KR100539292B1 - An circuit for control power of mode off for use in monitor system - Google Patents

Abstract

The present invention is applied to a monitor and a display device, and more particularly to a power supply control circuit in the off mode to minimize the power consumption in the off mode without using an auxiliary transformer, to control the driving of the transistor in accordance with the signal of the microprocessor A control unit, a sensing unit for sensing the flow of current when the transistor is on / off, a pulse width modulator for outputting a small pulse to the secondary side of the power transformer by the current flowing from the sensing unit, and an output of the pulse width modulator And a voltage supply unit for supplying a predetermined voltage to the microprocessor by a pulse.

As described above, the present invention minimizes power consumption by supplying a lower voltage (approximately 5V) to the microprocessor in the off mode by lowering the secondary voltage of the power transformer than the conventional one without completely shutting down the main power supply. The cost savings are achieved by not using an auxiliary transformer.

Description

An circuit for control power of mode off for use in monitor system}

The present invention relates to a power control circuit in an off mode that is applied to a part requiring power saving in a monitor and a display device, and particularly, to minimize power consumption in the off mode without using an auxiliary transformer. It relates to a power supply control circuit in one off mode.

Conventional monitors consume about 5W of power in circuits that power down the secondary side of the power transformer to implement power saving.

In addition, when the primary voltage of the power transformer is down to bring down the entire main power supply, an auxiliary power transformer for operating the microprocessor must be used separately, thereby reducing cost and consuming a lot of power.

Accordingly, the present invention has been made to solve the conventional problems as described above, the object of the microprocessor is to reduce the voltage (about 5V) in the off mode by lowering the secondary side voltage of the power transformer than the conventional power supply without completely down the main power supply It is to provide a power supply control circuit in the off mode to minimize the power consumption by supplying to the power supply and to reduce the cost by not using an expensive auxiliary transformer.

In order to achieve the above object, the present invention provides a control unit for controlling the driving of a transistor according to a signal of a microprocessor, a sensing unit for sensing a flow of current when the transistor is on / off, and a small pulse by a current flowing from the sensing unit. And a voltage supply section for supplying a predetermined voltage to the microprocessor by an output pulse of the pulse width modulation section.

Preferably, the control unit, characterized in that it comprises a first and second transistors and resistors that are driven on / off in accordance with the signal.

Preferably, the voltage supply unit is characterized in that it comprises a third transistor and a resistor for supplying a predetermined voltage to the microprocessor.

Preferably, the constant voltage is characterized in that about 5V.

Preferred embodiments of the present invention will be described in detail.

This preferred embodiment enables a better understanding of the objects, features and advantages of the present invention.

Hereinafter, exemplary embodiments of a power supply control circuit in an off mode according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a power supply control circuit diagram in the off mode according to the present invention, Figure 2 is a signal waveform diagram for explanation in the present invention, A is a signal waveform diagram appearing at the OUTPUT terminal of the normal pulse width modulator 40 , B is a signal waveform diagram appearing at the a contact, C is a signal waveform diagram appearing at the OUTPUT terminal of the pulse width modulator 40 in the off mode, D is a signal waveform diagram appearing at the a contact.

As shown in FIG. 1, a controller 10 for controlling driving of a transistor according to a signal of a microprocessor (MCU), a detector 20 for sensing a flow of current when the transistor is on / off, and the sensing The pulse width modulator 40 outputs a small pulse to the secondary side of the power transformer 30 by the current flowing from the unit 20, and the microprocessor generates a predetermined voltage by the output pulse of the pulse width modulator 40. It consists of the voltage supply part 50 supplied to the MCU.

The controller 10 includes a first transistor TR1 and a second transistor TR2, resistors R1, and R2 driven on / off in response to a signal.

The voltage supply unit 50 includes a third transistor TR3 and resistors R3 and R4 for supplying a predetermined voltage to the microprocessor MCU.

1 is an AC input terminal, and FET is a field effect transistor.

The operation and effect according to the embodiment of the present invention configured as described above will be described.

First, when the microprocessor MCU is low in the off mode, a low signal is applied to the base side of the first transistor TR1 in the controller 10 so that the first transistor TR1 is turned off. The transistor TR2 is turned on with a VCC power applied to its base side.

When the second transistor TR2 is turned on in this way, the power supply VCC ₁ flows through the light receiving element PT in the sensing unit 20, so that the primary side voltage of the power transformer 30, that is, the pulse width modulation unit 40, is As the FB voltage increases, the duty of the pulses output to the OUTPUT terminal of the pulse width modulator 40 decreases.

At this time, as the secondary side voltage of the power transformer 30 decreases as the primary side OFF time thereof, the secondary voltage of the power transformer 30 is output less than before.

That is, when the primary off time decreases, the voltage of 80 V is reduced to about 15 V, and the voltage down to 15 V is supplied to about 5 V through the resistor R3 and the third transistor TR3 in the voltage supply unit 50, thereby providing a microprocessor. The voltage of 5V is supplied to the MCU.

In the code shown in FIG. 2, A is a signal waveform diagram appearing at the OUTPUT terminal of the pulse width modulator 40 in normal, B is a signal waveform diagram appearing at the abutment, and C is a pulse width modulation in the off mode. It is a signal waveform diagram which appears in the OUTPUT terminal of the part 40, and D is a signal waveform diagram which appears in a contact point a.

As described above, the present invention reduces the voltage of 5 V in the off mode by making the secondary voltage smaller than the conventional voltage as the secondary voltage of the power transformer shortens the off time of the primary transformer without completely shutting down the main power supply. It is possible to feed the microprocessor.

As described above, according to the present embodiment, power consumption can be minimized by supplying the microprocessor with a lower voltage (about 5V) in the off mode by making the secondary voltage of the power transformer smaller than before.

In addition, there is an effect of reducing the cost by not using an expensive auxiliary transformer.

1 is a power supply control circuit diagram in the off mode according to the present invention.

2A to 2D are signal waveform diagrams for explaining the present invention.

Explanation of symbols for the main parts of the drawings

10: control unit 20: detection unit

30: power supply transformer 40: pulse width modulation (PWM) part

50: voltage supply part TR1: first transistor

TR2: second transistor TR3: third transistor

R1 to R4: Resistance PT: Light receiving element

PD: light emitting element

Claims (4)

A control unit controlling driving of the transistor in response to a signal of the microprocessor; A detector configured to detect a flow of current when the transistor is turned on / off; A pulse width modulator for outputting a small pulse to the secondary side of the power transformer by the current flowing from the detector; And a voltage supply unit supplying a predetermined voltage to the microprocessor by an output pulse of the pulse width modulator. The method of claim 1, wherein the control unit, And a first transistor and a second transistor driven on / off in response to a signal, and a resistor. The method of claim 1, wherein the voltage supply unit, And a third transistor for supplying a constant voltage to the microprocessor and a resistor. 4. The power supply control circuit according to claim 1 or 3, wherein the constant voltage is about 5V.