KR101926184B1 - Stanby power decrease apparatus of the monitor - Google Patents

Abstract

The present invention relates to a standby power reduction apparatus of a monitor and, more specifically, to a standby power reduction apparatus minimizing standby power (5V) consumed in a monitor. The standby power reduction apparatus of a monitor includes a power saving control unit supplying power only for an operation of an image processing unit in a sleep mode and blocking power supply to the image processing unit until the wake-up or power of the PC is turned on in a hibernate mode after a setting time when an image signal is inputted from a PC and image signal input is stopped after the monitor is operated.

Description

[0001] The present invention relates to a monitor standby power reduction apparatus,

The present invention relates to a monitor standby power reduction device, and more particularly, to a monitor standby power reduction device that minimizes standby power consumed by a monitor in a sleep mode or a hibernation mode.

In general, the computer turns off the monitor screen in the standby mode (sleep mode) or the monitor 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 monitor screen is turned off, resulting in unnecessary standby power consumption.
Accordingly, various researches have been conducted to prevent power wastage by cutting off the power supply without removing the plug for supplying commercial power to the monitor. For example, Korean Patent Laid-Open Publication No. 2013-0109060 Standby power cut-off device).
However, as shown in FIG. 1, a power saving control unit 11, an outlet power switching unit 19, a peripheral outlet (not shown) Since the configuration of the computer is complicated and the implementation cost of the device for saving power is large, there is a problem in that it is easily applied to a real computer and a peripheral device.
In order to solve this problem, Korean Patent Laid-Open Publication No. 2015-0123435 (monitor stand-by power interrupter through computer linkage) has been developed, which automatically cut off standby power of the monitor by using VGA signal of the main body Is a monitor stand-by power cut-off device through computer interworking to minimize the user's operation by automatically supplying power to the monitor when the computer is operated, thereby improving convenience.
However, this requires power consumption for sensing operation of the monitor in order to check the power state of the PC. More specifically, the power mode includes 'power ON mode', 'power saving mode' and 'power OFF mode' The monitor screen is turned off, but only the power source of the inverter is turned off to turn on the monitor screen, and the DC voltage is cut off by the DC voltage cut- Power supply is supplied to an operation circuit such as a microcomputer, and standby power is consumed.
In addition, in the case of the related art, existing monitors support power supply, voltage drop or power saving by various control and control devices such as dimming control and power control in order to save energy. There is a problem in that the circuit is complicated and the technique for manually changing the signal according to the incoming signal from the PC is the most problematic.
Patent Document 1: Korean Patent Registration No. 10-1782409 (Name: Control Method of Hibernation Type Display via Video Input Signal; Date of Filing: Mar. 28, 2017)
Patent Document 2: Korean Patent Registration No. 10-1817327 (Name: Standby Power Reduction System of Monitors and Control Method Thereof filed on May 11, 2017)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a monitor standby power reduction device that minimizes standby power consumed even in a sleep mode or an OFF mode, (Digital / Analog) is inputted, the main power is supplied to start the monitor. When the input of the video signal from the PC is stopped, the mode is switched to the sleep mode. The present invention also provides a monitor standby power reduction device that keeps the power saving mode until the PC power is turned on.

