KR100641197B1 - Method for compensating radio output in mobile communication terminal - Google Patents

Abstract

The present invention relates to a wireless output compensation method of a mobile communication terminal, and in the related art, since a deviation occurs in the wireless output for each terminal, the terminal has a problem in that the wireless power is not maintained at a uniform level by controlling the gain. In view of these problems, the present invention includes the steps of: providing a table of temperature versus PDM compensation values; Measuring the temperature to read a PDM compensation value for the measured temperature in the table; Updating the PDM value in the PDM register by applying a PDM compensation value to the PDM value; Outputting the PDM value of the PDM register as a gain control signal to reduce the variation of the wireless output due to the temperature change of the terminal and to increase the reliability by maintaining the level of the wireless output uniformly for each terminal with respect to the predetermined PDM value. .

Description

Wireless output compensation method of mobile communication terminal {METHOD FOR COMPENSATING RADIO OUTPUT IN MOBILE COMMUNICATION TERMINAL}

1 is a block diagram showing a characteristic measurement environment of a mobile communication terminal for explaining the present invention.

2 is a flowchart illustrating a wireless output compensation method of a mobile communication terminal according to an exemplary embodiment of the present invention.

FIG. 3 is an exemplary diagram illustrating a deviation of a wireless output-to-gain control signal due to the temperature change of FIG. 2. FIG.

The present invention relates to a wireless output compensation method of a mobile communication terminal, and more particularly, to a wireless output compensation method of a mobile communication terminal that can compensate for the deviation of the wireless output caused by the temperature change of the terminal during wireless calibration.

The wireless calibration of the mobile communication terminal adjusts the parameters of the terminal register to correct the different characteristics of each terminal to show a uniform wireless output. The wireless calibration is performed at room temperature to correct the characteristics of the terminal, but the condition of room temperature is not constant and the gain difference of the power amplifier occurs due to the ambient temperature and the temperature change of the terminal generated during the calibration process. Therefore, the conventional wireless calibration shows different wireless outputs for each terminal.

The mobile communication terminal adjusts the level of the radio output by using a gain control signal TX_AGC_ADJ in the form of PDM (Pulse Density Modulation). The mobile communication terminal records the PDM value in the PDM register to adjust the magnitude of the gain control signal, and the wireless output is changed by the gain control signal.

In each mobile communication terminal, a difference in gain of a power amplifier occurs due to a temperature change, thereby causing a deviation in the wireless output. Therefore, when the same PDM value is recorded in a register in a plurality of mobile communication terminals, a wireless output of a predetermined level does not appear and different wireless outputs appear. When different wireless outputs appear in the mobile communication terminal of the same model, product reliability is lowered and control of the wireless output fails.

However, in the prior art as described above, there is a problem that the terminal does not maintain the wireless output at a uniform level by controlling the gain since a deviation occurs in the wireless output for each terminal.

Accordingly, the present invention has been made in view of the above problems, and calculates the PDM compensation value based on the internal temperature of the terminal and applies it to the PDM value to reduce the deviation of the wireless output due to the temperature change. The purpose is to provide an output compensation method.

The present invention for achieving the above object comprises the steps of having a table of temperature versus PDM compensation value; Measuring the temperature to read a PDM compensation value for the measured temperature in the table; Updating the PDM value in the PDM register by applying a PDM compensation value to the PDM value; And outputting a PDM value of the PDM register as a gain control signal.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a characteristic measurement environment of a mobile communication terminal for explaining the present invention.

In the mobile communication terminal, the transmitting end 11 outputs a PDM-type gain control signal to the gain control amplifier 12, and the gain control amplifier 12 amplifies the transmission signal by adjusting the gain according to the gain control signal, and a power amplifier. Reference numeral 13 amplifies and outputs a transmission signal with high power. The mobile communication terminal adjusts the level of the wireless output by using a gain control signal of the PDM type. The mobile communication terminal records the PDM value in the PDM register to adjust the magnitude of the gain control signal, and the wireless output is changed by the gain control signal.

The mobile communication terminal measures the temperature to determine the PDM compensation value for each temperature, and updates the PDM register by applying the PDM compensation value to the PDM value. The mobile communication terminal calculates the PDM compensation value for each temperature by measuring the degree of change in the wireless output due to the change in gain characteristics due to the temperature change, and updates the PDM value by applying the PDM compensation value to the original PDM value.

