KR20050112171A - Method for storing data using battery in computer and apparatus thereof - Google Patents

Abstract

The present invention relates to a data backup device of a computer and a method thereof, and more particularly, to an apparatus and method for backing up data using a built-in battery provided in the computer. According to one aspect of the present invention, an apparatus for backing up data of a computer system using an internal battery supplies power to the computer system using AC power, and generates an AC off signal when the AC power is not supplied. A supply, an internal battery that is charged when the AC power is supplied and supplies power to the computer system when the AC power is not supplied, a battery charger that charges the internal battery when the AC power is supplied, and the AC off signal A DC / DC converter for supplying power to the computer system by converting the power output from the built-in battery into power required for the computer system, and backing up the program being executed by detecting the AC off signal. It includes a power management unit to terminate the. According to the present invention, in case of power failure or low power, the computer can be shut down by backing up the data even if it is not by the user, and after the computer is shut down, the computer cannot be booted until normal AC power is supplied to the computer. have.

Description

Method for backing up data using a built-in battery in a computer and its device {Method for storing data using battery in computer and apparatus}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data backup method of a computer and an apparatus thereof, and more particularly, to a method and apparatus for backing up data using an internal battery provided in a computer.

The computer is supplied with the necessary power using AC voltage. In general, the device that supplies power to the computer is a rectifier circuit that converts AC into DC, and the DC / DC that converts the converted DC voltage into a voltage required for each component inside the computer. It includes a DC converter. This is a minimal configuration for operating a computer system that generates and converts voltages and currents from external input commercial power supplies and supplies them to the devices that need them. This is the most fundamental method currently used in computer systems. However, if AC power, which is commercial power, is not supplied in a sudden situation such as a power failure, the computer may suddenly crash and the running program may be terminated unprotected.Therefore, there is a risk of losing the user's data. . Computers have sought protection in various ways.

1 is a block diagram of a data backup apparatus using a UPS according to the prior art. Referring to FIG. 1, a UPS 110, a power supply 120, and a computer system 130 are shown.

The power supply 120 includes a rectifier circuit for converting alternating current into direct current, and a DC / DC converter for converting the converted direct current voltage into a voltage required for each component inside the computer. The computer system 130 includes a main body and a monitor. It is included. Uninterruptible Power Supply System (110) automatically and stably adjusts the voltage and frequency in the presence of power voltage and frequency fluctuations in order to prevent data loss of the computer, and continuously supplies power even in case of power failure Device. However, the UPS 110 is a device that is connected and used as needed rather than a device constituting a computer, and it is more difficult for a user to use because it requires spatial constraints and other additional functions. have.

In order to solve this problem, Korean Patent Laid-Open Publication No. 2002 ?? 0063975 discloses an auxiliary power supply of a computer system. It is a device that constantly monitors power failures by a microprocessor and charges a backup internal battery, so that charging power is supplied when a power failure occurs, thereby preventing data from being lost and improving work stability. However, the same problem occurs when the user is not working on the computer because the state is maintained only for a certain time or when the internal battery runs out of power to supply the computer.

Accordingly, in order to solve the above problems, it is an object of the present invention to provide a method and apparatus for backing up data using an internal battery when a power failure or power supply is weak.

Another object of the present invention is to provide a method and apparatus for shutting down a computer by backing up data even if the power failure or power is weak, even by the user.

Still another object of the present invention is to provide a method and an apparatus for not booting a computer until a normal AC is supplied to the computer after backing up the data using a built-in battery and shutting down the computer.

Other objects of the present invention will become more apparent through the preferred embodiments described below.

In order to achieve the above object, according to an aspect of the present invention, it is possible to provide an apparatus for backing up the data of the computer system using the built-in battery.

According to a preferred embodiment, an apparatus for backing up data of a computer system using a built-in battery supplies power to the computer system using AC power and generates an AC off signal when the AC power is not supplied. A built-in battery that is charged when the AC power is supplied and supplies power to the computer system when the AC power is not supplied, a battery charger that charges the built-in battery when the AC power is supplied, and the AC off signal A DC / DC converter which detects and converts the power output from the built-in battery into the power required for the computer system to supply power to the computer system, and detects the AC off signal and backs up the program being executed. Include a power management unit to shut down There.

