KR100686050B1 - Apparatus for saving back light power consumption of monitor - Google Patents

Abstract

The present invention relates to a device for reducing the backlight power consumption of a monitor to reduce power consumption. The invention provides a backlight for providing a light source for a display; A current detector detecting the backlight consumption current; A power supply unit supplying at least two power sources having different voltage levels to the backlight as driving power; Provides a backlight power saving device for a monitor including a control unit for controlling to supply one of the output power of the power unit based on the output of the current detector. As a result, backlight power consumption can be minimized by using backlight glow discharge characteristics, thereby reducing overall monitor power consumption and more easily responding to changes in international energy standards.

Backlight, Current, Switching, Glow Discharge

Description

Apparatus for saving back light power consumption of monitor}

1 is a block diagram showing a backlight related configuration of a monitor according to the related art.

2 is a block diagram showing the configuration of a device for reducing power consumption of a backlight of a monitor according to the present invention;

* Explanation of symbols for main parts of drawings *

11: backlight 12: power supply

13: inverter 21: switching unit

22: current detector 23: control unit

The present invention relates to a monitor, and more particularly, to an apparatus for reducing backlight power consumption of a monitor.

In general, a monitor uses CRT (), LCD (), etc. as a display element for displaying a screen.

In particular, LCD has a merit to make the monitor lighter and thinner than CRT. In recent years, LCD, which has a price competitiveness thanks to technology development, is becoming the mainstream of the monitor.

Such LCDs cannot self-luminous. Therefore, in order to use this in a monitor, a backlight (light) that provides a light source on the back of the LCD panel is essentially provided.

The backlight has a configuration that occupies a substantial portion of power consumption in a monitor employing an LCD, and there is an urgent need for technology development to reduce power consumption of the backlight.

As shown in FIG. 1, the monitor employing the aforementioned LCD includes a backlight 11, an inverter 13 for supplying driving power to the backlight 11, and a power source fixed to the inverter (eg, 24V). It includes a power supply 12 for providing a).

Other configurations for image processing, etc., are omitted because they do not have a direct relationship for technical explanation.

The power supply unit 12 may be a switching mode power supply (SMPS), and is supplied with a commercial AC power (usually 220V) and transformed to supply power at various levels (for example, 24V, 5V, etc.) for operation of each component of the monitor. )

The inverter 13 converts the 24V power output from the power supply unit 12 into an alternating current form and supplies the alternating current to the backlight 11 so that the backlight 11 generates light.

Meanwhile, the 5V power output from the power supply unit 12 is supplied to other components including the microcomputer.

At this time, according to the prior art, 24V power is always supplied to the backlight 11 while the monitor is powered on.

However, the conventional monitor described above has the following problems because the power supply voltage fixed to the backlight is continuously supplied while the power is turned on.

First, since the backlight itself consumes the most power, the overall power consumption greatly increases. For example, a 50-inch LCD panel consumes about 300W of power.

Second, due to the power consumption of the backlight, it is difficult to cope with the energy standard, which has recently become more strict.

The present invention is to solve the above problems, it is an object of the present invention to provide a device for reducing the backlight power consumption of the monitor to reduce the power consumption.

In order to achieve the above object, the present invention provides a backlight for providing a light source for a display; A current detector detecting the backlight consumption current; A power supply unit supplying at least two power sources having different voltage levels to the backlight as driving power; It provides a device for reducing the backlight power consumption of the monitor including a control unit for controlling to supply one of the power output unit based on the output of the current detector.
The controller may compare the current value detected by the current detector with a reference current value.
If the current value detected by the current detector is greater than or equal to the reference current value, the high level power of the output power of the power supply unit is supplied to the inverter. It further comprises a switching unit to be supplied to.

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Therefore, according to the present invention, the backlight power consumption can be minimized by using the backlight glow discharge characteristic, thereby reducing the overall power consumption of the monitor and more easily responding to changes in international energy standards.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention that can specifically realize the above object will be described.

The same components as in the prior art are given the same names and the same reference numerals for convenience of description, and detailed description thereof will be omitted.

Referring to FIG. 2, a first embodiment of a backlight power saving apparatus for a monitor according to the present invention will be described in detail.

As shown in FIG. 2, a backlight power saving device for a monitor according to the present invention includes a backlight 11 that provides a light source for a display, a current detector 22 that detects the backlight consumption current, and the backlight 11. An inverter 13 for supplying driving power to the power source; a power supply unit 12 for outputting at least two or more power sources 24V and 5V having different voltage levels; and one of the output power supply units of the power supply unit 12 according to a control signal. The control unit 23 for controlling the switching unit 21 in accordance with the output of the switching unit 21, the current detection unit 22 is supplied to).

The backlight 11 mainly uses a cold cathode fluorescent lamp, which is briefly described as to the operation characteristics of the cold cathode fluorescent lamp.

