KR19990005406A - Television receiver with power saving function - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a television receiver having a power saving function that can reduce unnecessary power consumption during a stand-by, and includes a rectifying circuit 1 for rectifying an input power source, a primary winding and A first transformer 2 for generating a predetermined output power based on the rectified power output from the rectifying circuit 1 according to the winding ratio of the secondary winding, and a current flowing through the primary winding of the first transformer 2 A second transformer for generating a driving current of the FET Q as an induction current according to a current flowing through the secondary winding of the transformer 2, the first transformer 2 and the FET ( A television receiver having a snubber capacitor C3 for absorbing snubber current on a current path of Q) and a control unit for controlling the overall apparatus; A capacitor C4 coupled in parallel with the snubber capacitor C3, a transistor TR2 turned on or off according to a predetermined control signal of the controller, between a predetermined input power source and the transistor TR2 and the And a relay 10 connected in common between the capacitor C4 and the ground, and the controller is turned on when the transistor TR2 is turned on and turned off when the power is turned off. And control to be off.

Therefore, according to the present invention, it is possible to reduce unnecessary power consumption during stand-by by minimizing the discharge operation of the snubber current in repetitive on or off operation of the power FET.

Description

Television receiver with power saving function

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a television receiver, and more particularly, to a television receiver having a power saving function for reducing unnecessary power consumption during a stand-by.

1 illustrates a power supply circuit of a power supply unit used in a conventional television receiver.

The input power input through the power plug is DC rectified by the bridge diode 1 and the capacitor C1, and then the power FET provided in the power supply IC 3 through the primary winding coupled to one end of the transformer 2. It is coupled to the drain terminal D of (Q). In addition, noise is prevented by a sudden drain-source voltage increase when the power FET Q is turned off on the current path of one end of the primary winding of the transformer 2 and the drain terminal D of the power FET Q. A resonant capacitor C3 for a snubber operation and a pseudo resonance operation of the power FET Q are combined.

In addition, the power supply IC 3 is coupled to the bridge diode 1 through the start resistor R _S , so that when the initial power is input, the initial oscillation is based on the initial power input through the start resistor R _S. Will perform the action.

On the other hand, during a normal power-on operation, a predetermined operating power is induced on the secondary side N _S by the power supply of the primary side N _P of the transformer 2, and then induced on the secondary side. Predetermined power is induced in the d ₁ and d ₂ windings by the power supply. At this time, the transistor TR1 is induced in the d ₁ winding and turned off by the voltage flowing through the resistor R3 and the diode D4. Will be That is, when the power is turned on, the power supply IC 3 is driven through the voltage purely induced by the winding d ₁ .

That is, in the power supply circuit of the television receiver having the above-described configuration, when a small current is applied to the power supply IC 3 through the start resistor R _S when the power supply is first started, the power supply IC 3 drives the drive circuit. Initial oscillation starts. Subsequently, the voltage is induced in the d ₂ winding by the voltage generated on the secondary side N _S of the transformer 2, and the induced voltage is transferred to the standby-by-power supply IC 3 through the transistor TR1. In this example, a normal standby operation is performed. At this time, since the FET Q of the power supply IC 3 operates in a light load mode as compared with the power-on mode, a pulsed current having a very short turn-on time flows.

After that, when the power is turned on, the transistor TR1 is turned off by the voltage induced in the winding d _1. That is, when the power is turned on, the power supply IC is driven by the voltage induced in the winding d _1. (3) is driven.

On the other hand, as in the normal mode, when the FET Q is turned off as in the normal mode, the instantaneous charging operation occurs in the resonant capacitor C3 through the primary coil of the transformer 2 along the path of a. In this case, the resonant capacitor C3 performs a snubber operation to absorb the spark generated when the input power is switched. At this time, when the FET Q is turned on again, the snubber current charged in the capacitor C1 is discharged through the path of b. At this time, the drain-source of the FET Q that cannot be lowered to the ground level is discharged. By overlapping the inter-voltage (V _ds ) there is a problem that causes a loss of power.

Accordingly, the present invention has been made in view of the above circumstances, and in normal mode, two capacitors for snubber operation and pseudo resonance operation are connected in parallel, and only one power standby is used for standby power FET. It is an object of the present invention to provide a television receiver having a power saving function that can reduce unnecessary power consumption by lowering the discharge current of the snubber current when it is turned off and then on.

1 is a diagram showing a power supply circuit used in a conventional television receiver.

