KR0136691B1 - Back level compensation circuit of a monitor - Google Patents

Abstract

The present invention relates to a black level compensation circuit of a monitor. In the related art, the brightness of the screen is controlled when the brightness is adjusted, but the portion to be expressed in black is gray, and there is a problem in expressing the sharpness. In addition, black was not well represented, there was a problem that the entire screen is flowing. In order to solve this problem, the present invention separately detects a black level in a video signal, and then amplifies the detected black level by a converted DC level and subtracts the black level by adjusting the brightness signal. The black level compensation circuit of the monitor which can output the level as the original level was created.

Description

Black level compensation circuit of monitor

1 is a conventional video signal diagram,

(A) is waveform diagram of original video signal.

(B) is a video signal waveform diagram in contrast adjustment.

(C) is a video signal waveform diagram at the time of brightness adjustment.

2 is a block diagram of a black level compensation circuit of the monitor of the present invention.

3 is a detailed circuit diagram of a black level detector according to the present invention.

4 is a video signal diagram according to the present invention.

(A) is waveform diagram of original video signal.

(B) is a waveform diagram of a video signal during contrast adjustment.

(C) is a waveform diagram of a video signal at the time of brightness adjustment.

(D) shows video signal waveforms when black level is corrected during brightness adjustment.

Explanation of symbols on the main parts of the drawings

100: contrast control unit 200: brightness control unit

300: black level detection unit 301: inversion unit

400: amplifier 500: subtractor

CP1: comparator

The present invention relates to a black level compensation circuit of a monitor. In particular, a black level is separately detected from a video signal, and then the detected black level is amplified by the converted DC level and subtracted from the video signal adjusted by the brightness control unit. The present invention relates to a black level compensation circuit of a monitor capable of outputting the black level as an original level.

In TVs and monitors, the contrast and brightness can be adjusted by manipulating the video signal.

In the case of contrast adjustment, the video signal as shown in Fig. 1A is amplified as shown in Fig. 1B but the DC level is not changed.

In the case of the brightness control, the video signal as shown in FIG. 1A is changed differently from the DC level without increasing its magnitude as shown in FIG.

As such, when the contrast is adjusted, its size is changed and the DC level is fixed, which has a function of clearly displaying an image displayed on the screen.

In the case of brightness control, the entire screen is brightened by raising the DC level of the entire video signal, and at this time, the magnitude of the video signal does not change at all.

However, in the above cases, the brightness of the screen is controlled when the brightness is adjusted, but the part that should be expressed in black becomes gray, and there is a problem in expressing the sharpness, and the black is not well represented, so the entire screen There was a problem with this blurring.

In order to solve this problem, the present invention separately detects the black level in the video signal, and then amplifies the detected black level by the converted DC level and subtracts the black signal by the brightness control unit. The black level compensation circuit of the monitor which can output the level as the original level was created.

2 is a block diagram of the black level compensation circuit of the monitor of the present invention. As shown in FIG. 2, the contrast adjusting unit 100 adjusts and outputs the contrast of the video signal by external adjustment, and the brightness of the video signal by external adjustment. Brightness control unit 200 for adjusting and outputting the varnish, black level detection unit 300 for detecting the black level of the video signal, and driven by an external signal to output the output signal of the black level detection unit 300 to the external adjustment And a subtractor 500 for amplifying and outputting the DC level changed by the DC level, and a subtractor 500 for subtracting and outputting the output signal of the amplifier 400 and the output signal of the brightness control unit 200.

The black level detector 300 detects a black level signal by receiving an inverting unit 301 for inverting and outputting an input video signal and comparing the output signal of the inverting unit 301 with a reference black level signal. It is characterized by consisting of a comparator (CPI) to output.

The operation and effects of the present invention configured as described above will be described in detail with reference to FIGS. 3 and 4.

First, when the user adjusts the contrast by using an external adjustment terminal, the video signal as shown in FIG. 4A is shown through FIG. 4B through the contrast control unit 100. As shown in FIG. Is amplified. However, the DC level does not change.

When the brightness is adjusted, the video signal as shown in (a) of FIG. 4 is differently increased through the brightness control unit 200 as shown in (c) of FIG. 4 through the brightness control unit 200. But at this time, the magnitude is not amplified.

Meanwhile, the black level detector 300 detects only the black level from the input video signal and outputs the black level to the amplifier 400. The operation thereof is as follows.

The video signal is applied to the base of the transistor Q1 of the black level detector 300 to turn on or change the amount of the transistor Q1. As a result, the power supply voltage VCC flows to the ground side through the transistor Q1 or is output to the collector terminal, which is output as a signal inverting the input video signal.

The comparator CP1 receiving the inverted video signal at one input terminal compares the reference black level signal input to the other input terminal and outputs the corresponding signal. As a result, only the black level of the video signal is detected.

The amplifier 400 operates by an enable signal from the outside. For example, if the amount of change of the black level controlled by the external control stage is A, and the amplifier operates on the enable signal from the outside, amplification is performed. The unit amplifies and outputs the black level from the black level detection unit by the change amount A.

The operation is as follows.

The detected black level signal is applied to the base of the transistor Q2 to turn on the transistor Q2.

At this time, the transistor Q3 is turned on by the adjustment signal of the external adjustment stage, and the turn-on amount of the transistor Q4 varies depending on the degree of the external adjustment signal. This changed turn-on amount is eventually a converted DC level, which is amplified by ON / OFF of the transistor Q2 and input to the subtractor 500.

The subtractor receiving the output signal of the amplifier 400 subtracts the output signal from the adjusted brightness signal from the brightness controller 200 and outputs the subtractor.

As a result, as shown in Fig. 4D, the brightness signal is at the original level, and only the other signal is amplified and output.

Alternatively, the black level is separated from the video signal through the contrast control unit 100 and the brightness control unit 200 so as to increase the DC level of only another signal when adjusting the brightness and then add the black level later. There is also.

As described in detail above, the present invention can make the black level at the original level during the Brightness adjustment, thereby preventing the screen from blurring, and reducing the reflection phenomenon when used during the day.

Claims (2)

A contrast control unit for adjusting and outputting the contrast of the video signal by external adjustment, a brightness control unit for adjusting and outputting the brightness of the video signal by external adjustment, a black level detection unit for detecting black levels in the video signal, An amplifying unit which is driven by an external signal and amplifies and outputs the output signal of the black level detecting unit by a DC level changed by external adjustment; and a subtractor which subtracts and outputs the output signal of the amplifying unit and the output signal of the brightness control unit. The black level compensation circuit of the monitor characterized by the above-mentioned. The black level detector of claim 1, wherein the black level detector is an inverter for inverting and outputting an input video signal, and a comparator for detecting and outputting a black level signal by receiving an output signal of the inverter and comparing the output signal with a reference black level signal. The black level compensation circuit of the monitor characterized by the above-mentioned.