KR20050123316A - Potable computer and control method of cooling fan of potable computer - Google Patents

Abstract

The present invention relates to a portable computer and a method for controlling a cooling fan of a portable computer. A portable computer according to the present invention comprises: a heat generating component for generating heat during operation; A cooling fan for cooling the heat generating component; A first temperature sensing unit sensing an internal temperature of the heat generating component; A second temperature sensing unit sensing an external temperature of the portable computer; When the temperature sensed by the second temperature detector exceeds a predetermined reference temperature, the cooling fan is controlled to be driven in the first driving mode according to the temperature detected by the first temperature detector, and the second And a controller configured to control the cooling fan to be driven in the second driving mode according to the temperature sensed by the first temperature detector when the temperature sensed by the temperature detector is less than or equal to the reference temperature. Thereby, the cooling fan can be controlled by reflecting the external temperature condition of the portable computer.

Description

Portable computer and cooling fan control method for portable computer {POTABLE COMPUTER AND CONTROL METHOD OF COOLING FAN OF POTABLE COMPUTER}

The present invention relates to a portable computer and a cooling fan control method for a portable computer, and more particularly, to a portable computer and a cooling fan control method for controlling a cooling fan to reflect the external temperature conditions of the portable computer.

In recent years, in order to increase the performance of a computer, there is a trend of increasing the chip density and increasing the clock speed of a central processing unit (CPU). However, as the clock speed increases, the heat generated by the CPU increases, which increases the internal temperature of the CPU, which increases the internal temperature of the CPU, which causes the CPU to fail, and causes the CPU itself to be damaged. have.

Various methods have been proposed to prevent defects and damages caused by the internal temperature rise of the CPU. In this way, a method of installing a cooling fan adjacent to the CPU, sensing the internal temperature of the CPU, and driving the cooling fan based on the detection result is widely used.

1 is a control block diagram of a conventional computer using a method of cooling a CPU by a cooling fan. As shown in the figure, a temperature sensing unit for sensing the internal temperature of the CPU, and a control unit for driving the cooling fan based on the internal temperature of the CPU detected by the temperature sensing unit. Here, the control unit controls a fan driving unit such as a motor for rotating the cooling fan so that the rotational speed of the cooling fan is controlled according to the internal temperature level of the CPU detected by the temperature sensing unit.

Meanwhile, portable computers such as laptop computers, notebook computers, and personal digital assistants (PDAs) are becoming slimmer due to the development of chip density technology. The portability has been improved and its use is increasing in recent years.

However, the slimming of the portable computer has a close relationship with the heat generated during the driving of the CPU and the like. For example, due to slimming of the portable computer, there is a limitation of a mechanical structure for dissipating the heat inside the portable computer to the outside.

In addition, the portable computer is often in direct contact with the user's body, such as being carried by the user or using the portable computer on a lap or the like. Here, the heat generated inside the portable computer is easily transferred to the external case of the portable computer, so that the user may react sensitively to the heat transferred through the external case of the portable computer.

For example, when using a portable computer in an environment with a high external temperature, such as in a hot summer, the user may be sensitive to small heat transmitted through an external case of the portable computer. On the other hand, in an environment where the external temperature is low, such as in a cold winter, the user may react less sensitively even if the same amount of heat is transferred through the external case of the portable computer.

Therefore, in the portable computer, if the use environment of the portable computer can be reflected in controlling the cooling fan for cooling the components such as the CPU, it is possible to minimize the user's sensitive reaction due to heat generated from the portable computer. will be.

Accordingly, it is an object of the present invention to provide a portable computer and a cooling fan control method for a portable computer capable of controlling the cooling fan by reflecting external temperature conditions of the portable computer.

The object of the present invention is a portable computer having a heat generating part for generating heat during operation and a cooling fan for cooling the heat generating part, according to the present invention, wherein the first temperature for sensing an internal temperature of the heat generating part is provided. A sensing unit; A second temperature sensing unit sensing an external temperature of the portable computer; When the temperature sensed by the second temperature detector exceeds a predetermined reference temperature, the cooling fan is controlled to be driven in the first driving mode according to the temperature detected by the first temperature detector, and the second And a controller for controlling the cooling fan to be driven in the second driving mode according to the temperature sensed by the first temperature detector when the temperature sensed by the temperature detector is less than or equal to the reference temperature. Is achieved by.

