KR100711721B1 - Mobile phone and method capable of heating control - Google Patents

Abstract

The present invention relates to a mobile communication terminal and a method having a heat-relaxing function, and provides a mobile communication terminal and a method having a heat-relaxing function that can alleviate heat generation of the entire mobile communication terminal. The present invention for this purpose and the temperature sensing unit for detecting the ambient temperature of the power amplifier module (PAM); And a central controller configured to determine whether the temperature sensed by the temperature detector exceeds a preset value, to switch the operation mode of the power amplifier module to lower the heating temperature. According to the above configuration, the present invention has the effect of relieving the discomfort of the user due to the heat generation of the mobile communication terminal even during a long call by alleviating the overall heat generation of the mobile communication terminal.

Heat Reduction, PAM, RFT, Temperature Compensation

Description

Mobile communication terminal having a heat-relaxing function and a method thereof {Mobile phone and method capable of heating control}

1 is a block diagram showing a part of a configuration of a mobile communication terminal having a heat-relaxing function according to an embodiment of the present invention.

2 is a flowchart illustrating a heat generation relaxation method of a mobile communication terminal according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110: RFT 120: PAM

130: MSM 140: temperature detection unit

150: storage unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication terminal having a heat emission relaxation function and a method thereof, and more particularly, to convert a mode of a dominant power amplifier module (PAM) to a low gain mode and to generate relatively low heat generation. The present invention relates to a mobile communication terminal having a heat emission alleviating function capable of alleviating heat generation of an overall mobile communication terminal by increasing a gain, and a method thereof.

In general, a mobile communication terminal includes a power amplifier module (PAM) for power amplifying a transmission signal at the last end of the transmission terminal. The heat generation phenomenon of the mobile communication terminal, which often occurs during long-term communication, is mostly caused by the PAM.

As described above, since PAM that amplifies power generates a lot of heat, its intrinsic characteristics change. That is, if the efficiency decreases due to the heat generation of the PAM during long-term communication using the mobile communication terminal, the TX output power is lowered. To compensate for this, the RFT (Radio Frequency Transmitter) maintains the final transmission output power by adjusting the gain upward by referring to the temperature vs. limit setting value previously stored in the storage.

On the other hand, since the heat generation of the mobile communication terminal is unpleasant to the user, in addition to the above-described gain compensation, it is required to suppress the heat generation of the mobile communication terminal. In response to this demand, a mobile communication terminal has been proposed in which a cooling means for suppressing heat generation of the PAM is added.

However, such a conventional mobile communication terminal only provides gain compensation due to PAM efficiency deterioration, and there is no countermeasure for mitigating the heat generation of PAM itself. There is a problem that must be added.

The present invention has been proposed to solve the above problems, by reducing the heat generation of the overall mobile communication terminal by switching the mode of the PAM to a low gain mode and increasing the gain of the relatively low heat generation RFT An object of the present invention is to provide a mobile communication terminal and a method thereof.

The present invention for achieving the above object and a temperature sensing unit for sensing the ambient temperature of the power amplifier module (PAM); And a central controller configured to determine whether the temperature sensed by the temperature detector exceeds a preset value, to switch the operation mode of the power amplifier module to lower the heating temperature.

Preferably, the power amplifier module may be switched from a high gain mode to a low gain mode according to a control signal of the central controller.

Preferably, the central controller may control the RF transmitter (RFT) to compensate for gain loss due to mode switching of the power amplifier module.

The present invention may further include a storage unit for storing a temperature versus gain compensation value for gain compensation of the RF transmitter.

According to another aspect of the present invention, there is provided a method for reducing heat generation of a mobile communication terminal, comprising: a temperature sensing step of sensing an ambient temperature of a power amplifier module; A determination step of determining whether the sensed temperature exceeds a preset value; And a heat suppression step of lowering a heat generation temperature by switching an operation mode of the power amplifier module when the sensed temperature exceeds a preset value.

Preferably, the heat suppression step includes a mode conversion step of switching the power amplifier module from a high gain mode to a low gain mode; It may include a gain compensation step of compensating for the gain loss of the mode switching of the power amplifier module.

Preferably, the gain compensation step may compensate the gain of the amount corresponding to the gain loss of the power amplifier module in the RF transmitter.

