KR20090074367A - Apparatus for power supply of flat display - Google Patents

Abstract

A power supply apparatus of a flat display is provided to reduce standby power of a main microcomputer and a load in a transformer secondary side. The second microcomputer(28) blocks power supplied to the first microcomputer and a load during a standby operation. An operation command is inputted to the second microcomputer by a remote control unit(26). The second microcomputer outputs a normal operation signal. The remote control unit inputs the operation command to the second microcomputer. A DC/DC converter(27) converts power rectified in a rectifying or smoothing unit. The DC/DC converter supplies the converted power to the second microcomputer. A photo coupler(29) delivers the normal operation signal from the second microcomputer to a signal input unit(30). The signal input unit normally operates the first microcomputer by the normal operation delivered from the photo coupler.

Description

Power supply for flat display {Apparatus for power supply of flat display}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flat panel display device, and more particularly, to a flat panel display power supply device, which further saves standby power.

In general, a display device refers to visually displaying data in the form of a character or a figure on a CRT surface, and typical examples thereof include a CRT, a memory display, a liquid crystal, a light emitting diode, and a projection.

Display is a visual information transmission medium, and its importance is being further emphasized in the information society in recent years, and in order to gain a major position in the future, it is necessary to satisfy requirements such as low power consumption, thinning, light weight, and high definition.

Flat panel display (FPD), which is widely used in recent years, is a thinner and lighter image display device using a TV or computer monitor CRT, and its types include liquid crystal display (LCD) and neon signs. Plasma Display Panel (PDP) using gas discharge, OLED (Organic Light Emitting Diodes), an organic material made by emitting light when current flows in fluorescent organic compounds, and other commercialization methods. Field emission display, electroluminescence display (ELD), and the like.

As an example, the plasma display panel (hereinafter referred to as PDP) emits phosphors by 147 nm ultraviolet rays generated during discharge of an inert mixed gas such as He + Xe, Ne + Xe or He + Xe + Ne. An image containing text or graphics is displayed. Such a PDP is not only thin and easy to enlarge, but also greatly improved in quality due to recent technology development. In particular, the three-electrode AC surface discharge type PDP has advantages of low voltage driving and long life because wall charges are accumulated on the surface during discharge and protect the electrodes from sputtering caused by the discharge.

1 is a block diagram showing a power supply of a conventional flat panel display.

As shown, the conventional power supply of the flat panel display, the AC input unit 10 for receiving AC power, rectification and smoothing unit for rectifying and smoothing the AC power inputted to the AC input unit 10 to DC power ( 11), the relay unit 12 for transmitting the power rectified in the rectifying and smoothing unit 11 to the transformer 13, the voltage value transmitted from the relay unit 12 receives the change in the secondary side to the secondary side And a transformer 13 for supplying the load 15 to the load 15 and driven at a voltage supplied from the transformer 13 and supplied to the load 15 during a standby operation. A first microcomputer 14 for shutting off power and a remote control unit 16 for inputting an operation command to the first microcomputer 14 are included.

Therefore, when no operation command is generated from the remote controller 16 for a predetermined time, the standby operation is performed to minimize standby power consumption. In the standby operation, power is supplied only to the first microcomputer 14, and power is supplied to the entire load 15 only in the normal operation to reduce unnecessary standby power consumption. On the other hand, the first microcomputer 14 is a main microcomputer of the flat panel display, and thus controls the entire system, and thus usually consumes a lot of power.

However, the conventional power supply of the display has a problem that unnecessary standby power is consumed because power is also supplied to the secondary side of the first microcomputer 14 and the transformer 13 during the standby operation.

SUMMARY OF THE INVENTION The present invention has been made to overcome the above-mentioned problems. In the power supply of a flat panel display, the standby power of the transformer secondary side main microcomputer and the load can be reduced to further save the standby power of the entire apparatus. It is an object to provide a power supply.

In order to achieve the above object, a power supply of a flat panel display according to the present invention includes an AC input unit for receiving AC power; A rectifying and smoothing unit rectifying and smoothing the AC power inputted to the AC input unit into a DC power source; A relay unit transmitting power rectified by the rectifying and smoothing unit to a transformer; A transformer configured to receive the voltage value transmitted from the relay unit on the primary side and change the voltage value to the secondary side to supply the load to the load; A first microcomputer formed on a secondary side of the transformer and driven by a voltage supplied from the transformer, the supply power being cut off together with the load during a standby operation; A second microcomputer that cuts off power supplied to the first microcomputer and the load during a standby operation, and outputs a normal operation signal by receiving an operation command from a remote controller; A remote control unit which inputs an operation command to the second microcomputer; A DC / DC converter converting the power rectified by the rectifying and smoothing unit to supply the second microcomputer; A photo coupler for transmitting a normal operation signal output from the second microcomputer to a signal input unit; And a signal input unit configured to normally operate the first microcomputer in response to the normal operation signal received from the photocoupler.

