KR20020094262A - Computer System with Power saving type power supply installed - Google Patents

Abstract

PURPOSE: A computer system is provided to turn off peripherals, like a monitor, connected to a main body of a computer when the main body is turned off. CONSTITUTION: The system comprises a main board(12), a switch(32), a monitor(52), a power supply(22) and a relay(42). The main board(12) adopts an ATX(Advanced Technology Extended) type, can be turned off by a software and receives DC power from a DC terminal of the power supply(22). The switch(32), a push button for turning on or off the computer, is connected in parallel to the main board(12). The power supply(22) adopts an ATX type and supplies the DC and the AC power to the main board(12) and the monitor(52), respectively. The relay(42) turns off the monitor(52) by sensing the DC power supplied from the power supply(22), cutting off the DC power from the main board(12), and then cutting off the AC power from the monitor. So the peripherals using the same power supply(22) can be turned off with a software or a hardware as well as the main body by intercepting the AC power supplied from the power supply(22).

Description

Computer System with Power saving type power supply installed}

The present invention relates to a computer system using a power-saving ATX power supply device and a power-saving ATX power supply device for turning on / off a computer and a computer. In detail, the main body of the computer is turned off (software or hardware). The present invention relates to a computer system using a power-saving ATX power supply device and a power-saving ATX power supply device to turn off peripheral devices such as a monitor connected to the main body of the computer at the same time.

Generally, a power supply and a main board of a computer include an AT type main board and an ATX main board. The ATX method is a computer standard established by Intel in 1995. Most of the cases on the market are manufactured by ATX.

Conventionally, the AT method has been used. Since the ATX method has many advantages than the AT method, the AT method is rarely used at present. The system made in the ATX standard is easy to configure and has excellent power management capability. However, the AT method before the ATX method had no standard, so assembly was very difficult.

1 is an equivalent circuit diagram of an AT system main body. Referring to Figure 1, the main body of the computer is a switch (30) to switch the AC power on (ON) / off (OFF) to the input terminal of the power supply, the AC power of the input terminal to the DC power source It is composed of a power supply device 20 for supplying the DC power to be output by switching, the main board 10 to operate using the DC power supplied from the power supply device (20).

The switch 30 is a means for applying power to the computer main body. When the switch is pressed once (or configured to push and pull) using a toggle type switch switch, the switch 30 is continuously pressed and the switch contacts are attached to maintain the on state. If the switch is pressed again, the contact can be dropped and turned off. The switch is configured to turn on and off the power supply device 20 of the computer. When the computer is not used and the computer is turned off, the switch must be turned off every time.

The power supply device 20 is a means for converting an AC voltage into a DC voltage and applying it to a computer main body. The AC power supply 20 converts an AC voltage supplied from an AC power source into a DC voltage such as DC 5V or ± 12V. The main board 10 can be used in the main body of the computer, and the AC power supply 70 is configured in parallel with the DC power supply 20 so that the input AC power can be output.

The main board 10 is a means for allowing the computer to calculate and store data using the data. The main board 10 enables a series of operations of the computer and is connected to the DC power supply terminal 60 of the power supply device 20 to supply DC power. It works using.

Therefore, the AT method is used to connect the power of peripheral devices such as the main body of the computer and the monitor to the outlet located on the output side of the on-off switch of the computer to be used on and off at the same time.

2 is an equivalent circuit diagram of a conventional ATX computer main body. Referring to Fig. 2, the conventional ATX computer has the same components as the AT computer. However, the power supply 21 has an AC power supply 71 for outputting AC power that can be used in connection with a peripheral device such as a DC power supply 61 and a monitor 51 applied to the computer main body. , Peripherals such as the monitor 51 can be connected and used. When the switch is connected to the main board 11 and the switch 31 is turned on, power is supplied to the main board 11, and the switch 31 is turned off. The power supplied to the system is cut off and turned off. In addition, the main board 11 can be turned off by software. The switch uses a push-type switch (short-circuited when pressed and open when released).

