KR100480017B1 - Apparatus and method for controlling power saving in display - Google Patents

Abstract

The present invention relates to a method and apparatus for controlling power saving of a video display device capable of reducing power consumption and maximizing power usage when the monitor is in a power saving mode. The apparatus for controlling power saving of a video display device according to the present invention includes a USB port connected to a USB (Universal Serial Bus) of a computer; A microcomputer that receives power through the USB port and determines whether the current operation mode of the image display device is a normal mode or a power saving mode to control ON / OFF operations of the first switch and the second switch; A voltage converter converting the commercial input power of the image display device into a plurality of preset voltages and outputting the preset voltages; A first switch turned on in a normal mode and off in a power saving mode so that the commercial input power can be applied to the voltage converter in the normal mode under the control of the microcomputer; And a second switch that is turned off in the normal mode and turned on in the power saving mode so that power provided from the computer can be applied to the heater provided in the image display device in the power saving mode under the control of the microcomputer.

Description

Power saving control method and device for an image display device {APPARATUS AND METHOD FOR CONTROLLING POWER SAVING IN DISPLAY}

The present invention relates to a video display device, and more particularly, to an apparatus and method for controlling power saving of a video display device.

Recently, efforts and researches to reduce power consumption of home appliances and video display devices have been actively conducted. In particular, as much attention has been focused on power operation of video display devices, efforts to implement DPMS (Display Power Mode Signal) mode with low power consumption by using an auxiliary power source or by applying a circuit for switching the output voltage down are being actively conducted. It is a trend that is going on.

1 is a block diagram of an apparatus for controlling power saving in a conventional monitor. Referring to FIG. 1, a circuit for power saving in a conventional monitor includes a pulse width modulation unit 11, a Vcc switching unit 12, and externally supplied power for each circuit. Switching Mode Power Supply (SMPS) converter 13 for converting into voltage, rectifier 14 for rectifying the voltage output from SMPS converter 13, and specific rectifiers 14a, 14c of rectifier 14 A switch (S / W 1, S / W 2) for selectively controlling the output, and a voltage-down circuit for providing a pulse width modulator (11) with a control signal for voltage down in accordance with the output of the rectifier ( 16).

The operation of the power saving control device in the existing monitor having such a configuration will be described according to each mode set in the monitor as follows.

The microcomputer of the monitor provides power by dividing it into normal mode, standby mode, suspension mode, and DPM off mode to reduce power consumption according to the user's operating time of the monitor.

The normal mode is a mode in which the user continuously uses the monitor. When the monitor is in the normal mode, the voltage down circuit 16 does not perform an operation and supplies a normal voltage to the microcomputer and the heater of the monitor. In FIG. 1, the output signal DPMF of the voltage down circuit 16 maintains a high level in the normal mode. At this time, the switch 15a connected to the output terminal of the first secondary rectifier 14a is turned off, the output signal DPMF of the first secondary rectifier 14a is turned low, and the switch 15b is also turned off. In this state, the output signal DPMS of the secondary rectifier 14c also becomes a low level. Therefore, the output voltage of the SMPS converter 13 is 5V output from the second secondary rectifier 14b is supplied to the microcomputer of the monitor, and 6.3V output from the fourth secondary rectifier 14d is the heater of the monitor. Supplied to each.

In addition, the Standby and Suspend modes, which should return to display within a few seconds, reduce the output voltage by about 80% in order to save power consumption of the monitor by considering that the user does not use the monitor within a preset time. Output In the standby or suspend mode, as shown in FIG. 1, the signal / DPMF applied to the voltage down circuit 16 is at a low level so that the voltage down circuit 16 operates. At this time, since the voltage down circuit 16 applies the voltage control signal to the pulse width modulator 11, the pulse width modulator 11 minimizes the modulation ratio (Duty), and eventually, 2 of the SMPS converter 13 The output voltage is reduced by about 80%. In this mode, the output signal DPMF of the first secondary rectifier 14a also becomes a high level, and the output signal DPMS of the third secondary rectifier 14c also becomes a high level so that the two switches 15a and 15b It turns on. Therefore, the output 5V of the switch 15a is supplied to the microcomputer of the monitor, and the output 6.3V of the switch 15b is supplied to the heater of the monitor, respectively.

