KR100781638B1 - Portable computer system and method of controlling the same - Google Patents

Abstract

The present invention is supplied with power from any one of a relatively small capacity battery and a larger battery having a larger capacity, and a mode of maximum performance operating according to a maximum system clock and an appropriate operation mode operating according to a slower system clock. The present invention relates to a portable computer system including a CPU operating in the same manner and a control method thereof. The portable computer system includes a battery sensing unit for generating a battery signal according to a type of battery being supplied with power; As a result of the detection by the battery sensing unit, an operation mode signal for operating in the proper operation mode when the battery being supplied is the small capacity battery; an operation mode signal for operating in the maximum performance operation mode for the large capacity battery; And a control unit for applying to the CPU. Accordingly, it is possible to provide a portable computer system and a control method thereof in which the portable computer system can operate in the maximum performance mode when a large capacity battery is used without modifying the main circuit.

Description

Portable computer system and its control method {PORTABLE COMPUTER SYSTEM AND METHOD OF CONTROLLING THE SAME}

1 is a control block diagram of a portable computer system according to the present invention;

2 is an operation flowchart of the portable computer system of FIG.

3 is a control block diagram of a conventional portable computer system.

* Explanation of symbols for the main parts of the drawings

 1: bus 3: CPU

 5: microcomputer 7: battery detection unit

 9 power supply 12 adapter

14: large capacity battery 16: small capacity battery

18: inverter 20: end gate

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable computer system and a control method thereof, and more particularly, to a portable computer system capable of operating in a maximum performance mode when a large capacity battery is used without modifying a main circuit, and a method thereof. Control method.

Portable computers are equipped with batteries to run the system where no power source is available. Since the use time of the portable computer is determined by the life of the battery, it is preferable that the capacity of the battery be large, but the size and weight of the portable computer is limited for ease of movement and portability.

Therefore, methods for minimizing possible power consumption have been studied. Among these power saving methods, there is a function called SpeedStep developed by Intel. SpeedStep is a technology supported by Pentium III among Intel's mobile CPUs, and it reduces power consumption by changing the CPU operation clock and power supply according to the operating state of the notebook or the power supply. For example, if AC power is supplied through the adapter, the CPU's operating clock is 700Mhz and 1.6V is supplied. If the battery is used, the CPU's operating clock is 550Mhz and power consumption drops to 1.35V. This reduces power consumption and extends battery life, allowing longer system use. The conversion from the maximum performance mode of 700Mhz to the proper mode of 550Mhz is automatic by detecting the power supply in the system.

3 is a control block diagram for explaining the operation mode conversion of the portable computer system. As shown in FIG. 3, the portable computer system includes a power supply unit 109, a microcomputer 105 which transfers an operation mode to the CPU 103 according to a type of a power supply selected by the power supply unit 109, and a microcomputer 105. System bus 101 to which the control signal from the () is transmitted and the CPU 103 capable of mode switching.

The power supply unit 109 is a power supply source for the operation of the system power source, the adapter 112, a large capacity battery 114 and a small capacity battery 116 is used. Therefore, when a user uses AC power from the outside, power is input from the adapter 112, and when there is no external power, power from the large capacity battery 114 or the small capacity battery 116 is supplied to the system.

The microcomputer 105 detects whether the power being supplied by the power supply unit 109 is AC power through the adapter 112 or power of the large capacity battery 114 or the small capacity battery 116, and the CPU 101 via the bus 101. The operation mode signal is applied to 103. At this time, when the power being supplied is AC power through the adapter 112, the maximum operation mode signal is applied to maintain the maximum operation clock of the CPU 103. On the other hand, when the power being supplied is the large capacity battery 114 or the small capacity battery 116, the proper operation mode signal is applied to keep the operation clock of the CPU 103 at a predetermined level for power saving.

By such a configuration, the conventional portable computer system exhibits maximum performance only when the power source of the system power source is the adapter 112, and exhibits only proper performance for saving power when the battery power source is used.

Here, the large capacity battery is a battery detachably mounted in the device bay according to the user's convenience, and has a considerably larger capacity than the small capacity battery.

However, even when such a large-capacity battery is installed, the portable computer recognizes the same as the small-capacity battery and automatically switches to an appropriate performance mode for power saving, so that the user has to perform a task at a lower performance than the original system performance. .

In addition, in order to solve this problem, there is a difficulty in modifying the main circuit of the computer system, such as changing the design of the microcomputer for detecting the power supply.

Accordingly, it is an object of the present invention to provide a portable computer system and a control method thereof in which the portable computer system can operate in maximum performance mode when a large capacity battery is used without modifying the main circuit.

