KR20050060505A - Method of controling a power in the mobile communication terminal - Google Patents

Abstract

The present invention relates to a power control method in a mobile communication terminal to control the output power of the power amplifier according to the temperature change in the mobile communication terminal. Tabulating a transmission power level according to power level and temperature change; Detecting a temperature using a thermistor built in a battery or provided in a power amplifier during a call connection, and reading a transmission power level corresponding to the temperature; And controlling the transmission power level controller for output of the optimal transmission power with reference to the transmission power level, thereby outputting the transmission power according to the corresponding transmission power level regulator. Due to the control, it is possible to prevent power shortage even at high temperatures and to not waste power even at low temperatures.

Description

{Method of Controlling a Power in the Mobile Communication Terminal}

The present invention relates to a power control method in a mobile communication terminal, and more particularly, to a power control method in a mobile communication terminal to control the output power of the power amplifier according to the temperature change in the mobile communication terminal.

In general, in the power relationship between the base station and the mobile communication terminal, after measuring the power level at the base station in the CPU, it is determined how much power the mobile communication terminal should output.

After receiving the power level from the base station regardless of the external temperature, the mobile communication terminal outputs the received power through the power amplifier. Here, the corresponding power amplifier increases the transmission power level. The pin for controlling the power level is 'Vramp', and the 'Vramp' may be called a transmission power level voltage regulator.

If the value of the corresponding transmit power level regulator (Vramp) increases, that is, the larger the value, the power output level of the corresponding power amplifier becomes larger, while the smaller value corresponds to the power output level of the corresponding power amplifier. Becomes small.

That is, when the range of the corresponding transmit power level regulator Vramp is greater than 'a' and less than 'b', the output of the corresponding power amplifier varies according to the adjustment of the corresponding transmit power level regulator Vramp within the corresponding range. .

As described above, in the conventional mobile communication terminal, the power control method receives the transmission power from the base station regardless of the external temperature, and uses only the value of the corresponding transmission power level regulator Vramp according to the transmission power level of the received base station. Since the output power level of the amplifier is adjusted, an error occurs in output power at a level different from the desired output power at high or low temperatures.

If the mobile communication terminal receives the information of the base station to transmit 0 (dBm) at the transmission power level at room temperature, for example, the transmission power level regulator Vramp outputs 1.456 (V) so that the power amplifier is 0. (dBm) output. However, since the corresponding transmission power level regulator (Vramp) is constantly output regardless of the temperature increase, the actual power amplifier outputs a lower output, which may cause a power shortage, resulting in a call drop. There was this.

For example, assuming that the output power of the power amplifier is '1' when the value of the transmission power level regulator Vramp is '1' at room temperature, as shown in FIG. The output power is output about 0.6 ~ 0.7, so the output power is lower than the ideal graph.In case of low temperature, the output power is about 1.3 ~ 1.4, and the output power is higher than the ideal graph. There was a disadvantage of causing it.

In order to solve the above disadvantages, the present invention provides a power control method in a mobile communication terminal to control the output power of the power amplifier in accordance with the temperature change in the mobile communication terminal, an object thereof.

In addition, the present invention detects the external temperature using the thermistor in the mobile communication terminal and automatically compensates for the transmit power level regulator according to the corresponding temperature, thereby calibrating the transmit power level of the power amplifier, thereby automatically adjusting the power level according to the temperature. The purpose of the control is not to run out of power even at high temperatures and to not waste power even at low temperatures.

In the mobile communication terminal according to an embodiment of the present invention for achieving the above object, the power control method according to the transmission power level and the temperature change at room temperature in order to output the optimum transmission power for the temperature in the mobile communication terminal Tabulating the transmission power levels; Detecting a temperature using a thermistor built in a battery or provided in a power amplifier during a call connection, and reading a transmission power level corresponding to the temperature; And controlling the transmission power level controller for outputting the optimum transmission power with reference to the transmission power level, and outputting the transmission power according to the corresponding transmission power level regulator.

Preferably, the transmission power level table process is characterized by setting the value of the transmission power level regulator suitable for the external temperature or the power amplifier temperature in the transmission power level regulator calibration table.

Also preferably, the transmission power output process may increase the value of the current transmission power level regulator at high temperature to output the optimal transmission power, and in the case of low temperature, reduce the value of the current transmission power level regulator to optimize It is characterized by outputting at the transmission power.

According to the present invention, after setting the transmission power level controller in accordance with the temperature table in the CPU of the mobile communication terminal, the temperature is detected by the thermistor and the voltage of the transmission power level regulator is adjusted to obtain the output of the power amplifier according to the temperature. Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the mobile communication terminal according to the embodiment of the present invention, the power control configuration includes a thermistor 10, a CPU 20, a memory 30, and a power amplifier 40, as shown in FIG. 2. It is done by

The thermistor 10 is built in a battery or is provided next to a power amplifier, and is a variable resistor that changes according to temperature change and converts a voltage into an ADC with a variable resistance value according to temperature change to the CPU 20. In other words, it measures the temperature of the external temperature or the power amplifier and informs the CPU 20 of the measured temperature value.