In order to achieve the above object, according to the present invention, a power supply unit 12 for supplying a main power of the LCD liquid crystal display device 1 is operated according to whether a video signal is input from a PC, The monitor standby power reduction device 10 includes a video processor 11 for supplying a video signal to the video processor 11. When a video signal is input from the PC (ON mode), the main power source of the power supplier 12 is connected to a video processor The power supply for the operation of the image processing unit 11 is supplied only when the input of the video signal from the PC is stopped (Sleep mode) And a power saving control unit 13 for interrupting power supply to the image processing unit 11 until a wake-up or a PC power is turned on when a power saving signal is input (in a maximum power saving mode) have.
The image processing unit 11 operates the main power supplied from the power supply unit 12 under the control of the power saving control unit 13 to provide a video signal to the LCD liquid crystal display 1 And a Scaler IC for applying a power saving signal to the power saving control unit 13 after a set time when the input of the video signal is stopped in the PC.
In the present invention, the set time for applying the power saving signal may be preset through a program or a logic circuit, or set by the capacity of the capacitor.
The power saving control unit 13 of the present invention recognizes the operation state of the PC based on the analog or digital image signal inputted from the PC through the video connector 14 through the video input terminal 13a, The power of the power supply unit 12 may be supplied to the image processing unit 11.
The power saving control unit 13 of the present invention may include a microcomputer equipped with a program for controlling the power supply of the power supply unit 12 to be supplied to the image processing unit 11 according to the operation state of the PC or a logic circuit .
The power saving control unit 13 of the present invention includes a video input terminal 13a for receiving a video signal from the video connector 14; When the input of the video signal from the video input terminal 13a is stopped, only the operation power of the image processing unit 11 is supplied to switch to the sleep mode. When the power saving signal is inputted in the image processing unit 11 after the lapse of the set time A microcomputer 13b for turning off the operation power of all circuits including the image processing unit 11 and switching to a power saving mode; And a switching unit 13c for turning on / off the power supplied from the power supply unit 12 to the image processing unit 11 according to a control signal of the microcomputer 13b.
The microcomputer 13b determines that the video signal is in the normal mode if the video signal is at a high level and turns on the switching unit 13c by generating an OFF signal with the power cutoff signal, The sleep mode or the hibernation mode, and generates an ON signal by the power shutdown signal to cut off the switching unit 13c.
The power saving control unit 13 is provided on an independent board from the image processing unit 11 and the power supply unit 12 so that the video input terminal 13a is connected to the video connector 14 side, 13c may be connected to both ends of the electrical connection path of the power supply unit 12 and the image processing unit 11, respectively.

The present invention solves the above and other problems by providing a liquid crystal display (LCD) device, wherein when a video signal is input from a PC (ON mode), the main power source of the power supply unit is conducted to the image processing unit (Sleep mode), only the power for the operation of the image processing unit 11 is supplied. When the power saving signal is applied after the set time in the image processing unit 11 Power off mode, power-off mode, wake-up, or power-on of the PC is turned on, the power supply to the image processing unit 11 is shut off, The power consumption of the monitor itself can be reduced, and the power consumption of the monitor compared to the conventional PC is drastically reduced.
The power saving control unit 13 is provided on the board independent of the video processing unit 11 and the power supply unit 12 so that the video input terminal 13a is connected to the video connector 14 side, Both ends of the unit 13c are connected to both ends of the electrical connection path between the power supply unit 12 and the image processing unit 11 so that the image processing unit 11 and the power supply unit 12 constituting the existing monitor stand- So that the function expansion of the existing monitor standby power reduction device can be easily implemented without changing many structures, and at the same time, the effect of satisfying the function expansion and compatibility can be obtained at the same time.

1 is a block diagram showing a configuration of a conventional monitor standby power reduction device.
2 is a block diagram showing the configuration of the present invention;
3 is a circuit diagram showing the configuration of the present invention.
4 is a flow chart showing the operation of the present invention step by step;
5 is an operational waveform diagram of the present invention.