According to the present invention, the power is supplied from any one of a relatively small capacity small battery and a large capacity battery having a larger capacity, and according to the maximum performance operation mode and slower system clock operating according to the maximum system clock. A computer system including a CPU operating in a proper operation mode, the computer system comprising: a battery sensing unit generating a battery signal according to a type of a battery being powered; As a result of the detection by the battery sensing unit, an operation mode signal for operating in the proper operation mode when the battery being supplied is the small capacity battery; an operation mode signal for operating in the maximum performance operation mode for the large capacity battery; And a control unit for applying to the CPU.

The battery detecting unit may include a logic circuit for applying a battery signal according to the type of the battery being supplied with power.                     

And, further comprising an adapter for applying power from the outside, wherein the battery detecting unit, the adapter signal to which the signal according to whether the power from the adapter is input and the signal according to whether or not the power from the large capacity battery is inputted An AND gate to which a large capacity battery signal and a signal depending on whether or not the power from the small capacity battery are inverted and input are inverted; The control unit may output an operation mode signal for operating in the proper operation mode when the battery being supplied is the small capacity battery according to a signal applied from the output terminal of the AND gate, and the maximum performance operation mode when the large capacity battery is used. And a control unit for applying an operation mode signal for operating to the CPU.

On the other hand, according to another field of the present invention, the power is supplied from any one of a relatively small capacity small battery and a large capacity battery having a larger capacity, and the maximum performance operating mode and more than this operating according to the maximum system clock A control method of a computer system including a CPU operating in a proper operation mode operating according to a slow system clock, the method comprising: detecting a type of battery being supplied; And detecting the CPU to operate in the maximum performance mode when the battery being supplied is the high capacity battery.

Here, it is preferable to include the step of controlling the CPU to operate in the proper operation mode when the battery being supplied power is the small capacity battery.                     

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

1 is a control block diagram of a portable computer system according to the present invention. As shown in FIG. 1, the portable computer system includes a power supply unit 9, a battery detection unit 7 that detects the type of power supply selected by the power supply unit 9, and outputs a detection result to the microcomputer 5; From the microcomputer 5 for applying the operation mode signal to the CPU 3 in accordance with the signal from the battery sensing unit 7, and from the system bus 1 and the microcomputer 5 to which the mode signal from the microcomputer 5 is transmitted. And a CPU 3 capable of mode switching in accordance with an applied signal.

Here, the CPU 3 can adjust the CPU 3 operation clock and the power supply according to the situation of the system. In accordance with the operation mode signal of the microcomputer 5 input through the system bus 1, the maximum performance mode for maximizing the operation clock and the supply power, and the optimum performance mode for operating the control clock and the supply power down to the appropriate level. It is possible to work with.

The microcomputer 5 applies the operation mode signal to the CPU 3 in accordance with the detection result from the battery sensing unit 7.

The power supply unit 9 includes an adapter 12 that receives power from the outside, a large capacity battery 14, and a small capacity battery 16 to supply power for operation of a computer system. The adapter 12 receives AC power from the outside and supplies system power. The small capacity battery 16 is typically a battery mounted in a portable computer and has a relatively small capacity. The large capacity battery 14 is a battery that is selectively mounted in a device bay or the like according to a user's need, and has a larger capacity than the small capacity battery 16. They output a low signal when powered, and a high signal when not mounted or used. Therefore, the power supply unit 9 outputs three signals depending on whether the adapter 12, the small capacity battery 16, and the large capacity battery 14 are powered.

On the other hand, the battery sensing unit 7 detects three signals generated from the power supply unit 9, the power supply is the adapter 12 or a large capacity battery 14, or two cases of a small capacity battery 16 In this case, a corresponding signal is applied to the microcomputer 5.

The battery detecting unit 7 has an adapter 12 signal input terminal, a high capacity battery 14 signal input terminal, and a small capacity battery 16 signal input terminal, and a three input and gate 20 outputting a detection result to the microcomputer 5. (AND Gate) and an inverter 18 for inverting the small capacity battery 16 signal.

The AND gate 20 performs a logic operation on the low / high signals output from the adapter 12, the large capacity battery 14, and the small capacity battery 16, and outputs a low / high type signal to the microcomputer 5. In the present description, when the logic sum of the AND gate 20 is output as a low signal, the microcomputer 5 applies the maximum performance operation mode signal, and when the high signal is applied, the microcomputer 5 applies the proper operation mode signal. It is assumed that the components of the power supply unit 9 output a low signal to the AND gate 20 when the power is being supplied, and output a high signal to the AND gate 20 when it is not operated or mounted. do.

In this case, the type of the power supply, the output of the AND gate, and the operation state of the CPU 3 will be described in detail with reference to Table 1 below.

