KR20050056410A - Method for compensating temperature of handset - Google Patents

Abstract

The temperature compensation method of the portable terminal of the present invention uses a temperature characteristic according to the transmission power of the terminal to initially shorten the temperature compensation time interval, and after the transmission power is stabilized to some extent, the temperature compensation time interval is operated. It is an object of the present invention to provide a temperature compensation method of a portable terminal capable of smoothly performing temperature compensation without burdening the user.

In order to achieve the above object, the present invention provides a temperature compensation method applied to a portable terminal, comprising: a transmission power output step of power amplifying and outputting a frequency signal; A stabilization determination step of determining whether the temperature stabilization time has been exceeded; A first temperature compensation step of performing a temperature compensation process by adjusting a power amplification gain every first period when the temperature stabilization time is not exceeded; And a second temperature compensation step of performing a temperature compensation process by adjusting the power amplification gain for every second period that is shorter than the first period when the temperature stabilization time is exceeded.

Description

How to compensate for temperature in a mobile terminal {METHOD FOR COMPENSATING TEMPERATURE OF HANDSET}

The present invention relates to a temperature compensation method of a portable terminal, and more particularly, to a temperature compensation method of a portable terminal applying a compensation value according to a change in the initial temperature generated when generating a transmission power in the portable terminal.

In general, in the case of generating the transmission power of the portable terminal, the temperature changes a lot in the initial stage. At this time, a transmission power having a desired size may be output by applying a compensation value according to the temperature change.

1 is a flowchart illustrating a temperature compensation method of a conventional portable terminal. The temperature compensation method of the conventional portable terminal includes a step of outputting transmission power when a call is connected or a test; Determining whether time enough to compensate for the temperature has elapsed (S102); If the time required to compensate the temperature has elapsed, performing a temperature compensation process (S103); After the step S103 of performing the temperature compensation process or when the time to compensate for the temperature has not elapsed, the output of the transmission power is not performed without performing the step S103 of performing the temperature compensation process. After determining whether to continue, if the output of the transmission power is continued, the process returns to step S101 of outputting the transmission power, and if the output of the transmission power is not continued, the process is terminated (S104). Here, temperature compensation is usually made at intervals of 10 seconds and is performed by varying the gain of the power amplifier.

However, since the temperature compensation method of the conventional portable terminal described above compensates for the temperature at a fixed time interval, when the transmission power is output, if the fixed time interval is small, the temperature compensation is performed smoothly, while burdening the operation of the terminal. And, if the fixed time interval is large, there is a problem that the temperature compensation is not performed smoothly.

The present invention devised to solve the above problems, by using the temperature characteristics according to the transmission power of the terminal, the temperature compensation time interval is initially shortened, and after the transmission power is stabilized to some extent, the temperature compensation time interval is increased. It is an object of the present invention to provide a temperature compensation method of a portable terminal capable of smoothly performing temperature compensation without burdening operation.

In order to achieve the above object, a temperature compensation method of a portable terminal of the present invention includes a temperature compensation method applied to a portable terminal, comprising: a transmission power output step of power-amplifying and outputting a frequency signal; Stabilization determination step of determining whether the temperature stabilization time has been exceeded; A first temperature compensation step of performing a temperature compensation process by adjusting a power amplification gain every first period when the temperature stabilization time is not exceeded; And a second temperature compensation step of performing a temperature compensation process by adjusting the power amplification gain for every second period that is shorter than the first period when the temperature stabilization time is exceeded.

Hereinafter, the most preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement the technical idea of the present invention. .

First, FIG. 2 is a block diagram illustrating a portable terminal to which the temperature compensation method of the portable terminal of the present invention is applied. The portable terminal includes an intermediate frequency automatic gain adjusting unit 210, an up frequency mixing unit 220, and a driving amplifier. 230, an image filter 240, a power amplifier 250, a local oscillator 260, a power controller 270, and an intermediate frequency gain controller 280.

The intermediate frequency automatic gain adjusting unit 210 receives a transmission intermediate frequency signal TX_IF and performs the intermediate frequency automatic gain adjustment.

