KR100698120B1 - The method for amending the offset of black level in HDMI - Google Patents

Abstract

The present invention relates to a black level offset automatic correction control method of a high definition multimedia interface (HDMI) imaging device. The present invention provides a control method for automatically correcting a black level offset of an HDMI video device, the method comprising: determining whether a signal applied to the HDMI video device is an RGB-PC or RGB-DTV signal, and as a result of the determination, the HDMI video If the signal applied to the device is an RGB-DTV signal, determining whether the video color component range is full or limited, setting a black level according to the determination result, and setting the black level according to the set black level. It provides a control method for automatically correcting the black level offset of the HDMI video device, characterized in that it comprises the step of outputting a video signal applied to the video device.

Therefore, according to the present invention, it is possible to automatically correct the black level offset regardless of whether the video device is a PC device or a home device, thereby preventing a problem of deterioration of image quality and without requiring any further action by the user. As a result, there is an effect of improving the convenience of the user.

High Definition Multimedia Interface (HDMI), black level, offset, RGB-PC, RGB-DTV

Description

The method for amending the black level offset automatically in high definition multimedia interface video device

1 is a table showing video color component ranges of a video color.

2 is a flowchart illustrating a control method of automatically correcting a black level offset of an HDMI video device according to the present invention.

3 is a table illustrating a method of distinguishing between RGB-DTV and RGB-PC signals.

4 is a table illustrating a method of distinguishing between RGB-DTV and RGB-PC signals.

5 is a table illustrating a method of distinguishing whether video color component ranges are 0-255 or 16-235 in an RGB-DTV signal.

6 is a diagram for describing a processing process of an RGB-PC format 0-255.

7 is a diagram for describing a processing process of video format 16-235;

The present invention relates to a high definition multimedia interface, and more particularly, to a control method for automatically correcting a black level offset of an HDMI video device.

Here, HDMI is an abbreviation of High Definition Multimedia Interface and is a new digital interface based on DVI. HDMI is a format that integrates video and audio signals into one digital interface, and is used in A / V devices such as DVD players, HDTVs, and set-top boxes. HDMI supports standard, extended or HD video as well as standard to multichannel audio signals, and has the advantage of transmitting uncompressed digital video signals of up to 5 gigabits per second from a source device to a display device with one terminal.

Hereinafter, the component range of the video color will be described with reference to FIG. 1. 1 is a table illustrating video color component ranges of a video color.

The black and white levels for a video component may have a "full range" or "limited range". The YCbCr component may always have a limited range, whereas the RGB component may have a full range or a limited range. For example, the RGB component has a full range of 0-255 or a limited range of 16-235.

The video signal applied through HDMI is a video signal through a PC device (for example, a master, a quantum device, etc.) or a home device (for example, a digital set-top box, a DVD player, a shibasoku). Equipment, etc., wherein the PC device has a full range of video color component ranges (0-255), while the home appliance has a limited range of video color component ranges (16-235).

However, in the conventional HDMI, there is no device or method for automatically correcting the black level offset by determining whether the video signal applied through the HDMI is the PC device or the home device. There was a difficulty. In other words, HDMI is set based on the RGB 0-255 PC format or HDMI is set based on the RGB 16-235 video format. Therefore, the user has to use different HDMI according to the video signal.

Specifically, the conventional HDMI described above has the following problems.

First, when HDMI is set based on the RGB 0-255 PC format, the black level is maintained when the video signal is sent through a PC device. However, when the video signal is sent through the home appliance, the black level is increased by 7.5 IRE, which causes noise to increase and contrast to decrease, resulting in deteriorated image quality. there was.

Here, the Institute of Radio Engineers (IRE) means the video signal size in the video signal. The relationship between the amplitude voltage and the IRE is equal to 100 IRE = 714 mV.

Second, if HDMI is set to the RGB 16-235 video format, the black level will remain normal when the video signal is sent through a home appliance. However, if the video signal is transmitted through the PC device at this time, the black level is buried as much as 7.5IRE, which causes a problem that the image discrimination power is significantly reduced in the low brightness screen.

The present invention is to solve the above problems, an object of the present invention is to distinguish whether the signal applied to the HDMI / DVI (Digital Video / visual Interactive) is a PC device signal or a home device signal, if the home device signal The present invention provides a control method by automatically correcting a black level offset of an HDMI video device that displays a normal clear screen regardless of the applied signal type by distinguishing whether the video color component range is full range or limited range.