Here, the apparatus for backing up the data of the computer system using the built-in battery may further include an output unit for detecting and monitoring the size of the AC power, the DC / DC converter is the AC power is restarted after the computer is shut down. The circuit can be interrupted to prevent the computer from booting until supplied.

In addition, when the operating system of the computer system is a window, the power management unit may receive the AC off signal through an arbitrarily designated pin among general-purpose input / output (GPIO) pins of an input / output controller hub (ICH). When the operating system is a window, the power management unit is a BIOS of a computer system, and detects the AC off signal in the BIOS to switch to a hibernation mode.

In order to achieve the above objects, according to an aspect of the present invention, it is possible to provide a method for backing up data of a computer system using an internal battery.

According to a preferred embodiment, a method of backing up data of a computer system using an internal battery may include generating an AC off signal when AC power is not supplied to the computer system, and receiving the generated AC off signal in advance. Connecting the internal battery and a computer system to supply power from an internal battery, and converting the power supplied from the internal battery into a power corresponding to each of the components of the computer to supply the converted power to the respective components. And backing up the program being executed and shutting down the computer.

Here, the method of backing up the data of the computer system using the built-in battery may include performing the AC off signal in the BIOS of the computer system when the operating system of the computer system is Windows in the step of shutting down the computer after backing up the program being executed. It can detect and switch to hibernation mode.

In addition, the method of backing up the data of the computer system using the built-in battery may further include detecting and monitoring the size of the AC power source.

Hereinafter, a preferred embodiment of a data backup method using a built-in battery and a device thereof in a computer according to the present invention will be described in detail with reference to the accompanying drawings. Corresponding components are given the same reference numerals and redundant description thereof will be omitted.

2 is a block diagram of a data backup device using an internal battery according to a preferred embodiment of the present invention connected to a computer system. 2, the computer system 130, the data backup device 200, the power supply 210, the DC / DC converter 220, the battery charger 230, the internal battery 240, and the power management unit 250. Is shown.

The data backup device 200 receives AC power and is connected to the computer system 130. The data backup device 200 overcomes the problem caused by the existing UPS is configured as a separate device by minimizing the volume to accommodate the inside of the computer main body. Preferably, the circuit may be configured in connection with the existing power supply 120.

The power supply 210 directly receives AC power, supplies power to a computer system using AC power, and generates and transmits an AC off signal to the DC / DC converter 220 when the AC power is not supplied. .

The DC / DC converter 220 is connected to the power supply 210 and detects an AC off signal when AC power is not supplied to supply power to the computer from the internal battery. Preferably, the AC / DC converter has an AC detector that outputs an AC on signal when AC power input from the power plug is detected, and an AC off signal when AC power is not detected. 220, it is possible to detect the AC off signal. When the DC / DC converter 220 detects an AC off signal, the DC / DC converter 220 supplies power to the computer system using the charging power output from the internal battery. Preferably, when the DC / DC converter 220 includes a switch and detects an AC off signal, the DC / DC converter 220 connects the internal battery to supply power to the computer system. In addition, when the DC / DC converter 220 detects an AC off signal, the DC / DC converter 220 switches to the internal battery power within one cycle of the AC power.

In addition, when the DC / DC converter 220 supplies the power of the built-in battery to the computer system by the power converter 211, the DC / DC converter 220 changes the power output from the built-in battery to the power required by the computer. Typically, computer power supplies provide voltages of 12V, 5V, and 3.3V. Hard disks, ODDs, motherboards, and high-performance graphics cards require separate power terminals, and these components receive power directly from the power supply. Therefore, the DC / DC converter 220 may directly supply the corresponding power. Preferably, the DC / DC converter 220 is connected to the power terminals of each component of the power supply 210 to convert the power output from the internal battery into the power required by each component. It can be replaced.

In addition, the DC / DC converter 220 cuts off the circuit so that the computer does not boot until the AC power is normally supplied again after the computer is shut down. Preferably, when the AC power and the internal battery power are sensed at the same time by using an And gate, when the power is supplied, the circuit may be blocked so that the computer does not boot until the AC power is normally supplied again.

