KR20160013628A - Apparatus for cutting off standby power - Google Patents

Abstract

The present invention relates to a device for cutting off standby power. The device for cutting off standby power according to an aspect of the present invention comprises: a rectifier unit for rectifying commercial power input from the outside to generate the rectified power; a power switch for cutting off the commercial power when turned off and not cutting off the commercial power when turned on; an SMPS connected to the output terminal of the rectifier unit and generating DC power of a predetermined voltage level from the power rectified by the rectifier unit; a cutoff switch for controlling the DC power supplied from the SMPS to a load; a control unit operated by the DC power received from the SMPS and controlling the opening and closing of each of the cutoff switch and the power switch; and an SMPS activation unit consisting of a power switch power supply unit for generating power for turning on or off the power switch from the commercial power source and a signal generation means for receiving power from the power switch power supply unit to generate a signal for turning off the power switch for a preset time interval according to an external input signal.

Description

[0001] APPARATUS FOR CUTTING OFF STANDBY POWER [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a standby power cut-off device, and more particularly, to a standby power cut-off device for shutting off standby power generated in supplying power to a load such as an electrical product.

There is a great increase in the number of products that use electricity. When using these products, it is necessary to connect the power source and shut off the electricity when not in use. The number of products that are blocking is increasing.

In order to perform the operation of receiving or blocking the power of the remote controller by receiving the infrared signal of the remote controller, the microprocessor is included in the microprocessor and the power is continuously supplied to the microprocessor Therefore, it causes the standby power to be generated. In order for a microprocessor built in an electric appliance to operate, a SMPS (Switched Mode Power Supply) for generating a power source capable of operating a microprocessor from an external power supply is built in the electric appliance, So that even if the microprocessor uses very little power, the power consumed by the microprocessor and the power consumed by the SMPS are generated by the standby power. In recent years, there have been a number of appliances that utilize the high-efficiency SMPS and microprocessor's sleep mode and idle mode to minimize standby power, but standby power still occurs unless the power is completely cut off from the appliance. This standby power is very low, less than 2W for each appliance, but the total amount of standby power actually consumed is very high because the number of appliances used in the whole country or city is very high and the energy consumption due to such standby power is large It is becoming a social problem.

KR 1100375 B1 KR 2014-0063395 A JP 4456031 B2

An object of the present invention is to provide a stand-by power cut-off device for shutting off standby power for maintaining power of a control unit in generating and supplying a power source to be used in a load such as an electric appliance by receiving commercial power from the outside.

Another object of the present invention is to provide a stand-by power cut-off device capable of increasing the service life of the SMPS while minimizing standby power by supplying power to the load in accordance with a user's button operation or an external input signal by a remote controller operation .

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood from the following description.

In order to achieve the above object, a standby power interrupter according to an aspect of the present invention includes: a rectifier for rectifying a commercial power input from the outside to generate a rectified power; a commercial power supply for turning off the commercial power when turned off; An SMPS for generating a DC power source of a predetermined voltage level from a power source rectified by the rectifying section, a cutoff switch for interrupting the DC power supplied from the SMPS to the load, A power switch power supply unit for generating a power supply for turning on or off the power switch from the commercial power supply; Power is supplied and the power switch is turned on for a predetermined time interval according to the external input signal A signal generating means for generating a signal to include portions made of SMPS activation.

According to the present invention, when an AC power is supplied from an external source to generate and supply power to be used in a load of an electrical product or the like, in case of non-operation or power off of the electrical product, The standby power for maintaining the power can be shut off. In addition, when power is not supplied to the control unit, the power of the control unit can be recovered according to the external input signal. In addition, unlike the prior art, the present invention is advantageous in that it is not necessary to provide a separate power supply means (e.g., a secondary battery) for maintaining the power of the controller.

Further, according to the present invention, there is an advantage that standby power can be shut off even when the electrical product is connected to an outlet through which commercial power is supplied.

1 is a circuit diagram showing a standby power cut-off device according to an embodiment of the present invention;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described below, but may be embodied in various different forms, and these embodiments are not intended to be exhaustive or to limit the scope of the present invention to the precise form disclosed, It is provided to inform the person completely of the scope of the invention. It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, a standby power cutoff device according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. FIG. FIG. 1 is a circuit diagram showing a standby power cut-off device according to an embodiment of the present invention, and FIG. 2 is a diagram for explaining an operation waveform of a standby power cut-off device according to an embodiment of the present invention.

The standby power cutoff device according to an embodiment of the present invention receives a commercial power (AC power) from an external source to generate and supply power to be used in a load of an electrical product or the like, 100, a rectifier 250, an SMPS 300, a cutoff switch 350, a control unit 500, a power switch control unit 550, and an SMPS activating unit 600.

