KR20030062550A - Electrical device having stand-by mode - Google Patents

Abstract

PURPOSE: An electric system having a standby power supply is provided to control the operation of a main power source part by a driving power generated from a standby power source part, thereby reducing the number of required parts and realizing a simple circuit arrangement. CONSTITUTION: An electric system having a standby power supply includes an AC rectifying part(510) for rectifying an AC commercial power to output a first DC power, a standby power source part(600) for generating a driving power from the first DC power to carry out a first SMPS operation by the driving power and output a second DC power according to a winding rate, a main power source part(500) for carrying out a second SMPS operation by the driving power and converting the first DC power to a second DC power according to the winding rate to supply to a load, a mode conversion part(700) for supplying or blocking the driving power from the standby power source part to the main power source part in response to a mode conversion control signal, and a microcomputer(900) supplied with the second DC power and outputting the mode conversion control signal to the mode conversion part according to a mode conversion command detected by monitoring external inputs.

Description

Electrical device having stand-by mode

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrical apparatus that performs a function by receiving power, and more particularly, to an electrical apparatus that has a standby mode for power saving.

Recently, as the consumption of electric power increases with the increase of electronic products, various products capable of managing power have been released. Such electronics are intended to have a standby mode in which the device is not used right now but the device can be activated as soon as it is delivered to the device from the outside.

1 is a schematic block diagram of a conventional display apparatus having a standby power source. The display apparatus includes a main power supply unit 100, a standby power supply unit 200, a display 300, and a microcomputer 400.

The main power supply unit 100 outputs a pulse according to the winding ratio by repetitive interruption of the main AC rectifying unit 110 rectifying the AC commercial power supply 10 to DC and the DC converted through the main AC rectifying unit 110. Stabilizing the DC output from the transformer 120 and the main output unit 130 and the main output unit 130 for rectifying the pulse power output from the main transformer 120 back to the DC output to the display 300 The main feedback unit 140 for outputting a feedback signal for the main unit 120 and the main voltage 120 to be activated by the start voltage converted from the AC commercial power supply 10 to start the main transformer 120, and the main transformer 120 is operated together with the operation of the main transformer 120. The main switching unit controls the interruption of the main transformer 120 according to the feedback signal transmitted from the main feedback unit 140, and performs a switching operation of driving the main transformer 120 from the driving power supply Vcc. 150 and the mode switching control signal of the microcomputer 400; In response, a relay 160 for supplying / blocking the AC commercial power supply 10 to the main AC rectifier 110 is provided.

In addition, the standby power supply unit 200 outputs a pulse according to the winding ratio by repetitive interruption of the standby AC rectifying unit 210 rectifying the AC commercial power supply 10 to DC and the DC converted through the standby AC rectifying unit 210. Standby lance 220, the standby output unit 230 for rectifying the pulse output from the standby byte lance 220 to the microcomputer 400, and stabilizes the DC output from the standby output unit 230 A standby feedback unit 240 for outputting a feedback signal for outputting the same, and a start signal supplied by the AC commercial power supply 10 to start the standby byte lance 220, and the driving power supply Vcc together with the operation of the standby byte lance. A switching operation for driving the standby byte lance 220 is provided, and the standby switching unit 250 for controlling the interruption of the standby byte lance 220 according to the feedback signal transmitted from the standby feedback unit 240.

The microcomputer 400 receives operating power from the standby power supply unit 200, monitors whether the mode switching command is input from the outside, and outputs a mode switching control signal according to the detected mode switching command to control the relay 160. That is, the relay 160 is turned on when the normal mode switch command is detected, and the relay 160 is turned off when the standby mode switch command is detected.

