KR19990005595A - Monitor brightness adjuster - Google Patents

Abstract

The present invention relates to an apparatus for adjusting a screen of a monitor, wherein the monitor screen can be brightly adjusted in a super bright mode.

Such a device of the present invention is a monitor that allows a user to adjust brightness by operating a key according to an input video signal, and receives a key from an external device to sense a brightness mode and controls it accordingly through an I ² C bus. A microcomputer 10 for outputting data and a comparator OP are provided. The control unit receives the control data received from the microcomputer 10 with reference data and adjusts and outputs the black level of the video signal according to the result. The amplifier 20 is configured so that the microcomputer 10 detects the brightness mode and outputs control data through the I ² C bus without using the ABL circuit. The video preamplifier 20 converts the control data into reference data. By comparing the black level, the screen is brightened in the super bright mode.

Description

Monitor brightness adjuster

The present invention relates to the control of the brightness of the monitor. In particular, in the super bright mode of displaying a video, the brightness of the monitor that can make the screen brighter than the normal brightness by using the I ² C bus between the microcomputer and the video preamp. To an adjusting device.

In general, the brightness of the screen displayed on the monitor can be arbitrarily set by the user by adjusting the contrast and brightness adjustment terminals. In this case, 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.

The screen displayed on the monitor was a still picture as in a word processor application program. However, with the development of video encoding technology, MPEG boards have been developed to display video on a monitor.

The deflection operation of the monitor is based on the principle of electronic deflection by magnetic field proportional to the current of the deflection coil. Currently, the monitor has much smaller current in the deflection coil because the inductance value of the deflection coil is much smaller than that of the TV. There is a problem that is not bright. Thus, the monitor uses the ABL circuit to brighten the screen when displaying moving images.

However, when the ABL circuit is uniformly applied to the normal mode and the low resolution mode, the brightness of the screen in the low resolution mode becomes darker overall. This is because the signal level is smaller than the video signal that is supported.

That is, the ABL circuit needs to adjust the super brightness to make the screen bright when a video is displayed in the low resolution mode.

Referring to FIG. 1, the ABL circuit 2 detects a change in current of the flyback transformer 3 and, if it is equal to or greater than the average brightness, lowers the brightness control voltage and feeds it back to the ABL terminal of the flyback transformer 3. As a result, the output voltage of the flyback transformer 3 supplied to the anode is reduced, thereby suppressing the anode current within an allowable value. The brightness control voltage is also supplied to the contrast terminal of the video preamplifier 4 so as to reduce the video signal magnitude itself.

On the other hand, the microcomputer 1 detects the mode as the user adjusts the external key, and outputs a signal of the 'high' level in the normal mode, and outputs a signal of the 'low' level in the super bright mode.

First, in the normal mode, the microcomputer 1 outputs 'high', so that the first transistor Q1 is turned on and a low voltage is applied to the base terminal of the second transistor Q2, thereby providing the second transistor Q2. Is turned off. Thus, at point A, the distribution voltage is applied by the resistors R3 and R4, and the current Ia decreases so that the contrast decreases as the brightness control current Ib supplied to the contrast stage of the video preamplifier 4 increases. The screen looks relatively dark.

On the other hand, when the microcomputer 1 outputs 'low' in the super bright mode, the first transistor Q1 is turned off and the second transistor Q2 is connected to the power supply voltage Vcc1 through the resistor R2 at the base end. ) Is applied and turned on. Accordingly, since the voltage passing through the resistor R3 and the turned-on second transistor Q2 is applied to the point A, the potential of the point A is higher than in the normal mode.

Accordingly, since the current Ia decreases and the brightness control current Ib transmitted to the contrast terminal of the video preamplifier 4 decreases, the contrast increases and the screen becomes brighter.

Accordingly, the present invention provides a screen control apparatus for a monitor that can brighten a screen in a super bright mode by I ² C communication between a microcomputer and a video preamplifier without using an ABL circuit when displaying a video as described above. The purpose is.

The apparatus of the present invention for achieving the above object, in the monitor that allows the user to adjust the brightness by operating the key according to the input video signal, by receiving a key from the outside to sense the brightness mode I ² And a video preamplifier that outputs control data according to the C bus and a comparator. The control data received from the microcomputer is compared with reference data, and the video preamplifier controls the black level of the video signal according to the result. It is characterized in that the configuration.

1 illustrates an ABL circuit for super brightness in a conventional monitor.

2 is a circuit diagram showing a brightness control device of the monitor according to the present invention;

3 is a circuit diagram illustrating a comparator included in the video preamplifier shown in FIG. 2;

4 is a waveform diagram illustrating an output signal of the video preamplifier illustrated in FIG. 2.

Explanation of symbols for main parts of the drawings

10: micom 20: video preamp

OP: OP amplifier

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

2 is a circuit diagram illustrating a brightness control apparatus of a monitor according to the present invention.

As shown in FIG. 2, the apparatus of the present invention receives a key from an external device, detects a brightness mode, and outputs corresponding control data through an I ² C bus, and an input from the microcomputer 10. And a video preamplifier 20 which compares the received control data with reference data and outputs a video signal according to the result.

In general, the I ² C bus is widely used for transmission of control data between integrated circuits in a monitor.

Here, the I ² C bus that connects the integrated circuits is a serial synchronous bus, which consists of an SDA bus to which data is transmitted and an SCL bus to which a synchronous clock signal is transmitted. to be.

When the microcomputer 10 according to the present invention transmits the control data according to the brightness mode to the video preamplifier 20 using the I ² C bus, that is, the SDA signal line and the SCL signal line, the video preamplifier 20 controls the control. It receives the data and adjusts the black level of the video signal.

In more detail, the microcomputer 10 detects the brightness mode as the user manipulates an external key and outputs control data according to the mode using the I ² C bus.

The video preamplifier 20 includes a comparator OP as shown in FIG. 3 to compare the control data with reference data. In this case, the comparator OP is implemented as an OP amplifier, in which reference data is connected to a non-inverting input terminal and control data is connected to an inverting input terminal.

If the mode detected by the microcomputer 10 is the normal mode, the microcomputer 10 outputs control data smaller than the reference data. Accordingly, the video preamplifier 20 receives the control data through the I ² C bus and compares it with the reference data. Since the control data input to the inverting input terminal is smaller than the reference data input to the non-inverting input terminal, 'Output a level signal. In this case, the video preamplifier 20 outputs a video signal having a black level in a normal mode as shown in FIG. 4.

On the other hand, in the super bright mode in which the video is displayed, the microcomputer 10 outputs control data larger than the reference data. Accordingly, the video preamplifier 20 outputs a signal of 'low' level because the control data input to the inverting input terminal of the comparator OP is larger than the reference data input to the non-inverting input terminal. At this time, the video preamplifier 20 outputs a video signal having a black level of the super bright mode as shown in FIG. 4. That is, when the black level is raised as much as the difference between the control data and the reference data, the screen becomes brighter as a whole, so that a clear video is displayed.

As described above, in the apparatus of the present invention, when the microcomputer senses the brightness mode and outputs control data through the I ² C bus, the video preamplifier adjusts the black level by comparing the control data with the reference data to provide a super bright. The screen brightens in mode.

Claims (1)

In the monitor that allows the user to adjust the brightness according to the input video signal, the monitor receives the key from the outside to detect the brightness mode and output the corresponding control data through the I ² C bus (10) ); And a video preamplifier 20 configured to compare the control data received from the microcomputer 10 with reference data and to adjust and output a black level of the video signal according to the result. Monitor brightness adjustment device.