KR101890672B1 - Apparatus for reduce power controlling of the monitor - Google Patents

Abstract

The present invention relates to a power consumption control apparatus of a monitor which uses a dynamic contrast ratio (DCR) to darken a screen under specific conditions, such as entering a screen saver mode or performing a white pattern operation, or turn off LEDs to control the power supply to a panel, thereby reducing power consumption. The power consumption control apparatus includes: a sub-board which receives LED driver control signals, dimming signals, and low-voltage differential signaling (LVDS) signals being output to a display panel from a body to generate power supply control signals of the display panel in a static screen mode; and a display panel which turns off the LEDs or adjusts the brightness in the static screen mode in accordance with the power supply control signals being output from the sub-board. The power consumption control apparatus of the monitor is realized to reduce power consumption by controlling the power supply to the display panel in the monitor.

Description

[0001] The present invention relates to a power control apparatus for a monitor,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to power consumption control of a monitor, and more particularly, to a method of controlling power consumption of a panel by using a dynamic contrast ratio (DCR) to darken a screen or turn off an LED in a white pattern or a specific condition To a power consumption control apparatus for a monitor which can reduce power consumption.

In general, the computer turns off the display in the standby mode (power saving mode) or the monitor power off mode to reduce the power consumption. At this time, the monitor screen is turned off, but the power of the monitor is continuously supplied to consume power. That is, standby power is continuously supplied to the control board of the monitor even when the screen is turned off, resulting in standby power consumption.

This standby power consumption is an unnecessary power waste, which causes waste of energy and causes CO ₂ to pollute the environment.

Accordingly, various researches have been made to solve the environmental pollution problem by preventing the waste of electric power by cutting off the power supply without removing the plug for supplying the commercial power to the monitor, suppressing the generation of CO ₂ .

For example, a method of controlling standby power by sensing a single signal such as a video signal or an output of a power supply to shut down the power of the monitor, a method of controlling the standby power based on a signal output from an external device (for example, The standby power of the monitor is controlled by controlling the power.

On the other hand, as an example of various studies for standby power control, a conventional technique for reducing standby power in a computer is disclosed in the following Patent Documents 1 to 2. [

The prior art disclosed in Patent Document 1 analyzes a power output situation of a power supply device (SMPS), and detects a power internal state and controls a power inside according to the set information, Lt; / RTI >

In addition, in the prior art disclosed in Patent Document 2, the control unit determines the off mode more accurately through the dual configuration of the detection module for detecting the power saving mode determination signal, thereby detecting the maximum power saving of the power supply device and preventing malfunction .

In addition, the prior art disclosed in Patent Document 3 includes a screen capture unit for capturing a screen, a screen change analyzing unit for analyzing a screen change, an input unit for receiving a user's operation signal, a screen change analysis result, And a power saving control unit for controlling power saving of the computer body and the display unit based on the set power saving mode, and controls the power saving based on the screen change rate after screen capture.

Korean Registered Patent No. 10-1443316 (Registered on September 16, 2014) (Power supply unit with built-in management function) Korean Registered Patent No. 10-1568637 (Registered on May 5, 2015) (Power saving power supply device with double detection module) Korean Patent Publication No. 10-2017-0017282 (published on February 15, 2015) (Computer Power Saving Control Apparatus and Method Thereof)

However, the above-described related arts have a disadvantage in that the power saving efficiency is low because the power of the display panel is supplied as it is during power saving, because the brightness of the screen is lowered by controlling the LED of the monitor during the power saving control.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the related art, and it is an object of the present invention to provide a display device capable of dimming a screen in a white pattern or a specific condition The power consumption of the monitor can be reduced by controlling the power of the panel.

Another object of the present invention is to provide a liquid crystal display (LCD) device that receives an LVDS signal output from a main board, an on / off signal and a dimming signal output from an LED driver from a sub board, darkens the white pattern using DCR, Power consumption of the monitor can be reduced by controlling the panel power source in such a manner that the panel power is turned off.

