KR20000066087A - reduction apparatus for waiting power of power supply - Google Patents

Abstract

PURPOSE: An apparatus for reducing stand-by power of power supply is provided to automatically breaks the power supply to respective load if an user doesn't input operational signals for a while or the operations are completed, thereby reducing power consumption. CONSTITUTION: An apparatus for reducing stand-by power of power supply comprises a bridge rectifier(2), a transformer, a first NPN transistor(Q1), a start resistor(R), a power switch(SW), a start stopper(3) and a micom(4). The start stopper(3) outputs low signals for turning the first NPN transistor OFF in accordance with the control signals from outside. The micom(4) senses the operational status of the system and operates the start stopper(3) in case that the system wasn't operated for a while.

Description

Reduction device for power supply {reduction apparatus for waiting power of power supply}

The present invention relates to an apparatus for reducing standby power of a power supply device applied to an inverter circuit using a DC-DC converter, and in particular, disposed between an external power supply and a primary side of a transformer to prevent operation of the system for a predetermined time. The present invention relates to a standby power reduction device of a power supply device that automatically cuts off power supplied to a system to reduce power consumption during standby time.

In general, the inverter circuit is provided with a power supply unit for converting the voltage supplied from the outside into a size suitable for use in the system to supply the system. In this case, the power supply device generally uses a transformer for disposing the primary coil and the secondary coil to face each other.

The inverter circuit provided with the power supply as described above always maintains the state in which the power cord is connected. Accordingly, even when the product is not used, power is continuously supplied to the system through the power supply device, thereby causing unnecessary power consumption.

In order to solve the above problems, a method of preventing power consumption is suggested by a user unplugging a power cord, but this is hardly made due to inconvenience in use.

In addition, a method of providing a power switch that can open a power supply line itself according to a user's operation has been proposed at an input line of a power device connected to a power cord. In the case where the inverter circuit is used in a product that does not need to see, the user has to turn off the power switch at the completion of operation, and thus it is not possible to solve the inconvenience in use.

The present invention has been made to solve the above problems, the object is that the user does not input the operation signal for a certain time or power is turned off automatically after a certain time elapses after the operation of the product is completed. It is to provide a standby power reduction device of the power supply device that can reduce the.

1 is a circuit diagram of a standby power reduction apparatus according to an embodiment of the present invention,

Fig. 2 is a circuit diagram showing the configuration of the start stop section according to the present invention.

<Description of the code | symbol about the principal part of drawing>

1: AC power supply unit 2: bridge rectifying unit

3: start stop part 4: microcomputer

According to a feature of the present invention for achieving the above object, the bridge rectifier for rectifying the AC power source to the DC power source; A primary coil separated by a first coil connected at one end to an output terminal of the bridge rectifier and a second coil connected to a ground at one end thereof, and a secondary coil disposed to face the primary coil; A transformer for converting the predetermined size into a load of the system; A first NPN transistor having a collector terminal connected to the other end of the first coil, a base terminal connected to the other end of the second coil, and an emitter terminal connected to ground; A power supply apparatus comprising a starting resistor and a power switch connected in series between an output terminal of the bridge rectifying unit and a base terminal of the first NPN transistor.

A start stop section for outputting a low signal for turning off the first NPN transistor in accordance with an external control signal; The present invention provides an apparatus for reducing standby power of a power supply device including a microcomputer that senses an operation state of a system and determines the power cutoff when the operation is not performed for a predetermined time or more and drives the start and stop part.

In this case, according to an additional feature of the present invention, the start-stop unit has a collector terminal connected to the base terminal of the first NPN transistor, the base terminal connected to the output terminal of the microcomputer, and the emitter terminal connected to the ground. It is preferable to include an NPN transistor.

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

1 is a circuit diagram of a standby power reduction apparatus according to an embodiment of the present invention.

Referring to FIG. 1, reference numeral 1 denotes an external AC power supply unit, and 2 denotes a bridge rectifier for rectifying AC power supplied from the AC power supply unit 1 into DC power.

Reference numerals L1 and L2 denote first and second coils forming the primary coil of the transformer. In addition, reference numeral Q1 denotes a collector terminal connected to the first coil L1 and a base terminal to the second coil. Connected to the coil L2, the emitter terminal represents the first NPN transistor connected to ground.

Further, reference numeral R denotes a starting resistor connected between the output terminal of the bridge rectifying section 2 and the base terminal of the first NPN transistor Q1, and SW denotes a power switch connected in series to the starting resistor R. Z is connected between the base terminal of the first NPN transistor Q1 and ground, and a breakdown phenomenon occurs when a process voltage is applied to the base terminal of the first NPN transistor Q1, and the first NPN transistor Q1 Represents a Zener diode.

In addition, reference numeral 3 denotes a start-stop portion for outputting a low signal for turning off the first NPN transistor Q1 according to an external control signal, and 4 denotes an operation stop state of the system. A microcomputer for driving the start and stop unit 3 by determining the power cutoff when the operation is not performed for more than a time period is shown.

2 shows the configuration of the start and stop section 3.

Referring to FIG. 2, reference numeral Q2 denotes a first terminal in which a collector terminal is connected to the base terminal of the first NPN transistor Q1, the base terminal is connected to the output terminal of the microcomputer 4, and the emitter terminal is connected to ground. 2 indicates an NPN transistor.

Referring to the operation of the present invention having the configuration as described above are as follows.

First, when a user presses the power switch SW to turn it on, an output voltage of the bridge rectifier 2 is provided to a base terminal of the first NPN transistor Q1, so that the first NPN transistor Q1 is turned on. The first NPN transistor Q1 is turned on as the base voltage of the signal becomes high. At this time, the current flows through the first coil L1, which is the primary coil of the transformer, so that an induced current is generated in the secondary coil of the transformer, thereby starting the entire power supply device.

When the above operation is made, the microcomputer 4 receives the power switch pressing signal and resets the system to maintain the system in an initial state. At this time, since the induced current is also generated in the second coil L2 of the primary coil by the induced current generated in the secondary coil of the transformer, even if the power switch SW is turned off, the first NPN transistor Q1 remains on.

Thereafter, the function of the product is performed and the operation is completed, or if the user does not input the control signal to the system for a predetermined time or more, the microcomputer 4 recognizes the state and the second NPN transistor Q2 of the start stop section 3 is performed. The second NPN transistor Q2 is turned on by outputting a high signal to a base terminal of

As the first NPN transistor Q1 is turned off according to the on operation of the second NPN transistor Q2, the power supplied to the first coil L1 is cut off.

The standby power reduction apparatus of the power supply apparatus according to the present invention as described above has the effect of reducing power consumption by automatically shutting off the power when the product does not operate for a predetermined time.

In addition, since the user does not need to perform a separate operation, there is an effect that can improve the ease of use.

Claims (1)

A bridge rectifier for rectifying AC power into DC power; A primary coil separated by a first coil connected at one end to an output terminal of the bridge rectifier and a second coil connected to a ground at one end thereof, and a secondary coil disposed to face the primary coil; A transformer for converting the predetermined size into a load of the system; A first NPN transistor having a collector terminal connected to the other end of the first coil, a base terminal connected to the other end of the second coil, and an emitter terminal connected to ground; A power supply apparatus comprising a starting resistor and a power switch connected in series between an output terminal of the bridge rectifying unit and a base terminal of the first NPN transistor. A start stop section for outputting a low signal for turning off the first NPN transistor in accordance with an external control signal; And a microcomputer for sensing the operation state of the system and determining the power cutoff to drive the start and stop unit when the operation is not performed for a predetermined time or more.