The battery charger 230 charges the internal battery by receiving AC power normally supplied so that the internal battery supplies power to the computer when AC power is not normally supplied. According to another embodiment, a built-in battery without a charging function may be used, and in this case, the battery charger 230 may not be included in the data backup device 200.

The internal battery 240 is charged when AC power is normally supplied, and otherwise supplies power to the computer system. It is therefore chargeable, and its capacity must be capable of operating the computer system for a period of time from the outage until the computer system is shut down.

The power management unit 250 detects the AC off signal, backs up the program being executed, and then shuts down the computer. When the AC off signal is transmitted from the power supply 210, the power of the computer system 130 is supplied by an internal battery and the power management unit 250 receives the signal. The device for receiving the AC off signal by the power management unit 250 may be configured as a separate device. Preferably, when an Intel chipset is used in the computer system 130, an input / output controller hub (ICH) is used. It can be a randomly designated pin among GPIO (General Purpose Input / Output Pin). After receiving the AC off signal transmitted through the pin, the power management unit 250 backs up all the data that is being executed in connection with the operation system (Operation System) and then shuts down the computer system 130 stably.

In addition, the computer system 130 may be supplied with power to the computer system for a predetermined time so that the computer system 130 can be terminated by the user. Here, an abnormality in the power supply may be output through the computer screen, and a beep may be generated. After that, it checks the amount of power remaining in the built-in battery and if there is not enough time left, back up the running program and shut down the computer.

Preferably, when the operating system is a Windows-based base, the power management unit 250 is a basic input output system (BIOS) of the computer system 130 and a general-purpose input / output of the input / output controller hub (ICH). GPIO: Detects the AC off signal transmitted through the randomly designated pin among the general purpose input / output pins in the BIOS of the computer system 130 and switches it to the hibernation mode in association with the power management mode of the window. Can be done. Windows hibernation mode shuts down the system after the operating system saves all programs and data that reside in main memory in a portion of the pre-designated hard disk. At this time, all data is stored in the hard disk which is nonvolatile to the power supply, so the data is preserved even when the power is not input. As described above, the method of storing data in the hibernation mode is different from the method of storing data in a general program. Since the operating system stores the data in an arbitrary part of the hard disk, the data can be managed only by the operating system, not in the form of data. After that, when the computer system is powered on and turned on normally, the data backed up to the hard disk at the time of termination is transferred to the main memory before the state is converted to the hibernation mode, and the program and data are executed in the state before the first abnormal mode. .

In addition, the data backup device 200 may further include an output unit for detecting and monitoring the size of the AC power. This is to monitor the size of the AC power supplied to the power supply 210 to detect and inform the user. Monitoring may be performed by using a monitor of a computer system, or may be performed by having a separate screen on the data backup apparatus 200.

3 is a diagram showing power and a signal during a power failure according to a preferred embodiment of the present invention. The explanation here is based on when the operating system is Windows.

Referring to FIG. 3, the time charts for the AC power 310, the AC power off signal 320 of the power supply, the AC power off signal 330 transmitted to the main board, and the power power output 340 of the power supply are sequentially described. Power supply by a power supply, the time chart for the output power 350 of the DC / DC converter, the output power 360 of the DC / DC converter transmitted to the main board, and the total power 370 output to the main board It relates to a power supply by the data backup device 200 according to a preferred embodiment of the present invention.

First, referring to the time chart of power supply by the existing power supply, the time chart associated with the AC power 310 indicates a period during which the first AC power is not supplied. In addition, the AC off signal 320 of the power supply also decreases or rises in the same phase while the AC power 310 decreases or rises. The AC off signal 330 transmitted to the main board is attenuated in the same manner as the AC off signal 320 of the power supply, and is generated by the power supply based on this and transmitted to the data backup device 200. In addition, it can be seen that the output power 340 of the power supply starts to attenuate at the same time as the input AC power is exhausted and disappears.

