KR100739607B1 - Display device and method for compensating video signal thereof - Google Patents

Abstract

The present invention relates to a video apparatus and a video signal compensation method thereof. The method includes the steps of separating a luminance signal and a color signal from a transmitted image signal, determining a predetermined compensation value by measuring a color carrier deviation amount of the separated color signal, And correcting the color carrier shift by using the changed compensation value; and correcting the corrected luminance signal after the separation of the luminance signal and the color carrier, And combining the color signals compensated for the deviation. The present invention also provides a method of compensating a video signal of a video apparatus. Therefore, according to the present invention, it is possible to compensate a color carrier and a clock shift to compensate a video signal.

Color carrier side, clock shift, oscillation frequency shift

Description

TECHNICAL FIELD The present invention relates to a video device and a method of compensating the video signal,

1 is a block diagram illustrating a video device according to the related art;

2 is a block diagram illustrating a video apparatus according to a first embodiment of the present invention.

3 is a block diagram illustrating a video apparatus according to a second embodiment of the present invention

4 is a flowchart for explaining a video signal compensation method of a video apparatus according to the first embodiment of the present invention

5 is a flowchart for explaining a video signal compensation method of a video apparatus according to a second embodiment of the present invention

Description of the Related Art [0002]

100: front end unit 110: TOP unit

120: clock generating unit 130: mixing unit

140: analog / digital converter 200: intermediate frequency processor

300: digital / analog conversion unit 400: video signal processing unit

410: analog / digital conversion unit 420: luminance / color separation unit

430: color carrier deviation amount measuring unit 440: luminance signal processing unit

450: color decoder unit 451, 455: deviation amount determining unit

452: comparison section 453: compensation value changing section

454: Change value applying section 460:

470: oscillation frequency shift amount measurement unit 500: image back end unit

The present invention relates to a video apparatus, and more particularly, to a video apparatus capable of flexibly performing color signal compensation for a color carrier and an oscillation frequency shift of a video signal received by a video apparatus, and a video signal compensation method thereof.

FIG. 1 is a block diagram illustrating a video apparatus according to the related art. Referring to FIG.

1, includes a front end unit 10, an intermediate frequency processing unit 20, a digital / analog (D / A) conversion unit 30, a video signal processing unit 40 And an image backend unit 50.

The front end unit 10 includes a TOP (Takeoff Point) unit 11, a clock generation unit 12, a mixing unit 13, and an A / D conversion unit 14.

Here, the front end unit 10 receives the intermediate frequency (IF) standard signal after the high frequency processing (down-conversion to the intermediate frequency) in the tuner unit (not shown) for the video signal transmitted through the high- (Takeoff point setting) of an automatic gain control (AGC) point in the TOP unit 11 and outputs it to a frequency required by the video apparatus in accordance with the oscillation frequency (clock) of the clock generating unit 12 D converter 14 to a digital signal according to the oscillation frequency (clock) of the clock generator 12 and outputs the digital signal to the intermediate frequency processor 20.

The intermediate frequency processor 20 performs down-conversion or AGC compensation on a baseband for the digitally converted intermediate frequency.

The color carrier of the baseband on which the AGC compensation is performed is input to the analog / digital conversion unit 41 of the image signal processing unit 40 through the digital / analog conversion unit 30 and converted into a digital signal .

The color-converted digital color carrier is divided into a luminance signal (Y) and a color signal (C) through a comb filter unit (42).

The luminance signal is output to the combining unit 47 by compensating the luminance signal through the luminance (Y) signal processing unit 44.

The color signal is output to the combining unit 47 after compensating for the deviation due to the color carrier in the color carrier side compensation unit 46 of the color decoder unit 45.

The combining unit 47 combines the compensated luminance signal Y and the color signal C and outputs R, G, and B image signals through the image backend unit 50.

In the video apparatus according to the related art, the video signal among the signals transmitted through the radio frequency is oscillated in accordance with the internal clock of the video apparatus at the front end unit 10 of the video apparatus, The video signal is processed so that it can be displayed on the device.

