KR20160113751A - Power supply and the control method with a built-in power management features of the monitor - Google Patents

Abstract

The present invention relates to a power supply apparatus with a built-in power management function of a monitor and a control method thereof capable of efficiently managing the power of a monitor by inspecting the power consumption of a control signal of an image board inside a monitor and the power consumption of an inverter in real time, and controlling the power generation and the supply and block of the generated power. The present invention realizes a power supply apparatus, comprising: an image board which transmits an image signal to be displayed in a liquid crystal display and generates a control signal for displaying an image signal; an inverter which supplies power to be displayed in the liquid crystal display; and a power management function of a monitor as a power supply board which generates power of a monitor depending on the power consumption of a control signal of the image board and an image board and the power consumption of the inverter, and supplies power of the image board and inverter and controls disconnection. Therefore, the monitor itself controls power.

Description

Technical Field [0001] The present invention relates to a power supply having a power management function of a monitor and a control method thereof,

More particularly, the present invention relates to a power supply device and a control method thereof, in which a control signal, a power consumption amount and an inverter power consumption amount of a monitor internal video board are checked in real time, The present invention relates to a power supply apparatus and a control method thereof that incorporate a power management function of a monitor for controlling power supply of a monitor by controlling supply and cutoff of a monitor.

Generally, the computer turns off the monitor screen in standby mode (power saving mode) or 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, power is constantly supplied to the video board of the monitor even when the screen is turned off, resulting in power consumption.

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

Therefore, without removing the plug for supplying a commercial power to the monitor to stop the supply power to avoid power waste, and a variety of studies for suppressing the co ₂ generated to solve environmental pollution problems and progress.

As examples of various studies, conventional techniques for power control of a monitor have been disclosed in the following Patent Documents 1 to 5.

In the prior art disclosed in Patent Document 1, a power switching unit is provided at a front end when power is supplied to a computer. When the computer is powered off, the power of the peripheral device (monitor) is shut off to shut off the standby power. That is, the computer includes a power switching unit 20 that receives external commercial power and provides operating power to the internal components of the computer, an outlet power switching unit 19 for turning off / supplying power to the peripheral devices, 18). When the computer is in the standby mode (power save mode), the socket power switching unit 19 is controlled by using the memory power source to shut off the power (AC power) supplied to the computer peripheral device. Through this process, block the standby power to thereby avoid waste of power saving, and suppress the occurrence of co _2.

The prior art disclosed in Patent Document 2 monitors the state of a peripheral device connected to a computer and the main body of the computer to control the power of the peripheral device and the main body separately, partially, or collectively (entirely) When the device is turned on, meals, conferences, payments, outings, etc., will save idle time that is not actually used and wasted power during standby time after system shutdown.

The prior art disclosed in Patent Document 3 monitors a driving state of a computer and controls peripheral devices (monitors, lights, heaters, air conditioners, etc.) using wired or wireless communication means including power line communication, And when the user operates the computer again, power is automatically supplied to operate the peripheral device without any additional operation to the peripheral device. According to this control, when the power line communication is used according to the operation state of the computer, it is not necessary to install a separate cable, the power supply to the peripheral device is controlled using the already installed power line, It can save unnecessary downtime and wasted energy during standby time after system shutdown.

The conventional art disclosed in Patent Document 4 includes a synchronous signal sensing control unit for sensing the presence of horizontal / vertical synchronizing signals provided from a computer main unit to a monitor and outputting a switching control signal accordingly; And a power switching unit which is installed in a power supply path for supplying power to the computer peripheral by receiving external power and has a structure for conducting or blocking the path according to a switching control signal, It cuts off unnecessary power consumption and standby power in computer peripherals (monitor, printer, speaker, etc.).

The prior art disclosed in Patent Document 5 completely cuts off the power supply of the computer peripheral device in the standby mode (power saving mode) or the monitor power off mode while the computer is in use and completely turns off the power of the computer and the peripheral device when the computer is turned off , The wasted power consumption and the wasted standby power can be set to zero without unplugging, thereby suppressing excessive CO ₂ emission caused by unnecessary power generation, thereby reducing environmental pollution.

International Publication No. WO 2013147483 Al (published Oct. 3, 2013) Korean Patent Publication No. 10-2006-0042781 (published on May 15, 2006) Korean Patent Publication No. 10-2011-0101564 (published on September 16, 2011) Korean Patent Publication No. 10-2011-0047112 (Published May 25, 2011) Korean Patent Laid-Open No. 10-2013-0109060 (Published Oct. 10, 2013)

However, the above-described conventional techniques have an advantage that power consumption of a peripheral device can be prevented during power-off of the computer or power-saving mode, but it is impossible to control the power of the monitor itself.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a method and apparatus for monitoring a control signal, a power consumption, and a power consumption of an inverter, A power supply apparatus incorporating a power management function of a monitor for controlling power supply of a monitor by controlling supply and cutoff of generated power and a control method thereof.

