JPH05189096A - Power control circuit for computer system - Google Patents

Abstract

PURPOSE:To provide the power control circuit for computer system which can sufficiently reserve the execution time of software processing after the occurrence of a voltage reduction signal of a battery. CONSTITUTION:When the voltage of a main battery 7 from which power is supplied to each device is reduced to a voltage reduction signal generating voltage, a voltage monitor part 9 outputs the voltage reduction signal to a CPU 1. The CPU 1 outputs a power switching signal to a DC/DC converter 10 and a power switching part 11. The DC/DC converter 10 raises the voltage of a subbattery 12 to improve the voltage characteristic. The power switching part 11 switches the power source for each device from the main battery 7 to the subbattery 12.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is mainly applied to a small computer system such as a handheld computer system or a lap computer system, and relates to a power control circuit of a computer system for supplying power to each device constituting the computer system by a battery. ..

[0002]

2. Description of the Related Art FIG. 4 is a block diagram showing an example of the configuration of a conventional small-sized computer system. The small-sized computer system includes a central processing unit (CPU) 1, a RAM 2 or ROM 3 as a storage unit, and a display unit. Is a liquid crystal display (LCD) 4, an input device is a keyboard 5, a recording device is a printer 6, etc., and each device is connected by a data line. The power supply of the main battery 7 is controlled by the power supply control circuit 8 for each device.

Generally, in the above-mentioned computer system, the power supply control circuit 8 is provided before the voltage of the device is lowered due to exhaustion of the battery and normal operation of each device cannot be maintained.
Detects a battery voltage drop and outputs a voltage drop signal to the CPU 1.

FIG. 5 is a characteristic diagram showing voltage characteristics of the Ni-Cd battery used in the small computer system when the system is in operation. If the voltage of the Ni-Cd battery is equal to or higher than the voltage drop signal generation voltage v ₁ , the computer system is in the normal use range, and at time t ₁ when the voltage is lower than the voltage drop signal generation voltage v ₁ , the power supply control circuit 8 Is C
It outputs a voltage drop signal to PU1.

The CPU 1 to which the voltage drop signal is input performs a computer system termination process in a short time by software, outputs a power source switching signal to the power source control circuit 8 and turns off the power source of the computer system.

[0006]

In the above power supply control circuit, when the voltage of the Ni-Cd battery starts to drop, a steep voltage drop occurs as shown in FIG. 5, and the voltage drop signal generation voltage v Time from ₁ to system operation lower limit voltage v ₂
(Time from t ₁ to t ₂ ) is very short, and even when it is desired to continue the software processing for a short time, it is necessary to immediately interrupt the processing and power off the computer system.

It is an object of the present invention to provide a power supply control circuit for a computer system which can take a sufficient time for executing software processing after a battery voltage drop signal is generated.

[0008]

In order to achieve the above object, the present invention provides a power control circuit using a plurality of batteries, a main battery for supplying power to each device, and a voltage drop of the main battery. A sub-battery that supplies power to each device that was supplied by the main battery, and a DC / D that boosts the voltage of the sub-battery power supply
And a C converter.

When the voltage of the main battery drops, the power of each device of the computer system is selectively turned off to put the computer system into a low current consumption mode, and then the sub voltage boosted by the DC / DC converter is set. Power is supplied from the battery to the computer system.

Further, the sub battery is a secondary battery, and the main battery and the sub battery are simultaneously charged after the sub battery is consumed.

Further, the power supply control circuit using a single battery includes a main battery for supplying power to each device and a DC / DC converter for boosting the voltage of the main battery when the voltage of the main battery drops.

[0012]

According to the above means, in the power supply control circuit using a plurality of batteries, the main battery that supplies power to each device, and when the voltage of the main battery drops,
In a device provided with a sub-battery that supplies power to each device, the supply of power to each device is switched to the sub-battery when the voltage drop signal generation voltage of the main battery is reached, and the sub-battery is DC. Since the voltage is boosted by the / DC converter, the voltage characteristics are improved, and a sharp voltage drop does not occur immediately even when the voltage drop signal generation voltage is reached, and the voltage of the main battery is the voltage drop signal generation voltage. The time from when the value becomes below to when the sub-battery reaches the system operation lower limit voltage becomes long.

When the voltage of the main battery becomes the voltage drop signal generation voltage, the power of the device not required for the software processing is turned off, and the computer system is set to the low current consumption mode. By supplying power to the computer system, current consumption of the computer system is reduced.

Further, the sub-battery is a secondary battery, and the main battery and the sub-battery are simultaneously charged after the sub-battery is exhausted, so that the sub-battery can be used when the power of the computer system is turned on again. ..

Furthermore, in a power supply control circuit using a single battery, which is provided with only a main battery for supplying power to each device, when the voltage of the main battery becomes lower than the voltage drop signal generation voltage, the main battery By the DC / DC converter that boosts the voltage of the power supply of
The voltage characteristic is improved, and the voltage of the power supply supplied to each device maintains a voltage equal to or higher than the system operation lower limit voltage for a certain period of time.

[0016]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of the first embodiment of the present invention. The power supply control circuit 8 includes a voltage monitoring unit 9
, A DC / DC converter 10, and a power source switching unit 11. And the rated voltage of the sub-battery 12 is
It is lower than the rated voltage of the main battery 7. When the voltage of the main battery 7 that supplies power to each device drops to the voltage drop signal generation voltage, the voltage monitoring unit 9
Is connected to each process in the same manner as described in FIG.
It outputs a voltage drop signal to PU1. The CPU 1 outputs a power source switching signal to the DC / DC converter 10 and the power source switching unit 11, turns on the DC / DC converter 10, and turns on the sub battery.
The voltage of 12 is boosted, the power source is switched from the main battery 7 to the sub battery 12, and power is supplied to each device. Since the DC / DC converter 10 has improved the voltage characteristic of the sub-battery, a sharp voltage drop does not occur immediately even when the voltage becomes the voltage drop signal generation voltage.

