KR100528146B1 - Power supply apparatus - Google Patents

Abstract

The power supply of the image display device of the present invention includes a transformer for outputting various powers induced in the secondary windings by the power supplied to the primary side, a plurality of rectifiers for rectifying the various power sources, and the plurality of A power switch for outputting any one of the power outputs of the rectifier in the power saving mode or the normal driving mode, and outputs a constant voltage by receiving the power output by the power switch or the power output from one of the plurality of rectifiers It is characterized by consisting of a constant voltage unit.

Description

Power supply unit {POWER SUPPLY APPARATUS}

The present invention relates to an image display device, and more particularly, to a power supply device for an image display device.

A power supply device provided in the conventional image display apparatus will be briefly described with reference to FIG. 1.

The power supply includes a main transformer 100 and a sub-transformer 106. Voltages induced on the secondary sides of the main transformer 100 are provided to the first and second rectifier circuits 102 and 104, respectively. The first and second rectifier circuits 102 and 104 rectify the provided voltages and output the rectified voltages to B1 and B2. Since the power supplied to the primary side of the main transformer 100 oscillates intermittently according to the power saving mode or the normal driving mode, the B1 and B2 have different potentials according to the power saving mode or the normal driving mode.

The voltage induced on the secondary side of the sub-transformer 106 is provided to the third rectifier circuit 108, and the third rectifier circuit 108 rectifies the provided voltage and outputs the voltage to B3. The sub-transformer 106 outputs a constant B3 regardless of the power saving mode or the normal driving mode, and the B3 is supplied as driving power to the microprocessor of the image display apparatus.

In addition, the power supply device includes a constant voltage circuit 110 for stabilizing B3 used as a driving power source of the microprocessor.

As described above, the conventional power supply device has a sub-transformer to supply a constant power to the microprocessor even in the power saving mode. For this reason, the power supply device having a plurality of transformers complicates the circuit and costs. It caused the rise.

Accordingly, an object of the present invention is to provide a power supply of a video display device that can reduce the number of transformers provided in the power supply of the video display device.

In order to achieve the above object, a power supply of an image display device of the present invention includes a transformer for outputting various powers induced in secondary windings by a power supplied to a primary side, and a plurality of rectifying the various power sources, respectively. And a power switch for outputting any one of the powers outputted by the plurality of rectifiers according to the power saving mode or the normal driving mode, and a power output by the power switch or the one of the plurality of rectifiers. It is characterized by consisting of a constant voltage unit for receiving a constant voltage output.

The power supply device of the present invention provides a constant driving power to the microprocessor in the normal driving mode or the power saving mode by using one transistor, thereby simplifying the configuration of the power supply device and reducing the cost.

A configuration of a power supply device for an image display device according to an exemplary embodiment of the present invention will be described in detail with reference to FIGS. 2 and 3.

The transformer 200 of the power supply device receives power and converts the power into various powers.

The transformer 200 includes a plurality of secondary windings T1 and T2 as shown in FIG. 3, and each of the secondary windings T1 and T2 is connected to a power supplied to a primary winding not shown. Output the induced power. The first winding T1 of the secondary winding outputs a first power supply, and the second winding T2 of the secondary winding outputs a second and third power supply. In particular, the first winding T1 has a turns ratio in which at least a driving voltage of the constant voltage circuit 206 can be induced at least when the power controller not shown is intermittently oscillated due to a power saving mode. The second winding T2 has a turns ratio for allowing the driving voltages of the driving powers B2 and B3 and the constant voltage circuit 206 to be induced in the normal driving mode.

The first power is input to the first rectifier circuit 202, the first rectifier circuit 202 rectifies and outputs the first power. As shown in FIG. 3, the first rectifier circuit 202 includes a first diode D1 and a first capacitor C1. Since the structure of the rectifier circuit composed of a diode, a capacitor, and the like is already well known, its detailed description is omitted.

The second power supply is input to the second rectifying circuit 208, and the second rectifying circuit 208 rectifies and outputs the second power supply. As shown in FIG. 3, the second rectifier circuit 208 includes a first resistor R1, a second and third capacitors C2 and C3, and a second diode D2. The power output by the second rectifying circuit 208 is B2, which is a driving power of the image display device, and may be 15 [V]. Since the structure of the rectifier circuit composed of a resistor, a diode, a capacitor, and the like is already well known, the detailed description thereof will be omitted.

The third power source is input to the third rectifier circuit 210, and the third rectifier circuit 210 rectifies and outputs the third power source. As shown in FIG. 3, the third rectifier circuit 210 includes a third diode D3 and a fourth capacitor C4. The power output by the third rectifier circuit 210 is input to an input terminal of the constant voltage circuit 206. Since the structure of the rectifier circuit composed of a diode, a capacitor, and the like is already well known, a detailed description thereof will be omitted.

