KR19980047493U - Monitor brightness adjuster - Google Patents

Abstract

The present invention relates to a brightness control device of the monitor, the device of the present invention detects the current change of the flyback transformer (1) by increasing or decreasing the first brightness control voltage according to the current change of the flyback transformer (1) A monitor provided with an ABL circuit 3 which feeds back to the ABL terminal and simultaneously inputs the first and second brightness control voltages to the contrast terminal of the video preamplifier 2 to increase or decrease the brightness of the entire screen. A brightness detector 10 for detecting a brightness of a space provided with the light and outputting a detection signal; The microcomputer 20 is configured to supply a second brightness control voltage having a variable level according to the brightness detection signal to the ABL circuit 3 so that the brightness detection unit 10 detects the brightness of the space where the monitor is installed. When the detection signal is output to the microcomputer 20, the microcomputer 20 outputs a second brightness control voltage to the ABL circuit according to the detection signal, thereby automatically adjusting the screen brightness of the monitor according to the ambient brightness. It works.

Description

Monitor brightness adjuster

The present invention relates to a brightness control device of the monitor, and more particularly to a brightness control device of the monitor which is adapted to automatically adjust the screen brightness of the monitor according to the ambient brightness.

In general, the operator needs to adjust the brightness or contrast to adjust the brightness of the monitor. An ABL circuit is mainly used to adjust the brightness of the monitor.

Here, the ABL (Automatic Brigtness Limit) circuit is a circuit for preventing overload of the fly-back transformer of the monitor due to a large anode current to destroy components.

In general, as shown in FIG. 1, the ABL circuit detects a change in current of the flyback transformer 1 and if the average brightness is greater than or equal to the average brightness, lowers the brightness control voltage and feeds it back to the ABL terminal of the flyback transformer 1. As a result, the output voltage of the flyback transformer 1 supplied to the anode is reduced, so that the anode current is suppressed within an allowable value. The brightness control voltage is also supplied to the contrast terminal of the video preamplifier 2 so as to reduce the video signal size itself.

That is, the ABL circuit 3 is a current output to the flyback transformer form 1 ( When () increases, the amount of current discharged from the capacitor C1 increases, and the potential at the point (a) is lowered. (a) When the potential at the point is lowered, the current ( ) Increases and current ( ) Also increases, so that the brightness control current supplied to the contrast end of the video preamplifier 2 As) increases, the contrast decreases and the screen darkens overall.

At this time, the current output to the flyback transformer (1) ( If) decreases, the opposite is true.

In order to adjust the brightness of the monitor as described above, the monitor generally uses the ABL circuit 3, but there is a problem that the brightness of the monitor is visually different depending on the brightness of the surroundings in which the monitor is installed.

Accordingly, the present invention has been made to solve the above problems, by using the ABL (Automatic Brigtness Limit) function of the monitor, the brightness of the monitor to adjust the screen brightness of the monitor automatically according to the ambient brightness The purpose is to provide.

The brightness control apparatus of the monitor according to the present invention for achieving the above object, by detecting the current change of the flyback transformer, and increases and decreases the first brightness control voltage according to the current change to feed back to the ABL terminal of the flyback transformer And a monitor equipped with an ABL circuit configured to input the increased or decreased first brightness control voltage to the contrast terminal of the video preamplifier to increase or decrease the brightness of the entire screen. A brightness detector for outputting the light; And a microcomputer for supplying a second brightness control voltage having a variable level according to the brightness detection signal to the ABL circuit.

That is, in the device of the present invention, when the brightness detector detects the brightness of the space where the monitor is installed and outputs a detection signal to the micom, the microcomputer outputs a second brightness control voltage to the ABL circuit according to the detection signal. The screen brightness of the monitor is automatically adjusted according to the ambient brightness.

1 is a circuit diagram showing a general ABL circuit,

2 is a circuit diagram illustrating an embodiment of a brightness adjusting device of a monitor according to the present invention.