Further, the sub-battery 12 is a secondary battery, and when charging after exhaustion, the main battery 7
The sub battery 12 and the sub battery 12 are simultaneously charged.

FIG. 2 shows the configuration of the second embodiment of the present invention. In the same process as in the first embodiment, the CPU 1
When the CPU detects a voltage drop of the main battery, which is a single power source, the CPU 1 outputs a power source switching signal to the DC / DC converter 10 and the power source switching unit 11, and the DC / DC converter 10
Turn on to boost the voltage of the main battery and improve the voltage characteristics. The power supply switching unit 11 switches the power supply supplied to each device to a boosted power supply to supply each device. In this state, the software processing is continued, and after a lapse of a certain time, the CPU 1 stores the information necessary for restarting the software in the backup memory and turns off the power supply to the computer system.

FIG. 3 is a block diagram showing the configuration of the third embodiment of the present invention. The CPU 1 which has detected the voltage drop of the main battery power source in the same process as the first embodiment operates in the low current consumption mode. Part 13 and DC / DC converter 10
And a power supply switching signal to the power supply switching unit 11. The low-current consumption mode operation unit 13 to which the power supply switching signal is input outputs an operation stop signal to those that are unnecessary for the software processing currently being executed, which constitutes the computer system, and powers off the device. Then, the mode of the computer system is set to the low current consumption mode. After this, the main battery 7 is used to supply power to the computer system.
To the sub battery 12 whose voltage is boosted by the DC / DC converter 10.

[0021]

As described above, according to the present invention,
DC / DC using main battery and sub battery
In the power supply control circuit including the converter, when the voltage of the main battery becomes the voltage drop signal generation voltage, DC /
Since the power of the sub-battery whose voltage has been boosted by the DC converter is supplied to the computer system, the time from the output of the low voltage signal to the system operation lower limit voltage becomes long, and the execution time of the software processing is sufficiently long. It is possible to provide a power supply control circuit for a computer system that can be used. Further, when the voltage drop signal of the main battery is output, the power of the device not required for software processing is turned off, the computer system is set to the low current consumption mode, and then the DC / DC converter converts the voltage into a sub-battery whose voltage is boosted. It is possible to provide a power supply control circuit of a computer system capable of taking a longer execution time of software processing by switching the power supply. Further, by using the sub-battery as a secondary battery and simultaneously charging the main battery and the sub-battery after the sub-battery is exhausted, the sub-battery is not charged even when the power of the computer system is turned on even when the sub-battery is frequently used. It is possible to provide a power supply control circuit for a computer system which is in a running state and can always take a sufficient execution time of software processing even when the voltage of the main battery becomes a low voltage signal generation voltage.

Further using a single main battery, D
In the power supply control circuit including the C / DC converter,
When the voltage of the main battery drops below the voltage drop signal generation voltage, the DC / DC converter boosts the voltage of the main battery to improve the voltage characteristics and supply power to the computer system, so a low voltage signal is output. It takes longer to reach the system operation lower limit voltage,
It is possible to provide a power supply control circuit of a computer system capable of sufficiently executing the execution time of software processing.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of an embodiment of a first means of a power supply control circuit of a computer system of the present invention.

FIG. 2 is a block diagram showing a configuration of an embodiment of a second means of the power supply control circuit of the computer system of the present invention.

FIG. 3 is a block diagram showing a configuration of an embodiment of a third means of the power supply control circuit of the computer system of the present invention.

FIG. 4 is a block diagram showing an example of devices that constitute a conventional computer system.

FIG. 5 is a characteristic diagram showing an example of voltage characteristics of a Ni—Cd battery used in a power supply control circuit of a computer system.

[Explanation of symbols]

1 ... CPU, 7 ... Main battery, 8 ... Power supply control circuit, 9 ... Voltage monitoring unit, 10 ... DC / DC converter,
11 ... Power switching unit, 12 ... Sub battery, 13 ... Low current consumption mode operating unit.

Claims (4)

[Claims] 1. A power supply control circuit of a computer system comprising a central processing unit, a storage device, a liquid crystal display device, a keyboard device, a printer device and the like, and using a plurality of batteries as power supplies, supplies power to each device. A main battery; a sub-battery that supplies power to each device to which the main battery has been supplied when the voltage of the main battery drops; and a DC / DC converter that boosts the voltage of the sub-battery power supply. Power supply control circuit for computer system. 2. The sub-voltage boosted by the DC / DC converter after selectively turning off the power source of each device of the computer system when the voltage of the main battery has dropped to put the computer system into a low current consumption mode. The power supply control circuit according to claim 1, wherein power is supplied from a battery to the computer system. 3. The sub-battery is a secondary battery,
The power supply control circuit according to claim 1, wherein the main battery and the sub-battery are charged at the same time after the consumption of the sub-battery. 4. A power supply control circuit of a computer system comprising a central processing unit, a storage device, a liquid crystal display device, a keyboard device, a printer device and the like, and using a single battery as a power supply, supplies power to each device. A power supply control circuit for a computer system, comprising: a main battery for controlling a main battery; and a DC / DC converter that boosts the voltage of the main battery when the voltage of the main battery drops.