It is another object of the present invention to provide a power supply apparatus and a control method thereof, which incorporate a power management function of a monitor for efficiently controlling the power inside the monitor independently of the main body in a power supply unit built in the monitor .

According to an aspect of the present invention, there is provided a power supply device including a power management function of a monitor according to the present invention, which transmits a video signal for display to a liquid crystal display device and generates a control signal for displaying a video signal Video board; An inverter for supplying a display power source to the liquid crystal display device; And a power supply board for controlling the power generation of the monitor and the power supply to the video board and the power supply of the inverter according to the control signal of the video board, the power consumption of the video board, and the power consumption of the inverter.

The image board generates at least one of an on / off signal of the liquid crystal display, brightness information of the liquid crystal display, and an operation mode of the video board as a control signal.

Here, the operation mode may include at least one of an on mode, a standby mode, and an off mode.

The power supply board detects power consumption of the video board and the power consumption of the inverter to generate a power detection signal and generates power for generating power for use in the video board and the inverter based on the input commercial power part; And a power controller for controlling the power generation of the power generator and the power supply of the video board and the inverter by combining the power detection signal generated in the power generator and the control signal generated in the video board.

The power supply board includes a first power switch for supplying or blocking the power generated by the power generator to the image board under the control of the power controller; And a second power switch for supplying or blocking the power generated by the power generator to the inverter under the control of the power controller,

And the power control unit controls the switching of the first and second power switches according to an operation mode of the video board.

According to an aspect of the present invention, there is provided a power supply control method including a power management function of a monitor according to the present invention. The power supply control method includes the steps of: (a) Supplying power to the power supply; (b) detecting the control signal and power consumption of the video board and the power consumption of the inverter in the power control board; (c) determining a power control mode of the monitor based on the information detected by the power control board in the step (b); (d) controlling the power of the video board and the inverter according to the power control mode determined in the step (c) in the power control board to thereby control the monitor power.

The control signal in the step (b) includes at least one of a liquid crystal display ON / OFF signal, a brightness information of the liquid crystal display, and an operation mode.

In the step (c), a control signal of the video board is checked to determine a first power control mode in which the monitor power is not controlled when the operation mode is on, The control unit determines the second power control mode to control the power generation unit and the power source of the inverter according to the power consumption of the detected video board. If the control signal of the video board is in the off mode, And a third power control mode for controlling the power supply of the second power control mode to correspond to the off mode.

In step (d), when a power switch signal for power off is generated in the video board, the monitor waits for a certain time until the monitor is turned off, and when the monitor enters the off mode, When a power switch signal for power-on is generated in the video board, a driving power is supplied to the video board, a control signal generated in the video board is detected, and the status of the inverter and the power generator is And recovering the data.

According to the present invention, by controlling the power of the video board and the inverter on the basis of the control signal of the video board incorporated in the monitor, the power consumption of the video board and the power consumption of the inverter in the power supply board built in the monitor, So that the power can be efficiently controlled.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram of a power supply unit incorporating a power management function of a monitor according to a preferred embodiment of the present invention;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a power supply control method,

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a power supply apparatus having a power management function of a monitor according to a preferred embodiment of the present invention and a control method thereof will be described in detail with reference to the accompanying drawings.

FIG. 1 is a configuration diagram of a power supply unit incorporating a power management function of a monitor according to a preferred embodiment of the present invention, and includes a liquid crystal display (LCD) 10, an inverter 20, an image board 30, Device (40).

The image board 30 transmits an image signal for display to the liquid crystal display device 10 and generates a control signal for displaying the image signal. The video board 30 also generates a power switch signal during operation of the monitor power switch and transmits the generated power switch signal to the power supply device 40.

The image board 30 generates at least one of an on / off signal of the liquid crystal display 10, a brightness information of the liquid crystal display, and an operation mode of the image board as a control signal desirable. Here, the operation mode may include at least one of an on mode, a standby mode, and an off mode.

The inverter 20 serves to supply display power to the LCD 10 using the power supplied from the power supply board 40. Preferably, the inverter 20 converts the DC power supplied from the power supply board 40 to AC power and supplies the AC power to the liquid crystal display 10.