When the power switch 100 is turned off, the commercial power input from the outside is cut off, and when the power switch 100 is turned on, the commercial power is not cut off. The power switch 100 may be a transistor that turns on or off according to a signal input to the gate and outputs a commercial power when the power switch 100 is turned on.

The rectifying unit 250 rectifies a commercial power input from the outside to generate rectified power. The rectifying unit 250 may include a bridge diode and a capacitor for smoothing. Meanwhile, an EMI filter unit 200 for removing electrical noise such as an impulse response of a commercial power supply may be included in the front end of the rectifying unit 250.

The SMPS 300 is connected to an output terminal of the rectifying unit 250 and receives a power rectified by a commercial power supply. The rectifier 250 generates a DC power of a preset voltage level from the rectified power. The SMPS 300 may have a DC power output terminal 360 for supplying power to a load such as an electrical product and a DC power output terminal 370 for supplying power to the control unit 500. [

The cutoff switch 350 interrupts the DC power supplied from the SMPS 300 to the load.

The control unit 500 operates by receiving DC power from the SMPS 300 and controls the opening and closing of the shutoff switch 350 and the power switch 100, respectively.

When the control unit 500 turns off only the shutoff switch 350, there is no power consumption in the load. However, since the rectifier unit 250, the SMPS 300, the control unit 500, Power consumption is accompanied.

However, when the control unit 500 turns off the power switch 100, the supply of the commercial power is cut off from the front end of the rectifying unit 250, so the rectifying unit 250, the SMPS 300, the control unit 500, Power consumption due to the configuration can be prevented.

When the power switch 100 is turned off, the SMPS 300 does not receive the rectified power from the rectifying unit 250 and thus does not operate. Therefore, the standby power cut- And an SMPS activating unit 600 as an arrangement for recovering a power supply for operating the microprocessor.

The SMPS activating unit 600 includes a power switch power supply unit 610 for generating a power supply for turning on or off the power switch 100 from a commercial power supply and a physical switch 623 or a remote And optical signal receiving means 621 for receiving the optical signal by the controller 700. [

The SMPS activating unit 600 includes signal generating means for receiving power from the power switch power supply unit 610 and generating a signal for turning on the power switch 100 for a predetermined time interval according to an external input signal. The signal generating means includes a light emitting unit connected to the physical switch 623 or the optical signal receiving unit 621 and a phototransistor having one end electrically connected to the power switch power supply unit 610 and the other end connected to the power switch 100. [ Lt; RTI ID = 0.0 > 631 < / RTI >

The optocoupler 631 generates a signal to turn on the power switch 100 only when an external input signal is input from the physical switch 623 or the optical signal receiving means 621. The optocoupler 631 causes the power Since the switch 100 is isolated from the physical switch 623 or the optical signal receiving means 621 and is insulated, the standby power in the circuit configuration for driving the power switch 100 can be effectively reduced.

The SMPS activating unit 600 receives power from the power switch power supply unit 610 when the external input signal is inputted through the physical switch 623 or the optical signal receiving unit 621, Lt; RTI ID = 0.0 > turn-on < / RTI >

Accordingly, the power switch 100 is turned on for a predetermined time interval according to the external input signal, and the rectified power from the rectification part 250 is supplied to the SMPS 300. [

That is, when the external input signal is input through the physical switch 623 or the optical signal receiving unit 621, the SMPS activating unit 600 receives the power generated from the power switch power supply unit 610, To turn on during a predetermined time interval.

When the power switch is turned on in accordance with an external input signal, the controller 500 can operate by receiving DC power from the SMPS 300. Therefore, even if an external input signal is not generated or is not continuously input, The control signal can be generated. The control unit 500 is connected to a receiving unit 560 that receives an optical signal by the remote controller 700 and can control the opening and closing of the blocking switch 350 when an optical signal is received.

The power switch control unit 550 controls the opening and closing of the power switch 100 by receiving a control signal from the control unit 500 when the SMPS 300 recovers power by the SMPS activating unit 600. [

The power switch control unit 550 includes a switching device 551 that receives a control signal from the control unit 500 and turns the power switch 100 on or off. The gate of the switching device 551 receives a control signal from the control unit 500 and may be connected to the power switch 100 so as to conduct or cut off the current from the SMPS 300 to the power switch 100 according to a control signal . Meanwhile, a diode 557 for preventing reverse flow from the commercial power source to the output terminal of the SMPS 300 may be connected to the current conduction path from the SMPS 300 to the power switch 100.

