KR100628093B1 - Method for compensating transmission power of mobile telecommunication device using high power detection scale - Google Patents

Abstract

The present invention relates to a transmission power compensation method of a mobile communication terminal using a high power sensing scale. The present invention provides a method for compensating transmission power of a mobile communication terminal, the method comprising: measuring a transmission power and a high power sensing analog-digital conversion value in a reference channel among a plurality of channel bands; Calculating a high power sense scale, adjusting the transmit power to be the maximum transmit power using pulse sustain modulation in the reference channel, and using the high power sense scale in the reference channel for the maximum transmit power Calculating a high power sensing analog-digital conversion value, calculating a high power sensing analog-digital conversion value for transmission power using the high power sensing scale in a calibration channel of the plurality of channel bands, and in the calibration channel Calculating a compensation value of the transmission power. Which provides transmit power compensation method for a mobile communication terminal using a high-power detection scale. Therefore, according to the present invention, it is possible to quickly calculate a high power sense analog-to-digital conversion value for the transmission power, and to efficiently compensate for the transmission power.

High Power Sensing Analog-to-Digital Conversion, High Power Sensing Scale, Pulse Continuous Modulation

Description

Method for Compensating Transmission Power of Mobile Telecommunication Device Using High Power Detection Scale}

1 is a flowchart illustrating a transmission power compensation method according to the related art.

2 is a flowchart illustrating a transmission power compensation method using a high power sensing scale according to the present invention.

The present invention relates to a transmission power compensation method, and more particularly, to a transmission power compensation method of a mobile communication terminal using a high power sensing scale.

Referring to FIG. 1, a transmission power compensation method according to the related art is as follows.

The entire used channel is divided into two or more channels, and transmission power is measured in a reference channel determined from the plurality of channels (S100). The pulse duration modulation (PDM) value is adjusted (S110) so that the transmit power is equal to the maximum transmit power value required by the reference channel. It is determined whether the transmit power is equal to the requested maximum transmit power value (S120), and if it is not the same, the PDM value is readjusted. Meanwhile, in the same case, a high power detection analog-to-digital conversion (H-ADC) value is measured using a high power detection circuit (S130).

Moving to the calibration channel, the H-ADC value is measured in the calibration channel (S140). The PDM value is adjusted (S150) to determine whether the calibration channel H-ADC value is the same as the reference channel H-ADC value (S160). According to the determination result, if it is not the same, the PDM value is readjusted until it is the same, and if it is the same, the transmission power in the calibration channel is measured.

However, according to the related art, it is inconvenient to adjust the PDM value until the H-ADC value of the reference channel and the H-ADC value of the calibration channel are the same.

In the case where there are a plurality of calibration channels, the PDM value had to be adjusted in each calibration channel, resulting in a large time loss due to transmission power compensation.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a transmission power compensation method of a mobile communication terminal which eliminates inconvenience and time loss caused by adjusting PDM values in calibration channels.

In order to achieve the above object, the transmission power compensation method of a mobile communication terminal using a high power sensing scale according to the present invention, in the transmission power compensation method of the mobile communication terminal, the transmission power in the reference channel of the plurality of channel band Measuring a high power sense analog-to-digital conversion value, calculating a high power sense scale using the measured values in the reference channel, and using the pulse sustain modulation in the reference channel, the transmit power is the maximum transmit power Calculating a high power sensing analog-digital conversion value for the maximum transmission power using the high power sensing scale in the reference channel, and the high power sensing scale in a calibration channel of the plurality of channel bands. Power Sensing Analog-Digital for Transmitted Power Using In the calibration step, and the channel to calculate a conversion value comprises the step of calculating a compensation value of the transmission power.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to Figure 2, the transmission power compensation method of the mobile communication terminal using a high power detection scale according to the present invention will be described in detail as follows.

The total used channel band is divided into two or more channel bands, and a calibration channel to be compared with the reference channel and the reference channel is determined among the plurality of channel bands. The reference channel may be a channel used as a reference for transmission power compensation in the calibration channel, and a frequency band corresponding to the center among frequency bands corresponding to the entire used channel bands may be allocated to the reference channel.

First, a transmission power and a high power detection analog to digital conversion (hereinafter, referred to as 'H-ADC') value in the reference channel are measured (S200).

The H-ADC value may be measured using a high power detection circuit, and the high power detection circuit converts a signal detected by coupling at an output terminal of a power amplifier into a digital signal and transmits a level of a transmission power. Measure Accordingly, the H-ADC value is a value obtained by converting the analog signal detected at the output terminal of the power amplifier by the high power sensing circuit into a digital signal.

Using the measured transmission power and the H-ADC value, a high power detection scale (hereinafter referred to as 'H-Scale') is calculated (S210).

