KR0143274B1 - Automatic brightness control circuit - Google Patents

Abstract

The present invention relates to an automatic screen brightness adjustment circuit of a monitor which allows the user to finely adjust the brightness of a desired screen by adjusting the contrast and the screen brightness automatically according to the screen brightness control signal applied from the microcomputer. The circuit configuration is controlled by using a non-inverting amplifier, a transistor, and the like so that the brightness control circuit of the screen is smoothly driven by the contrast voltage driver 32 and the ABL control terminal 42 by controlling the microcomputer 10 and the ABL control terminal. In addition to simplifying, it is possible to easily determine the brightness after the automatic screen brightness adjustment limit (ABL) by the variable resistor VR1 and easily match the point at which the automatic screen brightness adjustment limit is started by the resistor R8.

Description

Limit screen automatic control of screen brightness

1 is a conventional screen brightness automatic adjustment restriction circuit diagram.

2 is a circuit diagram for automatically adjusting the brightness of the screen according to the present invention.

* Explanation of symbols for main parts of the drawings

10: microcomputer 22: integrator

30: Contrast control part 40: ABL control part

The present invention relates to a monitor, and more particularly, the contrast is changed according to a screen brightness control signal applied from a microcomputer inside the monitor so that the monitor automatically limits the contrast adjustment circuit so that the screen brightness becomes the brightness of the screen desired by the user. The present invention relates to a control circuit for automatically adjusting the screen brightness of a monitor, which can protect the user and the monitor by preventing excessive brightness.

In general, the monitor controls the voltage of the contrast terminal of the video signal processing integrated circuit so that the contrast changes so that the brightness of the screen is appropriately adjusted. As shown in FIG. 1, a digital screen brightness control circuit of a conventional monitor is connected to the microcomputer 1 and includes a buffer circuit unit including an integrator 22, a non-inverting amplifier 24, and resistors R10 and R11. (2) and a contrast control section connected to the buffer circuit section 2 and composed of transistors Q ₂ (Q ₃ ), resistors R12 to R16, variable resistor VR2, diode D3, and capacitor C4. (3), a contrast voltage driver 32 connected to the contrast control section 3 and whose brightness is adjusted according to the amount of current applied to the variable resistor VR2 of the contrast control section, and to the contrast control section 3, ABL control consisting of a transistor Q ₁ , an automatic screen brightness control terminal (hereinafter referred to as an ABL control terminal) 42, a resistor R6 to R9, a diode D2, a capacitor C3, and a power supply 46. It is comprised by the part 4.

In the conventional screen brightness adjusting circuit configured as described above, the pulse signal output from the microcomputer 1 is amplified by a constant signal in the buffer circuit unit 2 and applied to the contrast control unit 3, wherein the transistor of the contrast control unit 3 is used. Q ₂ is controlled according to the signal applied from the buffer circuit 2 so that the amount of current flowing through is increased or decreased.

In other words, the signals from the buffer circuit (2) is larger transistor (Q ₂₎ is applied to the high voltage a large current to the transistor (Q ₂₎ to flow whereby the transistor (Q ₃₎ to be applied to the high voltage transistor (Q ₃ ) A lot of current flows.

Therefore, when a large amount of current flows in the transistor Q ₃ , a large amount of current is generated in the resistor R14, so that a low signal is applied to the contrast voltage driver 32, thereby darkening the monitor screen.

Contrary to the above, when the signal applied from the buffer circuit unit 2 is small, a small amount of current flows through the transistors Q ₂ and Q ₃ , so that the amount of current is reduced in the resistor R14 and the voltage difference is narrowed. 32) a high signal is applied to brighten the monitor screen.

In addition, the flyback transformer is installed on (not shown) ABL control terminal 42 when the display screen becomes bright because the voltage is low, the output voltage applied to the base of the transistor (Q ₁₎ is lowered transistor (Q ₁₎ Is switched ON.

When the transistor Q ₁ is switched on, the power supply Vcc is applied to the transistor Q ₃ via the transistor Q ₁ , so that a large amount of current flows in the transistor Q ₃ , so that the contrast voltage driver 32 Less signal is applied to the darker contrast.

On the other hand, if the monitor screen becomes dark, the higher the voltage applied to the base of the transistor (Q ₁₎ so high that the voltage output from the ABL control terminal 42 is switched, the transistor (Q ₁₎ in the off state.

When the state in which the transistor (Q ₁₎ off-power source (Vcc) is not applied to by way of the transistor (Q ₁₎ transistor (Q ₃₎ transistor (Q ₃₎ there flows a small current, and therefore the contrast voltage driver ( 32, many signals are applied, resulting in brighter contrast.

In the screen brightness control circuit of the monitor operated as described above, since the interaction between the contrast voltage driving unit 32 and the ABL control terminal 42 is performed by the linking operation of the plurality of component terminals, the components are not only complicated in configuration and operation but also have a component. There is a problem that a lot of consumption is uneconomical, the design is complicated, and the brightness of the screen is not smoothly adjusted.

The present invention has been made to solve the above problems, an object of the present invention is to provide an automatic screen brightness adjustment circuit of the monitor that the circuit configuration is simple and smooth brightness control.

