KR20020085196A - Apparatus and method for controlling power of Monitor - Google Patents

Abstract

The present invention relates to a power control device and method for controlling the power of the monitor in two stages according to the use of a PC to reduce power consumption and to shorten the time required to reactivate the monitor screen. Control the power supply of the main power supply for supplying the operating power of each part, the auxiliary power supply for supplying the power of a predetermined level reduced to the heater power from the main power supply in the power saving mode, and the power supply of the main power supply and the auxiliary power supply Power control unit for controlling, power saving mode control unit for controlling the power control unit according to the control signal, normal / power saving mode is determined according to the vertical / horizontal synchronization signal input and outputs the control signal to the power saving mode control unit according to the determination result This includes a microcomputer to reduce monitor power consumption and reactivation time.

Description

Apparatus and method for controlling power of Monitor}

TECHNICAL FIELD The present invention relates to a monitor, and more particularly, to an apparatus and method for controlling power of a monitor.

Typical monitors consume about 50 to 80 percent of the total PC consumption.

Such monitors dissipate most of the energy consumed from the screen fluorescent surface to visible light emission, heat consumption, electromagnetic radiation, high energy radiation and acoustic energy, but only fluorescent surface emission is useful and only useful when viewed by the viewer.

Health problems when exposed to such radiation rashes for a long time have been an issue, and monitor makers have spent a lot of research money to reduce radiation rashes on monitors.

In addition, the use of PCs continues to increase, and has now become a major consumer of electrical energy. The US Environmental Protection Agency is pressing computer producers to develop new systems to increase energy efficiency. Thus, low-voltage ICs and microcomputer power management technologies have contributed to reducing consumption when the computer is not in use. However, improving the energy efficiency of a PC is not an easy task until a suitable alternative to the CRT or a more efficient CRT is available.

What is needed is a way to shut down the monitor's high energy consumption circuitry when the display is not in use. This is determined by the period of inactivity from input devices such as modems, mice, keyboards, and the like. Many computers and monitor terminals use technologies such as screen blanking circuitry and screen saver functions. In other words, pressing a key or moving the mouse activates the previous screen again.

This power saving function is called DPM mode (Display Power Management Mode). In DPM mode, it is determined that the monitor is not used depending on the presence or absence of the vertical or horizontal synchronization signal. According to the display, it is divided into Suspend / Stand-By mode and off mode.If both vertical and horizontal sync signals are not inputted to the monitor, it is classified into off mode for standby of the microcomputer in the monitor. It is an operation mode that supplies power only to essential components and cuts off the power supply to other components, especially heaters and deflection ICs that consume large power.

According to the energy standard 'ENERGY 2000', the power consumption in the monitor's DPM off mode is limited to within 3W. Therefore, according to this international trend, in order to respond quickly to the demands of consumers and buyers, there is an urgent need for technology development for power consumption within 3W in the DPM off mode.

Referring to the power control method of the conventional monitor using this principle as follows.

As shown in Fig. 1, the microcomputer of the monitor monitors the horizontal / vertical synchronization signal input from the PC (1S).

As a result of the monitoring (1S), if the vertical and horizontal synchronizing signals are normally input from the PC (2S), it is determined as the normal mode and power is normally supplied to all the circuits (3S).

On the other hand, if the monitoring results (1S), both vertical and horizontal synchronization signals are not normally input, it is determined whether only one of the vertical and horizontal synchronization signals is normally input (4S), and if only one of the vertical and horizontal synchronization signals is normal, standby Alternatively, it is determined in the suspend mode and all power circuits except the power supplied to the heater are turned off (5S). That is, the horizontal synchronization signal is checked between each pair of the vertical synchronization signals, and if the interval count of the horizontal synchronization signal greatly exceeds the maximum video scan rate of the monitor, it is determined that there is no vertical synchronization signal. In this case, the power consumption of the monitor is reduced by about 80% to 90%.

When all of the synchronization signals are not input, it is determined as the off mode (6S), and all power circuits including the heater power supply are turned off (7S). Monitor power consumption in this off mode is reduced by more than 98%.

This process is repeated if the main power is not cut off.

The power control method of the conventional monitor as described above has the following problems.

First, since the power of the monitor is controlled in three steps by determining the state of the vertical and horizontal synchronization signals, there is a limit in the reduction of power consumption. That is, since the power is supplied to the heater in the standby mode or the suspend mode, power consumption by the heater is not reduced.

Second, when the monitor is reactivated while the monitor is turned off, including the heater power, which is in the off mode, it takes a long time to heat the heater. do.

The present invention has been made to solve such a problem, the power control of the monitor to control the power of the monitor in two stages depending on the use of the PC to further reduce power consumption and shorten the time required to reactivate The purpose is to provide a method.

1 is a flow chart showing a power control method of a monitor according to the prior art.

2 is a block diagram showing the configuration of a power control apparatus for a monitor according to the present invention;

3 is a flowchart illustrating a power control method of a monitor according to the present invention.

The power control apparatus of the monitor according to the present invention for achieving the above object is a predetermined level reduced compared to the main power supply for supplying the operating power of each part of the monitor in the normal mode, and the heater power supplied from the main power supply in the power saving mode. An auxiliary power supply for supplying a level power to the heater, a power supply control for controlling the power supply of the main power supply and the auxiliary power supply, a power saving mode control for controlling the power supply according to the control signal, and a vertical / horizontal synchronization signal input It is characterized in that it comprises a microcomputer for determining the normal mode / sleep mode according to the output of the control signal to the power saving mode control unit according to the determination result.

In addition, the power control method of the monitor according to the present invention comprises the steps of determining the normal mode or the power saving mode, supplying power to all circuits including the heater if it is determined that the normal mode, and if it is determined that the power saving mode is originally supplied to the heater It is characterized in that it comprises the step of supplying a lower level of power than the level of the power supply to be cut off the power supply of other circuits.