The experimenter has a plurality of mobile communication terminals and measures the wireless output at each temperature and checks the PDM value corresponding to the wireless output. The experimenter calculates gain variation by temperature change of mobile communication terminal to infer PDM compensation value necessary to compensate PDM value, prepares PDM compensation value by temperature as table, and mobile terminal uses PDM compensation value of table Update the value.

2 is an operation flowchart of a wireless output compensation method of a mobile communication terminal according to an embodiment of the present invention, comprising the steps of: providing a table with temperature versus PDM compensation values; Measuring the temperature to read a PDM compensation value for the measured temperature in the table; Updating the PDM value in the PDM register by applying a PDM compensation value to the PDM value; And outputting the PDM value of the PDM register as a gain control signal.

The experimenter performs tuning for each of the mobile communication terminals by temperature, measures the wireless output for each temperature, measures the ADC value for each terminal temperature, recognizes the internal temperature of the terminal, reads the PDM value from the PDM register, Recognize the level.

The experimenter calculates the average ADC value for each temperature using the measured data and calculates the average PDM value and average PDM offset value. The average ADC value is the average of the ADC values for each temperature measured for each terminal, the average PDM value is the average of the PDM values measured for each terminal for a given wireless output, and the average PDM offset value is derived from the average PDM value for each terminal. Out of bounds

The experimenter infers the PDM offset value corresponding to the deviation of the radio output from the average ADC value and prepares the PDM compensation value for each table as a table. For example, a polynomial of Y = 0.219 * X-21.82 (Y: PDM offset value, X: average ADC value) is derived to infer the PDM offset value for each temperature and use it as the PDM compensation value.

The mobile communication terminal has a table of temperature versus PDM compensation values and updates the PDM registers by applying the PDM compensation values to the PDM values measured in the calibration operation of the radio output. The mobile terminal measures the temperature, reads the PDM compensation value for the measured temperature from the table, and updates the PDM value by applying the PDM compensation value to the PDM value.

In another embodiment, the mobile communication terminal checks the PDM compensation value for the measured temperature by using a polynomial that calculates the PDM compensation value for each temperature induced by the experiment, and applies the calculated PDM compensation value to the PDM value to apply the PDM value. Update.

The mobile communication terminal outputs the PDM value of the PDM register as a gain control signal to adjust the level of the radio output.

FIG. 3 is an exemplary diagram illustrating a deviation of a wireless output-to-gain control signal due to the temperature change of FIG. 2.

Gain deviations vary with temperature and explain the degree of gain variation with temperature changes. The graph of wireless output vs. PDM value at terminal 1 and the graph of wireless output vs. PDM value at terminal 2 have a gain variation due to temperature change. As the wireless output increases, the PDM value also increases, but the gain variation varies depending on the terminal sample.

Since many mobile communication terminals have different gain deviations due to temperature changes, the experimenter infers PDM compensation values by measuring gain deviations for temperature changes and calculating PDM offset values for a plurality of terminal samples. The mobile communication terminal corrects the wireless output by applying the inferred PDM compensation value to the PDM value to reduce the deviation of the wireless output due to the temperature change.

As described in detail above, the present invention measures the gain deviation due to the temperature change and infers the PDM compensation value to compensate for the PDM value, thereby reducing the deviation of the wireless output due to the temperature change of the terminal, and for each terminal for a predetermined PDM value. There is an effect of increasing the reliability by keeping the level of the wireless output uniform.

Claims (3)

Having a table of temperature versus PDM compensation values; Measuring the temperature to read a PDM compensation value for the measured temperature in the table; Updating the PDM value in the PDM register by applying a PDM compensation value to the PDM value; And outputting a PDM value of the PDM register as a gain control signal. The method of claim 1, wherein the creating step of the table Measuring a wireless output for each temperature, measuring an ADC value for each temperature of a terminal, and reading a PDM value from a PDM register; Calculating an average ADC value for each temperature and calculating an average PDM value and an average PDM offset value; And inferring a PDM offset value corresponding to the deviation of the wireless output relative to the average ADC value to prepare a PDM compensation value for each temperature as a table. The method of claim 1, wherein the reading of the PDM compensation value is performed to confirm the PDM compensation value with respect to the measured temperature using a polynomial that calculates a PDM compensation value for each temperature induced by an experiment. Wireless output compensation method.

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