The CPU 20 has an external temperature or a power amplifier temperature measured by the thermistor 10 by an experiment or test, and transmits the transmission power level at room temperature, the transmission power level according to the temperature change, and the like to table the memory ( 30) and after detecting the external temperature or the power amplifier temperature through the thermistor 10 at the time of actually transmitting power of the power amplifier 40, the transmission corresponding to the detected external temperature or power amplifier temperature The power level controller Vramp is controlled and applied to the power amplifier 40 so that the power level value is read from the memory 30 to output an optimal transmission power. For example, as shown in FIG. 3, the CPU 20 increases the value of the current transmission power level regulator Vramp to the value of the transmission power level regulator Vramp corresponding to the corresponding temperature in the case of a high temperature. It is applied to the power amplifier 40 to increase the output power so as to be similar to the ideal graph, and in the case of low temperature, transmit power level regulator Vramp corresponding to the corresponding temperature in the value of the current transmit power level regulator Vramp. It is reduced to the value of and applied to the power amplifier 40 to reduce the output power to be similar to the ideal graph.

The memory 30 stores programs and data necessary for the control operation of the CPU 20. In particular, the memory 30 transmits a table of transmission power levels at room temperature, transmission power levels according to changes in external temperature or power amplifier temperature, and the like. The power level regulator calibration table 31 is stored.

The power amplifier 40 outputs the transmission power by calibrating the transmission power level according to the transmission power level regulator Vramp applied from the CPU 20.

The power control method in the mobile communication terminal according to an embodiment of the present invention will be described with reference to the flowchart of FIG. 4.

Calibrate the output power level according to the temperature of the power amplifier 40 by measuring the external temperature or the power amplifier temperature using the thermistor 10 in the battery or the thermistor 10 in the power amplifier 40 in the mobile communication terminal. In the first embodiment, the CPU 20 has an external temperature or a power amplifier temperature measured through the thermistor 10 by experiment or test, and an optimal transmission power suitable for the temperature, that is, an ideal graph as shown in FIG. 3. In order to be able to output the output power level having a table of the transmission power level at room temperature, the transmission power level according to the temperature change, etc. to store the transmission power level regulator calibration table 31 in the memory 30. That is, set the value of the transmit power level regulator (Vramp) suitable for the external temperature or the power amplifier temperature (step) S1).

Then, the thermistor 10, which is built in the battery or is provided next to the power amplifier 40, is a variable resistor that changes according to the temperature change, and measures the external temperature or the power amplifier temperature to measure the corresponding measured temperature value. The CPU 20 is informed.

Therefore, when the call connection is performed by the mobile communication terminal to perform a call connection, that is, when the output power of the power amplifier 40 is actually transmitted, the CPU 20 calls the call. After detecting the connection event (step S2), the external temperature or the power amplifier temperature is detected using the thermistor 10 (step S3).

The CPU 20 reads the transmission power level value corresponding to the external temperature or the power amplifier temperature detected through the thermistor 10 from the transmission power level regulator calibration table 31 (step S4), After controlling the transmission power level regulator Vramp so as to output an optimal transmission power with reference to the read transmission power level value (step S5), the controlled transmission power level regulator Vramp is controlled. Apply to 40.

Accordingly, the power amplifier 40 outputs the transmission power by calibrating the transmission power level according to the transmission power level regulator Vramp applied from the CPU 20 (step S6).

For example, assuming that the output power of the power amplifier is '1' when the value of the transmission power level regulator Vramp is '1' at room temperature, as shown in FIG. In order to prevent the output power from being output to about 0.6 to 0.7, the value of the current transmit power level regulator Vramp is increased to the value of the transmit power level regulator Vramp corresponding to the corresponding temperature and applied to the power amplifier 40. In this case, the output power may be increased to be similar to an ideal graph, and thus, a problem in which the drop may occur due to a phenomenon in which the output power is insufficient may occur.

On the other hand, in the case of low temperature, in order to prevent the output power from being output at about 1.3 to 1.4, the value of the current transmission power level regulator Vramp is reduced to the value of the transmission power level regulator Vramp corresponding to the corresponding temperature so as to output the power. By applying to the amplifier 40, it is possible to reduce the output power to be similar to the ideal graph, so that the waste of the output power is generated to generate an excessive consumption current.

As described above, according to the present invention, the mobile communication terminal detects an external temperature using a thermistor and automatically compensates the transmission power level regulator according to the corresponding temperature to calibrate the transmission power level of the power amplifier, thereby automatically adjusting the power level according to the temperature. Due to the control, it is possible to prevent power shortage even at high temperatures and to not waste power even at low temperatures.

1 is a view for explaining the output power level of a power amplifier (Power Amp) by a power control method in a conventional mobile communication terminal.

2 is a block diagram showing a configuration for power control in a mobile communication terminal according to an embodiment of the present invention.

3 is a view for explaining the output power level of the power amplifier in FIG.

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

Explanation of symbols on the main parts of the drawings

10: Thermistor

20: Central Processing Unit (CPU)

30: Memory

40: power amplifier

Claims (3)

Tabulating a transmission power level at room temperature and a transmission power level according to a temperature change in order to output an optimum transmission power appropriate to a temperature in a mobile communication terminal; Detecting a temperature using a thermistor built in a battery or provided in a power amplifier during a call connection, and reading a transmission power level corresponding to the temperature; And controlling a transmission power level controller for outputting an optimal transmission power by referring to the transmission power level and outputting transmission power according to a corresponding transmission power level regulator. . The method of claim 1, The transmission power level table is a power control method for a mobile communication terminal, characterized in that for setting the transmission power level regulator value suitable for the external temperature or the power amplifier temperature in the transmission power level regulator calibration table. The method of claim 1, The transmit power output process outputs the optimal transmit power by increasing the value of the current transmit power level controller in the case of high temperature, and outputs the optimal transmit power by decreasing the value of the present transmit power level controller in the case of low temperature. Power control method in a mobile communication terminal, characterized in that the giving.