KR19990055321A - How to perform monitor power saving mode - Google Patents

Abstract

The present invention relates to a method of performing a power saving mode of a monitor, wherein the power of the monitor is automatically turned off when the monitor is driven in an off mode for a predetermined time. The method of the present invention provides a horizontal synchronization signal and a vertical synchronization signal from a desub connector. Resetting the time counter and outputting a control signal so that the power supply circuit of the monitor operates normally when all inputs are made; Outputting a control signal such that the power supply circuit of the monitor performs the suspend mode when one of the horizontal synchronizing signal and the vertical synchronizing signal is not input; Outputting a control signal such that the power supply circuit of the monitor performs the off mode when neither the horizontal synchronizing signal nor the vertical synchronizing signal is input; Increasing the time counter when the power supply circuit of the monitor performs the off mode, and turning off the monitor when the time counter exceeds the user setting time; And turning off the monitor when the user inputs a key to turn off the monitor.

Therefore, the present invention has the effect of extending the life of the LED and reducing unnecessary power consumption because the power of the monitor is automatically turned off by automatically turning off the LED when the monitor is in the OFF mode for a predetermined time.

Description

A method for executing power saving mode in a monitor

The present invention relates to a method of performing a power saving mode of a monitor, wherein the power of the monitor is automatically turned off when the monitor is driven in an off mode for a predetermined time.

In general, a monitor is a device that receives information from a computer video card and a synchronization signal and displays information on a CRT screen. The monitor includes a video system for processing a video signal, a deflection system for vertical and horizontal deflection, and a power supply. It consists of a system.

Recently, when the environmental energy problem is highlighted internationally, various technologies for reducing power consumption have been proposed. As a result, various efforts are being made to reduce power consumption even in monitors, which are one of the most widely used electrical appliances under the influence of office automation (OA). Proposed DPMS standard.

As is well known, Display Power Management Signaling (DPMS) defines and identifies four power states in response to the state of Advanced Power Management (APM) running on the computer body, as shown in Table 1 below. Use horizontal and vertical sync signal to make it possible. Here, APM refers to a power management processor of a computer determined by Microsoft and IBM.

condition signal Required Power saving degree Normal recovery time Horizontal synchronization Vertical synchronization video On has exist has exist Normal input compulsion Saving - Standby none has exist Blanking option small short Suspend has exist none Blanking compulsion versus Kim off none none Blanking compulsion maximum -

As shown in Table 1, states (or modes) in DPMS are on, stand-by, suspend, and off, and the monitor accepts at least on, suspend, and off states. shall.

Here, a brief look at the four states as follows. First, in the on state (mode), there are both a horizontal synchronizing signal and a vertical synchronizing signal input from the computer through the D sub, and the video signal is normally input and displayed on the screen.

Standby state (mode) is a state in which there is no horizontal synchronization signal input from the computer through the D sub, only vertical synchronization signal, and the video signal is blanked so that nothing is displayed on the screen. Power saving state.

Suspended state (mode) is a state where there is a horizontal sync signal input from the computer through the D-sub, there is no vertical sync signal, and the video signal is blanked so that nothing is displayed on the screen. It is a state. Finally, the off state (mode) is a state in which the power is off, there is no vertical and horizontal synchronizing signal, the video signal is blanked and the power is maximized.

1 illustrates an execution apparatus for performing the power saving mode as described above. Referring to the block diagram of FIG. 1 and the flowchart of FIG. 2, if there is no key input for a time set by a user, the horizontal sync signal H.sync and the vertical sync signal V.sync supplied from the computer to the monitor are blocked. When both the horizontal and vertical synchronization signals are input, the microcomputer 12 outputs a control signal so that the power supply circuit 14 of the monitor operates normally (21, 22). On the other hand, when the vertical synchronization signal (V.sync) is blocked, the microcomputer 12 outputs a suspense control signal in an active state so that the monitor is driven in the suspend mode (23, 25), and both horizontal and vertical synchronization signals are blocked. In response to the control signal being output in the active state, the monitor is driven in the off mode (23, 25).

The power saving mode performing unit 13 receives the suspension control signal and the off control signal output from the microcomputer 12 to allow the monitor to perform the power saving mode. When the suspending control signal of the active state is input, the power supply mode performing unit 13 is provided to the heater and the microcomputer. All the driving power other than the driving power to be cut off, and the driving power provided to the heater is also cut off when an active off control signal is input.

That is, the driving power is continuously supplied to the microcomputer 12 even while the monitor is in the off mode. When the horizontal synchronizing signal (H.sync) and the vertical synchronizing signal (V.sync) are input from the computer, the power saving of the monitor is performed. Causes the mode to be released. On the other hand, the microcomputer 12 turns on the light emitting diode 15 so that the user can grasp the state of the monitor. While the monitor is driven in the on mode, the microcomputer 12 causes the light emitting diode 15 to light green and the monitor is suspended. The light emitting diode 15 is turned yellow or red while being driven in a power saving mode such as a mode or an off mode.

As described above, the monitor that performs the power saving mode supplies the driving power to the microcomputer 12 even when the power is turned off. If the monitor power-off key is input, the microcomputer 12 turns off the light emitting diode 15 so that the power of the monitor is turned off. To be turned off (26,27).

That is, in the off mode and the power off state of the monitor, there is only a difference between the light-emitting diodes on and off. In the conventional monitor, the light-emitting diode is continuously turned on while the monitor is in the off mode even when the user does not use the computer. There is a problem that the lifespan of the light emitting diode is shortened and unnecessary power consumption increases.