In order to achieve the above object, the present invention provides a control method for automatically correcting a black level offset of an HDMI video device, the method comprising determining whether the signal applied to the HDMI video device is an RGB-PC signal or an RGB-DTV signal And if the signal applied to the HDMI video device is an RGB-DTV signal, the video color component ranges are full range (0-255) or limited range (16-235). ), Determining a black level of a different format according to the determination result, and outputting a video signal applied to the HDMI video device according to the set black level. It provides a control method that automatically corrects the black level offset of a HDMI video device.

The determining of whether the signal applied to the HDMI video device is an RGB-PC signal or an RGB-DTV signal may determine whether the signal is an RGB-PC signal or an RGB-DTV signal using Vtotal and Htotal values. have.

The use of the Vtotal and Htotal values determines the H / V frequency value and the clock value based on this, and uses the determined values to refer to the VESA standard and to the RGB-PC signal and the RGB-DTV signal. Can be distinguished.

However, when it is not possible to determine whether the signal is an RGB-PC signal or an RGB-DTV signal using the Vtotal and Htotal values, the number of Hsync (horizontal synchronization signals) included in the Vsync (vertical synchronization signal) is calculated. It may be determined whether it is an RGB-PC signal or an RGB-DTV signal.

The number of Hsyncs (horizontal sync signals) included in the Vsync (vertical sync signal) is calculated to determine whether the signal is an RGB-PC signal or an RGB-DTV signal. If it is determined as an RGB-PC signal and the number of Hsyncs included in 1 Vsync is 5, it includes determining as an RGB-DTV signal.

The case in which it is impossible to determine whether the signal is an RGB-PC signal or an RGB-DTV signal using the Vtotal and Htotal values is an RGB-PC signal or an RGB-DTV signal using the Vtotal and Htotal values two or more times. When determining whether or not the recognition, it means that the result is not derived by the same signal.

When the signal applied to the HDMI video device is an RGB-DTV signal, determining whether the video color component ranges of the video color are full range (0-255) or limited range (16-235). Is an RGB-DTV signal when the first to sixteenth data values of an 8-bit digital level value are all zeros, and the first to sixteenth data values of an 8-bit digital level value are all zeros. If not, comprising determining the RGB-PC signal.

If the signal applied to the HDMI video device is an RGB-PC signal, the black level is set based on the video color component range as a whole range (0-255), and the signal applied to the HDMI video device is an RGB-DTV signal. When the first to sixteenth data values of the 8-bit digital level value are all 0, the black color is set based on the limited range (16-235) of the video color component, and the signal applied to the HDMI video device is Unless the first to sixteenth data values of an 8-bit digital level value are all zeros, the black level can be set based on the full range (0-255) of the video color component.

Therefore, according to the present invention, it is possible to prevent the problem of deterioration of image quality due to the increase of the black level according to the HDMI input mode or the reduction of the image discrimination power on the low luminance screen due to the black level being buried. The effect is that you can see the screen.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention that can specifically realize the above object will be described.

FIG. 2 is a flowchart illustrating a control method of automatically correcting a black level offset of an HDMI video device according to the present invention. An embodiment of a control method of automatically correcting a black level offset of an HDMI video device according to the present invention will be described with reference to FIG. 2.

An 8-bit HDMI / DVI digital signal is applied to the video device (S10).

It is determined whether the signal is an RGB-PC signal or an RGB-DTV signal (S20) (a detailed determination method thereof will be described later in detail with reference to FIGS. 3 and 4).

As a result of the determination (S20), if it is determined that the RGB-PC signal, the black level is set based on the full range (0-255) that is the RGB-PC format (S30).

In operation S50, an image processing operation is performed based on the RGB-PC format. First, convert the RGB 0-255 signal to the YCbCr 16-235 signal and convert it (S80), and then convert the YCbCr 16-235 signal to the RGB 0-255 signal. Data range scaling is performed (S90) (see FIG. 6).

If it is determined in S20 that the signal is an RGB-DTV signal, the digital level of the signal is first read (S40). Here, the digital level can be any number of decimal numbers, but considering the digital level representation of general video equipment and efficiency, etc., it is preferable to read the digital level of the signal in hexadecimal (HEX) or decimal (DEC). desirable.

In consideration of the read digital level, it is determined whether the RGB-DTV signal has the full range (0-255) or the limited range (16-235) (S60). Will be described later through the description).

As a result of the determination (S60), if the RGB-DTV signal has the full range (0-255), the black level is set based on 0-255, which is an RGB-PC format (S70). The process proceeds to S80 and S90 like the RGB-PC signal.

However, if the determination result (S60), the RGB-DTV signal has a limited range, the black level is set based on the limited range (16-235) which is a video (Video) format (S100), the RGB 16-235 signal A data range scaling process is performed with the RGB 0-255 signal (S110) (see FIG. 7).

