DE20212071U1 - Notebook computer with temperature control function - Google Patents

Description

1
Notebook computer with temperature control function

The invention provides a notebook computer having a temperature control function for a microprocessor of the notebook computer, and more particularly, a notebook computer that easily allows the microprocessor temperature to be within a predetermined temperature range so that the system does not crash or burn down due to overheating of the microprocessor.

Generally, a temperature control device of a computer targets the microprocessor temperature. As shown in Figs. 1 and 2, a temperature alarm unit 10 is arranged below a microprocessor 20 to directly detect the temperature of the microprocessor 20. A temperature sensor 30 is arranged in the temperature alarm unit 10 and coupled to a fan speed control circuit 70 which can change the speed of a cooling fan 60 of the microprocessor 20 due to the temperature change of the microprocessor 20 and therefore protects the microprocessor 20 from overheating.

The temperature alarm unit 10 further includes a comparator 50 coupled to the temperature sensor 30. The output terminal of the comparator 50 is coupled to a speaker driver circuit 40. The temperature sensor 30 generates different voltages according to different temperatures. The voltages are compared with a preset voltage to cause a speaker SP to generate alarm signals.

In the prior art, the fan speed control circuit 70, the comparator 50 and the speaker driver circuit 40 are used to prevent overheating of the microprocessor. However, during use

Unforeseen problems may still occur that cause the system to crash or burn out.

Accordingly, it is an object of the invention to provide a notebook computer whose microprocessor temperature is maintained within a predetermined range to protect the microprocessor from overheating.

To achieve the above object, the invention provides a notebook computer comprising a temperature sensor and an input/output control unit connected between a THERMDA pin and a THERMDC pin of the microprocessor, a clock generator and a bus switch connected between VID[O..4] pins of the microprocessor, a PM-GMUXSEL pin and AC-VID[0..4] pins of the input/output control unit. Further, the VR-VID[O..4] pins of the bus switch are coupled to a voltage regulator. When the surface temperature of the microprocessor reaches a predetermined value, the system BIOS immediately issues a command to the input/output control unit to automatically lower the external clock and the voltage level (VCC-CORE) of the power source of the microprocessor. This can reduce the power consumption of the microprocessor, thus lowering the temperature of the microprocessor itself.

Another object of the invention is to provide a notebook computer whose microprocessor temperature is controlled within a predetermined range by controlling the power consumption of the microprocessor.

The various objects and advantages of the invention will be explained below using an embodiment with reference to the drawing.

Fig.l shows a schematic representation of a conventional temperature control device.

Fig.2 shows a circuit diagram of a conventional temperature control device;

Fig.3 shows a block diagram of an embodiment of a circuit according to the invention.

As shown in Fig.3, a notebook computer with a temperature control function for a microprocessor according to the invention comprises a microprocessor 1, a clock generator 2, a temperature sensor 3, an input/output control unit 4, a bus switch 5 and a voltage regulator 6.

In this embodiment, microprocessor 1 is an Intel Pentium 4 microprocessor.

A CPUCLK/CPUCLK# pin of the clock generator 2 is coupled to a BCLKO/BCLKl pin (not shown) of the microprocessor 1 so as to provide an external clock to the microprocessor. To detect the surface temperature of the microprocessor 1, the temperature sensor 3 is coupled to a THERMDA pin and a THERMDC pin of the microprocessor. The input/output control unit 4 is coupled to an SMB-DATA pin and an SMB-CLK pin of the clock generator 2 and to an SMB-DATA pin and an SMB-CLK pin of the temperature sensor 3, respectively. When the temperature sensor 3 detects that the surface temperature of the microprocessor exceeds a predetermined temperature, the input/output control unit 4 receives a command from the system BIOS. The bus switch 5 is coupled to VID[0..4] pins of the microprocessor 1 or a PM-GMUXSEL pin and AC-VID[0..4] pins of the input/output control unit 4. The voltage regulator 6 is coupled to VR-VID[O..4] pins of the bus switch 5. The voltage regulator 6 sets the voltage level (VCC-CORE) of the

power source of the microprocessor 1 according to an output signal of the bus switch 5.

