KR19990019832U - Portable Computer with Overcurrent Shutdown - Google Patents

Abstract

In a portable computer including a central processing unit (6), a storage device (7), a liquid crystal display device (8), an audio device (9), a fax modem (10), and a system bus (11),

An adapter (1) receiving an AC power source (AC) and converting the same into a constant DC power source; A DC / DC converter (2) for converting and outputting DC power output from the adapter (1) into DC power required by the system; A battery (3) capable of recharging and supplying a constant DC power to the system in the absence of the adapter (1); Charges the battery 3 with a DC power input from the DC / DC converter 2 according to a charging current value, or controls a state of the DC power supplied from the battery 3 to the system according to a discharge current value. A charge / discharge control unit 4; Detects the charge current value input to the battery 3 and outputs it to the charge / discharge control unit 4, or detects the discharge current value discharged from the battery 3 and outputs it to the charge / discharge control unit 4. The portable computer having an overcurrent blocking function including the current detecting unit 5 can effectively protect the system by blocking the overcurrent more quickly by turning off the discharge switch 44, and automatically discharging the discharge switch when the cause of the overcurrent is eliminated. There is an effect that 44 can be turned on to use a portable computer.

Description

Portable Computer with Overcurrent Shutdown

The present invention relates to a portable computer having an overcurrent blocking function, and more particularly, to a portable computer having an overcurrent blocking function for preventing a battery breakdown due to an overcharge current and a system failure due to an overdischarge current.

Hereinafter, a portable computer having a conventional overcurrent blocking function will be described with reference to the accompanying drawings.

3 is a block diagram of a portable computer having a conventional overcurrent blocking function.

Referring to Fig. 3, the operation of a conventional portable computer having an overcurrent blocking function will be described.

When AC power is supplied, the adapter 31 converts AC power into a constant DC power and outputs the DC power. The DC / DC converter 32 converts the DC power output from the adapter 31 into a system. Convert the DC power required and output it.

The DC power output from the DC / DC converter 32 is supplied to the charging unit 33 to charge the battery 34 and at the same time through the main power supply line, the CPU 6, the memory 7, and the liquid crystal. It is supplied to a system such as a display device 8, an audio device 9, a fax modem 10, or the like to make a portable computer available.

However, when there is no AC power source AC, the discharge switch 35 is turned on so that the DC power source discharged from the battery 34 passes through the main power supply line, the central processing unit 6, the memory device 7, and the liquid crystal display device. (8), audio device 9, fax modem 10 and the like.

If the overcurrent is discharged from the battery 34 while receiving the DC power from the battery 34 and using the portable computer, the fuse 36 is opened to prevent the DC power supplied from the battery 34 from being supplied to the system. Preventing overcurrent from entering the system

However, since the conventional technology blocks the overcurrent discharged from the battery 34 with the fuse 36, in order to eliminate the cause of the overcurrent and to use the portable computer, the fuse 36 needs to be disassembled after replacing the portable computer. There is this.

Therefore, an object of the present invention is to solve the above-mentioned problems, and to provide a portable computer having an overcurrent blocking function for preventing the breakdown of the battery due to the overcharge current and the failure of the system due to the overdischarge current.

1 is a block diagram of a portable computer having an overcurrent blocking function according to an embodiment of the present invention.

2 is an operation flowchart of a portable computer having an overcurrent blocking function in an embodiment of the present invention.

3 is a block diagram of a portable computer having a conventional overcurrent blocking function.

As a means for achieving the above object, the constitution of the present invention is

In a portable computer including a central processing unit (6), a storage device (7), a liquid crystal display device (8), an audio device (9), a fax modem (10) and a system bus (11),

An adapter (1) receiving an AC power source (AC) and converting the same into a constant DC power source;

A DC / DC converter (2) for converting and outputting DC power output from the adapter (1) into DC power required by the system;

A battery (3) capable of recharging and supplying a constant DC power to the system in the absence of the adapter (1);

Charges the battery 3 with a DC power input from the DC / DC converter 2 according to a charging current value, or controls a state of the DC power supplied from the battery 3 to the system according to a discharge current value. A charge / discharge control unit 4;

Detects the charge current value input to the battery 3 and outputs it to the charge / discharge control unit 4, or detects the discharge current value discharged from the battery 3 and outputs it to the charge / discharge control unit 4. The current detection unit 5 is included.

The charge / discharge control unit 4 determines the magnitude of the charge current value input from the current detector 5 and the preset overcharge current value, or the discharge current value input from the current detector 5 and the preset over discharge. A microcomputer 41 which outputs a charge control signal or outputs a discharge control signal according to a result of the magnitude determination of the current value;

A charging unit 42 for charging the battery 3 with a DC power input from the DC / DC converter 2 according to the state of the charging control signal;

A discharge unit 43 for outputting a discharge on signal or a discharge off signal in accordance with the state of the discharge control signal;

And a discharge switch 44 to change the on / off state according to the discharge on signal or the discharge off signal so that the DC power output from the battery 3 is supplied to the system.

