KR20010104556A - Power saving apparatus and method for device having variable operation mode - Google Patents

Abstract

The present invention relates to a power saving circuit and a power saving method of an operation mode variable device, and in the prior art, only a priority is given to providing the best performance in a performance mode, and thus there is no device for reducing power consumption. Even when the system enters the standby mode, a voltage higher than that of the battery mode is applied, thereby consuming a lot of power even when the system is not operating. Therefore, the present invention provides switching means for setting whether to save power when the system operating in the performance mode is switched to an operation standby state; Control means for outputting a control signal (TIMER_EXPIRE #) for switching to the battery mode according to the setting state of the switching means and whether the system is in operation standby state; A ringing means for outputting a mode switching signal FORCE_TR # by ringing the mode state signal LO / HI # and the control signal TIMER_EXPIRE # outputted from an Intel SpeedStep Technology (ISST) chip; Including the power control means for switching the operation mode of the system to the battery mode or the performance mode by the mode switch signal (FORCE_TR #), when the system is switched to the standby state in the performance mode receiving the AC power, Therefore, it is possible to reduce the power consumption to the minimum by switching to low voltage and low speed battery mode.

Description

POWER SAVING APPARATUS AND METHOD FOR DEVICE HAVING VARIABLE OPERATION MODE}

The present invention relates to a power saving circuit of a device in which an operation mode is set according to the type of power supply. In particular, when a power source that is independent of power consumption is used, such as a notebook computer, the power consumption is consumed in a standby state with priority on performance optimization. What's more, the present invention relates to a power saving circuit and a power saving method of an operation mode variable device which allows a minimum power consumption to be consumed in an operation standby state that does not require much power consumption.

With the rapid development of electronic technology, portable products are continuously appearing one after another. The biggest problem is how small and long the battery can be used.

Therefore, each electronics company is researching a method to minimize the power consumption of the device in order to ensure that the battery of the same capacity is used for the longest time apart from the study of increasing the capacity of the battery.

Of course, most of the portable products are usually configured to be used as a battery when the power supply is not easy to use the AC power using the adapter.

In this case, a representative computer that can be used as a battery as described above is a notebook computer, for example, because it includes a high power consumption devices, such as LCD, hard disk, CPI, especially when using a high capacity battery Even if the power saving system is not designed, it will be impossible to use for a long time.

Therefore, when the battery is used as an operating power source by applying Intel SpeedStep Technology (hereinafter referred to as ISST) to the notebook computer, all operating states are optimized for the capacity of the battery power source to reduce the power consumption as much as possible. And keep the operation speed to a minimum.

On the other hand, when using an AC power source as an operating power source using an adapter, it is optimized for performance to maintain a relatively high voltage and operating speed compared to when using a battery.

In other words, the battery optimization mode (hereinafter, battery mode) maintains a low voltage and low speed to suit the situation of the system being used as a battery, and in the performance optimization mode (hereinafter, the performance mode), the AC power of the system In order to suit the situation, it is to maintain a relatively high voltage and high speed than the battery mode.

Therefore, even if the performance is slightly reduced in the battery mode, the power consumption is low, so that the battery can be used for a long time, and in the performance mode, it is possible to operate at the best performance because it is not concerned with power consumption.

However, in the prior art as described above, the system is ready for operation because priority is only given to the best performance in the performance mode, so that no device for reducing power consumption is added. Even when switched to the state, a relatively high voltage is applied than the battery mode, there is a problem that consumes a lot of power even when the system is not operating.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems. When the system is switched to the standby mode even in the performance mode of receiving AC power, power consumption is reduced by simply switching to the battery mode without complicated devices. It is an object of the present invention to provide a power saving circuit and method that can be minimized.

1 is a block diagram showing a schematic configuration of a power saving circuit of an operation mode variable device according to the present invention;

Figure 2 is a flow chart showing a power saving method of the operation mode variable device according to the present invention.

*** Description of the symbols for the main parts of the drawings ***

10: switching means 20: control means

30: ISST chip 40: O-ring means

50: power control means

The present invention for achieving the above object comprises: switching means for setting whether to save power when the system operating in the performance mode is switched to the standby state; Control means for outputting a control signal (TIMER_EXPIRE #) for switching to the battery mode according to the setting state of the switching means and whether the system is in operation standby state; A ringing means for outputting a mode switching signal FORCE_TR # by ringing the mode state signal LO / HI # and the control signal TIMER_EXPIRE # outputted from an Intel SpeedStep Technology (ISST) chip; And power supply control means for switching the operation mode of the system to the battery mode or the performance mode by the mode switch signal FORCE_TR #.