In the display device having the conventional standby mode as described above, the AC commercial power supply 10 is transmitted to the main AC rectifier 110 by turning on the relay 160 in the microcomputer 400 in the normal mode. The main AC rectifier 110 rectifies the AC commercial power supply 10 and outputs the DC to the main transformer 120. The main switching unit 150 has a primary side of the main transformer 120 when the driving power supply Vcc is supplied. The switching operation is performed so that the DC power flowing in the circuit is induced to the secondary side. Then, the main transformer 120 outputs a pulse according to the turns ratio, and the main power output unit 130 rectifies the pulse back to DC to supply the display 300. In order to stabilize the DC power supplied to the display 300, the main power feedback unit 140 detects the power supplied to the display 300 and outputs a feedback signal to the main switching unit 150. Then, the main switching unit 150 controls the interruption of the main transformer 120 based on the feedback signal. In addition, the AC commercial power supply 10 is rectified by the standby AC rectifying unit 210 and transferred to the standby byte lance 210, and like the main power supply unit 100 in the standby byte lance 220 by the driving of the standby switching unit 350 The pulse is output according to the turns ratio. The standby output unit 230 rectifies the pulse and supplies it to the microcomputer 400. At this time, in order to stabilize the power supplied to the microcomputer 400, the standby feedback unit 240 detects the power supplied to the microcomputer 400 and outputs a feedback signal to the standby switching unit 250.

In the standby mode, the display device turns off the relay 160 in the microcomputer 400 to cut off the power supplied to the main power supply unit 100. At this time, the standby power supply unit continues to supply power to the microcomputer.

However, in the conventional display device as described above, there is a problem that the manufacturing cost of the device is high due to the large number of parts used in each of the main power supply unit and the standby power supply unit. There was a problem of high.

SUMMARY OF THE INVENTION An object of the present invention is to provide an electric device that can effectively reduce redundant parts and solve a standby mode without using a relay.

1 is a block diagram of a display device having a conventional standby power source,

2 is a block diagram of a display device having a standby power source according to an embodiment of the present invention.

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

10: AC commercial power supply 100, 500: main power supply

110, 510: AC rectifier 120, 520: main transformer

130, 530: main output unit 140, 540: main feedback unit

150, 550: main switching unit 160: relay

200, 600: standby power supply unit 220, 610: standby byte lance

230, 620: standby output unit 240: standby feed back unit

250, 650: standby switching unit 700: mode switching unit

800: display 900: microcomputer

Electrical apparatus having a standby power supply of the present invention for achieving the above object, AC rectification unit for rectifying the AC commercial power supply to the first DC power supply; A standby power supply unit generating a driving power from the first DC power, performing a first SMPS operation by the driving power, and outputting a second DC power according to a turns ratio; A main power supply unit performing a second SMPS operation by the driving power supply and converting the first DC power into a second DC power according to a turns ratio and supplying the load to a load; A mode switching unit for supplying / blocking the driving power provided from the standby power supply unit to the main power supply unit in response to a mode switching control signal; And a microcomputer receiving the second DC power and outputting the mode switching control signal to the mode switching unit according to a detected mode switching command by monitoring an external input.

The standby power supply unit may include: a stand-by lance outputting a first pulse signal according to a turns ratio by repetitive interruption of the first DC power supply; A standby switching unit which is driven by the driving power from the standby byte lance and regulates the first DC power delivered to the standby byte lance; And a standby output unit configured to rectify the pulse signal output from the standby byte lance to output a second DC power source to the microcomputer, and to receive the first feedback signal from the driving power source to stabilize the second DC power source. The standby feedback unit outputs to the standby switching unit.

The main power supply unit may include: a main transformer configured to output a second pulse signal according to a winding ratio by repetitive interruption of the first DC; A standby switching unit intermitting the first DC transmitted to the main transformer by the driving power source; And a main output unit rectifying the second pulse signal output from the main transformer and outputting a third DC power supply to the load, wherein the main power supply unit stabilizes the third DC power output to the load. And a main feedback unit for outputting a second feedback signal to the main switching unit.

The mode switching unit, the switching element for supplying / blocking the driving power generated in the standby power supply unit; And a control circuit for turning on / off the switching element in response to a mode switching control signal output from the microcomputer. Here, the switching device may be a variety of devices that perform a switching function, for example a photocoupler may be used.

The electric device having the standby power source of the present invention as described above can control the operation of the main power supply unit through the driving power generated in the standby power supply unit, thereby reducing the number of parts required, and the failure rate of the product according to a simple implementation circuit. Can be reduced.