In addition, the power supply of the flat panel display according to the present invention, the AC input unit for receiving AC power; A rectifying and smoothing unit rectifying and smoothing the AC power inputted to the AC input unit into a DC power source; A relay unit transmitting power rectified by the rectifying and smoothing unit to a transformer; A transformer configured to receive the voltage value transmitted from the relay unit on the primary side and change the voltage value to the secondary side to supply the load to the load; A first microcomputer formed on a secondary side of the transformer and driven by a voltage supplied from the transformer, the supply power being cut off together with the load during a standby operation; A switch formed between the transformer secondary side and the first microcomputer to cut off a power supply; In a standby operation, the switch is turned off to cut off the power supplied to the first microcomputer and the load, and a switch is turned on by receiving an operation command from a remote controller to turn on the switch. Supplying a second microcomputer; And a remote controller for inputting an operation command to the second microcomputer.

The second microcomputer may be in a standby state by receiving power from the transformer secondary side.

The first microcomputer may be a main microcomputer, and the second microcomputer may be a power microcomputer.

According to the power supply of the flat panel display according to the present invention, in the power supply of the flat panel display, there is an effect to further reduce the standby power of the entire apparatus by reducing the standby power of the main micom and the load on the transformer secondary side. .

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may properly define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

2 is a block diagram showing an embodiment of a power supply of a flat panel display according to the present invention.

As shown, the present invention, the AC input unit 20, rectification and smoothing unit 21, relay unit 22, transformer 23, the first microcomputer 24, the load 25, the remote control unit 26 ), A DC / DC converter 27, a second microcomputer 28, a photocoupler 29, and a signal input unit 30.

The AC input unit 20 receives AC power, and the rectifying and smoothing unit 21 rectifies and smoothes the AC power inputted to the AC input unit 20 to DC power.

The relay unit 22 transmits the power rectified by the rectifying and smoothing unit 21 to the transformer 23.

The transformer 23 receives the voltage value transmitted from the relay unit 22 from the primary side and changes the voltage value to the secondary side to supply the load 25.

The first microcomputer 24 is formed on the secondary side of the transformer 23 to be driven by the voltage supplied from the transformer 23, and the supply power is cut off together with the load 25 in a standby operation.

The remote control unit 26 inputs an operation command to the second microcomputer 28.

The DC / DC converter 27 converts the power rectified by the rectifying and smoothing unit 21 to supply the second microcomputer 28.

The second microcomputer 28 cuts off the power supplied to the first microcomputer 24 and the load 25 during a standby operation, and receives an operation command from the remote controller 26 to receive a normal operation signal. Output

The photo coupler 29 transmits a normal operation signal output from the second microcomputer 28 to the signal input unit 30.

The signal input unit 30 normally operates the first microcomputer 24 by the normal operation signal received from the photocoupler 29.

Here, the first microcomputer 24 is a main microcomputer, and the second microcomputer 28 is a power microcomputer.

The main micom checks whether the power supply of the power supply is properly input, and checks the signal input from the remote control unit 26 to perform logic changes on a menu such as channel change and volume control. To deal with.

The power micom mainly plays a role of sequentially turning on the power required for the display in accordance with the sequence signal transmitted from the main micom, and the output state is in an abnormal state for each output stage. It plays an auxiliary role in ensuring that the protection action takes place.

Looking at the operation of an embodiment of the present invention configured as described above are as follows.

First, when no operation command is generated from the remote controller 26 for a predetermined time, a normal standby operation is performed to minimize standby power consumption.

In the present invention, the supply power is cut off together with the first microcomputer 24 and the load 25 formed on the secondary side of the transformer 23 during the standby operation. Therefore, unnecessary standby power consumption can be further reduced.

In this state, the second microcomputer 28 is in an operation standby state while receiving power from the DC / DC converter 27.

Subsequently, when an operation command is input from the remote control unit 26, a normal operation signal is output from the second microcomputer 28.

The normal operation signal of the second microcomputer 28 is transmitted to the signal input unit 30 through the photo coupler 29, and the signal input unit 30 is powered by the normal operation signal received from the photo coupler 29. Supplied to operate the first microcomputer 24 normally.

Therefore, in the standby operation, the power supply to both the first microcomputer 24 and the load 25 formed on the secondary side of the transformer 23 is cut off together, and the first microcomputer 24 and the load ( 15) Power can be supplied to the whole to further reduce unnecessary standby power consumption.

3 is a block diagram showing another embodiment of the power supply of the flat panel display according to the present invention.

As shown, the present invention, the AC input unit 40, the rectifying and smoothing unit 41, the relay unit 42, the transformer 43, the first microcomputer 44, the load 45, the remote control unit 46 ), A second microcomputer 48 and a switch 47.

The AC input unit 40 receives AC power, and the rectifying and smoothing unit 41 rectifies and smoothes the AC power inputted to the AC input unit 40 to DC power.

The relay unit 42 transmits the power rectified by the rectifying and smoothing unit 41 to the transformer 43.

The transformer 43 receives the voltage value transmitted from the relay unit 42 on the primary side and changes the voltage to the secondary side to supply the load 45.