Next, referring to the time chart of the power supply by the data backup device 200 according to the preferred embodiment of the present invention, the output power 350 of the DC / DC converter and the output power of the DC / DC converter transmitted to the main board ( 360 rises at the same time as AC power 310 decreases, and its supply ends when the window ends. Accordingly, the power 370 output to the main board can maintain a constant power even if the AC power 310 is reduced.

In addition, the DC / DC converter 220 detects an AC off signal and transmits it to the power management unit 250 during the window data backup time, and the power management unit 250 detects and executes the AC off signal. Make sure that you have enough time to shut down your computer after backing up your existing programs.

4 is a flowchart illustrating a data backup method using an internal battery according to a preferred embodiment of the present invention.

In step S410, it is detected whether AC power is supplied to the power supply for supplying power to the computer system. In step S415, when AC power is normally supplied, power is supplied from the power supply, in step S420, the supplied power is converted into DC power required for each part, and in step S425, power corresponding to each part is supplied. In step S430, the program is normally executed.

In step S435, when AC power is not supplied to the power supply for supplying power to the computer system, the built-in battery is supplied with power when detecting an AC off signal generated. In step S440, the power supplied from the built-in battery is converted into DC power required for each part, and in step S445, power corresponding to each part is supplied.

In step S450, an AC off signal is received by the power management unit. In step S455, the program and data being executed are backed up, and the computer system is terminated.

The present invention is not limited to the above embodiments, and many variations are possible by those skilled in the art within the spirit of the present invention.

As described above, the data backup method using the built-in battery and the device in the computer according to the present invention has the effect of backing up the data using the built-in battery when the power failure or power is weak.

Another effect of the present invention is that the computer can be shut down by backing up data even if the power failure or the power is weak, even if not by the user.

Another effect of the present invention is to prevent the computer from booting until the normal AC power supply to the computer after backing up the data using the built-in battery and shuts down the computer.

1 is a block diagram of a data backup apparatus using a UPS according to the prior art.

2 is a block diagram of a data backup device using a built-in battery according to an embodiment of the present invention connected to a computer system.

3 illustrates power and signals during a power outage in accordance with a preferred embodiment of the present invention.

4 is a flowchart of a data backup method using an internal battery according to a preferred embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

130: computer system

200: data backup device

210: power supply

220: DC / DC converter

230: Battery Charger

240: built-in battery

250: power management unit

Claims (8)

An apparatus for backing up data of a computer system using an internal battery, A power supply for supplying power to the computer system using AC power and generating an AC off signal when the AC power is not supplied; An internal battery that is charged when the AC power is supplied and supplies power to the computer system when the AC power is not supplied; A battery charger for charging the internal battery when the AC power is supplied; A DC / DC converter which detects the AC off signal and converts power output from the internal battery into power required for the computer system to supply power to the computer system; And And a power management unit for terminating a computer system after backing up the program being executed by detecting the AC off signal. The method of claim 1, And an output unit for detecting and monitoring the size of the AC power source. The method of claim 1, The DC / DC converter is a data backup device using a built-in battery, characterized in that the circuit is cut off so that the computer does not boot up after the computer is shut down until the AC power is supplied again. The method of claim 1, When the operating system of the computer system is a window, the power management unit receives the AC off signal through an arbitrarily designated pin among general-purpose input / output (GPIO) pins of the input / output controller hub (ICH). Backup device. The method according to claim 1 and 4, And when the operating system of the computer system is a window, the power management unit is a BIOS of the computer system, and detects the AC off signal in the BIOS to switch to a hibernation mode. In the method of backing up the data of the computer system using the built-in battery, Generating an AC off signal when AC power is not supplied to the computer system; Connecting the built-in battery and a computer system to receive the generated AC off signal and supply power from a built-in built-in battery; Supplying the converted power to each of the components by converting the power supplied from the internal battery into a power corresponding to each of the components of the computer; A method of backing up data using a built-in battery, comprising: backing up a program being executed and shutting down the computer. The method of claim 6, If the operating system of the computer system is Windows in the step of backing up the program being executed, the built-in battery, characterized in that for detecting the AC off signal in the BIOS of the computer system to switch to the hibernation mode How to backup data. The method of claim 6, And detecting and monitoring the magnitude of the AC power source.  How to back up your data.