KR20070040601A - Liquid crystal display backlight circuit and method for the same - Google Patents

Abstract

An LCD backlight circuit and a control method thereof according to the present invention, the inverter for applying power to the backlight, a light sensing sensor for detecting the lighting of the backlight lamp, a voltage regulator for adjusting the voltage supplied to the inverter and And a microcomputer for increasing the voltage supplied to the inverter by controlling the voltage adjusting unit when the backlight lamp is not lit, and the lamp is not turned on when the backlight is started due to structural and environmental factors. Is generated, it is effective to provide an LCD backlight circuit having excellent reliability and stability by quickly sensing the light and increasing the starting voltage applied to the inverter.

LCD backlight circuit, inverter, sensor

Description

LCD backlight circuit and control method {Liquid Crystal Display Backlight Circuit and Method For The Same}

1 is a circuit diagram showing an LCD backlight circuit according to the present invention,

2 is a graph showing the input and output voltage of the inverter of the LCD backlight circuit according to the present invention;

3 is a flowchart illustrating a control method of an LCD backlight circuit according to the present invention.

<Explanation of symbols on main parts of the drawings>

1: microcomputer 2: memory

3: voltage regulator 4: voltage regulator

5: power supply unit 6: inverter

7: backlight 8: light detection sensor

The present invention relates to an LCD backlight circuit and a control method thereof. An LCD backlight circuit and a method for controlling the backlight of the backlight are detected by detecting a lamp when the lamp is not turned on and a standby state occurs. It is about.

LCD (Liquid Crystal Display) is an electronic device that transmits various electrical information generated by various devices to visual information by using a change in transmittance of liquid crystal according to an applied voltage.

LCD is a kind of flat panel display widely used in wristwatches and computers because of low power consumption and low power consumption, and requires backlight lamp.

In the conventional LCD backlight lamp, when a backlight inverter is supplied by supplying an electrostatic source, a high voltage output is generated by boosting the inverter electrostatic source, which is supplied to an LCD backlight lamp to light the lamp.

However, the conventional LCD (LCD) backlight lamps have different starting voltages for each manufacturer and each product, and thus a waiting time of about 20 to 30 seconds is generated or turned on at all. The phenomenon did not occur.

In addition, when the lamp is turned on, the lower the temperature of the peripheral part is, the higher the starting voltage is required, and the phenomenon that the lamp is impossible to be generated occurs.

Particularly, when the backlight lamp is mounted on the LCD, the lamp is positioned in a dark portion inside the molding of the backlight periphery, so that mercury light emission characteristics of the lamp deteriorate, making it impossible to turn on the lamp. .

The present invention has been made to solve the above problems of the prior art, when the lamp is not turned on when the backlight is started, when the standby state occurs, by detecting this to increase the starting voltage applied to the inverter to increase the lamp of the backlight The objective is to provide an LCD backlight circuit with excellent reliability and stability to turn on quickly.

An LCD backlight circuit according to the present invention for solving the above problems is an inverter for applying power to the backlight, a light sensor for detecting the lighting of the backlight lamp, a voltage regulator for adjusting the voltage supplied to the inverter and When the backlight lamp is not turned on, the voltage adjusting unit is controlled to increase the voltage supplied to the inverter.

In addition, the control method of the LCD backlight circuit according to the present invention comprises a first step of detecting whether the backlight lamp is turned on, and if the backlight lamp is not lit, the second step of increasing the voltage applied to the backlight It is characterized by.

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

1 is a circuit diagram showing an LCD backlight circuit according to the present invention, Figure 2 is a graph showing the input and output voltage of the inverter of the LCD backlight circuit according to the present invention.

As shown in FIG. 1, the multi LCD backlight circuit according to the present invention includes a microcomputer 1 for controlling a voltage controller according to whether a backlight lamp is turned on and a memory 2 for recording control items of the microcomputer 1. And a power supply unit 5 for applying power, a voltage regulator 3 for making the power input from the power supply unit 5 into a constant voltage power supply, and a voltage for adjusting the step-up of the constant voltage applied through the voltage regulator 3. An adjusting unit 4, an inverter 6 for supplying power to the backlight 7 by applying the constant voltage, a backlight 7 for lighting a lamp through the power input from the inverter 6, and It is configured to include a light sensor 8 for detecting whether the backlight 7 is turned on.