However, since the conventional ATX method uses a switch to turn off the AC power through the power supply 21 continuously, power is supplied to other peripheral devices of the computer such as a monitor connected to the power supply 21. Even when the computer is not used and the computer is not used, power consumption by the computer peripherals occurs. In order to solve this problem, the power saving mode is adopted to reduce power consumption. However, even when the power saving mode is switched, a certain amount of power consumption is generated, causing unnecessary power consumption. When this is judged nationwide, there is a possibility that a considerable amount of power consumption may occur and power cannot be supplied to other necessary places, and there may be many problems (power plant construction, resource waste, etc.) due to power generation.

Accordingly, an object of the present invention is to solve the problems of the prior art, a monitor that enables the computer to be turned off by software or hardware, and also to turn off the peripheral device connected to the main body of the computer, such as a monitor. It is to provide a power supply that can be turned on and off and a computer system using the power supply.

In order to achieve the above object, a computer system according to the present invention,

Power supply means for receiving an AC input voltage and outputting at least one DC voltage and AC voltage;

A blocking means connected to the AC voltage output terminal of the power supply means to block the AC voltage according to the DC voltage output using the DC voltage as an input voltage;

A main board using the DC voltage as an input voltage;

A computer peripheral device using the AC voltage as an input voltage; And

And a switching means connected in series with the main board to turn on / off the main board.

In addition, the power supply according to the present invention to achieve the above object,

In a power supply device wherein the computer and the computer peripheral device supplies at least one AC voltage and DC voltage using the same power supply means,

And a blocking means connected to an AC voltage output terminal for outputting the AC voltage supplied to the power supply means to block the AC voltage.

1 is an equivalent circuit diagram of an AT system main body.

2 is an equivalent circuit diagram of a conventional ATX computer main body.

3 is an equivalent circuit diagram of a power supply apparatus according to the present invention.

4 is an equivalent circuit diagram of a computer system incorporating a power supply according to the present invention.

* Description of the main parts of the drawings *

12: motherboard 22: power supply

32: switch 42: relay

52: monitor

The above and other objects, advantages and features of the present invention will become more apparent from the following description set forth with reference to the accompanying drawings.

3 is an equivalent circuit diagram of a power-saving ATX power supply apparatus according to the present invention. Referring to Figure 3, the power-saving ATX power supply according to the present invention is configured by installing a relay in the power supply and the AC power output terminal of the power supply.

The power supply device 22 is a power supply means for a computer system composed of a computer body and a computer peripheral device. The DC power supply terminal (5V, ± 12V) converts AC power, which is an input power, into DC power and supplies the power to the computer body. 62 is provided. In addition, the AC power supply terminal 72 for outputting AC power is configured in parallel with the DC power supply terminal 62 so that an AC input voltage applied to the power supply device is output, and is supplied to a peripheral device of a computer such as a monitor. .

The relay 42 is a means for interrupting the output AC power of the power supply, and allows the coil to act as a magnet so as to close or open the contact of the switch. The advantage of relays is that they can interlock electrically independent circuits. Therefore, the AC power input circuit of the electrically independent power supply device and the DC signal output from the power supply device can be detected to cut off the AC output power of the power supply device 22. For example, if there is a DC signal output from the power supply device 22, when a current flows in the coil, the coil acts as a magnet, and the switch of the relay is in the short-circuit state by the magnetic force, thereby causing the power supply device 22 AC output power is supplied from the power supply device 22 to the computer peripheral device. When the DC signal output from the power supply device 22 is interrupted, a magnet having a polarity opposite to that of the DC signal is generated by a change in the current direction of the coil so that the coil drops the contact point of the switch of the relay. AC output power is cut off from the power supply 22 so that no AC power is applied from the power supply 22 to the computer peripherals. An AC power supply such as a triac can be used instead of the relay.