The power supply board 40 controls the power generation of the monitor and the power consumption of the image board 30 and the power supply unit 30 according to the control signal of the image board 30, the power consumption of the image board 30, And serves to control power supply and cutoff of the inverter 20. [

The power supply board 40 detects the power consumption of the image board 30 and the power consumption of the inverter 20 to generate a power detection signal and outputs the power detection signal to the image board 30 and / A power generator (41) for generating a power source for use in the inverter (20); The power generation unit 41 and the video board 30 are combined to generate power for the power generation unit 41 and power of the video board 30 and the inverter 20. [ A power control unit (42) for controlling supply; A first power switch 44 for supplying or blocking the power generated by the power generator 41 to the image board 30 under the control of the power controller 42; And a second power switch 43 for supplying or blocking the power generated by the power generator 41 to the inverter 20 under the control of the power controller 42.

The power controller 42 controls the switching of the first power switch 44 and the second power switch 43 according to the operation mode of the video board 30. [

A power supply apparatus having the power management function of the monitor according to the preferred embodiment of the present invention will now be described in detail.

First, when power is supplied to the monitor, the power generation unit 41 of the power supply board 40 generates various power supplies for use in the monitor. At this time, both the first power switch 44 and the second power switch 43 are turned on (the switch is connected to the contact and supplies the power to the subsequent stage) under the control of the power control unit 44, The image board power generated in the power source generating unit 41 is supplied to the image board 30 through the first power switch 44 and the inverter power generated in the power generating unit 41 is supplied to the inverter 30 through the second power switch 43, (20).

The inverter 20 converts the supplied power to AC power under the control of the power control unit 42 and supplies it to the liquid crystal display 10. In addition, the image board 30 operates with the supplied power source, processes a video signal transmitted from the main body with a signal for displaying on the liquid crystal display device 10, and transmits the signal to the liquid crystal display device 10. Here, the power consumption of the surface board 30 varies depending on whether there is an image signal from the main body or not.

The liquid crystal display device 10 is driven by the power supplied from the inverter 20 and displays a video signal transmitted from the video board 30 on the screen.

Here, the inverter 20 supplies power to the liquid crystal display 10 differently depending on the brightness of the image and the like, whereby the power consumption of the inverter 20 is different.

On the other hand, when the operation of the image board 30 is started by the driving power source, information about the current operation mode of the image board 30, the liquid crystal display device on / off status signal, the brightness of the liquid crystal display device, To the power supply board 40 in real time. Here, the operation mode includes at least one of an on mode for activating all the operation power of the monitor, a standby mode for waiting for a signal input using only a minimum power, and an off mode for not consuming power at all do.

The power control unit 42 of the power supply board 40 controls the power consumption of the image board 30 and the power consumption of the inverter 20 ) To determine the power control mode of the monitor. The power generation unit 41 may generate the power supply of the video board 30 and the power supply of the inverter 20 and supply the power to the video board 30 and the inverter 20. In addition, It is also possible to detect the amount of power consumed by the inverter 20 and the amount of power consumed by the inverter 20. [ Power consumption can be detected in various positions and various methods. In the present invention, a method of detecting a load current of a corresponding part is used.

The power control unit 42 checks the operation mode of the control signal transmitted from the video board 30, and activates all the power sources when the operation mode is on. In this case, the first power switch 44 and the second power switch 43 maintain the switch-on state.

Next, when the operation mode is set to the standby mode, the power of the power generation unit 41 and the inverter 20 is set to be suitable for the standby mode so that the power consumption of the on-mode is reduced based on the detected power consumption of the video board . For example, the power generation unit 41 generates a power supply suitable for the standby mode and supplies power to the video board 30 and the inverter 20 ). In addition, a control signal suitable for the standby mode is applied to the inverter 20 to control the power of the monitor so that the power used by the inverter 20 also decreases corresponding to the standby mode.

As a result of checking the control signal of the image board 30, when the control signal is in the off mode, the power consumption of the surface board 30 is detected and the power generation operation of the power generator 41 is performed in accordance with the detected power consumption. And the power of the inverter 20 is controlled so as to be minimized in accordance with the off mode. That is, in the off mode, the power supplied to the video board 30 and the inverter 20 is set so that the power supplied to the video board 30 and the inverter 20 is minimized (lower than the consumed power in the standby mode) Respectively.

On the other hand, when the user operates the power switch attached to the monitor, the video board 30 detects the state of the power switch and transmits the power switch signal to the power control unit 42. [ The power control unit 42 confirms the transmitted power switch signal. If the power switch signal is a power off signal, the power control unit 42 waits for a predetermined time until the operation mode becomes the off mode. When the monitor enters the off mode, 44 and the second power switch 43 are turned off to shut off all power supplied to the video board 30 and the inverter 20 to prevent power consumption.