In this conventional technique, a color capture range is measured using a meter 60 provided separately from a video device, and the deviation of the color carrier is measured. Based on the measurement result according to the measured color carrier deviation , And compensates the color carrier shift by applying a compensation value to the color carrier shift compensating unit 46 of the video signal processing unit 40. [ In other words, a fixed compensation value is applied to the production line or after-sales service.

If such color carrier shifting is not properly compensated, a problem of no color may occur.

However, the above-described related art video apparatus has the following problems.

First, the broadcasting standard signal received from the video equipment is measured by an external measuring device to compensate for the deviation of the color carrier (carrier wave). Since the compensation value is compensated for only the fixed value with respect to the measured value, If the carrier is shifted too much, the compensation for the color carrier may not be performed properly, which may cause problems of no color.

Secondly, since the deviation of the clock generating unit with respect to the oscillation frequency is not considered, this also causes a problem that compensation for the color carrier deviation is not properly performed.

Third, the reliability of the video equipment is reduced, and unnecessary service costs may be generated in the case of no color.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an image device capable of flexibly compensating for a clock shift in a color carrier and an image device, .

According to an aspect of the present invention, there is provided a digital video signal processing apparatus including a front end unit for mixing an analog video signal with a frequency required by the video apparatus according to an internal oscillation frequency of the video apparatus, A digital-to-analog converter for converting the digital video signal of the base band into an analog video signal, and a digital-to-analog converter for converting the analog-converted video signal into a digital signal, A color carrier shift amount of the color signal is measured to compensate the shift amount of the color carrier to a predetermined step to apply the shift amount correction value of the color carrier to thereby correct the shift amount of the color signal, And then transmits the corrected luminance signal and the color signal to which the deviation correction value is applied To provide a video apparatus, characterized by configured by comprising image back end of the video signal processing unit for outputting a video signal to correct the color and luminance signals, and outputs the corrected image signal to the R, G, B video signal portion.

The front end unit includes a TOP (Takeoff point) unit for holding an automatic gain control point for the analog video signal, a clock generating unit for generating the oscillation frequency, and a controller for controlling the oscillation frequency and the AGC And an analog / digital converter for converting the mixed analog video signal into a digital signal.

The image signal processor may further include an analog / digital converter for converting the baseband analog image signal converted by the digital / analog converter into a digital image signal, a luminance detector for separating the color signal and the luminance signal from the digital image signal, A luminance signal processing unit for compensating for the luminance signal, a color carrier deviation amount measuring unit for measuring a color carrier deviation amount of the color signal, and a color carrier deviation amount measuring unit for calculating a color carrier deviation amount measured by the color carrier deviation amount measuring unit A color decoder unit for performing a stepwise compensation and a comparison according to the comparison result and changing the compensation value of the color carrier to a matching compensation value according to a result of the comparison and applying the compensated luminance value to the color decoder unit and the luminance signal processing unit, And a coupling unit coupling the signal and the color signal.

The image signal processing unit may further include an oscillation frequency shift amount measuring unit that receives the oscillation frequency of the front end unit from the analog / digital conversion unit configured in the front end unit and measures an oscillation frequency shift amount of the clock generation unit .

Here, the color decoder unit may include a deviation amount determining unit for determining a compensation value for each step of the color carrier by an experiment or a field test, and a compensating unit for comparing the compensation value corresponding to the amount of deviation of the color carrier A change value compensating section for changing a compensation value of the color carrier to a compensation value which is matched in accordance with a result of the comparison; And a change value application section for applying a value to the change value application section.

Preferably, the deviation amount determining section receives the deviation amount of the oscillation frequency from the oscillation frequency shift amount measuring section together with the stepwise compensation value of the color carrier, and determines the compensation value for the deviation amount of the oscillation frequency.

According to an aspect of the present invention, there is provided a method of controlling a color signal, the method comprising: separating a luminance signal and a color signal from a transmitted image signal; measuring a color carrier deviation amount of the separated color signal, Comparing the carrier deviation amount with the determined compensation value to change the color carrier deviation compensation value to a matching compensation value; compensating the color carrier deviation with the changed compensation value; And combining the luminance signal and the color signal compensated for the color carrier shift. The present invention also provides a method of compensating a video signal of a video apparatus.