The present invention will now be described with reference to the accompanying drawings.
As shown in FIGS. 2 and 3, the monitor standby power reduction apparatus 10 according to the present invention includes a power supply unit 12 for supplying a main power of the LCD liquid crystal display 1 according to whether a video signal is input from a PC, And a video processor 11 for supplying power and a video signal to the LCD liquid crystal display device 1 and operating the monitor standby power reduction device 10. In the case where a video signal is inputted from the PC The main power source of the power supply unit 12 is connected to the image processing unit 11 so that the LCD liquid crystal display unit 1 is activated and when the input of the video signal from the PC is stopped (Sleep mode) 11), when the power saving signal is input after the set time in the image processing unit 11 (the maximum power saving mode), until the wake-up or the PC power is turned on, A power saving control unit 1 for interrupting power supply to the processing unit 11 3).
Here, the video signal in the PC of the present invention may be a Hsync and an analog signal that is a + 5V_vga signal input through a D-sub, a + 5V_HDMI signal input through HDMI, or a digital Signal.
The image processing unit 11 of the present invention provides a dimming signal PWM to the power supply unit 12 to supply the backlight power of the LCD liquid crystal display device 1 when a video signal is inputted from the PC, The control unit 13 operates the main power supplied from the power supply unit 12 to provide a video signal to the LCD liquid crystal display device 1. When a video signal input from the PC is stopped, And a Scaler IC to be applied to the power saving control unit 13.
The image processing unit 11 is an image board (AD board) for processing and displaying an image transmitted from a PC. When a video signal of a PC is inputted through the video connector 14, And may output a dimming signal necessary for the operation of the power supply unit 12 for control.
In this case, the image processing unit 11 is provided with a Scaler IC for displaying an image, a power saving signal output, and a dimming signal output. The Scaler IC is an image processing module basically provided in a video board of a monitor, And to apply the power saving signal to the power saving control unit 13.
At this time, the set time for applying the power saving signal may be preset through a program or logic circuit, or may be set by the capacitance of the capacitor.
Meanwhile, the power supply unit 12 of the present invention supplies driving power to the monitor, and may be a general switching mode power supply (SMPS). The SMPS applied to the monitor supplies + 5V power and + 16V power .
The power supply unit 12 may be a built-in monitor or an adapter for supplying power to the monitor from outside the monitor.
The power saving control unit 13 of the present invention is connected to the power saving control unit 13 via the video connector 14 via the video input terminal 13a of the PC, And the power of the power supply unit 12 is supplied to the image processing unit 11 in accordance with the recognized operating state of the PC, based on the HDMI signal (+ 5V_HDMI signal) or the DVI signal (+ 5V_DVI signal) Or a control circuit including a microcomputer composed of a logic circuit.
The power saving control unit 13 includes a video input terminal 13a for receiving a video signal from the video processing unit 13; Recognizes the operation state of the PC by analyzing the level of an arbitrary signal among the video signals input through the video input terminal 13a and outputs a power shutdown signal when the recognized operation state of the PC is the Sleep mode or the Hibernation mode A power off signal is generated when the power saving signal is applied in the image processing unit 11 or a power key signal is supplied to the image processing unit 11 when a power key is inputted from the power button, (13b); And a switching unit 13c for turning on / off the power supplied from the power supply unit 12 to the image processing unit 11 according to a power cutoff signal generated by the microcomputer 13b.
At this time, the microcomputer 13b analyzes the presence or absence of a horizontal synchronizing signal (H-sync) among the video signals, and if the horizontal synchronizing signal is not detected, the microcomputer 13b interrupts power supply to the backlight board from the power supply unit 12, The power of the monitor 11 may be cut off to reduce the power consumption of the monitor.
The microcomputer 13b analyzes the level of the video signal to determine that the video signal is in a normal mode when the video signal is at a high level and generates the power off signal as an OFF signal and analyzes the level of the video signal, It may be determined that the sleep mode is the sleep mode or the hibernation mode, and the power shutdown signal is generated as the ON signal.
The power saving control unit 13 is provided on a board independent of the video processing unit 11 and the power supply unit 12 so that the video input terminal 13a is connected to the video connector 14 side and the switching unit 13c May be connected to both ends of the electrical connection path of the power supply unit 12 and the image processing unit 11, respectively.
The operation of the present invention will be described with reference to FIG.