According to an aspect of the present invention, there is provided an apparatus for controlling power consumption of a monitor, including: a low voltage differential signaling (LVDS) signal output from a main board to a display panel; an LED driver control signal and a dimming signal; A sub-board for receiving power and generating a power control signal of the display panel in a static screen state; And a display panel for adjusting brightness or turning off the LED in a static screen state according to a power control signal output from the sub-board.

The sub-board includes a power control unit for receiving a low voltage differential signaling (LVDS) signal, a LED driver control signal, and a dimming signal, which are output from the main board to a display panel, .

The power controller may include a data converter for converting an LVDS signal output from the main board into a TMDS (Transition Minimized Differential Signaling) signal; And a scalar for analyzing the TMDS signal converted by the data converter and the LED driver control signal and the dimming signal to generate a control signal for adjusting the brightness or turning off the LED in a static screen state of the display panel .

The scaler recognizes the input dimming value as a maximum value and adjusts the dimming value within a range of 0V to the input dimming voltage.

In the above, the scaler automatically lowers the dimming value proportionally to the amount of white pattern using the dynamic contrast ratio.

The scaler is characterized in that the display panel is turned off when the input dimming value approaches 0V.

According to the present invention, the LVDS signal output from the main board, the on / off signal and the dimming signal output to the LED driver are received from the sub-board and dimmed in the white pattern using DCR (dynamic contrast ratio) By controlling the panel power by turning off the LED, there is an advantage that the power consumption of the monitor itself can be reduced to the maximum.

1 is a configuration diagram of a power consumption control apparatus for a monitor according to the present invention,
2 is a block diagram of an embodiment of the power control unit of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for controlling power consumption of a monitor according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a power consumption control apparatus for a monitor according to a preferred embodiment of the present invention.

The apparatus for controlling power consumption of a monitor according to the present invention includes a sub-board 100, a backlight board 200, and a display panel 300.

The display panel 300 is a display panel for displaying display data generated from the main body on a screen, and the backlight board 200 is a board for implementing the backlight of the display panel 300. Here, the display panel 300 adjusts the brightness or turns off the LED in a static screen state according to the power control signal output from the sub-board 100.

The sub-board 100 receives a low voltage differential signaling (LVDS) signal, an LED driver control signal, and a dimming signal, which are output from the main body to the display panel 300, 300, respectively.

The sub-board 100 includes a display data interface unit 101, a power switching unit 103, a rectifying and filtering unit 104, a power controller 105, a power output unit 106, a backlight signal generating unit 107, A time checking unit 108, a power cutoff unit 109, and a power control unit 110. [

Here, the display data interface unit 101, the power switching unit 103, the rectifying and filtering unit 104, the power controller 105, the power output unit 106, the backlight signal generating unit 107, the time checking unit 108 Is implemented in a separate sub-board 100, the sub-board 100 may be implemented as a separate board, or an analog / digital conversion board (AD board) provided in a normal monitor may be used. It is also possible to implement a power saving function in an arbitrary board provided in the monitor.

The display data interface unit 101 interfaces the power control unit 110 with an LVDS signal, an LED driver control signal (on / off signal) and a dimming signal generated for display from the computer main body.

The power switching unit 103 outputs the DC voltage inputted when the monitor power switch is turned on as backlight power and limits the output when the power switch is turned off.

The rectifying and filtering unit 104 rectifies and filters the voltage supplied through the power switching unit 103 and outputs the rectified and filtered voltage to the power output unit 106. The rectifying and filtering unit 104 outputs To the backlight power.

The power controller 105 controls the power output of the power switching unit 103 and the power output unit 106.

In addition, the backlight signal generator 107 generates a backlight signal for driving the backlight board 200 using a backlight power supplied from the power output unit 106.

The time check unit 108 senses a power signal of a monitor to be supplied to the backlight board 200 for display and transmits the power signal to the power controller 110 as a power consumption sensing signal.