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

2 is a schematic block diagram of a display apparatus having a standby power source according to an embodiment of the present invention. The display apparatus includes an AC rectifier 510, a standby power supply unit 600, a main power supply unit 500, a mode converter 700, a display 800, and a microcomputer 900.

The AC rectifier 510 rectifies the AC commercial power supply 10 and outputs a first DC power supply.

The standby power supply unit 600 generates a driving power supply Vcc from the first DC power supply, performs a switching mode power supply (SMPS) operation by the driving power supply Vcc, and micoms the second DC power supply according to the winding ratio. Supplies). To this end, the standby power supply unit 600 outputs the first pulse signal according to the turns ratio by the repeated interruption of the first DC power supply, and the first transmission through the primary winding of the standby bit 610. A standby switching unit for starting the standby byte lance 610 to be started by the DC power supply and intermitting the first DC power transmitted to the standby byte 610 by the driving power source Vcc generated in the standby byte 610 ( 650, and a standby output unit 620 for rectifying the first pulse signal output from the standby byte 610 and outputting a second DC power source to the microcomputer 900. The apparatus may further include a standby feedback unit (not shown) which outputs a feedback signal to the standby switching unit 650 through the detection of the driving power source Vcc to stabilize the second DC power delivered to the microcomputer 900.

The main power supply unit 500 receives the first DC power and performs the SMPS operation by the driving power supply Vcc generated by the standby power supply unit 600 to display the second DC power converted to the first DC power. To feed. To this end, the main power supply unit 500 is driven by the main transformer 520 which outputs the second pulse signal according to the turns ratio by the repetitive interruption of the first DC, and the driving power source Vcc generated by the stand-by transformer 610. And the main switching unit 550 intermittently intercepting the first DC transmitted to the primary winding of the main transformer 520, and the second pulse signal output from the main transformer 520 to rectify the third DC to the display 800. It includes a main output unit 530 for outputting power. The apparatus further includes a main feedback unit 540 for detecting the third DC power and outputting a feedback signal to the main switching unit to stabilize the third DC power transmitted to the display 800.

The mode switching unit 700 supplies / blocks the driving power Vcc provided from the standby power supply unit 600 to the main power supply unit 500 in response to the mode switching control signal output from the microcomputer 900. To this end, the mode switching unit 700 switches in response to a mode switching control signal output from a microcomputer and a switching device (not shown) for supplying / blocking driving power provided from the standby power supply unit 600 to the main power supply unit 500. And a control circuit (not shown) for turning the device on and off. Herein, a photocoupler (not shown) may be used as the switching element, and a transistor (not shown) may be used as the control circuit to switch the operation of the photodiode (not shown) according to a control signal from the microcomputer 900. have.

The microcomputer 900 operates by receiving the second DC power from the standby power supply unit 600, and monitors an external input and outputs a mode change control signal to the mode switch unit 700 according to the detected mode change command.

In the display device as described above, in the normal operation, the first DC power rectified by the AC rectifier 510 is transferred to the standby switching unit 650 through the primary winding of the standby byte 610, and the standby switching unit 650 is It is started by the first DC power supply to perform a switching operation. Then, the first DC power delivered to the primary side of the standby byte 610 is intermittently interrupted by the switching operation of the standby switching unit 650 and induced into the secondary winding, and the standby byte 610 is a pulse power source according to the turns ratio. Is output. At this time, the pulse power source for use as the driving power source (Vcc) of the standby switching unit 650 is reinduced from the power source induced in the secondary winding to the secondary winding side of the primary side, and the pulse power source is rectified and the standby switching unit ( 650 is supplied to the driving power. The standby switching unit 650 may continuously perform a switching operation by the driving power supply Vcc, and the standby byte 610 may continuously perform pulse power according to the winding ratio by the switching operation of the standby switching unit 650. You can print it out. The pulse power output from the standby byte 610 is rectified again by the standby output unit 620 and supplied to the microcomputer 900. At this time, the standby feedback unit (not shown) outputs a feedback signal to the standby switching unit 650 so as to detect the driving power Vcc and control the intermittent operation of the standby byte 610.