In addition, the third power source is input to the fourth rectifier circuit 212, the fourth rectifier circuit 212 rectifies and outputs the third power source. As shown in FIG. 3, the fourth rectifier circuit 212 includes second and third resistors R2 and R3, a fourth diode D4, and a fifth capacitor C5. The power output by the fourth rectifying circuit 212 is B3, which is a driving power of the image display device, and may be 6.8 [V]. Since the structure of the rectifier circuit composed of a resistor, a diode, a capacitor, and the like is already well known, the detailed description thereof will be omitted.

The power switching circuit 204 cuts off the output of the first rectifying circuit 202 in the normal driving mode, and provides the constant voltage circuit 206 with power output from the first rectifying circuit 202 in the power saving mode. do.

The configuration of the power supply switching circuit 204 will be described in detail with reference to FIG. 3. The collector and emitter of the first transistor Q1 may include an output terminal of the first rectifying circuit 202 and an input terminal of the constant voltage circuit 206. Is connected. The collector and emitter of the second transistor Q2 are connected between the output terminal of the second rectifier circuit 208 and the base of the first transistor Q1. The fourth resistor R4 is connected between the output terminal of the second rectifier circuit 208 and the base of the second transistor Q2. In addition, fifth and sixth diodes D5 and D6 are connected between the base and the ground of the second transistor Q2.

The constant voltage circuit 206 receives the output of the power switching circuit 204 or the output of the third rectifier circuit 210 as a driving power source, and outputs a constant voltage power source B1. KA378R05 may be employed as the constant voltage circuit 206.

The operation of the above power supply will now be described.

First, in the normal driving mode, the second rectifying circuit 208 and the fourth rectifying circuit 212 output B2 and B3, respectively, and the third rectifying circuit 208 outputs the driving voltage of the constant voltage circuit 206. do. The constant voltage circuit 206 receives the output of the third rectifier circuit 208 to drive normally to output B1, which is a driving power of the microprocessor.

On the other hand, the input terminal of the constant voltage circuit 206 is connected to the emitter of the transistor Q1, the output of the third rectifier circuit 208 is applied to the input terminal of the constant voltage circuit 206 the transistor ( The output of the third rectifier circuit 208 is also applied to the emitter of Q1). Since the voltage applied to the base of the transistor Q1 is at the same level as the output of the third rectifier circuit 208, no bias is formed and turned off. Accordingly, only the output of the third rectifier circuit 208 is supplied to the input terminal of the constant voltage circuit 206.

When the primary side of the transformer 200 is intermittently oscillated by the power controller not shown in the power saving mode, the second rectifying circuit 208, the third rectifying circuit 210, and the fourth rectifying circuit 212 output the result. The power supplies dip against the steady state power supply. As a result, the output of the third rectifier circuit 210 applied to the emitter of the first transistor Q1 is also lowered to reach the normal input voltage of the constant voltage circuit 206.

In this state, the output of the second rectifying circuit 208 is supplied to the second transistor Q2, and as a result, the second transistor Q2 is turned on. As the second transistor Q2 is turned on, voltages of the fifth and sixth diodes D5 and D6 are applied to the base terminal of the first transistor Q1, so that the first transistor Q1 is also turned on. . As the first transistor Q1 is turned on, the output of the first rectifier circuit 202 is input to the constant voltage circuit 206.

Since the output of the first rectifying circuit 202 is at least the driving power of the constant voltage circuit 206 in the power saving mode, the constant voltage circuit 206 drives normally to output B1 which is the driving power of the microprocessor.

As described above, the present invention does not include a transformer for use in the power saving mode, and further includes only a secondary winding capable of outputting the driving power of the microprocessor in the power saving mode. Rectifies and outputs the power induced in the

As described above, the present invention reduces the number of transformers provided in the power supply of the video display device, thereby simplifying the configuration and reducing the cost.

1 is a block diagram of a conventional power supply.

Figure 2 is a block diagram of a power supply according to a preferred embodiment of the present invention.

3 is a detailed circuit diagram of the power supply device of FIG.

Explanation of symbols on main parts of drawing

200: transformer 202: first rectifier circuit

204: power supply switching unit 206: constant voltage circuit

208: second rectifier circuit 210: third rectifier circuit

212: fourth rectifier circuit

Claims (3)

In the power supply of the video display device, A transformer for outputting various powers induced in the secondary windings by the power supplied to the primary side; A plurality of rectifiers respectively rectifying the various power sources; A power switching unit for outputting any one of powers outputted from the plurality of rectifiers according to a power saving mode or a normal driving mode; And a constant voltage unit configured to receive a power output from the power switching unit or a power output from one of the plurality of rectifiers to output a constant voltage. According to claim 1, wherein the power switching unit, If the potential of the first power supply among the power supplies outputted by the plurality of rectifiers is equal to or greater than the first voltage, the second power supply of the power supplies outputted by the plurality of rectifiers is not output to the constant voltage unit And supplying the second power supply to the constant voltage unit when the potential of the second power supply is less than or equal to the first voltage. The method of claim 1, wherein the secondary winding for outputting the second power source, The power supply of the image display device, characterized in that it has a winding ratio that can be induced when the power source of the second voltage or more when intermittent oscillation by the power saving mode.