The voltage regulator 3 makes the power input from the power supply unit 5 stable and constant and supplies it to the inverter 6.

The microcomputer 1 controls the voltage adjusting unit 4 according to a result of the light detecting sensor 8 detecting whether the lamp of the backlight 7 is turned on.

When port 1 is turned on by the control of the microcomputer 1, the first transistor Q1 is operated so that no current flows to the third resistor R3. If it is on, the second transistor Q2 is operated so that no current flows to the fourth resistor R4. If the port 3 is on, the third transistor Q3 is operated. No current flows to the fifth resistor R5.

At this time, the microcomputer 1 turns on and off the ports (Rort1, Port2, Port3) according to whether the light sensor 8 detects whether the lamp of the backlight 7 is turned on. By raising the constant voltage power applied through the voltage regulator 3, a high starting voltage can be supplied to the inverter 6).

(V1: power supply 5 applied voltage, V2: inverter 6 input voltage, R1: first resistor, R2: second resistor, R3: third resistor, R4: fourth resistor, R5: fifth resistor)

As shown in Equation 1, the voltage V2 input to the inverter 6 includes a first resistor R1, a second resistor R2, a third resistor R3, a fourth resistor R4, and a fifth resistor. It is determined by the relationship between the resistor R5 and the power supply voltage V1.

The voltage V1 applied through the power supply unit 5 is increased through the voltage regulator 3 and the voltage regulator 4 so that the increased voltage V2 is increased by the inverter 6. Is applied to.

The inverter 6 turns on the lamp of the backlight 7 by using the starting voltage power input from the voltage regulator 3.

At this time, as shown in FIG. 2, as the voltage V2 input to the inverter 6 increases, the voltage V3 output through the inverter 6 increases, so that the lamp of the backlight 7 lights up. It is sufficient starting voltage.

The light sensor 8 detects whether the backlight 7 lamp is turned on and transmits a signal to the microcomputer 1.

Looking at the operation of the present invention configured as described above are as follows.

3 is a flowchart illustrating a control method of an LCD backlight circuit according to the present invention.

When power is applied through the power supply unit 5, the power is applied to the inverter 6 by the voltage regulator 3 becomes a constant voltage power supply (S1).

Power applied to the inverter 6 is applied to the backlight 7 so that the lamp is turned on.

The light sensor determines whether the backlight 7 is turned on and transmits a signal according to the microcomputer 1 (S2).

At this time, if the lamp of the backlight 7 is not turned on, the microcomputer 1 controls the voltage adjusting unit 4 to increase the constant voltage power applied through the voltage regulator 3 (S3). )

The elevated constant voltage power is transmitted to the inverter 6, and the inverter 6 raises the starting voltage for turning on the lamp of the backlight 7 to light the lamp of the backlight 7 (S4). , S5)

As such, when the lamp is not turned on when the backlight 7 is started, the lamp of the backlight 7 may be quickly turned on by detecting the voltage and increasing the starting voltage applied to the inverter 6.

As described above, the LCD backlight circuit and the method of controlling the same according to the present invention have been described with reference to the illustrated drawings. However, the present invention is not limited by the embodiments and drawings disclosed in the present specification. Can be.

The LCD backlight circuit and its control method according to the present invention configured as described above detects the starting voltage applied to the inverter by detecting the case where the lamp is not turned on and the standby state occurs when the backlight is started due to structural and environmental factors. By increasing, there is an effect of providing an LCD backlight circuit having excellent reliability and stability for quickly turning on the lamp of the backlight.

Claims (3)

An inverter for applying power to the backlight; A light sensor for detecting whether the backlight lamp is turned on; A voltage adjusting unit adjusting a voltage supplied to the inverter; When the backlight lamp is not lit, the LCD backlight circuit is characterized in that it comprises a microcomputer to increase the voltage supplied to the inverter by controlling the voltage adjusting unit. The method according to claim 1, And the voltage control unit is controlled by the microcomputer and comprises a plurality of transistors and resistors to increase the voltage applied to the inverter when the lamp is not turned on. Detecting whether the backlight lamp is turned on; And a second step of increasing the voltage applied to the backlight when the backlight lamp is not turned on.

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