The RF transmitter may determine the gain according to a prestored temperature versus gain compensation value.

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 part of a configuration of a mobile communication terminal having a heat-relaxing function according to an embodiment of the present invention.

The mobile communication terminal according to an embodiment of the present invention is a RFT (110) for transmitting data as a radio signal at the transmitting end, a PAM (120) for amplifying the radio signal and transmitted to the outside through a duplexer, and the temperature sensing unit 140 Determining whether the temperature detected in the step exceeds a predetermined value by switching the operation mode of the PAM 120 to detect the MSM 130 and the ambient temperature of the PAM 120, the central control unit for controlling to lower the heating temperature The temperature sensing unit 140 and the storage unit 150 stores a temperature versus gain compensation value for gain compensation of the RF transmitter.

The RFT 110 converts data to be transmitted into an RF radio signal, and compensates for gain loss due to mode switching of the PAM 120 under the control of the MSM 130 in the smoke relaxation mode.

In this case, the RFT 110 determines a gain for compensating for gain loss by referring to the temperature versus gain compensation value stored in the storage 150.

The PAM 120 amplifies the power so as to transmit a signal having sufficient power at the final stage, and switches from the high gain mode to the low gain mode according to the control signal of the MSM 130 in the heat emission relaxation mode.

In this case, the PAM 120 may be operated in a high gain mode and a low gain mode according to its output level. The heat generation in the high gain mode that is generally used may be performed in the low gain mode. Since the heat generation amount is greater than, the operation mode of the PAM 120 is switched to the low gain mode in order to alleviate the ambient temperature caused by the heat generation of the PAM 120.

The MSM 130 determines whether the temperature sensed by the temperature detector 140 is equal to or higher than a predetermined level, and when the value exceeds a preset value, the MSM 130 controls a control signal for switching the operation mode to mitigate heat generation of the PAM 120. It generates and applies to the PAM (120).

In addition, the MSM 130 stores a preset temperature-to-gain compensation value to compensate for gain loss due to mode switching of the PAM 120, that is, a gain difference between the high gain mode and the low gain mode of the PAM 120. It retrieves from the unit 150 and applies the value to the RFT 110 to compensate for the gain by the RFT 110.

The temperature sensing unit 140 includes a heat sensing means such as a thermistor (not shown) capable of sensing the ambient temperature of the PAM 120 and an ADC which converts the detected result into a digital signal to provide the MSM 130 with the detected result. -Digital Converter).

The storage unit 150 stores the gain compensation value according to the temperature change.

This temperature versus gain compensation value includes a temperature at which a user may feel uncomfortable by heat generation by a prior experiment and a gain compensation value for compensating the gain of the PAM 120 at this temperature.

In the mobile communication terminal having a heat-relaxing function according to the embodiment of the present invention configured as described above, when the temperature sensing unit 140 senses the ambient temperature of the PAM 120 and the temperature rises above a predetermined level, the MSM 130 A control signal for switching the operation mode of the PAM 120 to the low gain mode is generated and applied to the PAM 120.

The PAM 120 switches the operation mode from the high gain mode to the low gain mode under the control of the MSM 130, and the RFT 110 stores the storage unit to compensate for the gain difference according to the mode change of the PAM 120. The gain is adjusted upward with reference to the temperature versus gain compensation value stored at 150.

By such a configuration, a mobile communication terminal having a heat recovery function according to an embodiment of the present invention can reduce discomfort of a user due to heat even during a long call.

Hereinafter, a method for reducing heat generation of a mobile communication terminal according to an embodiment of the present invention will be described with reference to FIG. 2.

2 is a flowchart illustrating a heat generation relaxation method of a mobile communication terminal according to an embodiment of the present invention.

First, in step S201, a user initiates a call using a mobile communication terminal, and a heat release method of the mobile communication terminal is started.

In step S202, the temperature sensing unit 140 starts sensing the ambient temperature of the PAM 120 under the control of the MSM 130.

That is, the thermistor (not shown) of the temperature sensing unit 140 senses the ambient temperature of the PAM 120, converts the sensed temperature from the ADC (not shown), and outputs the converted temperature to the MSM 130.

In step S203, it is determined whether the sensed temperature exceeds a preset value.