On the other hand, when both the power switch 100 and the cut-off switch 350 are turned on and the DC power is supplied to the load 400, an external input signal is supplied through the physical switch 623 or the optical signal receiving means 621 The control unit 500 generates a control signal for turning off the power switch 100 and transmits a control signal to the switching element 551 of the power switch control unit 550 and outputs the control signal to the power switch 100 according to the control signal. Can be turned off.

Hereinafter, with reference to FIG. 2, the operation of the standby power interruption device according to one embodiment of the present invention will be described in detail.

2, the user button waveform is an output waveform of the physical switch 623 or the optical signal receiving means 621 when an external input signal is input, and the gate signal waveform is a signal input to the gate of the power switch 100 And the SMPS power waveform is a waveform at an output terminal for supplying power to the control unit 500 of the SMPS 300. The MCU gate signal waveform is input from the control unit 500 to the switching element 551 of the power switch control unit 550, As shown in FIG. 2, the vertical axis is voltage level and the horizontal axis is time.

The SMPS activating unit 600 receives power generated from the power switch power supply unit 610 when an external input signal is inputted through the physical switch 623 or the optical signal receiving unit 621 (801 to 805) (100) for a predetermined time interval.

When the power switch 100 is turned on according to an external input signal, the controller 500 can operate by receiving the DC power from the SMPS 300. Therefore, even if an external input signal is not generated or continuously input, (803 to 807) to generate a control signal to maintain the turn-on state of the display device (100).

When an external input signal is inputted through the physical switch 623 or the optical signal receiving means 621 when both the power switch 100 and the cutoff switch 350 are turned on and the DC power is supplied to the load 400 , The control unit 500 generates a control signal for turning off the power switch 100 from 807 to 809 and transmits the control signal to the switching element 551 of the power switch control unit 550, The power switch 100 is turned off (811), and the control unit 500 does not receive the DC power and does not generate the control signal (811).

In the stand-by power cut-off device according to an embodiment of the present invention, an AC power is supplied from an external source to generate and supply power to be used in a load of an electrical product or the like. It is possible to shut off the standby power due to the power consumption of the rectifying unit 250, the SMPS 300, the control unit 500 and the like in the case where the power is not supplied to the control unit 500, The power of the control unit 500 can be recovered by the SMPS activating unit 600 according to the input signal. In addition, since the SMPS 300 is activated according to the external input signal only when power is supplied from the load, the life of the SMPS can be increased.

That is, the standby power cut-off device according to an embodiment of the present invention has an advantage that standby power can be minimized and power can be supplied to the load.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description, and all changes or modifications derived from the scope of the claims and their equivalents should be construed as being included in the scope of the present invention.

100: Power switch,
200: EMI filter unit, 250: rectifying unit,
300: SMPS, 350: disconnect switch
500: control unit, 550: power switch control unit, 551: switching device, 560:
553, 555: Resistor, 557: Diode,
600: SMPS activating part, 610: Power switch power supply part, 621: Optical signal receiving part,
623: physical switch, 631: optocoupler, 625, 633: resistor,
700: remote controller, 701: transmitting unit.

Claims (5)

A rectifying unit for rectifying a commercial power input from the outside to generate a rectified power source;
A power switch for shutting off the commercial power when turned off and preventing the commercial power from being cut off when the power switch is turned on;
An SMPS connected to an output terminal of the rectifying unit and generating a DC power of a predetermined voltage level from the rectified power from the rectifying unit;
A shutoff switch for interrupting DC power supplied from the SMPS to the load;
A control unit operable to receive DC power from the SMPS and to control opening and closing of the shutoff switch and the power switch, respectively; And
A power switch power supply unit for generating power for turning on or off the power switch from the commercial power supply, a signal for turning on the power switch for a predetermined time interval in accordance with an external input signal received from the power switch power supply unit, An SMPS activating unit configured to generate a signal;
/ RTI > The apparatus of claim 1,
The control unit may generate a control signal to maintain the power switch in a turned-on state even if the external input signal is not generated when the power switch is turned on according to the external input signal
Standby power cutoff device. The apparatus of claim 1,
Generating a control signal for turning off the power switch when an external input signal is input when both the power switch and the cutoff switch are turned on and the DC power is supplied to the load
Standby power cutoff device. 2. The apparatus of claim 1,
And includes any one of a physical switch and an optical signal receiving means for receiving the external input signal
Standby power cutoff device. 5. The apparatus according to claim 4, wherein the signal generating means of the SMPS activating unit comprises:
A light emitting unit connected to one of the physical switch and the optical signal receiving unit, and an optocoupler having one end electrically connected to the power switch power supply unit and the other end connected to the power switch
Standby power cutoff device.

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