The power cutoff unit 109 turns off the backlight signal generation unit 107 that generates the backlight signal in the power saving mode under the control of the power control unit 110.

The power control unit 110 determines a power saving mode based on the power consumption detection signal, cuts off the generation of a backlight signal in the power saving mode to reduce the power consumption of the monitor, And receives a low voltage differential signaling (LVDS) signal, an LED driver control signal, and a dimming signal, which are output from the interface unit 101 to the display panel 300, and generates a power control signal for the display panel 300.

2, the power control unit 110 includes a data converter 111 for converting an LVDS signal output from the display data interface unit 101 into a TMDS (Transition Minimized Differential Signaling) signal, A scalar 112 for generating a control signal for adjusting the brightness or turning off the LED in the static screen state of the display panel 300 by analyzing the TMDS signal converted from the LED driver control signal and the dimming signal, .

The scaler 112 recognizes the input dimming value as a maximum value and adjusts the dimming value within a range of 0V to the input dimming voltage or automatically dims the dimming value proportionally to the amount of white pattern using the dynamic contrast ratio, The power of the display panel 300 can be controlled to be turned off when the value reaches a preset value to recognize the value as 0V.

The operation of the power consumption controller of the monitor according to the present invention will be described in detail below.

First, when the power switch of the monitor is turned on, the DC voltage DC is transmitted to the power switching unit 103 of the sub-board 100.

At this time, since the power switch of the monitor is turned on, the power switching unit 103 turns on the internal power switch under the control of the power controller 105 and outputs the input power to the downstream side.

The rectifying and filtering unit 104 provided at the rear stage of the power switching unit 103 rectifies the power output through the power switching unit 103 and removes high frequency noise and outputs the rectified power to the power output unit 106.

The power output unit 106 supplies the power inputted thereto under the control of the power controller 105 to the backlight driving power source.

When the power switch of the monitor is turned off in the power supply state as described above, the power output of the power output unit 106 is cut off and the power output of the power switching unit 103 is also cut off under the control of the power controller 105 .

The time check unit 108 is connected to the power output unit 106 to supply the driving power to the backlight board 200 which is a load in the power output unit 106 or the driving power supply to the backlight board 200 Or not. Here, the detection method uses a method of detecting the power signal of the monitor. In addition, the time check unit 108 detects the backlight driving power supply time using a timer circuit and transmits the backlight driving power supply time to the power control unit 110 as a power consumption detection signal.

The power control unit 110 determines a power saving mode based on the power consumption detection signal detected by the time check unit 108. For example, the power control unit 110 determines the off mode accurately by using a method of detecting an internal signal of the monitor through the time check unit 108, thereby preventing a malfunction.

The power controller 110 detects the presence or absence of a power signal of the monitor through the power consumption detection signal and determines that the power saving mode is an off mode when the power consumption signal is off.

Next, when it is judged that the mode is the power saving mode, all signals inside the monitor are blocked, thereby reducing power consumption. For example, a power cutoff control signal is generated and transmitted to the power cutoff unit 109, and a power consumption control signal corresponding to the power off signal is transmitted to the EMI filter and the power consumption reduction unit 101, respectively.

The power cutoff unit 109 turns off the operation of the backlight signal generation unit 107 based on the power cutoff control signal and blocks the backlight signal generation. This saves power consumption. By basically controlling the operation of the backlight signal generating section 107, it is possible to eliminate the use of the power consumption fundamentally, thereby saving power.

The power consumption of the monitor can be controlled in the same manner as described above. The power consumption of the monitor, which is the main object of the present invention, is controlled by controlling the power of the display panel 300 in a static screen state. Save as much as possible.

For example, the power control unit 110 of the sub-board 100 receives a Low Voltage Differential Signaling (LVDS) signal, an LED driver control signal, and a dimming signal output from the display data interface unit 101 to the display panel 300 .

In addition, the data converter 111 in the sub-board 100 converts the LVDS signal into a TMDS (Transition Minimized Differential Signaling) signal and transmits the TMDS signal to the scaler 112. Here, the LVDS signal is display data for displaying on the display panel 300.