Here, a first lookup table in which a first rotational speed of the cooling fan corresponding to each of the plurality of first driving temperatures and the first driving temperature is set, and the plurality of second driving temperatures and the second driving temperature, respectively A look-up table storage unit configured to store a second look-up table in which a second rotational speed of the cooling fan is set; The controller controls the cooling fan to be driven at a first rotational speed corresponding to the first driving temperature when the temperature sensed by the first temperature sensing unit in the first driving mode exceeds the first driving temperature. And control the cooling fan to be driven at the second rotation speed corresponding to the second driving temperature when the temperature sensed by the first temperature sensing unit in the second driving mode exceeds the second driving temperature. Can be.

In addition, when the first rotational speed and the second rotational speed are the same, the first driving temperature corresponding to the first rotational speed may be higher than the second driving temperature corresponding to the second rotational speed.

Here, the heat generating part may include a central processing unit (CPU).

On the other hand, the object is in the cooling fan control method of a portable computer having a heat generating part for generating heat during operation, and a cooling fan for cooling the heat generating component according to another embodiment of the present invention, the heat generation Sensing the internal temperature of the component; Sensing an external temperature of the portable computer; If the detected external temperature of the portable computer exceeds a predetermined reference temperature, driving the cooling fan in a first driving mode according to the sensed internal temperature of the heat generating component; If the detected external temperature of the portable computer is equal to or less than a reference temperature, driving the cooling fan in a second driving mode according to the sensed internal temperature of the heat generating component. It can also be achieved by the method.

And providing a first lookup table in which a first rotational speed of the cooling fan corresponding to each of a plurality of first driving temperatures and the first driving temperatures is set; Providing a second lookup table in which a second rotational speed of the cooling fan corresponding to a plurality of second driving temperatures and the second driving temperatures is set, respectively; The driving of the cooling fan in the first driving mode may include operating the cooling fan at a first rotational speed corresponding to the first driving temperature when the sensed internal temperature of the heat generating component exceeds the first driving temperature. Driving; The driving of the cooling fan in the second driving mode may include: a second rotational speed corresponding to the second driving temperature when the sensed internal temperature of the heat generating component exceeds the second driving temperature; It may include the step of driving.

When the first rotational speed and the second rotational speed are the same, the first driving temperature corresponding to the first rotational speed may be higher than the second driving temperature corresponding to the second rotational speed.

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

As shown in FIG. 2, the portable computer according to the present invention includes a heat generating part 10 that generates heat during driving, a cooling fan 14 for cooling the heat generating part 10, and a heat generating part. The first temperature sensing unit 11 for sensing the internal temperature of the (10), the second temperature sensing unit 12 for sensing the external temperature of the portable computer, the first temperature sensing unit 11 and the second temperature sensing And a controller 13 for controlling the driving of the cooling fan 14 based on the temperature T _OUT sensed by the unit 12.

The heat generating part 10 according to the present invention generates heat during the operation of the portable computer. The heat generating part 10 according to an embodiment of the present invention is an example of a CPU 10a (Central Processing Unit). In addition, other components that generate heat while driving the portable computer and cool it through the cooling fan 14, for example, an Intel Memory Control Hub or an Input / Output Control Hub (Input / Chipsets such as an output control hub may also be included in the heat generating component 10 according to the present invention. Hereinafter, as shown in FIG. 2, the heat generating part 10 is the CPU 10a.

The first temperature detector 11 detects an internal temperature generated inside the CPU 10a when the portable computer is driven and outputs the detection result to the controller 13. Here, the temperature sensing unit may include a temperature sensing element whose characteristics change according to the internal temperature of the CPU 10a, and a sensing result output unit outputting a sensing result according to the characteristic conversion of the temperature sensing element.

As an example of the temperature sensing device, a thermal diode may be used. The thermal diode has a characteristic that a resistance value is changed corresponding to the internal temperature of the CPU 10a, thereby generating a voltage having a different magnitude in accordance with a change in the internal temperature of the CPU 10a. Here, the sensing result output unit detects a change in voltage according to a change in the resistance value of the thermal diode, and outputs a corresponding sensing result to the controller 13.

The second temperature sensor 12 detects an external temperature of the portable computer. The second temperature detector 12 is provided with one region of the outer case of the portable computer so as to detect the external temperature of the portable computer.

Here, the second temperature sensing unit 12 is preferably installed at a position not affected by the heat generated by the portable computer. This is because, when the heat is generated from the CPU 10a or the chipset is installed near the area where the CPU 10a or chipset, which generates a lot of heat, is transferred to the second temperature sensing unit 12 through the outer case. This is because there is a fear that it will be delivered.