Accordingly, an object of the present invention is to provide a method for performing a power saving mode of a monitor in which the power of the monitor is automatically turned off when the monitor is driven in an off mode for a predetermined time. There is this.

The method of the present invention for achieving the above object comprises the steps of resetting the time counter and outputting the control signal to operate the power supply circuit of the monitor when both the horizontal synchronizing signal and the vertical synchronizing signal are input from the de-sub connector; Outputting a control signal such that the power supply circuit of the monitor performs the suspend mode when one of the horizontal synchronizing signal and the vertical synchronizing signal is not input; Outputting a control signal such that the power supply circuit of the monitor performs the off mode when neither the horizontal synchronizing signal nor the vertical synchronizing signal is input; Increasing the time counter when the power supply circuit of the monitor performs the off mode, and turning off the monitor when the time counter exceeds the user setting time; And turning off the monitor when the user inputs a key to turn off the monitor.

1 is a block diagram showing an apparatus for performing a power saving mode of a general monitor;

2 is a flowchart illustrating a conventional method of performing a power saving mode in a monitor;

3 is a flowchart illustrating a method of performing a power saving mode according to the present invention in a monitor.

* Names of symbols according to the main parts of the drawings

11: key input 12: micom

13: power saving mode execution unit 14: power circuit

15: light emitting diode

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 illustrates a general power saving mode performing apparatus, and FIG. 3 illustrates a method of performing a power saving mode by a microcomputer according to the present invention.

Referring to FIG. 1, the microcomputer 12 receives a horizontal synchronizing signal (H.sync) and a vertical synchronizing signal (V.sync) from a desub connector, and the microcomputer 12 receives any one of a normal mode, a suspend mode, and an off mode. The suspension control signal and the off control signal are output so as to be performed in one mode, and the power saving mode performing unit 13 cuts the driving power other than the driving power provided to the microcomputer 12 and the heater so that the power supply circuit 14 In addition to performing the suspend mode, the power circuit 14 performs the off mode by cutting off the driving power other than the driving power provided to the microcomputer 12.

On the other hand, even when the power supply circuit 14 of the monitor is driven in a power saving mode or even the power of the monitor is turned off, the driving power of the microcomputer 12 is continuously supplied to the microcomputer 12, wherein the microcomputer 12 has the monitor in the off mode. The light emitting diode 15 is turned on when being driven, and the light emitting diode 15 is turned off when the power of the monitor is turned off.

Referring to FIG. 3, step 31 is a step in which the microcomputer 12 detects whether the horizontal synchronization signal H.sync and the vertical synchronization signal V.sync are input, and both the horizontal synchronization signal and the vertical synchronization signal are input. When the monitor is driven in the normal mode, the process proceeds to step 32. If neither the horizontal sync signal nor the vertical sync signal is input, the monitor proceeds to the power saving mode.

Step 32 is a step of resetting the time counter. In step 33, the microcomputer 12 outputs an inactive suspension control signal and an off control signal so that the power supply circuit of the monitor operates normally.

Step 36 detects whether both the horizontal synchronizing signal and the vertical synchronizing signal are not input. If both the horizontal synchronizing signal and the vertical synchronizing signal are not input, the monitor proceeds to step 37 because the monitor is driven in the off mode. If any one of the signal and the vertical synchronizing signal is input, the process proceeds to step 40 because the monitor must operate in suspend mode.

In step 37, the microcomputer outputs an active off control signal and an active suspension control signal to operate the monitor in the off mode, and in step 38, the time counter is incremented. Step 39 detects whether the time counter exceeds the time set by the user. If the time counter exceeds the set time, proceed to step 35 to turn off the monitor automatically and the time counter does not exceed the set time. If no, go to Step 34. Here, when the monitor is powered off in the off mode, the light emitting diode emits light and then turns off.

Step 34 detects whether the user powers off the monitor through the key input unit. If there is a power off key input, the monitor is automatically turned off in step 35, and returns to step 31 if there is no power off key input. .

If any one of the horizontal synchronizing signal and the vertical synchronizing signal is input in step 36, the process proceeds to step 40. The microcomputer outputs an active suspension control signal and an inactive off control signal so that the power supply circuit of the monitor enters the suspend mode. Then proceed to step 34.

As described above, the method of the present invention can extend the life of the LED and reduce unnecessary power consumption because the power of the monitor is automatically turned off by automatically turning off the LED when the monitor is in the OFF mode for a predetermined time. It can be effective. In addition, there is an effect that the user does not have to perform unnecessary operations for the power off.

Claims (1)

Resetting the time counter and outputting a control signal so that the power supply circuit of the monitor operates normally when both the horizontal synchronizing signal and the vertical synchronizing signal are input from the de-sub connector; Outputting a control signal such that the power supply circuit of the monitor performs the suspend mode when one of the horizontal synchronizing signal and the vertical synchronizing signal is not input; Outputting a control signal such that the power supply circuit of the monitor performs the off mode when neither the horizontal synchronizing signal nor the vertical synchronizing signal is input; Increasing the time counter when the power supply circuit of the monitor performs the off mode, and turning off the monitor when the time counter exceeds the user setting time; And When the user presses a key input to turn off the monitor, the power saving mode of the monitor comprising the step of turning off the monitor.