The scaler 112 analyzes the TMDS signal converted by the data converter 111 and the LED driver control signal and the dimming signal to control the brightness of the display panel 300 in a static screen state, And generates a signal.

For example, the input dimming value is recognized as the maximum value, and the dimming value is adjusted within a range of 0V to the input dimming voltage to reduce the power consumption of the monitor. In other words, the input dimming value is recognized as the maximum brightness of the monitor, and the dimming value is adjusted by setting the power consumption of the monitor to the maximum (MAX).

In addition, when the input dimming value reaches a preset value recognized as 0 V, the scaler 112 turns off the power of the display panel 300, thereby maximizing the power consumption reduction of the monitor itself. Here, the dimming value is used to output a backlight "0" when the screen saver enters the window saver, and outputs "100 " when the screen saver is turned off. Thus, it is possible to determine whether the input dimming value has reached 0V. When the input dimming value reaches a preset value recognized as 0 V, the power of the display panel 300 is cut off, thereby maximizing the power saving width of the monitor itself.

Also, the scaler 112 analyzes the TMDS signal transmitted from the data converter 111 using a dynamic contrast ratio (DCR). The dynamic contrast ratio is a technology that automatically adjusts the brightness of the backlight instantaneously to maintain the optimal contrast ratio even when the bright scene is suddenly darkened. This dynamic contrast ratio is used to extract the white pattern, and the dimming value is automatically lowered proportionally to the extracted white pattern amount.

For example, when a user works on a document, a lot of white patterns are recognized in comparison with a movie or other Internet screen. In this case, the dimming value is automatically lowered to reduce power consumption. In this case, if the control data for adjusting the dimming value in proportion to the amount of white pattern is set in advance in the form of a lock-up table, the dimming control for each step can be performed in real time and conveniently according to the amount of white pattern.

As described above, according to the present invention, the LVDS signal output from the main board, the on / off signal and the dimming signal output to the LED driver are input to the sub-board, the brightness of the screen is reduced in the white pattern using DCR (dynamic contrast ratio) When the protector is entered, the power of the panel is controlled by turning off the LED, thereby maximizing the power consumption of the monitor itself.

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

INDUSTRIAL APPLICABILITY The present invention is effectively applied to a technique of controlling power of a display panel in a monitor to reduce power consumption.

100: Subboard
101: Display data interface unit
103: Power switching unit
104: rectification and filter section
105: Power controller
106: Power output section
107: Backlight signal generator
108: Time check section
109:
110:
111: Data converter
112: scaler
200: backlight board
300: Display panel

Claims (6)

An apparatus for reducing power consumption through power control of a display panel in a monitor, the apparatus comprising: a low voltage differential signaling (LVDS) signal output from the main body to a display panel; an LED driver control signal and a dimming signal; A sub-board for generating a power control signal of the display panel in a state where the sub-
The sub-board includes a power controller for receiving a low voltage differential signaling (LVDS) signal, a LED driver control signal, and a dimming signal, and generating a power control signal for the display panel,
Wherein the power control unit includes a scalar for generating a control signal for adjusting a brightness of a display panel or turning off an LED,
The display panel adjusts brightness or turns off the LED in a static screen state according to a power control signal output from the sub-board,
The scaler analyzes the TMDS signal, the LED driver control signal, and the dimming signal converted by the data converter converting the LVDS signal into a TMDS (Transition Minimized Differential Signaling) signal, Adjust the brightness of the panel or turn off the LEDs, and recognize the input dimming value as the maximum value. Adjust the dimming value from 0V to the input dimming voltage. If the preset dimming value reaches the preset value, Off of the power consumption of the monitor.
delete delete delete delete The apparatus of claim 1, wherein the scaler uses a dynamic contrast ratio (DCR) to automatically reduce the dimming value when the white pattern amount is large, thereby reducing power consumption.

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