel (S24).

Thereafter, the output power is controlled using the transmission power amount data value compensated through the above-described process S24 (S26).

The power control method of the mobile communication terminal of the present invention is not limited to the above-described embodiments, and may be variously modified and implemented within the range allowed by the technical idea of the present invention.

According to the power control method of the mobile communication terminal of the present invention as described above, the amount of transmission power in the changed channel by shifting the transmission power amount data value by the power deviation between the channel that has been adjusted during the handoff to the predetermined channel and the changed channel By compensating with the data value and controlling the output power with the compensated transmission power amount data value, it is possible to output the same power as the channel on which the adjustment is performed even in the channel on which the adjustment is not performed.

Claims (3)

Storing a transmission power amount data value used for power control obtained by performing adjustment in one of a plurality of frequency channels in a memory area; After calculating the power deviation between the channels by the difference between the power that is controlled and output from each channel by the transmission power amount data value, and the power that is controlled and output from the channel that has been adjusted by the power amount data value, the database Storing the memory in the memory area; Reading the transmit power amount data value from the memory area when the frequency channel is changed; Determining whether the changed channel is the same channel as the channel on which the adjustment is performed; If the changed channel is not the same channel as the channel on which the adjustment is performed, searching for a power deviation between the changed channel and the channel on which the adjustment is performed in the inter-channel power deviation database; Compensating for the transmission power amount data value using the retrieved power deviation; And controlling power with the compensated transmission power amount data value. The method of claim 1, wherein when the determined channel is the same channel as the channel on which the adjustment is performed, And controlling power with the transmission power amount data value. The method of claim 1, wherein the compensation of the transmission power amount data value, And shifting the transmission power amount data value by the searched power deviation.

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