The control unit 13 controls the driving of the cooling fan 14 based on the temperature T _CPU , T _OUT sensed by the first temperature sensing unit 11 and the second temperature sensing unit 12. The control unit 13 according to the present invention detects by the first temperature sensing unit 11 when the temperature T _OUT sensed by the second temperature sensing unit 12 exceeds a predetermined reference temperature T _REF . According to the temperature T _CPU , the cooling fan 14 is controlled to drive in the first driving mode. In addition, the controller 13 may detect the temperature T _CPU detected by the first temperature detector 11 when the temperature T _OUT sensed by the second temperature detector 12 is equal to or less than the reference temperature T _REF . As a result, the cooling fan 14 is controlled to drive in the second driving mode.

Here, the portable computer according to the present invention includes a first lookup table 20 in which a first rotational speed of a cooling fan 14 corresponding to a plurality of first driving temperatures and first driving temperatures is set, and a plurality of second drivings, respectively. The apparatus may further include a lookup table storage unit 15 in which a second lookup table 30 in which a second rotational speed of the cooling fan 14 corresponding to the temperature and the second driving temperature is set is stored. The controller 13 controls the rotational speed of the cooling fan 14 based on the first lookup table 20 in the first driving mode, and cools based on the second lookup table 30 in the second driving mode. The fan 14 controls the rotation speed.

3 is a diagram illustrating a first lookup table 20 and a second lookup table 30 according to an embodiment of the present invention. In the portable computer according to the exemplary embodiment of the present invention, the first rotational speed and the second rotational speed of the cooling fan 14 are respectively determined according to the temperature T _CPU sensed by the first temperature sensing unit 11. An example of having a rotational speed of a step will be described as LOW, MIDDLE and HIGH, respectively. Here, LOW, MIDDLE, HIGH of the first rotational speed and LOW, MIDDLE, HIGH of the second rotational speed may be set to be the same or different from each other.

Here, in an embodiment of the present invention, the first driving temperature corresponding to LOW, MIDDLE, and HIGH of the first rotational speed, respectively, in the first driving mode is 50 ° C, 60 ° C, and 70 ° C, for example. In the second driving mode, for example, second driving temperatures corresponding to LOW, MIDDLE, and HIGH of the second rotation speed are 60 ° C, 70 ° C, and 80 ° C, respectively.

Accordingly, the control unit 13 determines whether the first driving mode and the second driving mode are based on whether the temperature T _OUT sensed by the second temperature sensing unit 12 exceeds the reference temperature T _REF . Is determined and is based on the first lookup table 20 and the second lookup table 30 according to the temperature T _CPU sensed by the first temperature sensing unit 11 in the first driving mode or the second driving mode. To control the rotation speed of the cooling fan 14.

On the other hand, the first look-up table 20 and the second look-up table 30 of the portable computer according to the present invention drive the cooling fan 14 for driving LOW, MIDDLE and HIGH in the first drive mode and the second drive mode. The first stop temperature and the second stop temperature for stopping the operation may be set, respectively. Here, the first stop temperature is lower than the corresponding second drive temperature, and the second stop temperature is lower than the corresponding second drive temperature. Accordingly, the temperature difference is equal to the first drive temperature and the second drive temperature at which the cooling fan 14 starts driving, and the first and second stop temperatures at which the cooling fan 14 stops driving. The cooling fan 14 can be prevented from repeating the drive and stop.

Here, the first stop temperature set in the first lookup table 20 shown in FIG. 3 corresponds to 45 ° C, 55 ° C, and 65 ° C, respectively, corresponding to LOW, MIDDLE, and HIGH of the first rotational speed of the cooling fan 14. It is set as an example. In addition, as an example, the second stop temperature set in the second lookup table 30 is set to 55 ° C, 65 ° C, and 75 ° C corresponding to LOW, MIDDLE, and HIGH of the second rotational speed of the cooling fan 14, respectively. have.

Here, the control unit 13 is a cooling fan (if the temperature T _CPU detected by the first temperature sensing unit 11 during the operation of the cooling fan 14 falls below the first or second stop temperature, the cooling fan ( 14) to drive at the rotational speed of the step just below the current rotational speed. For example, when the temperature T _CPU sensed by the first temperature sensing unit 11 falls below 65 ° C. while the cooling fan 14 is driven at a high first rotational speed in the first driving mode. The controller 13 controls the cooling fan 14 to be driven at the MIDDLE of the first rotational speed. In addition, when the temperature T _CPU sensed by the first temperature sensing unit 11 falls below 55 ° C. while the cooling fan 14 is being driven at the first rotational speed MIDDLE, the control unit 13 may cool down. The fan 14 is controlled to drive at the LOW of the first rotational speed. In addition, when the temperature T _CPU sensed by the first temperature sensing unit 11 falls below 45 ° C. while the cooling fan 14 is driven at a low speed of the first rotational speed, the cooling fan 14 may be Stop the drive.