4 is an equivalent circuit diagram of a computer system incorporating a power supply device of a power saving type ATX system according to the present invention. Referring to FIG. 4, a computer system includes a main board 12 having a CPU, a memory, and the like for performing various functions of the computer system, a switch 32 for turning the computer on and off, and a computer. Input power applied to the monitor 52, the main board 12 and the monitor 52 which displays the processed results, the power supply 22 for supplying DC power and AC power, and the power supply 22 It is composed of a relay 42 for blocking.

The main board 12 adopts the ATX method, and can be turned off in software. In addition, the main board 12 uses DC power supplied from the DC power supply terminal 62 of the power supply device 22.

The switch 32 is a means for turning the computer on and off. The switch 32 is connected in parallel with the main board 12 and uses a pushbutton.

The monitor 52 is a means for displaying a result performed by the computer main body using an AC power source, and uses the output power of the AC power supply terminal 72 supplied from the power supply device 22. The monitor 52 constitutes a separate switch from the main board 12 and can be turned on and off using the switch of the monitor 52.

The power supply device 22 adopts the ATX method, and is a means for supplying DC power and AC power used in the main board 12 and the monitor 52. The power supply device 22 is driven by receiving AC power.

The relay 42 is a means for cutting off the AC power input from the power supply device 22 to the monitor. The relay 42 detects the DC power output from the power supply device 22 so that the AC power can be cut off. When 12) is turned off by software, there is no signal output to the main board 12, and if there is no output signal, the monitor is turned off by cutting off the AC power supplied from the power supply to the monitor. Therefore, the AC power supplied from the power supply 22 is cut off, so that not only the computer main body but also computer peripherals using the same power supply 22 as the computer main body are turned off.

Power-saving ATX power supply device and a computer system using the power supply device according to the present invention by installing a relay in the AC voltage supplied to the input terminal in the ATX system to turn off the computer by software or hardware power supply When the DC power supply is turned on and the voltage is applied to the output line by monitoring the output line outputting the DC power output from the device to the main board, the relay is activated so that the switch terminal of the relay Connected to the output line to supply the input voltage is applied to maintain the on state, if the main board is turned off and the voltage is not applied to the output line, the relay of the input terminal is operated to make the switch terminal of the relay fall Allow the AC voltage to be cut off.

Therefore, when the computer is turned off by software or hardware, the AC voltage supplied from the power supply can be cut off by the operation of the relay. Therefore, when the display device such as a monitor receives the AC power using the power supply, When the main board of the main body is turned off, the AC power output from the power supply is cut off by the relay. Therefore, if the main board is turned off by software or hardware, the monitor can be turned off at the same time. It can be turned off without the power off by turning off the computer and not turning off the monitor.

It should be understood that various modifications to the embodiments of the invention described herein may be employed in implementing the invention. Accordingly, the following claims are intended to define the scope of the invention, and methods and configurations and equivalents thereof within these claims are intended to be encompassed by the claims.

Claims (4)

Power supply means for receiving an AC input voltage and outputting at least one DC voltage and AC voltage; A blocking means connected to the AC voltage output terminal of the power supply means to operate the DC voltage as an input voltage to turn on / off the AC voltage; A main board on which the DC voltage is an input voltage and turned on or off software or hardware; A computer peripheral device using the AC voltage as an input voltage; And And switching means configured to be connected in parallel with the main board to turn on / off the main board. The method of claim 1, And said disconnecting means is a relay or a triac operated by said direct current voltage of said power supply means. In a power supply device wherein the computer and the computer peripheral device supplies at least one AC voltage and DC voltage using the same power supply means, The power supply device is connected to an AC voltage output terminal for outputting the AC voltage supplied to the power supply means, characterized in that it comprises a blocking means for operating in accordance with the output of the DC voltage on / off the AC voltage. Power supply. The method of claim 3, wherein And the cut-off means is a relay or a triac operated by the DC voltage of the power supply means.