In addition, when the power switch signal is transmitted, the power control unit 42 checks the power switch signal. If the power switch signal is a power-on signal, the first power switch 44 is turned on to supply power to the image board 30 And then the control signal outputted from the image board 30 is sensed to return the inverter 20 and the power generator 41 to their original states.

In this way, the power consumption of the monitor itself is controlled separately from the main body by using the power supply unit provided in the monitor itself.

FIG. 2 is a flowchart illustrating a power supply control method incorporating a power management function of a monitor according to the present invention, wherein S represents a step.

As shown in FIG. 2, a power supply control method incorporating a power management function of a monitor according to the present invention includes (a) a power control board 40, which is initially mounted inside a monitor when power is turned on, 30) and the inverter (20); (b) detecting (S20) the control signal and power consumption of the image board (30) and the power consumption of the inverter (20) in the power control board (40); (c) determining (S30) a power control mode of the monitor based on the information detected by the power control board 40 in the step (b); (d) controlling power of the video board 30 and the inverter 20 according to the power control mode determined in the step (c) at the power control board 40 to control the monitor power (S40) do.

Preferably, the control signal in the step (b) includes at least one of a liquid crystal display ON / OFF signal, a brightness information of a liquid crystal display, and an operation mode. And includes at least one or more.

In the step (c), a control signal of the video board 30 is checked to determine a first power control mode in which the monitor power is not controlled when the operation mode is on, And determines the second power control mode for controlling the power generation unit 41 and the power source of the inverter 20 according to the power consumption of the detected image board 30 when the image board 30 is in the standby mode. It is preferable to determine a third power control mode for controlling the power supply of the power generator 41 and the inverter 20 to correspond to the off mode in the off mode.

In the step (d), when a power switch signal for power off is generated in the video board 30, the monitor waits for a certain time until the monitor is turned off, and then, when the monitor enters the off mode, And supplies power to the video board 30 when the power switch signal for power-on is generated in the video board 30. The power supply to the video board 30 And the state of the inverter 20 and the power generation unit 41 is restored.

A power supply control method incorporating the power management function of the monitor according to the preferred embodiment of the present invention will now be described in detail.

First, when power is supplied to the monitor, the power generation unit 41 of the power supply board 40 generates various power supplies for use in the monitor in step S10. At this time, both the first power switch 44 and the second power switch 43 are turned on (the switch is connected to the contact and supplies the power to the subsequent stage) under the control of the power control unit 44, The image board power generated in the power source generating unit 41 is supplied to the image board 30 through the first power switch 44 and the inverter power generated in the power generating unit 41 is supplied to the inverter 30 through the second power switch 43, (20).

The inverter 20 converts the supplied power to AC power under the control of the power control unit 42 and supplies it to the liquid crystal display 10. In addition, the image board 30 operates with the supplied power source, processes a video signal transmitted from the main body with a signal for displaying on the liquid crystal display device 10, and transmits the signal to the liquid crystal display device 10. Here, the power consumption of the surface board 30 varies depending on whether there is an image signal from the main body or not.

The liquid crystal display device 10 is driven by the power supplied from the inverter 20 and displays a video signal transmitted from the video board 30 on the screen.

Here, the inverter 20 supplies power to the liquid crystal display 10 differently depending on the brightness of the image and the like, whereby the power consumption of the inverter 20 is different.

On the other hand, when the operation of the image board 30 is started by the driving power source, information about the current operation mode of the image board 30, the liquid crystal display device on / off status signal, the brightness of the liquid crystal display device, To the power supply board 40 in real time. Here, the operation mode includes at least one of an on mode for activating all the operation power of the monitor, a standby mode for waiting for a signal input using only a minimum power, and an off mode for not consuming power at all do.

The power control unit 42 of the power supply board 40 controls the power supply unit 40 to transmit the control signal transmitted in real time from the video board 30 in step S20 and step S30, The power consumption amount and the power consumption amount of the inverter 20 are combined to determine the power control mode of the monitor.

For example, if the control signal of the video board 30 is checked and the power control mode is determined to be the first power control mode in which the monitor power is not controlled when the operation mode is on, Determines a power control mode in a second power control mode for controlling the power supply of the power generator (41) and the inverter (20) according to the power consumption of the detected video board (30) The power control mode is determined to be the third power control mode in which the power supply of the power generator 41 and the inverter 20 is controlled in the off mode by checking the control signal of the video board 30 .

Thereafter, the process proceeds to step S40, where the monitor power is controlled in accordance with the determined power control mode.

For example, when the first power control mode is selected, all the power sources are activated. In this case, the first power switch 44 and the second power switch 43 maintain the switch-on state.