The DPM off mode considers the user not to use it for a long time and minimizes power consumption by supplying power only to the microcomputer. That is, in the standby mode and the suspend mode, only the output signal DPMS of the switch 15b becomes a low level state, so that the voltage supplied to the heater of the monitor is cut off, and the 5V voltage is supplied only to the microcomputer of the monitor.

However, the conventional power saving control device of the monitor has a disadvantage that each SMPS efficiency is extremely bad when the monitor is light load (DPMS / DPM off).

In addition, the power-saving control device of the conventional monitor has a large number of parts, complicated circuits, poor workability, and does not meet the development trend of home appliances, which simplifies and reduces the circuit size.

In addition, in terms of reducing power consumption, it is practically limited to implement power consumption less than 3W in the DPM off mode.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems of the prior art. An apparatus and method for controlling power saving of a video display device which can reduce power consumption and maximize power efficiency when the monitor is in a power saving mode. It is to provide.

Another object of the present invention is to provide an apparatus and method for controlling power saving of a video display device that can be implemented with power consumption less than 3W in the DPM off mode.

Still another object of the present invention is to provide an apparatus and method for controlling power saving of a video display device capable of controlling power of a monitor only in a normal mode and a power saving mode.

In order to achieve the above object, the apparatus for controlling power saving of a video display device according to the present invention includes: a USB port connected to a computer (Universal Serial Bus); A microcomputer that receives power through the USB port and determines whether the current operation mode of the image display device is a normal mode or a power saving mode to control ON / OFF operations of the first switch and the second switch; A voltage converter converting the commercial input power of the image display device into a plurality of preset voltages and outputting the preset voltages; A first switch turned on in a normal mode and off in a power saving mode so that the commercial input power can be applied to the voltage converter in the normal mode under the control of the microcomputer; The second switch is turned off in the normal mode and turned on in the power save mode so that the power provided from the computer can be applied to the heater provided in the image display device under the control of the microcomputer.

In addition, the method for controlling power saving of an image display device according to the present invention comprises connecting a computer to the image display device using a universal serial bus (USB) to supply power to a microcomputer and a heater in a power saving mode of the image display device. Steps; Determining, by the microcomputer provided in the image display device, whether the current operation mode of the image display device is a normal mode or a power saving mode; Turning on a first switch and turning off a second switch to provide commercial input power of the video display device to the video display device when the current mode is the normal mode; When the current operation mode of the image display device is a power saving mode, the first switch is turned off and the second switch is turned on to provide the image display device with power supplied from the computer.

According to the characteristics of the present invention, when the monitor is in the power saving mode, the power consumption can be reduced and the efficiency of power can be maximized, and the power consumption in the power saving mode can be realized at 3W or less.

Hereinafter, with reference to the accompanying drawings will be described the configuration and operation of the present invention.

2 is a block diagram of an apparatus for controlling power saving in a monitor according to the present invention.

2, a power saving control device in a monitor according to the present invention includes a USB port 150 connected to a universal serial bus (USB) of a computer; A microcomputer (130) for supplying power through the USB port and determining whether the current operation mode of the image display device is a normal mode or a power saving mode to control ON / OFF operations of the first switch and the second switch; An SMPS unit 120 for converting the commercial input power of the image display device into a plurality of preset voltages and outputting the predetermined voltages; A first switch (110) turned on in the normal mode and turned off in the power saving mode so that the commercial input power can be applied to the voltage converter in the normal mode under the control of the microcomputer; The second switch 140 is turned off in the normal mode and turned on in the power saving mode so that power provided from the computer can be applied to the heater provided in the image display device in the power saving mode under the control of the microcomputer.

Here, in the present invention, the monitor mode is divided into a normal mode and a power saving mode only. In other words, the standby or suspend mode that should return to the screen within a few seconds, and the off mode to minimize the power is set to one power saving mode. Therefore, the microcomputer 130 determines whether the current image display device is in a normal mode or a power saving mode. In the normal mode, the microcomputer 130 turns on the first switch 110 and turns off the second switch 140. In the power saving mode, the first switch 110 is turned off and the second switch 140 is turned on.