On the other hand, in the main power supply unit 500, the switching operation is performed as the driving power is supplied to the main switching unit 550 through the mode switching unit 700, and the main transformer 520 by the switching operation of the main switching unit 550. The first DC power source, which reaches the primary side of the N, is repeatedly interrupted and discharged to the secondary side of the main transformer 520. The power induced in the secondary side is a pulse power, and the pulse power is rectified by the main output unit 530 and supplied to the display 800. At this time, the main feedback unit 540 detects the third DC power so that the third DC power supplied to the display 800 can be stabilized, and main feedbacks the feedback signal to control the intermittent operation of the main transformer 520. Output to the unit 550.

In the normal mode as described above, the microcomputer 900 outputs the normal mode switching control signal so that the driving power supply Vcc can be supplied from the standby power supply unit 600 to the main switching unit 500.

On the other hand, when the standby mode switching command input from the outside is detected, the microcomputer 900 sends a standby mode switching control signal to shut off the driving power supply Vcc supplied from the standby power supply unit 600 to the main switching unit 500. Output to the mode switching unit 700. When the driving power supplied to the main switching unit 550 is cut off, the main switching unit 550 stops the switching operation. Accordingly, the first DC power delivered to the primary winding of the main transformer 520 is no longer provided. It is not induced to the secondary winding.

The electric device having the standby power source according to the present invention as described above can control the operation of the main power supply unit through the driving power generated in the standby power supply unit, thereby reducing the number of parts required, and the failure of the product according to a simple implementation circuit. The incidence rate can be reduced.

About 10 parts are used for the power supply of the display apparatus according to the present invention, and the material cost is about $ 0.8, whereas the number of parts used in the power supply of the conventional display apparatus is about 40, and the material cost is about $ 2.5 The electric device according to the present invention can be reduced to a considerable extent, which can significantly reduce the number of parts and the manufacturing cost.

In the above described and illustrated with respect to the preferred embodiment of the present invention, the present invention is not limited to the specific preferred embodiment described above, without departing from the gist of the invention claimed in the claims in the art Various modifications can be made by those skilled in the art, and such changes are within the scope of the claims.

Claims (7)

An AC rectifier for rectifying AC commercial power and outputting the first DC power; A standby power supply unit generating a driving power from the first DC power, performing a first SMPS operation by the driving power, and outputting a second DC power according to a turns ratio; A main power supply unit performing a second SMPS operation by the driving power supply and converting the first DC power into a second DC power according to a turns ratio and supplying the load to a load; A mode switching unit for supplying / blocking the driving power provided from the standby power supply unit to the main power supply unit in response to a mode switching control signal; And And a microcomputer receiving the second DC power and outputting the mode switching control signal to the mode switching unit in response to a detected mode switching command by monitoring an external input. The method of claim 1, The standby power supply unit, A stand-by lance outputting a first pulse signal according to a turns ratio by repetitive interruption of the first DC power supply; A standby switching unit which is driven by the driving power from the standby byte lance and regulates the first DC power delivered to the standby byte lance; And And a standby output unit configured to rectify the pulse signal output from the standby byte lance and output a second DC power supply to the microcomputer. The method of claim 2, The standby power supply unit, the standby power supply further comprises a standby feedback unit for outputting a first feedback signal for stabilizing the second DC power supply from the driving power supply; electrical device having a standby power supply. The method of claim 1, The main power supply unit, A main transformer outputting a second pulse signal according to a turns ratio by repetitive interruption of the first DC; A standby switching unit intermitting the first DC transmitted to the main transformer by the driving power source; And And a main output unit configured to rectify the second pulse signal output from the main transformer and output a third DC power source to the load. The method of claim 4, wherein And the main power supply unit further comprises a main feedback unit configured to output a second feedback signal for stabilizing the third DC power output to the load to the main switching unit. The method of claim 1, The mode switching unit, A switching element for supplying / blocking driving power provided from the standby power supply unit to the main power supply unit; And And a control circuit for turning on / off the switching element in response to a mode switching control signal output from the microcomputer. The method of claim 6, And said switching device is a photocoupler.