First, when the power button of the monitor is turned on (S110), the initial power is supplied. In this state, the microcomputer 13b of the power saving control unit 13 determines whether a video signal is input from the PC Specifically, it is determined whether a digital signal or an analog signal is input (S120). At this time, a high level +5 V of a video signal of a PC, for example, a digital signal (HDMI / DVI / DP) (S130-1), the ON mode operation of the monitor is started (S140-1).
At this time, the image processor 11 receives a video signal from the PC via the video connector 14, transmits the video signal to the backlight board of the LCD liquid crystal display device 1, displays the video on the screen, And provides a dimming signal to the power supply 12 to control the power of the backlight board.
The microcomputer 13b of the power saving control unit 13 receives the video signal input to the video input terminal 13a via the video connector 14, that is, the high level + 5V of the digital signal (HDMI / DVI / DP) If the high level + 5V is not detected (S160-1), that is, when no video signal is inputted from the PC, the monitor mode is switched to the sleep mode The power supplied from the power supply unit 12 to the backlight board is cut off.
At this time, the microcomputer 13b of the power saving control unit 13 detects whether a power saving signal is applied from the ScalerIC of the image processing unit 11 (S170-1). The power saving signal is output when the capacity of the capacitor C11 shown in FIG. 5 or the time set and stored in the ScalerIC or the microcomputer 13b elapses.
At this time, if the power saving signal is detected, the microcomputer 13b of the power saving control unit 13 turns off the switching unit 13c to block the power of the power supply unit 12 from being applied to the image processing unit 11 The power supply OFF signal is applied, the mode is switched to the hibernation mode, all the power supply is stopped, and the standby power is reduced (S180-1).
The switching unit 13c may include a transistor Q3. When the microcomputer 13b senses an input of a video signal, the switching unit 13c applies an operation signal to the base of the transistor Q3, Ensure that the power is on.
If the wake-up signal or the power-on signal is inputted by the PC, the operation goes back to step S130-1.
If the microcomputer 13b of the power saving control unit 13 detects that the video signal input from the PC is Hsync + 5V, which is an analog signal, while the power supply button of the monitor is turned on, (S130-2), the ON mode operation of the monitor is started (S140-2).
The video processor 11 receives the video signal from the PC through the video connector 14 and transmits the received video signal to the backlight board of the LCD liquid crystal display device 1 to display the video on the monitor screen, And provides a dimming signal to the power supply 12 to control the power of the backlight board.
Meanwhile, the microcomputer 13b of the power saving control unit 13 continuously monitors the video signal input to the video input terminal 13a through the video connector 14, that is, the analog signal Hsync + 5V (S150-2) If the Hsync + 5V is not detected (S160-2), that is, when the video signal is not input from the PC, the power mode is switched from the power supply unit 12 to the backlight board Disconnect the supplied power.
At this time, the microcomputer 13b of the power saving control unit 13 detects whether a power saving signal is applied from the ScalerIC of the image processing unit 11 (S170-2).
At this time, if the power saving signal is detected, the microcomputer 13b of the power saving control unit 13 turns off the switching unit 13c to block the power of the power supply unit 12 from being applied to the image processing unit 11 The power supply OFF signal is applied, the mode is switched to the hibernation mode, all the power supply is stopped, and the standby power is reduced (S180-2).
Thereafter, if the PC inputs the image signal, i.e., the digital signal again, and wake-up or power-on signal is input, the process proceeds from step S130-2.
Here, if the power button pressing signal of the power button is sensed during the operation of the monitor (S210), the microcomputer 13b of the power saving control unit 13 presses the power button again to input the power key signal (ON signal) , The power is turned off in the maximum power saving mode (S220).
For reference, the microcomputer 13b receives an operation signal of a power button through a power switch input terminal. The microcomputer 13b receives a video signal from the video input terminal 13a or receives an operation signal of the power button together. However, the microcomputer 13b basically performs a power source control operation in accordance with a power button operation signal. For example, when an OFF signal of the power button is inputted, whichever of the video signals is inputted, the power of the monitor is cut off, and when the power button ON signal is inputted, the power of the monitor is supplied.
The microcomputer 13b of the power saving control unit 13 of the present invention analyzes a specific signal among the video signals and recognizes the operation state of the computer. For example, if the presence of the specific signal is confirmed and if there is a specific signal (electrically high voltage of + 5V), it is determined as a normal mode and a power shutdown signal is generated as an OFF signal. (Electrically zero, meaning a low signal) "if no signal exists, " the sleep mode or the hibernation mode, and generates the power-off signal as an ON signal.