Referring to the accompanying drawings, a preferred embodiment of the power control apparatus and method of the present invention having such a feature will be described in more detail below.

2 is a block diagram showing the configuration of a power control apparatus of a monitor according to the present invention, Figure 3 is a flow chart showing a power control method of the monitor according to the present invention.

One embodiment of the power control device of the monitor according to the present invention, as shown in Figure 2, in the normal mode, each unit operating power, that is, B ⁺ 1 (FBT power supply), B ⁺ 2 (6.3V heater power supply), B A main power supply 11 for supplying ⁺ 3 (deflection stage power supply), B ⁺ 4 (video stage power supply), B ⁺ 5 (microcomputer power supply), and B ⁺ n (other power supply); Compared to the 6.3V heater power supplied from 11), the auxiliary power supply unit 12, the main power supply unit 11 and the auxiliary power supply unit 12 supply power to supply the power to the heater at a predetermined level reduced in pressure (for example, 3.15V). The power control unit 13 for controlling the supply, the power saving mode control unit 14 for controlling the power control unit 13 according to the power saving mode control signal, and determines the normal mode / power saving mode according to the vertical / horizontal synchronization signal input. And a microcomputer 15 for outputting a power saving mode control signal to the power saving mode control unit 14 according to the determination result. do.

The power control method of the present invention configured as described above will be described with reference to FIG. 3.

First, the microcomputer 15 monitors the horizontal and vertical synchronization signal inputs from the PC (31S).

In operation 32S, it is determined whether the vertical synchronization signal and the horizontal synchronization signal are normally input from the PC.

As a result of the determination 32S, if one of the horizontal or vertical synchronization signals is not normally input or if all of the synchronization signals are not normally input, the level lower than the power B ⁺ 2 supplied to the heater from the main power supply 11 For example, the power of 1/2 level, that is, the power B ⁺ 2 'of the auxiliary power supply 12 is supplied to the heater and the power supply of the other main power supply 11 is cut off (34S). At this time, the microcomputer power source B ⁺ 5 of the main power supply unit 11 is continuously supplied in preparation for the monitor reactivation.

That is, the microcomputer 15 outputs a control signal according to the power saving mode determination to the power saving mode control unit 14, and the power saving mode control unit 14 cuts off the power supply of the main power supply unit 11 except for the microcomputer power supply B ⁺ 5. And the power control unit 13 is controlled so that only the power supply of the auxiliary power supply unit 12 is made. Therefore, the power control unit 13 cuts off the power supply of the main power supply unit 11 and supplies power only to the heater through the auxiliary power supply unit 12.

As such, when the voltage level lower than the normal level is supplied through the auxiliary power supply unit 12, power consumption may be reduced in the power saving mode and the time required for reactivation of the monitor screen may be reduced to about 5 seconds.

On the other hand, when the determination result 32S, when both the horizontal and vertical synchronization signal is normally input to the normal power supply to each part through the main power supply unit 11 and the power supply of the auxiliary power supply unit 12 is cut off (33S).

In FIG. 3, the power saving mode is described only by monitoring the synchronization signal. However, the power saving mode is not limited thereto, and color signals R, G, and B input from the PC may be determined to determine the normal mode or the power saving mode. In addition, it is possible to execute the two-stage power saving control method according to the present invention by using the voltage change inside the monitor.

One embodiment of the present invention described above is a case where the power level supplied from the auxiliary power supply to the heater is 1/2 level of the power supplied from the main power supply to the heater as an example. It is variable within an appropriate range that can satisfy the time at the same time.

The apparatus and method for controlling power of a monitor according to the present invention as described above have the following effects.

First, although the power consumption of the monitor is controlled in three stages of the normal mode, the standby mode, and the off mode, in the present invention, the power consumption of the monitor is controlled in two stages of the normal mode and the power saving mode. Can be reduced.

That is, the cathode heater power is supplied in the standby mode in which one synchronization signal of the vertical or horizontal synchronization signal is input. However, in the present invention, the heater power is cut off even when the synchronization signal of the vertical or horizontal synchronization signal is input. The power consumption is further reduced.

Secondly, the reactivation time of about 8 seconds is required when reactivating from the off mode to the normal mode. However, in the present invention, since the power is supplied to the heater lower than normal in the power saving mode, it has a reactivation time within 5 seconds.

Claims (5)

In the normal mode, the main power supply for supplying the operating power to each part of the monitor, Auxiliary power supply for supplying a power of a predetermined level reduced to the heater compared to the heater power supplied from the main power supply in the power saving mode, A power control unit for controlling power supply of the main power supply unit and the auxiliary power supply unit; A power saving mode control unit for controlling the power control unit according to a predetermined control signal; And a microcomputer for determining a normal mode / power saving mode according to the vertical / horizontal synchronization signal input and outputting a control signal to the power saving mode control unit according to the determination result. Determining a normal mode or a power saving mode; Supplying power to all circuits including a heater if it is determined that the operation mode is normal; If the power saving mode is determined, supplying a lower level of power than the level of power originally supplied to the heater, and controlling power supply to the other circuits. The method of claim 2, The normal or power saving mode is determined as a normal mode when the vertical and horizontal synchronization signals input from the PC are normally supplied, and is determined as a power saving mode when at least one of the two synchronization signals is abnormally input. Power control method of the monitor, characterized in that. The method of claim 2, The method of determining the normal or power saving mode is determined by using a change in the color signal input from the PC. The method of claim 1, The method of determining the normal or power saving mode of the power control method of the monitor, characterized in that the determination using the power change inside the monitor.