The first microcomputer 44 is formed on the secondary side of the transformer 43 and is driven by the voltage supplied from the transformer 43, and the supply power is cut off together with the load 45 in a standby operation.

In this case, it is preferable that a switch 47 is formed between the secondary side of the transformer 43 and the first microcomputer 44 to cut off the power supply.

The remote controller 46 inputs an operation command to the second microcomputer 48.

The second microcomputer 28 turns off the switch 47 during a standby operation to cut off the power supplied to the first microcomputer 44 and the load 45, and then the remote control unit 46. The switch 47 is turned on by receiving an operation command from the power supply, and normal power is supplied to the first microcomputer 44 and the load 45.

The second microcomputer 28 is in an operation standby state with power supplied from the secondary side of the transformer 43.

Here, it is preferable that the first microcomputer 24 is the main microcomputer and the second microcomputer 28 is the power microcomputer.

Looking at the operation of another embodiment of the present invention configured as described above are as follows.

First, when no operation command is generated from the remote controller 46 for a predetermined time, a normal standby operation is performed to minimize standby power consumption.

In the present invention, the supply power is cut off together with the first microcomputer 24 and the load 25 formed on the secondary side of the transformer 23 during the standby operation. Therefore, unnecessary standby power consumption can be further reduced.

That is, the second microcomputer 28 cuts off the power supplied to the first microcomputer 44 and the load 45 by turning off the switch 47 during the standby operation.

In this state, the second microcomputer 48 is in an operation standby state with power supplied from the secondary side of the transformer 43.

Subsequently, when an operation command is input from the remote controller 46, the switch 47 is turned on from the second microcomputer 48 to supply normal power to the first microcomputer 44 and the load 45. Operate the device normally.

Accordingly, the power supply to the first microcomputer 44 and the load 45 which are formed on the secondary side of the transformer 43 is cut off during the standby operation, and the first microcomputer 44 and the load ( 45) Power is supplied to the whole, further reducing unnecessary standby power consumption.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above-described embodiments, which can be variously modified and modified by those skilled in the art to which the present invention pertains. Modifications are possible. Accordingly, the spirit of the present invention should be understood only by the claims set forth below, and all equivalent or equivalent modifications thereof will belong to the scope of the present invention.

1 is a block diagram showing a power supply of a conventional flat panel display.

Figure 2 is a block diagram showing an embodiment of a power supply of the flat panel display according to the present invention.

Figure 3 is a block diagram showing another embodiment of the power supply of the flat panel display according to the present invention.

<Explanation of symbols for the main parts of the drawings>

20, 40: AC input 21, 41: rectification and smoothing

22, 42: relay unit 23, 43: transformer

24, 44: first microcomputer 25, 45: load

26, 46: remote control unit 27: DC / DC converter

28, 48: second microcomputer 29: photo coupler

30: signal input unit 47: switch

Claims (5)

AC input unit for receiving AC power; A rectifying and smoothing unit rectifying and smoothing the AC power inputted to the AC input unit into a DC power source; A relay unit transmitting power rectified by the rectifying and smoothing unit to a transformer; A transformer configured to receive the voltage value transmitted from the relay unit on the primary side and change the voltage value to the secondary side to supply the load to the load; A first microcomputer formed on a secondary side of the transformer and driven by a voltage supplied from the transformer, the supply power being cut off together with the load during a standby operation; A second microcomputer that cuts off power supplied to the first microcomputer and the load during a standby operation, and outputs a normal operation signal by receiving an operation command from a remote controller; A remote control unit which inputs an operation command to the second microcomputer; A DC / DC converter converting the power rectified by the rectifying and smoothing unit to supply the second microcomputer; A photo coupler for transmitting a normal operation signal output from the second microcomputer to a signal input unit; And a signal input unit configured to normally operate the first microcomputer in response to the normal operation signal received from the photocoupler. AC input unit for receiving AC power; A rectifying and smoothing unit rectifying and smoothing the AC power inputted to the AC input unit into a DC power source; A relay unit transmitting power rectified by the rectifying and smoothing unit to a transformer; A transformer configured to receive the voltage value transmitted from the relay unit on the primary side and change the voltage value to the secondary side to supply the load to the load; A first microcomputer formed on a secondary side of the transformer and driven by a voltage supplied from the transformer, the supply power being cut off together with the load during a standby operation; A switch formed between the transformer secondary side and the first microcomputer to cut off a power supply; In a standby operation, the switch is turned off to cut off the power supplied to the first microcomputer and the load, and a switch is turned on by receiving an operation command from a remote controller to turn on the switch. Supplying a second microcomputer; And a remote control unit for inputting an operation command to the second microcomputer. The method of claim 2, And the second microcomputer is in standby operation state by receiving power from the transformer secondary side. The method according to claim 1 or 2, The first microcomputer is a main microcomputer power supply of the flat panel display, characterized in that. The method according to claim 1 or 2, The second microcomputer is a power microcomputer power supply of the flat panel display, characterized in that.

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