The power shutoff signal generated by the microcomputer 13b is applied to the switching unit 13c. When the power shutdown signal applied to the switching unit 13c is an OFF signal, the power shutoff signal is turned on, (+ 5Vdc) to the image processing unit 11. The image processing unit 11 receives the main power (+ 5Vdc) For example, the power supply unit 12 and the image processing unit 11 are electrically connected to each other.
At this time, if the power shutdown signal applied to the switching unit 13c is an ON signal, the main power supply unit 12 is turned off to block the main power source (+5 Vdc) output from the power supply unit 12 from being supplied to the image processing unit 11 . For example, the power supply unit 12 and the image processing unit 11 are electrically disconnected.
In this manner, the power supply unit 12 and the image processing unit 11 are electrically separated from each other to prevent power consumption in the image board. Thus, at the time of the Sleep mode or the Hibernation mode, the driving power source (main power source) is not applied to the image processing unit 11, which is the image board, and unnecessary power consumption is prevented. This can reduce the standby power of the monitor.
The power supply cut-off signal corresponding to the ON-state is applied to the power supply unit 12, and the power supply unit 12 cuts off the LED drive supply power supplied to the backlight board of the LCD liquid crystal display device 1.
As described above, when the video signal is not detected, the backlight board of the LCD liquid crystal display device 1 and the driving power of the image processing unit 11 are completely cut off, thereby reducing the power consumption of the monitor itself.
As described above, while the power supply unit 12 and the image processing unit 11 are electrically separated from each other, the microcomputer 13b continuously detects and analyzes the video signal. Here, even when the power supply unit 12 and the image processing unit 11 are electrically disconnected, a video signal output from the PC is input to the power saving control unit 13 via the image processing unit 11. [
When the microcomputer 13b continuously detects and analyzes the video signal, the microcomputer 13b recognizes the video signal as a normal mode when the specific signal is switched to the high level again, changes the power-off signal to the OFF signal, 12 and the switching unit 13c.
The power supply unit 12 resumes supply of the LED drive power to the backlight board when the applied power shutdown signal is an OFF signal and the switching unit 13c returns to the original state when the applied power shutdown signal is the OFF signal, The image processing unit 11 normally operates by supplying the main power source (+5 Vdc) output from the power supply unit 12 to the image processing unit 11 and displays the image transmitted from the PC on the screen.
The standby power reduction state of the present invention as described above can be confirmed at a glance through the waveform diagram of FIG.
That is, when a video signal (for example, Hsync as an analog signal or a + 5V HDMI signal as a digital signal) is input from the PC at a high level (ON mode operation), the driving power of the power supply unit 12 and the image processing unit 11 Power is consumed basically when switch drive and + 5Vdc are supplied.
At this time, when the input of the video signal from the PC is input at a low level (including a minute power supply) (sleep mode operation), only the power applied to the backlight board of the LCD 1 is cut off, And the FET switch Drive and the + 5Vdc that supply the driving power to the image processing unit 11 are maintained for the set time.
When the power saving signal is applied from the image processor 11 to the power saving controller 13 (the maximum power saving mode) after the set time has elapsed, the power supply unit 12 and the FET The switch drive and + 5Vdc are also cut off to minimize power consumption in the standby state.
The power saving control unit 13 is provided on a board independent of the video processing unit 11 and the power supply unit 12 so that the video input terminal 13a is connected to the video connector 14 side, Both ends of the switching unit 13c may be connected to both ends of the electrical connection path of the power supply unit 12 and the image processing unit 11. [
In this case, it is possible to selectively connect to the board provided with the image processing unit 11 and the power supply unit 12 constituting the existing monitor standby power reduction apparatus. Thus, the function expansion of the existing monitor standby power reduction device can be easily implemented without changing many structures. At this time, it is preferable that a part of the electrical connection path between the power supply unit 12 and the image processing unit 11 is disconnected to provide a connection terminal so that both ends of the switching unit 13c of the power saving control unit 13 are electrically connected .
While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.
In addition, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims.
Accordingly, all such appropriate modifications and changes, and equivalents thereof, should be regarded as within the scope of the present invention.