Hereinafter, a method of controlling the cooling fan 14 of the portable computer according to the present invention will be described in detail with reference to FIGS. 4 and 5. Here, the controller 13 will be described as an example of controlling the driving of the cooling fan 14 based on the first lookup table 20 and the second lookup table 30 shown in FIG. 3.

First, while driving the portable computer, the first temperature detector 11 detects the internal temperature of the CPU 10a, and the second temperature detector 12 detects the external temperature of the portable computer (S10).

At this time, the controller 13 checks whether the temperature T _OUT detected by the second temperature detector 12 exceeds the reference temperature T _REF (S11). The controller 13 controls the cooling fan 14 to operate in the first driving mode when the temperature T _OUT sensed by the second temperature sensing unit 12 exceeds the reference temperature T _REF . When the temperature T _OUT sensed by the second temperature sensing unit 12 is equal to or less than the reference temperature T _REF , the cooling fan 14 is controlled to drive in the second driving mode.

First, the case in which the control unit 13 controls the cooling fan 14 in the first driving mode is as follows.

The controller 13 checks whether the temperature T _CPU detected by the first temperature detector 11 exceeds 50 ° C. of the first driving temperature (S12). Here, when the temperature T _CPU sensed by the first temperature sensing unit 11 exceeds 50 ° C., the controller 13 drives the cooling fan 14 (S13). At this time, the control unit 13 controls the cooling fan 14 to drive at a low of the first rotational speed (S14).

Then, the control unit 13 checks whether the temperature (T _CPU ) detected by the first temperature sensing unit 11 falls below 45 ° C. of the first stop temperature (S15). Here, when the temperature T _CPU sensed by the first temperature sensing unit 11 falls below 45 ° C. of the first stop temperature, the controller 13 stops driving of the cooling fan 14 (S22). .

On the other hand, if the temperature T _CPU sensed by the first temperature detector 11 does not fall below 45 ° C. among the first stop temperatures, the controller 13 detects the temperature detected by the first temperature detector 11. It is checked whether the temperature T _CPU exceeds 60 ° C among the first driving temperatures (S16). Here, when the temperature (T _CPU ) detected by the first temperature sensing unit 11 does not exceed 60 ° C. of the first driving temperature, steps S15 and S16 are repeated, and the first temperature sensing unit 11 is performed. Check the temperature (T _CPU ) detected by.

In step S16, when the temperature T _CPU sensed by the first temperature sensing unit 11 exceeds 60 ° C. of the first driving temperature, the controller 13 determines that the cooling fan 14 is in the first rotational speed. Control to drive by MIDDLE (S17).

Then, the control unit 13 checks whether the temperature T _CPU sensed by the first temperature sensing unit 11 falls below 55 ° C. of the first stop temperature (S18). Here, when the temperature T _CPU sensed by the first temperature sensing unit 11 falls below 55 ° C. of the first stop temperature, the control unit 13 causes the cooling fan 14 to move to LOW of the first rotational speed. Control to drive (S14).

On the other hand, if the temperature T _CPU sensed by the first temperature sensor 11 does not fall below 55 ° C. of the first stop temperature, the controller 13 detects the temperature detected by the first temperature sensor 11. It is checked whether the temperature T _CPU exceeds 70 ° C. of the first driving temperature (S19). Here, when the temperature (T _CPU ) detected by the first temperature sensing unit 11 does not exceed 70 ° C. of the first driving temperature, steps S18 and S19 are repeated, and the first temperature sensing unit 11 is performed. Check the temperature (T _CPU ) detected by.

In step S19, when the temperature T _CPU sensed by the first temperature sensing unit 11 exceeds 70 ° C. of the first driving temperature, the controller 13 determines that the cooling fan 14 is at the first rotational speed. Control to drive to the high (S20).