2 is a diagram showing a power supply circuit of a television receiver having a power saving function according to an embodiment of the present invention;

Brief description of the main parts of the drawing

1: bridge diode 2: transformer

3: power supply IC 10: relay

31: control block

R1 to R4: resistors D1 to D5: diodes

C1 to C5: Capacitor Q: FET

TR1, TR2: Transistor R _S : Start Resistance

A television receiver having a power saving function according to the present invention for realizing the above object is based on a rectifying circuit for rectifying the input power and a rectified power output from the rectifying circuit according to the winding ratio of the primary winding and the secondary winding. A first transformer for generating a predetermined output power, a FET for intercepting a current flowing through the primary winding of the first transformer, and a driving current of the FET as an induction current according to the current flowing through the secondary winding of the transformer A television receiver comprising: a second transformer; a snubber capacitor for absorbing snubber current on current paths of the first transformer and the FET; A capacitor coupled in parallel with the snubber capacitor, a transistor turned on or off according to a predetermined control signal of the controller, and a relay commonly connected between a predetermined input power and the transistor and between the capacitor and ground. The controller is configured to turn on when the transistor is in a power-on state and to turn off when the transistor is in a power-off state.

That is, according to the above, by minimizing the discharge operation of the snubber current in the repetitive on or off operation of the power FET, unnecessary power consumption during stand-by can be reduced.

Next, an embodiment according to the present invention will be described.

FIG. 2 is a diagram showing a circuit configuration of a power supply unit in a television receiver having a power saving function according to an embodiment of the present invention, in which the same components as in FIG. 1 are denoted by the same reference numerals, and detailed description thereof will be omitted.

In FIG. 2, the input power input through the power plug is coupled to the drain terminal D of the power FET Q through the primary winding of the transformer 2. Two capacitors C3 and C4 for absorbing surge-drain-source voltages are connected in parallel to return the values of the resonant capacitors to their original states.

One end of the capacitor C4 is connected to the ground through the relay 10, one end of the relay 10 is coupled to the collector terminal C of the transistor TR2, and the other end is an operating power source. And on the current path of transistor TR2. In addition, a diode D5 for preventing back EMF of the input power is coupled in parallel with the relay 10.

Here, the transistor TR2 performs an on or off operation based on a predetermined control signal applied from a microprocessor (not shown) as a control unit for controlling the overall apparatus of the television receiver. When the power source is turned on, the microprocessor turns on the transistor TR2. Accordingly, the relay 10 is driven by the input power source.

Subsequently, as the relay 10 is driven, the input power input through the transformer 10 is uniformly charged in the two capacitors C3 and C4.

When the power is off, only one of the two capacitors C3 and C4 performs the snubber operation and the pseudo resonance operation.

That is, even when the power is off (ie, stand-by), the on or off operation of the power FET Q is continued, and the microprocessor blocks the control signal applied to the transistor TR2. As a result, the transistor TR2 is turned off, and the relay 10 stops its driving operation. Thus, only one capacitor C3 of the two capacitors C3 and C4 performs the discharge operation, thereby minimizing the loss of power generated by overlapping with the drain-source voltage V _{DS that} has not yet reached the ground level. You can do it.

On the other hand, since the voltage induced in the secondary winding during the standby is small, the peak voltage of the drain-source voltage VDS is small, and a predetermined video screen is not output on the CRT. It is not necessary to increase the capacity of the burr capacitor.

That is, according to the present invention as described above, it is possible to reduce unnecessary power consumption during stand-by by minimizing the discharging operation of the snubber current in repetitive on or off operation of the power FET.

In addition, this invention is not limited to the said Example, It can variously deform and implement within the range which does not deviate from the summary of this invention.

As described above, according to the present invention, the discharge current of the snubber capacitor when the power FET is turned off and then on by connecting one capacitor for standby-by-snooze operation and pseudo resonance operation. By lowering the power consumption, a television receiver with a power saving function that can reduce unnecessary power consumption can be realized.

Claims (1)

A rectifier circuit 1 for rectifying the input power, and a first transformer 2 for generating a predetermined output power based on the rectified power output from the rectifier circuit 1 according to the turns ratio of the primary winding and the secondary winding. ), FET (Q) for interrupting the current flowing through the primary winding of the first transformer (2), driving of the FET (Q) as an induction current according to the current flowing through the secondary winding of the transformer (2). A second transformer for generating current, a snubber capacitor (C3) for snubber operation and pseudo resonance operation on the current path of the first transformer (2) and the FET (Q), and a control unit for controlling the overall apparatus In a television receiver; A capacitor C4 coupled in parallel with the snubber capacitor C3, a transistor TR2 turned on or off according to a predetermined control signal of the controller, between a predetermined input power source and the transistor TR2 and the And a relay 10 connected in common between the capacitor C4 and the ground, and the controller is turned on when the transistor TR2 is turned on and turned off when the power is turned off. A television receiver having a power saving function characterized in that it is controlled to be off.