* Names of symbols for main parts of the drawings

1: flyback transformer 2: video preamp

3: ABL circuit 10: brightness detector

20: Micom D11: light receiving diode

Q11: transistor R11: resistor

Hereinafter, an embodiment of an apparatus according to the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a circuit diagram showing an embodiment of a brightness adjusting device of a monitor according to the present invention. The device of the present invention includes a flyback transformer 1, a video preamplifier 2, an ABL circuit 3, and brightness. It consists of the detection part 10 and the microcomputer 20.

Here, the brightness detector 10 includes: a photodiode (D11) in which the output current increases and decreases according to the irradiation amount of light; The base terminal is connected to the cathode terminal of the photodiode D11, the collector terminal receives a predetermined voltage Vcc11 through the resistor R11, and the emitter terminal is connected to the anode terminal of the photodiode D11 and grounded at the same time. It consists of the transistor Q11 which outputs the said detection signal through a collector terminal.

Then look at the operation and effect of the embodiment according to the present invention configured as described above.

The photodiode D11 (the brightness detector may also be configured as a phototransistor) is an element in which an output current increases or decreases according to an irradiation amount of light, and converts the irradiated light energy into electrical energy. That is, the output current increases when the irradiation amount of light is large, and the output current decreases when the irradiation amount of light is small.

Looking at the device according to the present invention divided into a case where the ambient brightness is installed bright and dark as follows.

1.When the ambient brightness is bright

Since the irradiation amount of the photodiode D11 is large, the output current is increased, thereby increasing the voltage of the detection signal output through the collector terminal of the transistor Q11.

The microcomputer 20 which receives the detection signal higher than the average brightness supplies the second brightness control voltage to the ABL circuit 3, and thus the current supplied to the point (b) of the ABL circuit 3 ( ) Decreases.

Accordingly, the current ( ) Increases sharply so that the brightness control current supplied to the contrast end of the video preamplifier 2 As) increases, the contrast decreases and the screen darkens overall.

2. When the ambient brightness is dark

Since the irradiation amount of the photodiode D11 is small, the output current is reduced, and thus the voltage of the detection signal output through the collector terminal of the transistor Q11 is lowered.

The microcomputer 20 receiving the detection signal lower than the average brightness raises the second brightness control voltage and supplies it to the ABL circuit 3, and accordingly, the current supplied to the point (b) of the ABL circuit 3 ( ) Will increase.

Accordingly, the current ( ) Decreases rapidly, and the brightness control current () supplied to the contrast end of the video preamplifier 2 As) decreases, the contrast increases, making the screen brighter overall.

As described above, according to the present invention, when the brightness detector 10 detects the brightness of a space where a monitor is installed and outputs a detection signal to the microcomputer 20, the microcomputer 20 generates a second signal according to the detection signal. By outputting the brightness control voltage to the ABL circuit, it is effective to automatically adjust the screen brightness of the monitor according to the ambient brightness.

Claims (2)

Detects a change in the current of the flyback transformer 1, increases and decreases a first brightness control voltage according to the current change, feeds it back to the ABL terminal of the flyback transformer 1, and simultaneously feeds the increased and decreased first brightness control voltage to a video. In the monitor provided with the ABL circuit 3 which inputs to the contrast terminal of the preamp 2, and increases and decreases the brightness of the whole screen, A brightness detector 10 for detecting a brightness of a space where a monitor is installed and outputting a detection signal; And a microcomputer (20) for supplying a second brightness control voltage having a variable level in accordance with the brightness detection signal to the ABL circuit (3). The method of claim 1, wherein the brightness detector 10, A photodiode D11 in which the output current increases and decreases according to the irradiation amount of light; The base terminal is connected to the cathode terminal of the photodiode D11, the collector terminal receives a predetermined voltage Vcc11 through the resistor R11, and the emitter terminal is connected to the anode terminal of the photodiode D11 and grounded at the same time. And a transistor (Q11) for outputting the detection signal through a collector stage.