More specifically, the MSM 130 determines whether the ambient temperature of the PAM 120 sensed by the temperature sensing unit 140 is higher than or equal to a predetermined level, and when it is determined that the temperature is not higher than or equal to a predetermined level, the MSM 130 returns to step S202 to detect the temperature. The unit 140 continuously detects the ambient temperature of the PAM 120.

If it is determined in step S203 that the temperature detected by the temperature sensing unit 140 exceeds a preset value, the flow proceeds to step S204, and the MSM 130 switches the operation mode of the PAM 120 to generate a heating temperature. Initiate an exothermic mode that lowers the temperature. At this time, the MSM 130 generates a control signal for switching the operation mode of the PAM 120.

In step S205, the PAM 120 switches its operation mode from the high gain mode to the low gain mode under the control of the MSM 130.

That is, when the MSM 130 determines that the ambient temperature of the PAM 120 is higher than or equal to a predetermined level, it generates a control signal for forcibly switching the mode of the PAM 120 so as to reduce the amount of heat generated by the PAM 120. 120).

The PAM 120 switches the operation mode to the low gain mode in which the heat generation amount is relatively small according to the control signal of the MSM 130.

In step S206, the MSM 130 searches for a gain compensation value according to a temperature stored in the storage unit 150 in advance.

More specifically, the MSM 130 searches the storage 150 for a gain compensation value according to a preset temperature in order to compensate for gain loss due to mode switching of the PAM 120. This temperature versus gain compensation value includes a temperature at which a user may feel uncomfortable by heat generation by a prior experiment and a gain compensation value for compensating the gain of the PAM 120 at this temperature.

In step S207, the RFT 110 adjusts the gain to compensate for the positive gain corresponding to the gain loss of the PAM 120. Here, the gain loss of the PAM 120 refers to a difference in gain generated as the operation mode is switched from the high gain mode to the low gain mode.

In this case, the RFT 110 receives the temperature-to-gain compensation value from the MSM 130 and determines the gain compensation value accordingly, which is described above. The RFT 110 receives the gain loss according to the mode switching of the PAM 120 as described above. To compensate).

In step S208, the MSM 130 determines whether or not the user terminates the call by determining whether the user ends the call, that is, when the user does not input the call termination button, the user continuously provides the call.

As a result of the determination in step S208, when the MSM 130 determines that the user terminates the call, that is, when the user inputs the call termination button, the process proceeds to step S209 to switch the currently operated heating mode to normal mode. End the call.

In this way, the heat generation relaxation method of the mobile communication terminal is terminated.

As described above, the mobile communication terminal and the method having a heat-relaxing function according to the present invention detects the ambient temperature of the PAM and when the temperature is above a certain temperature, the operation mode is switched to the low gain mode, the gain loss accordingly By compensating with the RFT, the overall heat generation of the mobile communication terminal can be alleviated, so that the user can eliminate discomfort due to the heat generation of the mobile communication terminal even during a long call.

Claims (8)

A temperature sensing unit sensing an ambient temperature of the power amplifier module (PAM); It is determined whether the temperature sensed by the temperature detection unit exceeds a preset value, and the operation mode of the power amplifier module is changed from the high gain mode to the low gain mode to control the temperature of the heating amplifier to be lowered, and the mode of the power amplifier module. A mobile communication terminal having a heat-relaxing function, characterized in that it comprises a central control unit for controlling the RF loss (RFT, Radio Frequency Transmitter) to compensate for the loss. delete delete The method of claim 1, And a storage unit configured to store a temperature-to-gain compensation value for gain compensation of the RF transmitter. A temperature sensing step of sensing an ambient temperature of the power amplifier module; A determination step of determining whether the sensed temperature exceeds a preset value; A heat suppression step of lowering a heat generation temperature by switching the operation mode of the power amplifier module from a high gain mode to a low gain mode when the sensed temperature exceeds a preset value; And a gain compensation step of compensating for the gain loss caused by the mode switching of the power amplifier module. delete The method of claim 5, The gain compensating step is a heat generation mitigation method of the mobile communication terminal, characterized in that for compensating the gain of the amount of the gain loss of the power amplifier module in the RF transmitter. The method of claim 7, And the RF transmitter determines the gain according to a pre-stored temperature versus gain compensation value.

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