<Table 1>                     

When the adapter 12 is used, the adapter signal goes low, and the high signal is output from the large capacity battery 14 and the small capacity battery 16. Here, the high signal of the small capacity battery 16 is inverted to low through the inverter 18 and input to the AND gate 20. Accordingly, the signals input to the AND gate 20 are low, high, and low, and the logic operation thereof is low. The microcomputer 5 receiving the low signal from the AND gate 20 applies the maximum performance operation mode signal to the CPU 3 so that the system operates at the maximum performance.

When the large capacity battery 14 is used, a low signal is output from the large capacity battery 14, and a high signal is output from the adapter 12 and the small capacity battery 16. Here, the high signal of the small capacity battery 16 is inverted to low through the inverter 18 and input to the AND gate 20. Accordingly, signals input to the AND gate 20 are high, low, and low, and the result of the logic operation is low. The microcomputer 5 receiving the low signal from the AND gate 20 applies the maximum performance operation mode signal to the CPU 3 so that the system operates at the maximum performance.

When the small capacity battery 16 is used, only the signal output from the small capacity battery 16 is low, and the signals of the adapter 12 and the large capacity battery 14 are high, but the output signal of the small capacity battery 16 is an inverter. Since the signal is inverted to the high signal via 18, the input signal of the AND gate 20 becomes high, high or high. Therefore, the logic operation result is output as high, and the microcomputer 5 which receives the high signal from the AND gate 20 applies the proper operation mode signal to the CPU 3 to reset the operation clock and supply power of the CPU 3. Decrease.

As such, the schematic operational flow of the present portable computer system is as shown in FIG. First, when power is applied to the computer system, a supply source that is currently supplying power is sensed through the battery detector 7 (S10). At this time, when the power supply source is the AC power input through the adapter 12, the CPU 3 enters the maximum performance operation mode in which the operation clock is maximum (S14). On the other hand, if the power supply source is a battery, it is determined whether the battery is a large capacity battery (14) (S12). If the battery is a large-capacity battery 14, it enters the maximum performance operation mode as if the external power supply is connected (S14). When the power supply source is the small capacity battery 16, the operation clock of the CPU 3 enters the proper operation mode for maintaining a predetermined level at which power can be saved (S16).

Meanwhile, in the above description, the circuit of the battery sensing unit 7 is configured by using one end gate 20 and one inverter 18, but according to the design method of the circuit designer, the OR gate OR It is of course also possible to use other gates such as a gate or a NAND gate. In addition, in the present embodiment, only the battery sensing unit 7 using a logic circuit is illustrated, but it is also possible to add another sensing circuit so that the microcomputer can determine the operation mode.

With this configuration, by adding a simple logic circuit that logically outputs a signal according to whether the power supply is being used or not, the portable computer system can be used when a large capacity battery is used without modifying the main circuit such as the CPU or the microcomputer. A portable computer system capable of operating in this maximum performance mode and a control method thereof are provided.

As described above, according to the present invention, a portable computer system capable of operating the portable computer system in the maximum performance mode and its control when a large capacity battery is used by simply adding a simple logic circuit without modifying the main circuit. A method is provided.

Claims (5)

It is powered by either a relatively small capacity battery or a larger capacity battery with a larger capacity, and operates in a maximum performance mode operating according to the maximum system clock and an appropriate operation mode operating according to a slower system clock. A portable computer system comprising a CPU, A battery detection unit generating a battery signal according to the type of battery being powered; As a result of the detection by the battery sensing unit, an operation mode signal for operating in the proper operation mode when the battery being supplied is the small capacity battery; an operation mode signal for operating in the maximum performance operation mode for the large capacity battery; And a control unit for applying to the CPU. The method of claim 1, And the battery sensing unit comprises a logic circuit for applying a battery signal according to the type of the battery being supplied with power. The method of claim 1, It further includes an adapter for applying power from the outside, The battery detecting unit may include an adapter signal to which a signal according to whether or not the power from the adapter is input, and a high capacity battery signal to which a signal according to whether or not the power is supplied from the high capacity battery is input and a signal according to whether the power is supplied from a small capacity battery. Includes an AND gate inputted by being inverted; The controller may be configured to generate an operation mode signal for operating in the proper operation mode when the battery being supplied is the small capacity battery according to a signal applied from the output terminal of the AND gate. And a control unit which applies an operation mode signal to the CPU to operate in a maximum performance operation mode. It is powered by either a relatively small capacity battery or a larger capacity battery with a larger capacity, and operates in a maximum performance mode operating according to the maximum system clock and an appropriate operation mode operating according to a slower system clock. In the control method of a portable computer system comprising a CPU, Sensing the type of battery being powered; And controlling the CPU to operate in the maximum performance mode when the battery being supplied is the high capacity battery. The method of claim 4, wherein And controlling the CPU to operate in the proper operation mode when the battery being supplied is the small capacity battery.

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