When the temperature sensor 3 detects that the

surface temperature of the microprocessor 1 exceeds the predetermined temperature, the system BIOS immediately issues a command to the input/output control unit 4 to perform the following steps:

1. Lower the external clock for microprocessor 1, e.g. from 100 MHz to 1 MHz to 90 MHz, and

2. Lower the voltage level (VCC-CORE) of the power source of microprocessor 1, e.g. from 1.5 V to 1.45 V.

The relationship between the external clock and the voltage level (VCC-CORE) of the power source of microprocessor 1 is as follows.

External Beat Voltage level (VCC CORE) ,5 V the Energy source 100MHz 1 45 V 90MHz 1, ,4 V 85MHz 1

When the PM-GMUXSEL pin of the input/output control unit 4 is low, the authority to set the voltage level (VCC-CORE) of the power source is assigned to the microprocessor 1. In contrast, when the PM-GMUXSEL pin of the input/output control unit 4 is high, the authority to set the voltage level (VCC-CORE) of the power source is assigned to the input/output control unit 4.

. i

This allows the energy consumption of the microprocessor 1 to be reduced, so that the surface temperature of the microprocessor 1 is lowered.

In conclusion, the invention controls the surface temperature of the microprocessor in a notebook computer so that it is within a predetermined temperature range, and therefore the system is protected from crashing or burning down due to overheating of the microprocessor.

In summary, a notebook computer with a temperature control function for a microprocessor includes a clock generator, a temperature sensor, an input/output control unit, a bus switch, and a voltage regulator. The temperature sensor and the input/output control unit are connected between the microprocessor and the clock generator. The bus switch is connected between the microprocessor and the input/output control unit and is coupled to the voltage regulator. When the surface temperature of the microprocessor exceeds a predetermined temperature, the system BIOS immediately issues a command to the input/output control unit to automatically lower the external clock of the microprocessor and the voltage level of the power source of the microprocessor. This can reduce the power consumption of the microprocessor so that its surface temperature is lowered.

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Claims (5)

1. Notebook computer with a temperature control function for its microprocessor, comprising:
a clock generator ( 2 ) coupled to the microprocessor ( 1 ) for providing an external clock for the microprocessor ( 1 ),
a temperature sensor ( 3 ) for detecting the temperature of the microprocessor ( 1 ),
a bus switch ( 5 ) coupled to the microprocessor ( 1 ),
a voltage regulator ( 6 ) coupled to the bus switch ( 5 ) for setting a voltage level (VCC-CORE) of the power source of the microprocessor ( 1 ) according to an output signal of the bus switch ( 5 ), and
an input/output control unit ( 4 ) which is coupled to the temperature sensor ( 3 ), the clock generator ( 2 ) and the bus switch ( 5 ),
wherein while the temperature sensor ( 3 ) has detected that the temperature of the microprocessor ( 1 ) has exceeded a predetermined temperature, the external clock and the operating voltage level (VCC-CORE) are lowered so that the power consumption of the microprocessor ( 1 ) is reduced so that its temperature is lowered. 2. Notebook computer according to claim 1, wherein the microprocessor ( 1 ) is an Intel Pentium 4 microprocessor. 3. Notebook computer according to claim 1, wherein the input/output control unit ( 4 ) has a PM-GMUXSEL pin coupled to the bus switch ( 5 ) for assigning an authority to adjust the voltage level (VCC-CORE) of the power source to the microprocessor ( 1 ) or the input/output control unit ( 4 ). 4. Notebook computer according to claim 3, wherein, when a low level is present at the PM-GMUXSEL pin of the input/output control unit ( 4 ), the authority to set the voltage level (VCC-CORE) of the power source is assigned to the microprocessor ( 1 ). 5. Notebook computer according to claim 3, wherein when the PM-GMUXSEL pin is high, the authority to set the voltage level (VCC-CORE) of the power source is assigned to the input/output control unit ( 4 ).