Cold cathode fluorescent lamps supply an appropriate high voltage between the anode and the cathode to create an electric field that allows the free electrons to be emitted from the cathode. Ultraviolet rays are generated by colliding with a gas such as Ar), and the ultraviolet rays stimulate the fluorescent material on the surface of the lamp to generate light (visible light).

If the kinetic energy of the free electrons emitted from the cathode is large enough, the electrons of the gas molecules are not excited from the nucleus but are fully ionized. The gas molecules then separate into a pair of free electrons and cations. This creates more free electrons inside the lamp than the number of free electrons initially generated at the cathode. The cations generated by the ionization of electrons move to the cathode along the electric field, collide with the cathode, and ionize the electrons of the negative electrode material again. In this way, electrons are newly generated at the cathode and act as a source of ultraviolet radiation.

When the operation of the lamp goes through the above-described process, it becomes a state in which visible light generation of the lamp is sufficiently possible even with a lower power supply voltage than the initial stage. In the glow discharge state, the current consumed by the cold cathode fluorescent lamp also naturally decreases. Therefore, the above-described glow discharge state can be identified through the amount of current consumption of the lamp.

On the other hand, the control unit 23 is a comparison means for comparing the current value detected by the current detector 22 and the reference current value, and if the current value detected by the current detector 22 is greater than or equal to the reference current value power supply unit ( 12) the switching unit 21 is controlled so that a high level (24V) of the output power is supplied to the inverter 13, and if the current value detected by the current detection unit 22 is less than the reference current value, the power supply unit 12 Determination means for controlling the switching unit 21 to supply the low level (5V) of the output power to the inverter (13).

Referring to the operation of the first embodiment according to the present invention configured as described above are as follows.

Initially, when the monitor power is 'on', the high level power, that is, the 24V power of the power supply 12, is supplied to the backlight 11 via the inverter 13 through the switching unit 21.

At this time, the control unit 23 is set so that the switching unit 21 supplies the 24V power to the inverter 13 at the beginning of the monitor operation.

Therefore, the backlight 11 provides light to the LCD according to the power supplied through the inverter 13.

On the other hand, the current detector 22 detects the current consumption of the backlight 11 and outputs it to the controller 23.

Subsequently, the controller 23 compares the backlight consumption current with the reference current, and controls the switching unit 21 to maintain the initial state when the backlight consumption current is equal to or greater than the reference current.

At this time, the reference current is for determining the above-described glow discharge state, and is a value obtained by taking an average value of the amount of current consumed during glow discharge through experiments for each monitor model.

On the other hand, the controller 23 compares the backlight consumption current with the reference current, and if the backlight consumption current is less than the reference current, determines that the glow discharge state and the switching unit 21 to supply a low-level power, that is, 5V power to the inverter 13. To control.

Therefore, the backlight 11 provides light to the LCD according to the power supplied through the inverter 13.

Hereinafter, a second embodiment of a backlight power saving device of a monitor according to the present invention will be described. At this time, the basic configuration of the second embodiment of the present invention is the same as that of the first embodiment described above. Therefore, separate drawings are omitted. However, in the second embodiment of the present invention, unlike the first embodiment, the control unit 23 does not control the switching unit 21, but the current detection unit 22 controls the switching unit 21 directly. will be.

That is, the current detecting unit 22 may switch the switching unit 21 according to the comparison means for comparing the reference current and the detected consumption current in addition to the backlight 11 consumption current detection configuration, and the comparison result of the comparison means. The switching signal generating means is further configured.

Therefore, no separate control unit is required.

Since the operation of the second embodiment of the present invention configured as described above is the same except that the current detection unit 22 performs the operation of the control unit 23 in the first embodiment, the description thereof is omitted.

The present invention is not limited to the above-described embodiments, and can be modified by those skilled in the art as can be seen from the appended claims, and such variations are within the scope of the present invention. .

Backlight power saving device of the monitor according to the present invention described above can minimize the backlight power consumption by using the backlight glow discharge characteristics can reduce the overall power consumption of the monitor, and can more easily respond to changes in international energy standards It has an effect.

Claims (4)

A backlight providing a light source for the display; A current detector detecting the backlight consumption current; A power supply unit supplying at least two power sources having different voltage levels to the backlight as driving power; And a control unit which controls to supply one of the output powers of the power unit based on the output of the current detector. The method of claim 1, And the controller compares the current value detected by the current detector with a reference current value. The method of claim 1, If the current value detected by the current detector is greater than or equal to the reference current value, the high level power of the power supply output power is supplied to the inverter. If the detected current value is less than the reference current value, the low level power of the power supply output power is the inverter. The apparatus of claim 1, further comprising a switching unit configured to be supplied to the monitor. delete

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