USB is a universal serial bus, and is a new peripheral connection interface standard jointly proposed by seven companies including Intel, Microsoft, Compaq, DEC, IBM, Nortel, Canada, and NEC. And an interface for connecting peripheral devices such as modems, speakers, and the like to a personal computer (PC). If your PC has only one Universal Serial Bus (USB) connector, you can connect up to 127 peripherals, either star or radial. By using USB, all peripheral devices are connected to the same connector without any software or hardware setup when connecting peripheral devices to the computer, which greatly reduces the number of ports, and is easy to install. There is an advantage to being possible.

Hereinafter, with reference to the accompanying Figure 2, the operation of the power saving control circuit in the monitor according to the present invention.

In general, when a monitor is used by connecting computers to each other, the monitor and the computer have a power supply and an SMPS unit, respectively.

Therefore, the user must first connect the Universal Serial Bus (USB) 220 of the computer 200 to the USB port 150 of the monitor 100. Therefore, the microcomputer of the monitor is supplied with power to the computer through the USB port regardless of whether the current operation mode is the normal mode or the power saving mode.

Subsequently, the monitor 100 determines whether the microcomputer 130 is in the normal mode or the power saving mode of the monitor 100 (S20). That is, the microcomputer 130 determines whether the user is using the monitor 100 by using a keyboard or a mouse of a computer.

In this case, when the current mode is the normal mode, the microcomputer 130 turns on the first switch 110 and turns off the second switch 140 to provide commercial power of the monitor 100 to the monitor 100. . However, when the current mode is the power saving mode, the first switch 110 is turned off to cut off the power provided from the monitor 100, and the power is supplied from the computer 200 to the monitor 100. 2 Turn on the switch 140.

Therefore, in the normal mode operation, the power supplied from the commercial power supply of the monitor 100 is supplied so that the SMPS unit 120 operates. In the power saving mode, the commercial power of the monitor is cut off and the power of the computer 200 is supplied. This allows the actual power consumption and efficiency to be maximized in the monitor's light load (DPMS, DPM off) mode.

The apparatus and method for controlling power savings of an image display apparatus according to the present invention described above provide the following effects.

First, since the power is supplied through the computer's USB when the monitor is in the power saving mode, the power consumption of the commercial power of the monitor may be zero in the power saving mode. Therefore, the power consumption can be reduced in the power saving mode and can be implemented at a power consumption of 3W or less, thereby maximizing the efficiency of power usage in the power saving mode of the monitor. Second, by using the image display device according to the present invention, it is not necessary to separately provide a sub power supply for supplying power in the power saving mode.

Third, since the voltage down circuit does not need to be configured in the existing power saving circuit, the circuit configuration is simplified, and thus the cost can be reduced.

Fourth, since the power of the monitor can be controlled only in the normal mode and the power saving mode, the power saving control method of the monitor becomes simpler.

1 is a block diagram of a power saving control circuit in a conventional monitor.

2 is a block diagram of a power saving control circuit in a monitor according to the present invention;

* Description of the symbols for the main parts of the drawings *

100: monitor

110: first switch 140: second switch

120, 210: SMPS

130: micom

150: USB port

200: computer

220: USB

Claims (4)

A USB port connected to the computer's Universal Serial Bus (USB), A microcomputer that receives power through the USB port and determines whether the current operation mode of the image display device is a normal mode or a power saving mode to control ON / OFF operations of the first switch and the second switch; A voltage converter converting the commercial input power of the image display device into a plurality of preset voltages and outputting the plurality of voltages; A first switch turned on in a normal mode and off in a power saving mode so that the commercial input power can be applied to the voltage converter in the normal mode according to the control of the microcomputer; A second switch which is turned OFF in the normal mode and turned on in the power save mode so that power provided from the computer can be applied to the heater provided in the image display device in the power save mode under the control of the microcomputer; Power saving control device for a video display device comprising a. delete Connecting a computer to the video display device by using a universal serial bus (USB) so as to supply power to the microcomputer and the heater in the power saving mode of the video display device; Determining, by the microcomputer provided in the image display device, whether the current operation mode of the image display device is a normal mode or a power saving mode; When the current mode is a normal mode, turning on a first switch and turning off a second switch to provide commercial input power of the video display device to the video display device; If the current operation mode of the image display device is a power saving mode, turning off the first switch and turning on the second switch to provide power supplied from the computer to the image display device; Power saving control method for a video display device comprising a. delete