In order to achieve the above object, the present invention provides a microcomputer for controlling screen brightness of a monitor; A contrast controller comprising an integrator connected to the microcomputer and integrating the signal applied from the microcomputer into a predetermined signal, and an inverse amplifier for comparing and amplifying the signal applied from the integrator with the signal applied from the ABL controller; A contrast voltage driver connected to the contrast controller to adjust brightness according to the amount of current applied to the variable resistor of the contrast controller; An ABL control terminal connected to the transistor and mounted on a flyback transformer to adjust an amount of light generated from the screen of the CRT to be inversely proportional to the screen brightness, and an on / off contrast control unit according to an operation state of the ABL control terminal And an ABL controller comprising a transistor for transmitting a signal to a non-inverting amplifier and a variable resistor (VR ₁ ) for varying according to the operation state of the contrast voltage driver constituting the contrast controller to control the operation of the ABL control terminal. It is characterized by.

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

2 is a circuit diagram for automatically adjusting screen brightness of a monitor according to the present invention, including: a microcomputer 10 for adjusting screen brightness of a monitor; Contrast control unit consisting of an integrator 22, a non-inverting amplifier 24, a variable resistor VR2, and resistors 43 to R5 for integrating and amplifying the control signal of the microcomputer 10 to compare with a reference value. 30 and the contrast voltage driver 32 connected to the variable resistor VR2 of the contrast control unit 30 to change the contrast voltage according to the change of the current amount, and the inversion of the non-inverting amplifier 24 according to the brightness of the screen. It comprises an ABL control unit 40 composed of a transistor Q1, a diode D1 (D2), a resistor R6 to R9, a variable resistor VR1, and a capacitor C3 for varying the voltage applied to the terminal. do.

In the drawing, reference numeral 42 is an ABL control terminal, 46 is a power supply unit, and R1, R2, C1, and C2 are resistors and capacitors forming the integrator 22.

According to the present invention configured as described above, when the microcomputer 10 applies a constant pulse signal to the integrator 22 of the contrast control unit 30 to adjust the screen brightness of the monitor, the integrator 22 is a resistor R ₁ (R ₂ ). ) And a condenser (C ₁ ) (C ₂ ) to integrate the pulse signal to the non-inverting terminal (+) of the non-inverting amplifier (24), the non-inverting amplifier (24) to the non-inverting terminal (+) The applied signal is compared to the signal applied to the inverting terminal (−) through the resistor (R ₃ ) (R ₄ ) and is output to the variable resistor (VR ₂ ) and the resistor (R ₅ ).

The variable resistor (VR _2), the contrast voltage drive by the action of the contrast voltage driver 32 that it is connected to a variable resistor (VR ₂₎ and a large current variable resistor (VR ₂₎ flowing via the resistor (R ₅₎ ( 32 becomes dark, and the contrast voltage driver 32 becomes bright when the current flowing through the variable resistor VR ₂ is small.

In addition, the voltage between the power supply 46 and the ABL control terminal 42 is divided into a resistor R8 and a resistor R9 of the ABL control unit 40 and then through the resistor R7 to the transistor Q1. Applied to the base end. At this time, when the brightness of the screen becomes bright, the voltage of the ABL control terminal 42 drops and the voltage applied to the base terminal of the transistor Q1 also drops.

I.e., when opened, is applied to a large current in the ABL control terminal 42, the transistor (Q ₁₎ has been switched on is a low signal is applied, when the transistor (Q ₁₎ is turned on is the current from the power supply (Vcc) applied to the diode ( The voltage is increased to the inverting terminal (-) of the non-inverting amplifier 24 by being applied to the inverting terminal (-) of the non-inverting amplifier 24 through the D ₁ ) and the variable resistor VR1. ), The voltage difference decreases, and when the voltage difference decreases, the output decreases, and the contrast voltage driver 32 connected to the variable resistor VR ₂ is driven to brighten the contrast.

As described above, in the present invention, the screen brightness control circuit of the monitor is smoothly driven by the contrast voltage driver 32 and the ABL control terminal 42 interlocked with each other by the control of the microcomputer 10 and the variable resistor VR1. By using non-inverting amplifiers and transistors, the circuit configuration can be simplified, and the brightness can be easily determined after the automatic screen brightness control is controlled by the variable resistor (VR1), and the automation surface brightness control starts by the resistor (R8). It is easy to match the point of becoming.

Claims (1)

A microcomputer 10 for controlling the screen brightness of the monitor; A contrast controller (30) comprising an integrator for integrating the signal applied from the microcomputer into a predetermined signal, and an inverse amplifier for comparing and amplifying the signal applied from the integrator with the signal applied from the ABL controller; A contrast voltage driver 32 connected to the contrast controller 30 and adjusting brightness according to the amount of current applied to the variable resistor of the contrast controller; An ABL voltage control unit configured to apply a voltage set to a non-inverting amplifier constituting the contrast control unit 30, a transistor turned on and off according to an operation state of the ABL control terminal to transmit a signal to a non-inverting amplifier of the contrast control unit; A monitor connected to the transistor and mounted on a flyback transformer and configured to control the amount of light generated from the screen of the CRT to be displayed in inverse proportion to the screen brightness. Screen brightness automatic control limit circuit.