Hereinafter, an operation of a portable computer having an overcurrent blocking function according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram of a portable computer having an overcurrent blocking function according to an embodiment of the present invention,

2 is an operation flowchart of a portable computer having an overcurrent blocking function according to an embodiment of the present invention.

1 to 2, the operation of a portable computer having an overcurrent blocking function according to an embodiment of the present invention will be described.

First, the charging operation of the battery will be described.

When the AC power source AC is supplied (S201), the adapter 1 converts the AC power source AC into a constant DC power source and outputs it, and the DC / DC converter 2 outputs a direct current output from the adapter 1. The power is converted and output by DC power required by the system.

At this time, the DC power output from the DC / DC converter 2 is connected to the central processing unit 6, the storage device 7, the liquid crystal display device 8, and the audio device 9 through the main power line. In addition, it is supplied to a system such as a fax modem 10 and the like, and is supplied to the charging unit 42 of the charge / discharge control unit 4.

Then, the charging unit 42 charges the battery 3 with the DC power supplied from the DC / DC converter 2 to charge the battery 3 (S202), and the current detector 5 The charging current value supplied to the battery 3 is detected and output to the microcomputer 41.

The microcomputer 41 determines the magnitude of the preset overcharge current value and the detected charge current value (S203). If the detected charge current value is smaller than the overcharge current value, the microcomputer 41 outputs a charge control signal in a high state, and is detected. When the charge current value is greater than the overcharge current value, the charge control signal in a low state is output.

The charging unit 42 continuously charges the battery 3 with a DC power supplied from the DC / DC converter 2 when a charging control signal in a high state is input.

However, when the charge control signal in a low state is input, the charging unit 42 stops the charging operation of the battery 3 to prevent the battery 3 or the system from being damaged due to overcurrent (S204).

The following is a description of the discharge operation of the battery.

When the AC power source AC is not supplied (S201), the DC power source DC is supplied to the system by the discharge of the battery 3.

DC power (DC) discharged from the battery (3) is the central processing unit (6), memory (7), liquid crystal display (8), audio device (9), fax modem (10) through the main power line Supplied to a system such as such that a portable computer can be used (S205).

When the battery 3 supplies power to the system as described above, the current detector 5 detects the discharge current value of the battery 3 and outputs the discharge current to the microcomputer 41.

Then, the microcomputer 41 determines the magnitude of the preset over-discharge current value and the detected discharge current value (S206), and outputs a discharge control signal in a high state when the detected discharge current value is smaller than the over-discharge current value. When the detected discharge current value is larger than the overdischarge current value, the discharge control signal in a low state is output.

The discharge unit 43 sends a discharge on signal to the discharge switch 44 when a discharge control signal in a high state is input to change the operation of the discharge switch, and a discharge off signal when a discharge control signal in a low state is input. Output

The discharge switch 44 is turned on when the discharge-on signal is input, so that the DC power supplied from the battery 3 is supplied to the system, and when the discharge-off signal is input, the discharge switch 44 is turned off and the battery 3 is turned off. Blocking the over-discharge current is not supplied to the system (S207).

Thereafter, when the cause of the overcurrent of the battery 3 is eliminated and the discharge current value is smaller than the overdischarge current value, the microcomputer 41 automatically outputs a discharge control signal in a high state, and thus the battery 3 Supply DC power to the system.

As described above, the portable computer having the overcurrent blocking function provided in the embodiment of the present invention can effectively protect the system by blocking the overcurrent more quickly by turning off the discharge switch 44, and if the cause of the overcurrent is eliminated, The discharge switch 44 is automatically turned on to have an effect of using a portable computer.

Claims (2)

In a portable computer comprising a central processing unit (6), a storage unit (7), a liquid crystal display unit (8), and a system bus (11), An adapter (1) receiving an AC power source (AC) and converting the same into a constant DC power source; A DC / DC converter (2) for converting and outputting DC power output from the adapter (1) into DC power required by the system; A battery (3) capable of recharging and supplying a constant DC power to the system in the absence of the adapter (1); Charges the battery 3 with a DC power input from the DC / DC converter 2 according to the input charging current value, or DC power supplied from the battery 3 to the system according to the input discharge current value. A charge / discharge control unit 4 for controlling the state of the; Detects the charge current value input to the battery 3 and outputs it to the charge / discharge control unit 4, or detects the discharge current value discharged from the battery 3 and outputs it to the charge / discharge control unit 4. A portable computer having an overcurrent blocking function, comprising a current detecting unit (5). The method of claim 1, wherein the charge / discharge control unit 4, Charging according to the magnitude determination result of the charge current value input from the current detector 5 and the preset overcharge current value or the magnitude determination result of the discharge current value input from the current detector 5 and the preset overdischarge current value 5. A microcomputer 41 which outputs a control signal or outputs a discharge control signal; A charging unit 42 for charging the battery 3 with a DC power input from the DC / DC converter 2 according to the state of the charging control signal; A discharge unit 43 for outputting a discharge on signal or a discharge off signal in accordance with the state of the discharge control signal; And a discharge switch (44) for supplying a DC power discharged from the battery (3) to the system by changing an on / off state according to the discharge on signal or the discharge off signal.