In addition, the controller 13 checks whether the temperature T _CPU detected by the first temperature sensing unit 11 falls below 65 ° C. of the first stop temperature (S21), and then falls below 65 ° C. The cooling fan 14 is controlled to drive at the MIDDLE of the first rotation speed (S17). On the other hand, when the temperature T _CPU sensed by the first temperature sensing unit 11 does not fall below 65 ° C. of the first stop temperature, the rotation speed of the cooling fan 14 is set to HIGH of the first rotation speed. Keep it.

Meanwhile, in step S11, it is determined that the temperature T _OUT sensed by the second temperature sensing unit 12 is equal to or less than the reference temperature T _REF , so that the controller 13 operates the cooling fan 14 in the second driving mode. The case of controlling to drive with the following will be described.

First, the controller 13 checks whether the temperature T _CPU detected by the first temperature sensor 11 exceeds 60 ° C. of the second driving temperature (S32). Here, when the temperature T _CPU sensed by the first temperature sensing unit 11 exceeds 60 ° C., the controller 13 drives the cooling fan 14 (S33). At this time, the control unit 13 controls the cooling fan 14 to drive at a low of the second rotation speed (S34).

Then, the controller 13 checks whether or not the temperature T _CPU sensed by the first temperature sensor 11 falls below 55 ° C. of the second stop temperature (S35). Here, when the temperature T _CPU sensed by the first temperature sensing unit 11 falls below 55 ° C. of the second stop temperature, the controller 13 stops driving of the cooling fan 14 (S42). .

On the other hand, if the temperature T _CPU sensed by the first temperature sensor 11 does not fall below 55 ° C. of the second stop temperature, the controller 13 detects the temperature detected by the first temperature sensor 11. It is checked whether the temperature T _CPU exceeds 70 ° C. of the second driving temperature (S36). Here, when the temperature T _CPU sensed by the first temperature sensing unit 11 does not exceed 70 ° C. among the second driving temperatures, steps S35 and S36 are repeated, and the first temperature sensing unit 11 is performed. Check the temperature (T _CPU ) detected by.

In step S36, when the temperature T _CPU sensed by the first temperature sensing unit 11 exceeds 70 ° C. of the second driving temperature, the controller 13 determines that the cooling fan 14 is in the second rotational speed. Control to drive by MIDDLE (S37).

Then, the controller 13 checks whether the temperature T _CPU sensed by the first temperature sensor 11 falls below 65 ° C. of the second stop temperature (S38). Here, when the temperature T _CPU sensed by the first temperature sensing unit 11 falls below 65 ° C. of the second stop temperature, the control unit 13 causes the cooling fan 14 to become LOW of the second rotational speed. Control to drive (S34).

On the other hand, if the temperature T _CPU sensed by the first temperature detector 11 does not fall below 65 ° C. of the second stop temperature, the controller 13 detects the temperature detected by the first temperature detector 11. It is checked whether the temperature T _CPU exceeds 80 ° C. of the second driving temperature (S39). Here, when the temperature (T _CPU ) detected by the first temperature sensing unit 11 does not exceed 80 ° C. of the second driving temperature, steps S38 and S39 are repeated, and the first temperature sensing unit 11 is performed. Check the temperature (T _CPU ) detected by.

In step S39, when the temperature T _CPU sensed by the first temperature detecting unit 11 exceeds 80 ° C. of the second driving temperature, the controller 13 determines that the cooling fan 14 is in the second rotational speed. Control to drive to the high (S40).

In addition, the controller 13 checks whether the temperature T _CPU detected by the first temperature sensing unit 11 falls below 75 ° C. of the first stop temperature (S41), and then falls below 75 ° C. The cooling fan 14 is controlled to drive to the MIDDLEW of the second rotation speed (S37). On the other hand, when the temperature T _CPU sensed by the first temperature sensing unit 11 does not fall below 75 ° C. of the second stop temperature, the rotation speed of the cooling fan 14 is set to HIGH of the second rotation speed. Keep it.

In the above-described embodiment, the rotation speed of the cooling fan 14 in the first driving mode and the second driving mode is LOW, MIDDLE, and HIGH three levels according to the temperature T _CPU sensed by the first temperature sensing unit 11. Although driving was described as an example of the rotational speed of, but can be divided into two or four or more rotational speed of course can be driven.

In addition, in the portable computer according to the above-described embodiment, the first rotational speed and the second rotational speed of the first driving mode and the second driving mode are the same, and the second driving temperature and the second driving temperature corresponding to each rotational speed are the same. Has been described as an example different. In addition, the portable computer according to the present invention has the same first and second drive temperatures in the first and second drive modes as the first drive speed and the first rotational speed in the first drive mode corresponding to each drive speed. It goes without saying that the second rotational speeds of the second driving mode can be set differently from each other.