The H-Scale may mean a ratio of the H-ADC value to the transmission power, and may be calculated by using a change amount of the transmission power and a change amount of the H-ADC value for a predetermined period.

For example, when the transmission power is 50dB, if the measured H-ADC value is 10dB, it can be seen that the H-Scale is 10/50, that is, 0.2. In addition, when the amount of change in transmit power over a certain period is 100dB, if the changed H-ADC value is 20dB, it can be seen that the H-Scale is 20/100, that is, 0.2.

The pulse duration modulation (PDM) value is adjusted so that the maximum transmission power required by the reference channel and the measured transmission power are the same (S220).

Through the adjustment process, it is determined whether the requested maximum transmission power and the measured transmission power are the same (S230), and if it is determined that it is not the same, the PDM value is readjusted.

On the other hand, if it is determined to be the same, the transmission power in the reference channel is measured, and the H-ADC value is calculated using the H-Scale (S240).

For example, if the measured transmission power is 100dB and the H-Scale is 0.2, the H-ADC value of 20dB may be calculated using the H-Scale.

The transmission power, PDM value, H-ADC value, and H-Scale in the reference channel are stored in the mobile communication terminal.

Moving to the calibration channel, the transmission power in the calibration channel is measured, and the H-ADC value is calculated using the H-Scale (S250).

Assuming that the transmit power transmits the same signal in the reference channel and the calibration channel, the transmit power in the calibration channel corresponding to the transmission power equal to the maximum transmission power as the PDM value is adjusted in the reference channel is adjusted. Can mean. In addition, the H-Scale is used as it is obtained from the reference channel.

In the calibration channel, the transmission power compensation value is calculated (S260).

For example, the transmission power compensation value may be calculated by the following equation.

Compensation Value = (High Power Sensing Analog-to-Digital Conversion at Reference Channel-High Power Sensing Analog-to-Digital Conversion at Calibration Channel) * (1 / High Power Sensing Scale) + (Transmission Power at Reference Channel-Transmission on Calibration Channel power)

The high power sense analog-to-digital conversion value, the high power sense scale, and the transmit power in the reference channel are values previously measured or calculated in the reference channel and stored in the mobile communication terminal before moving to the calibration channel. The transmission power in the calibration channel is a value measured in the calibration channel, and the high power sensing analog-to-digital conversion value in the calibration channel is a value calculated using the high power sensing scale.

The calibration channel may be two or more, and the transmission power compensation value may be compensated for each calibration channel by performing a process of calculating the transmission power compensation value described above for each calibration channel.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

According to the present invention described above, it is not necessary to change the PDM value until the H-ADC value in the calibration channel is equal to the H-ADC value in the reference channel, thereby eliminating the time loss caused by the PDM value change.

Further, according to the present invention, since the H-ADC values can be calculated for a plurality of calibration channels using the H-Scale calculated in the reference channel, the transmission power can be quickly compensated.

Claims (6)

In the transmission power compensation method of a mobile communication terminal, Measuring a transmit power and a high power sense analog-to-digital conversion value in a reference channel of the plurality of channel bands; Calculating a high power sensing scale using the measured values in the reference channel; In the reference channel, adjusting the transmit power to be the maximum transmit power using pulse sustain modulation; Calculating a high power sense analog-digital conversion value for the maximum transmit power using the high power sense scale in the reference channel; Calculating a high power sense analog-to-digital conversion value for a transmit power in the calibration channel of the plurality of channel bands using the high power sense scale; And Calculating a compensation value of the transmission power in the calibration channel; and a transmission power compensation method of a mobile communication terminal using a high power sensing scale. The method of claim 1, wherein the reference channel, A transmission power compensation method of a mobile communication terminal using a high power sensing scale, characterized in that the channel having a mid-band frequency of the plurality of channel bands divided by the total used channel band by two or more. The method of claim 1, wherein the high power detection scale, Transmitting power compensation method of a mobile communication terminal using a high-power sensing scale, characterized in that calculated using the high-power sensing analog-to-digital conversion value for the change amount of the transmission power measured in a certain period. The method of claim 3, wherein the high power detection scale, And transmitting the high power sensing analog-digital conversion value by dividing the transmission power by the transmission power compensation method of the mobile communication terminal. The method of claim 1, wherein the transmission power compensation method, And storing the transmission power, the pulse duration modulation value, the high power sensing scale, and the high power sensing analog-digital conversion value in the reference channel. . The method of claim 1, wherein the compensation value is, Transmission power compensation method of a mobile communication terminal using a high power detection scale, characterized in that calculated by the following equation. [Equation] Compensation Value = (High Power Sensing Analog-to-Digital Conversion at Reference Channel-High Power Sensing Analog-to-Digital Conversion at Calibration Channel) * (1 / High Power Sensing Scale) + (Transmission Power at Reference Channel-Transmission on Calibration Channel power)

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