The method may further include outputting the combined video signal as R, G, and B video signals.

In the step of applying the predetermined compensation value to the color carrier deviation amount for the separated color signal, a deviation amount with respect to the oscillation frequency of the image device is measured, and a predetermined compensation value for the color carrier deviation amount Determining whether or not the color carrier deviation amount and the frequency deviation amount match the determined compensation value and determining whether the color carrier deviation compensation value and the color carrier deviation compensation value are equal to each other, Changing the oscillation frequency shift compensation value, and compensating the color carrier shift with the changed compensation value.

Therefore, according to the present invention, it is possible to compensate for a color carrier or a clock (oscillation frequency) deviation flexibly, thereby solving the no-color problem that may occur in displaying a video signal.

Other objects, features and advantages of the present invention will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a block diagram illustrating a video apparatus according to a first embodiment of the present invention.

The video apparatus according to the first embodiment of the present invention includes a front end unit 100, an intermediate frequency processing unit 200, a digital / analog conversion unit 300, a video signal processing unit 400, a video backend unit (500).

The front end unit 100 includes a TOP (Takeoff Point) unit 110, a clock generation unit 120, a mixing unit 130, and an A / D conversion unit 140.

Here, the front end unit 100 transmits an intermediate frequency (IF) standard signal after high frequency processing (down-conversion to an intermediate frequency) in a tuner unit (not shown) for a video signal transmitted through a high frequency (RF) color carrier (Takeoff point setting) of an automatic gain control (AGC) point in the TOP unit 110 and outputs it to a frequency required by the video apparatus in accordance with the oscillation frequency (clock) of the clock generator 120 D converter 140 into a digital signal according to the oscillation frequency of the clock generator 120 and outputs the digital signal to the intermediate frequency processor 200. [

The intermediate frequency processor 200 down-converts or AGC-compensates the digital intermediate frequency to a baseband.

The color carrier of the baseband on which the AGC compensation is performed is input to the analog / digital converter 410 of the image signal processor 400 through the digital / analog converter 300 and converted into a digital signal .

Here, the image signal processing unit 400 includes an A / D conversion unit 410, a luminance / color separation unit 420, a color carrier deviation amount measurement unit 430, a luminance signal processing unit 440, a color decoder unit 450, And a coupling portion 460.

The color-converted color carrier is separated into a luminance signal Y and a color signal C through a luminance / color separation unit 420. The luminance / color separation unit 420 may be composed of a comb filter.

The luminance signal Y is output to the combining unit 460 by compensating the luminance signal through the luminance signal processing unit 440. The color signal C measures a shift amount of the color carrier in the color carrier shift amount measuring unit 430 and outputs the measurement result to the color decoder unit 450.

The color decoder unit 450 includes a deviation amount determining unit 451, a comparing unit 452, a compensation value changing unit 453, and a change value applying unit 454 to compensate for a deviation with respect to a color carrier And then output to the post-joining unit 460.

Here, the deviation amount determining unit 451 determines the step-by-step compensation value by an experiment or a field test. Herein, the compensation value is applied to the compensation value corresponding to various stages according to the shift amount of the color carrier measured by the color carrier deviation amount measuring unit 430. In this case, for example, when the shift amount of the color carrier is measured in the range of 10 to 100 KHz and the corresponding shift amount compensation value is set in advance, it is possible to perform the fluid compensation according to the shift amount of the color carrier. The compensation value changing unit 453 compares the compensated value of the color carrier with the compensated value of the color carrier to determine whether the compensation amount of the color carrier is equal to the compensated value. To change the compensation value of the carrier. The change value application unit 454 compensates the color carrier shift by applying the color carrier compensation value to the changed compensation value.

The combining unit 460 combines the luminance signal Y processed by the luminance signal processing unit 440 and the compensated color signal C from the modification value applying unit 454 and outputs the combined signal to the image backend unit 500.