Next, when the second power control mode is selected, the power supply of the power generation unit 41 and the inverter 20 is switched to the standby mode so that the power consumption of the video board 30 is reduced based on the detected power consumption of the on- . That is, the power generation unit 41 generates a power source suitable for the standby mode and outputs the power to the video board 30 and the inverter 20 ). In addition, a control signal suitable for the standby mode is applied to the inverter 20 to control the power of the monitor so that the power used by the inverter 20 also decreases corresponding to the standby mode.

Next, when the third power control mode is selected, the power consumption of the video board 30 is detected, the power generation operation of the power generator 41 is controlled in accordance with the detected power consumption, So that the power of the power source is also minimized in accordance with the off mode. That is, in the off mode, the power supplied to the video board 30 and the inverter 20 is set so that the power supplied to the video board 30 and the inverter 20 is minimized (lower than the consumed power in the standby mode) Respectively.

On the other hand, when the user operates the power switch attached to the monitor during the power control of the monitor, the video board 30 detects the state of the power switch and transmits the power switch signal to the power control unit 42 . The power control unit 42 confirms the transmitted power switch signal. If the power switch signal is a power off signal, the power control unit 42 waits for a predetermined time until the operation mode becomes the off mode. When the monitor enters the off mode, 44 and the second power switch 43 are turned off to shut off all power supplied to the video board 30 and the inverter 20 to prevent power consumption.

In addition, when the power switch signal is transmitted, the power control unit 42 checks the power switch signal. If the power switch signal is a power-on signal, the first power switch 44 is turned on to supply power to the image board 30 And then the control signal outputted from the image board 30 is sensed to return the inverter 20 and the power generator 41 to their original states.

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.

The present invention is effectively applied to a technique of controlling power by itself using a power supply built in a display device such as a monitor.

10: Liquid crystal display (LCD)
20: Inverter
30: Video board
40: Power supply board
41: Power generator
42:
44, 43: first and second power switches

Claims (8)

An image board for transmitting a video signal for display to a liquid crystal display device and generating a control signal for displaying a video signal;
An inverter for supplying a display power source to the liquid crystal display device; And
And a power supply board for controlling the power generation of the monitor and the power supply to the video board and the power supply of the inverter according to the control signal of the video board, the power consumption of the video board, and the power consumption of the inverter. Power supply with built-in power management.
The image display apparatus of claim 1, wherein the image board generates at least one of an on / off signal of the liquid crystal display, brightness information of the liquid crystal display, and an operation mode of the image board as a control signal,
Wherein the operation mode includes at least one of an on mode, a standby mode, and an off mode.
The power supply board of claim 1, wherein the power supply board detects a power consumption amount of the video board and a power consumption amount of the inverter to generate a power detection signal, and supplies power for use in the video board and the inverter, A power generating unit for generating power; And a power controller for controlling the power generation of the power generator and the power supply of the video board and the inverter by combining the power detection signal generated in the power generator and the control signal generated in the video board. Power supply with built-in management.
4. The video display device of claim 3, wherein the power supply board comprises: a first power switch for supplying or blocking the power generated by the power generator to the video board under the control of the power controller; And a second power switch for supplying or blocking the power generated by the power generator to the inverter under the control of the power controller,
Wherein the power control unit controls the switching of the first and second power switches according to an operation mode of the video board.
A method of controlling power using a power supply unit having a power management function of a monitor,
(a) supplying power to a video board and an inverter from a power control board installed in the monitor when the power is turned on;
(b) detecting the control signal and power consumption of the video board and the power consumption of the inverter in the power control board;
(c) determining a power control mode of the monitor based on the information detected by the power control board in the step (b); And
(d) controlling the power of the video board and the inverter by the power control board in accordance with the power control mode determined in the step (c), thereby controlling the monitor power. One power supply control method.
The method of claim 5, wherein the control signal of step (b) includes at least one of a liquid crystal display ON / OFF signal, a brightness information of a liquid crystal display, and an operation mode. Power supply control method.
[6] The method of claim 5, wherein the step (c) comprises: determining a control signal of the video board to determine a first power control mode in which the monitor power is not controlled when the operation mode is on; And determines a second power control mode for controlling the power generation unit and the power source of the inverter according to the power consumption of the detected video board in the standby mode, And a third power control mode for controlling power generation of the generator and the inverter to correspond to the off mode.
[6] The method of claim 5, wherein, in the step (d), when a power switch signal for power off is generated in the video board, the monitor waits for a certain time until the monitor is turned off, And a controller for supplying power to the video board when a power switch signal for power-on is generated in the video board, detecting a control signal generated in the video board, And the state of the generating unit is restored.

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