3 and 4 are tables illustrating a method of distinguishing RGB-DTV and RGB-PC signals. Hereinafter, a method of distinguishing an RGB-DTV signal from an RGB-PC signal will be described with reference to FIGS. 3 and 4.

First, when the value of Vtotal is determined, the number of H can be known, and thus, the RGB-DTV signal and the RGB-PC signal can be distinguished. For example, if Vtotal is 550, it is recognized as 800 * 600 mode. If Vtotal is 620, it is recognized as 832 * 624 mode. However, if the value of Vtotal exists near the boundary of the number of H, an error may occur, so it is preferable to consider Htotal as well.

That is, after going through an ADC (Analogue to Digital Converter), when the total is determined, the CLK and H / V frequencies are determined. Therefore, by using the information on the CLK and H / V frequencies, an RGB-DTV signal and an RGB-PC signal are used. If we distinguish from, the likelihood of error is significantly reduced. For example, if Htotal is 832 Pixels and Vtotal is 445 lines (but frequency is 85 Hz), the CLK will have a value of 832 * 445 * 85 = 31.5 MHz Pixel Clock. Therefore, it can be determined that the mode is 640 * 350.

However, when the RGB-PC signal is in the 640 * 480 mode (where the frequency is 60 Hz) and when the RGB-DTV signal is in the 480p mode, the RGB-PC signal and the RGB-DTV signal are distinguished by the above two methods. There is a problem that is difficult to do.

Because when RGB-PC signal is in 640 * 480 mode, Htotal is 800Pixels and Vtotal is 525lines (if the frequency is 60Hz) CLK has the value of 800 * 525 * 60 = 25.175MHz Pixel Clock, RGB Even if the DTV signal is in 480p mode, Htotal is 800 Pixels, Vtotal is 525lines (but frequency is 60Hz), and CLK has 800 * 525 * 60 = 25.175MHz Pixel Clock. Htotal, Vtotal, CLK This is because both are almost identical.

When it is difficult to distinguish between the RGB-PC signal and the RGB-DTV signal using only the two methods, the two methods may be repeated two or more times. That is, if the result is not obtained even after repeating two or more times, the following procedure should be performed. However, the numerical value of two or more times can be determined by those skilled in the art, and the numerical value itself does not have any special technical features, and a simple numerical change thereof is within the scope of the present invention.

Therefore, in this case, the number of Hsyncs (horizontal synchronization signals) in the Vsync (vertical synchronization signal) can be further calculated to distinguish the RGB-PC signal from the RGB-DTV signal. For example, when the RGB-PC signal is in 640 * 480 mode (if the frequency is 60Hz), 1Vsync is narrow enough to accommodate only two Hsyncs, while in the 480p mode the RGB-DTV signal is within 1Vsync. Since there may be about 5 Hsyncs, the number of Hsyncs in 1Vsync can be calculated to distinguish the RGB-PC signal from the RGB-DTV signal.

FIG. 5 is a table illustrating a method of distinguishing whether video color component ranges are 0-255 or 16-235 in an RGB-DTV signal. Referring to FIG. 5, the RGB-DTV signal is described as a video color component range having full range (0-255) or limited range (16-235).

For example, if all data of 00-15 based on DEC (decimal) are all 0, it is determined as the RGB-DTV signal of the limited range (16-235), and the data of 00-15 is all 0. If not, it is determined as the RGB-PC signal of the full range (0-255).

If all 0-F data is 0 based on HEX (hexadecimal), it is determined as an RGB-DTV signal of the limited range (16-235), and if the 0-F data is not all 0, It is determined by the RGB-PC signal of the full range (0-255).

However, it is easy for a person skilled in the art to simply change whether or not to determine by the numerical base of the numerical bar, all judgments by the base of various numerical values belong to the content of the present invention.

The present invention is not limited to the above-described embodiments, and as can be seen in the appended claims, modifications can be made by those skilled in the art to which the invention pertains, and such modifications are within the scope of the present invention.

In the control method for automatically correcting the black level offset of the HDMI video device according to the present invention described above, if the signal applied to the HDMI / DVI is a device signal for a PC or a home device signal to distinguish the home device Since the full range (0-255) and limited range (16-235) can be distinguished, the black level increases depending on the HDMI input mode, which may cause a deterioration in image quality or the black level may be buried to reduce the image discrimination power on a low luminance screen. Problems can be prevented from occurring so that the user can see a clearer screen.