10: monitor standby power reduction device 11: image processor
12: power supply unit 13: power saving control unit
13a: video input terminal 13b:
13c: switching part 14: video connector

Claims (8)

A power supply unit 12 for supplying a main power source of the LCD liquid crystal display device 1 according to whether a video signal is input from the PC to supply power and an image signal to the LCD liquid crystal display device 1, 11. A monitor standby power reduction device (10) comprising:
When a video signal is inputted from the PC (ON mode), the main power of the power supply unit 12 is conducted to the image processing unit 11 to allow the monitor to operate. When the input of the video signal from the PC is stopped (Sleep mode) When a power-saving signal is input after the set time in the image processing unit 11 (the maximum power saving mode), when the wake-up or the PC power is turned on And a power saving control unit (13) for cutting off power supply to the image processing unit (11)
When a video signal is input from the PC, the image processing unit 11 receives a main power from the power supply unit 12 under the control of the power saving control unit 13 to provide a video signal to the LCD liquid crystal display device 1, And a Scaler IC for applying a power saving signal to the power saving control unit (13) after a set time when signal input is stopped,
When the power button pressing signal of the power button is detected while the monitor is operating, the power switch of the power switch is turned off, The microcomputer of the power saving control unit turns off the power to the maximum power saving mode until the power key signal is inputted by pressing the power button again.
delete The method according to claim 1,
Wherein the set time at which the power save signal is applied is preset through a program or a logic circuit or is set by the capacity of the capacitor.
The method according to claim 1,
The power saving control unit 13 recognizes the operation state of the PC based on an analog or digital image signal input from the PC through the video connector 14 through the video input terminal 13a, (12) is supplied to the image processing unit (11).
The method of claim 4,
The power saving control unit 13 includes a microcomputer including a logic circuit or a program for controlling the power supply of the power supply unit 12 to be supplied to the image processing unit 11 according to the operation state of the PC.
The method according to claim 1,
The power saving control unit 13 includes a video input terminal 13a for receiving a video signal from the video connector 14; When the input of the video signal from the video input terminal 13a is stopped, only the operation power of the image processing unit 11 is supplied to switch to the sleep mode. When the power saving signal is inputted in the image processing unit 11 after the lapse of the set time A microcomputer 13b for turning off the operation power of all circuits including the image processing unit 11 and switching to a power saving mode; And a switching unit 13c for turning on / off the power supplied from the power supply unit 12 to the image processing unit 11 according to a control signal of the microcomputer 13b.
The method of claim 6,
The microcomputer 13b determines that the video signal is in the normal mode when the video signal is at a high level and generates an OFF signal in response to the power off signal to turn on the switching unit 13c. And the switching unit 13c is turned off by generating an ON signal by the power shutdown signal. The method of claim 6,
The power saving control unit 13 is provided on a board independent of the video processing unit 11 and the power supply unit 12 so that the video input terminal 13a is connected to the video connector 14 side and the switching unit 13c And both ends are connected to both ends of the electrical connection path of the power supply unit (12) and the image processing unit (11).

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