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

First, FIG. 1 is a block diagram showing a schematic configuration of a power saving device according to the present invention. As shown in FIG. 1, when a system operating in a performance mode is switched to an operation standby state, switching means for setting whether to save power or not ( 10); Control means (20) for outputting a control signal (TIMER_EXPIRE #) for switching to the battery mode according to the setting state of the switching means (10) and whether the system is in operation standby state; Oring means 40 for outputting a mode switching signal (FORCE_TR #) by oring the mode status signal (LO / HI #) and the control signal (TIMER_EXPIRE #) output from the ISST (Intel SpeedStep Technology) chip 30 and; And a power supply control means 50 for switching the operation mode of the system to the battery mode or the performance mode by the mode switch signal FORCE_TR #.

Hereinafter, the operation of the apparatus configured as described above will be described in more detail with reference to the flowchart of FIG. 2.

Once the system enters the operation standby state, the power control means 50 generally activates the signal STANDBY_STAT # indicating the operation standby state, and sets the battery mode by the mode switch signal FORCE_TR #. Changing to mode or performance mode serves to change the operating performance and power consumption accordingly.

Next, the switching means 10 is a part set by the user, and serves to set whether to switch from the performance mode to the battery mode through a bias setup in a general computer system or a simple application program for switching.

In addition, at the time of the switching setting, how long after the system enters the operation standby state to switch to the battery mode, it is possible to selectively set the time.

Therefore, when the operation is in the standby state according to the set time, it may be immediately switched to the battery mode, or may be switched after a predetermined time.

At this time, the setting time for switching to the battery mode is stored in the control means 20 and when the condition is satisfied, that is, the switching means 10 is set to enable and the operation standby state signal STANDBY_STAT # is input. After that, if the state is maintained for the predetermined time, the control signal 'TIMER_EXPIRE #' of the 'low' level for mode switching is output.

Next, the ISST chip 30 outputs 'LO #' in the battery mode and 'HI #' in the performance mode according to the type of input power of the system.

Accordingly, the ringing means 40 rings the control signal TIMER_EXPIRE # and the signal LO / HI # according to the power state, that is, when the performance mode (the state signal is HI #) is 'low' level. When the control signal TIMER_EXPIRE # is input, a signal FORF_TR # for switching the power mode is output.

Next, in the power supply control means 50 receiving the mode switch signal FORCE_TR #, the performance mode is switched to the battery mode, thereby reducing the operating speed and voltage, thereby reducing power consumption.

Of course, when the device wakes up after the mode is changed as described above, it is necessary to check whether it is in the battery mode by the mode switch signal FORCE_TR # or in the performance mode to wake up. .

As described above, in the power saving circuit and the power saving method of the operation mode variable device of the present invention, when the system is switched to the standby state in the performance mode receiving the AC power, the power consumption is reduced by switching to the relatively low voltage and low battery mode. It is effective to reduce the minimum.

Claims (3)

Switching means for setting whether to save power when the system operating in the performance mode is switched to a standby state; Control means for outputting a control signal (TIMER_EXPIRE #) for switching to the battery mode according to the setting state of the switching means and whether the system is in operation standby state; A ringing means for outputting a mode switching signal FORCE_TR # by ringing the mode state signal LO / HI # and the control signal TIMER_EXPIRE # output in the performance mode; And power supply control means for switching the operation mode of the system to the battery mode or the performance mode by the mode switch signal FORCE_TR #. The power saving circuit according to claim 1, further comprising a discriminating circuit for discriminating whether a power adapter is present to output a performance mode status signal. An apparatus for variable operation modes according to a power type, comprising: a first step of determining whether an operation mode according to a current power source is a performance mode or a battery mode when an operation standby state in which operation is hardly performed is performed; A second step of determining whether a switching setting for mode switching is enabled by a user; And a third step of switching the operation mode to the battery mode if the current operation mode is the performance mode in each of the above steps, and the mode changeover switching is enabled.