Claims (11)

A control method for automatically correcting a black level offset of an HDMI (High Definition Multimedia Interface) video device, Determining whether the signal applied to the HDMI imager is an RGB-PC signal or an RGB-DTV signal; As a result of the determination, when the signal applied to the HDMI video device is an RGB-DTV signal, it is determined whether the video color component ranges of the video color are full range (0-255) or limited range (16-235). Determining; Setting a black level based on a video color component range based on a full range (0-255) when the signal applied to the HDMI video device is an RGB-PC signal; Setting a black level based on the full range when the signal applied to the HDMI video device is an RGB-DTV signal and the video color component range is full range; Setting a black level based on the limited range when the signal applied to the HDMI imager is an RGB-DTV signal and the video color component range is in a limited range; And And outputting an image signal applied to the HDMI video device according to the set black level. The method of claim 1, Determining whether the signal applied to the HDMI video device is an RGB-PC signal or an RGB-DTV signal, A control method for automatically correcting a black level offset of an HDMI video device, characterized in that it is determined whether it is an RGB-PC signal or an RGB-DTV signal using Vtotal and Htotal values. The method of claim 2, Using the Vtotal and Htotal value, The H / V frequency value and the clock (CLOCK) value are determined based on the Vtotal and Htotal values, and the VESA standard is used to determine the black level offset of the HDMI video device. Control method to correct with The method of claim 2, If it is not possible to determine whether the signal is an RGB-PC signal or an RGB-DTV signal using the Vtotal and Htotal values, the number of Hsync (horizontal synchronization signals) included in the Vsync (vertical synchronization signal) of the applied signal is determined. A control method for automatically correcting the black level offset of an HDMI video device, characterized in that it is calculated by calculating whether it is an RGB-PC signal or an RGB-DTV signal. The method of claim 4, wherein By determining the number of Hsync (horizontal synchronization signal) included in the Vsync (vertical synchronization signal) to determine whether it is an RGB-PC signal or an RGB-DTV signal, When the number of Hsyncs included in 1 Vsync is 2, it is determined as an RGB-PC signal. When the number of Hsyncs included in 1 Vsync is 5, it is determined as an RGB-DTV signal. Control method that automatically corrects the level offset. The method of claim 4, wherein The case where it is not possible to determine whether it is an RGB-PC signal or an RGB-DTV signal using the Vtotal and Htotal values, When determining whether it is an RGB-PC signal or an RGB-DTV signal using the Vtotal and Htotal values two or more times, the black level offset of the HDMI video device is automatically obtained. Control method to calibrate. The method of claim 1, As a result of the determination, when the signal applied to the HDMI video device is an RGB-DTV signal, it is determined whether the video color component ranges of the video color are full range (0-255) or limited range (16-235). The judging step is If the first to sixteenth data values of the 8-bit digital level value are all 0, it is determined as an RGB-DTV signal. If the first to sixteenth data value of the 8-bit digital level value is not all zero, the control method for automatically correcting the black level offset of the HDMI video device, characterized in that it is determined as an RGB-PC signal. The method of claim 1, As a result of the determination, when the signal applied to the HDMI video device is an RGB-DTV signal, it is determined whether the video color component ranges of the video color are full range (0-255) or limited range (16-235). The judging step is When the 8-bit digital level value is set based on DEC (decimal), if the data of 00-15 are all 0, it is determined as the RGB-DTV signal of the limited range (16-235), and the data of 00-15 are all If not 0, it is determined as a full range (0-255) RGB-PC signal, and When the 8-bit digital level value is set based on HEX (hexadecimal), if the data of 0-F are all 0, it is judged as the RGB-DTV signal of limited range (16-235), and the data of 0-F If not all 0, the control method for automatically correcting the black level offset of the HDMI video device, characterized in that it is determined by the RGB-PC signal of the full range (0-255). delete The method of claim 1, When the signal applied to the HDMI video device is an RGB-DTV signal and the video color component range is full range, the step of setting the black level based on the full range, If the signal applied to the HDMI video device is an RGB-DTV signal and the first to sixteenth data values of the 8-bit digital level value are not all zeros, the video color component range is based on the full range (0-255). A control method for automatically correcting the black level offset of an HDMI video device, characterized in that the black level is set. The method of claim 1, If the signal applied to the HDMI video device is an RGB-DTV signal and the video color component range is a limited range, setting the black level based on the limited range may include: When the signal applied to the HDMI video device is an RGB-DTV signal and the first to sixteenth data values of the 8-bit digital level value are all 0, the video color component range is black based on the limited range (16-235). A control method for automatically correcting the black level offset of an HDMI video device, characterized in that the level is set.

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