In addition, the uplink frequency mixer 220 multiplies the gain-adjusted intermediate frequency signal output from the intermediate frequency automatic gain adjustment unit 210 by multiplying the frequency oscillated by the local oscillator 260 which will be described later. .

Meanwhile, the driving amplifier 230 amplifies the up-converted frequency signal output from the uplink frequency mixer 220.

In addition, the image filter 240 serves to band pass the up-converted multiplication frequency signal output from the driving amplifier 230.

On the other hand, the power amplification unit 250 serves to power amplify the band-passed frequency signal output from the image filter 240.

In addition, the local oscillator 260 serves to output the oscillation signal to the uplink frequency mixer 220.

The power control unit 270 adjusts the amplification degree of the power amplifying unit 250.

In addition, the intermediate frequency gain control unit 280 outputs an intermediate frequency gain control signal IF Gain Ctrl for controlling the gain of the intermediate frequency automatic gain adjusting unit 210.

3 is an operation flowchart illustrating a temperature compensation method of a portable terminal according to an embodiment of the present invention.

First, when the call is connected or tested, the power amplifier 250 amplifies and outputs the band-passed frequency signal output from the image filter 240 (S301).

Thereafter, the power control unit 270 determines whether the temperature stabilization time after the transmission power output has been exceeded (S302).

If the temperature stabilization time is not exceeded after the transmission power output, the temperature compensation is performed by adjusting the gain of the power amplifier 250 every long period (for example, one cycle is 10 to 99 seconds, preferably 10 seconds). Perform the process (S303).

On the other hand, if the temperature stabilization time after the transmission power output is exceeded, the temperature is adjusted by adjusting the gain of the power amplifier 250 every short period (for example, one cycle is 0.1 to 9 seconds, preferably 0.5 to 1 second). Perform the compensation process (S304).

Thereafter, after it is determined whether the output of the transmission power is to be continued, if the output of the transmission power is continued, the process returns to the step of outputting the transmission power (S301), and if the output of the transmission power is not continued, the process ends. (S305).

The following table shows the temperature stabilization characteristics at the transmission power output.

Table 1 determines the preferred temperature stabilization time and temperature compensation period.

The temperature stabilization degree is determined by the resistance value of the thermistor mounted in the power control unit 270. The temperature stabilization time refers to whether the time for stabilizing the thermistor has passed. 4 is a graph illustrating a change in thermistor value over time. Referring to this, it can be seen that the thermistor value is stabilized as time passes.

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

According to the present invention, the temperature compensation time interval is shortened initially by using the temperature characteristic according to the transmission power of the terminal, and after the transmission power is stabilized to some extent, the temperature compensation time interval is lengthened without burdening the operation of the terminal. There is an advantage that can be performed smoothly.

1 is a flow chart showing a temperature compensation method of a conventional portable terminal,

2 is a block diagram showing a portable terminal to which the temperature compensation method of the portable terminal of the present invention is applied;

3 is a flowchart illustrating a temperature compensation method of a portable terminal according to an embodiment of the present invention;

4 is a graph showing a change in thermistor value over time.

Explanation of symbols on the main parts of the drawings

210: intermediate frequency automatic gain adjusting unit 220: uplink frequency mixing unit

230: driving amplifier 240: image filter

250: power amplifier 260: local oscillator

270: power control unit 280: intermediate frequency gain control unit

Claims (4)

In the temperature compensation method applied to a portable terminal, A transmission power output step of amplifying and outputting a frequency signal; Stabilization determination step of determining whether the temperature stabilization time has been exceeded; A first temperature compensation step of performing a temperature compensation process by adjusting a power amplification gain every first period when the temperature stabilization time is not exceeded; And When the temperature stabilization time is exceeded, the second temperature compensation step of performing a temperature compensation process by adjusting the power amplification gain for every second period that is shorter than the first period Temperature compensation method of the portable terminal comprising a. The method of claim 1, The first period is 10 to 99 seconds Temperature compensation method of a portable terminal, characterized in that. The method of claim 1, The second period is 0.1 to 9 seconds Temperature compensation method of a portable terminal, characterized in that. The method of claim 1, The temperature stabilization time is, It is determined by the resistance value of the thermistor mounted inside the portable terminal Temperature compensation method of a portable terminal, characterized in that.