In this way, the first temperature sensing unit 11 for sensing the internal temperature of the heat generating part 10, the second temperature sensing unit 12 for sensing the external temperature of the portable computer, and the second temperature sensing unit 12 When the temperature T _OUT sensed by) exceeds the predetermined reference temperature T _REF , the cooling fan 14 may generate a first temperature according to the temperature T _CPU sensed by the first temperature detector 11. The temperature T _CPU sensed by the first temperature detector 11 when controlling to drive in the driving mode and the temperature T _OUT sensed by the second temperature detector 12 is less than or equal to the reference temperature T _REF . According to the present invention, a control unit 13 for controlling the cooling fan 14 to be driven in the second drive mode is controlled, and the cooling fan 14 is controlled to reflect the external temperature condition of the portable computer. Minimize the user's sensitive response.

As described above, according to the present invention, there is provided a portable computer and a cooling fan control method for a portable computer for controlling the cooling fan by reflecting external temperature conditions of the portable computer.

1 is a control block diagram of a conventional portable computer,

2 is a control block diagram of a portable computer according to the present invention,

3 is a view illustrating the first lookup table and the second lookup table according to the present invention;

4 and 5 are control flow charts of a portable computer according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: CPU 11: the first temperature sensing unit

12: second temperature sensing unit 13: control unit

14: cooling fan 15: lookup table storage unit

Claims (7)

A portable computer having a heat generating part for generating heat during operation and a cooling fan for cooling the heat generating part, A first temperature sensing unit sensing an internal temperature of the heat generating component; A second temperature sensing unit sensing an external temperature of the portable computer; When the temperature sensed by the second temperature detector exceeds a predetermined reference temperature, the cooling fan is controlled to be driven in the first driving mode according to the temperature detected by the first temperature detector, and the second And a controller for controlling the cooling fan to be driven in the second driving mode according to the temperature sensed by the first temperature detector when the temperature sensed by the temperature detector is less than or equal to the reference temperature. . The method of claim 1, A first lookup table in which a first rotational speed of the cooling fan corresponding to a plurality of first driving temperatures and the first driving temperature is set, and the plurality of second driving temperatures and the second driving temperature, respectively; A lookup table storage unit configured to store a second lookup table in which a second rotational speed of the fan is set; The controller controls the cooling fan to be driven at a first rotational speed corresponding to the first driving temperature when the temperature sensed by the first temperature sensing unit in the first driving mode exceeds the first driving temperature. And controlling the cooling fan to be driven at the second rotational speed corresponding to the second driving temperature when the temperature sensed by the first temperature sensing unit in the second driving mode exceeds the second driving temperature. A portable computer, characterized in that. The method of claim 2, And when the first rotational speed and the second rotational speed are the same, the first driving temperature corresponding to the first rotational speed is higher than the second driving temperature corresponding to the second rotational speed. . The method according to any one of claims 1 to 3, And said heat generating component comprises a central processing unit (CPU). In the cooling fan control method of a portable computer having a heat generating component for generating heat during operation and a cooling fan for cooling the heat generating component, Sensing an internal temperature of the heat generating component; Sensing an external temperature of the portable computer; If the detected external temperature of the portable computer exceeds a predetermined reference temperature, driving the cooling fan in a first driving mode according to the sensed internal temperature of the heat generating component; If the detected external temperature of the portable computer is equal to or less than a reference temperature, driving the cooling fan in a second driving mode according to the sensed internal temperature of the heat generating component. Way. The method of claim 5, Providing a first lookup table in which a first rotational speed of the cooling fan corresponding to each of a plurality of first driving temperatures and the first driving temperatures is set; Providing a second lookup table in which a second rotational speed of the cooling fan corresponding to a plurality of second driving temperatures and the second driving temperatures is set, respectively; The driving of the cooling fan in the first driving mode may include operating the cooling fan at a first rotational speed corresponding to the first driving temperature when the sensed internal temperature of the heat generating component exceeds the first driving temperature. Driving; The driving of the cooling fan in the second driving mode may include: a second rotational speed corresponding to the second driving temperature when the sensed internal temperature of the heat generating component exceeds the second driving temperature; Cooling fan control method of a portable computer comprising the step of driving. The method of claim 6, And when the first rotational speed and the second rotational speed are the same, the first driving temperature corresponding to the first rotational speed is higher than the second driving temperature corresponding to the second rotational speed. Cooling fan control method.