The image backend unit 500 outputs the video signals from the combining unit 460 as R, G, and B video signals.

3 is a block diagram illustrating a video apparatus according to a second embodiment of the present invention.

The video apparatus according to the second embodiment of the present invention is composed of a front end unit 100, an intermediate frequency processing unit 200, a D / A conversion unit 300, a video signal processing unit 400 and an image backend unit 500 .

The front end unit 100 includes a TOP (Takeoff Point) unit 110, a clock generation unit 120, a mixing unit 130, and an A / D conversion unit 140.

Here, the front end unit 100 transmits an intermediate frequency (IF) standard signal after high frequency processing (down-conversion to an intermediate frequency) in a tuner unit (not shown) for a video signal transmitted through a high frequency (RF) color carrier (A gain control point) is set at the TOP unit 110 and a frequency of the AGC is set at a frequency required by the video apparatus according to the oscillation frequency of the clock generator 120, And then converted into a digital signal by the A / D converter 140 according to the oscillation frequency (clock) of the clock generator 120 and output to the intermediate frequency processor 200. Also, the A / D converter 140 transmits the oscillation frequency from the clock generator 120 to the oscillation frequency shift measurer 470 of the video signal processor 400.

The intermediate frequency processor 200 down-converts or AGC-compensates the digital intermediate frequency to a baseband.

The color carrier of the baseband on which the AGC compensation is performed is input to the analog / digital converter 410 of the image signal processor 400 through the digital / analog converter 300 and converted into a digital signal .

Here, the image signal processing unit 400 includes an A / D conversion unit 410, a luminance / color separation unit 420, a color carrier deviation amount measurement unit 430, a luminance signal processing unit 440, a color decoder unit 450, An engaging portion 460 and an oscillation frequency shift measuring portion 470.

The color-converted digital color carrier is divided into a luminance signal Y and a color signal C through a luminance / color separation unit 420. Here, the luminance signal Y is outputted to the combining unit 460 by compensating the luminance signal through the luminance signal processing unit 440. Further, the color signal C measures a shift amount of the color carrier at the color carrier shift amount determining unit 430, and then outputs the measurement result to the color decoder unit 450.

The color decoder unit 450 includes a deviation amount determining unit 455, a comparing unit 452, a compensation value changing unit 453, and a change value applying unit 454 to compensate for a deviation with respect to a color carrier And then output to the post-joining unit 460.

Here, the deviation amount determining unit 455 determines the step-by-step compensation value by an experiment or a field test. Here, the compensation value is determined such that the compensation value corresponding to various stages is applied according to the deviation amount of the color carrier measured by the color carrier deviation amount measuring unit 430, as in the first embodiment of the present invention, So that the color signal compensation value corresponding to the deviation amount of the oscillation frequency (clock) measured at the unit 470 is applied. This is because the color carrier shift can also be caused by the oscillation frequency.

In this case, when the amount of deviation of the color carrier is measured in the range of 10 to 100 KHz, for example, as in the first embodiment of the present invention, and when the amount of deviation of the color carrier is set in advance, It is possible to compensate for the amount depending on the amount.

The deviation amount for the oscillation frequency (for example, 20.25 MHz) set for the deviation amount of the oscillation frequency is measured by the oscillation frequency deviation measurement unit 470, and the deviation amount determination unit 455), it is possible to perform dynamic compensation according to the oscillation frequency shift based on the pre-set amount compensation value according to the experiment or field experience.

Then, a compensation value corresponding to the shift amount of the color carrier and the oscillation frequency shift is compared through the comparator 452 to compare whether the shift amount of the color carrier and the oscillation frequency (clock) is equal to the compensation value, The compensation value changing unit 453 changes the compensation value of the color carrier and the oscillation frequency with the compensation value to be matched. The change value application unit 454 compensates the shift of the color carrier and the oscillation frequency by applying the changed compensation value.

The combining unit 460 combines the luminance signal Y processed by the luminance signal processing unit 440 and the compensated color signal C from the modification value applying unit 454 and outputs the combined signal to the image backend unit 500.

The image backend unit 500 outputs the video signals from the combining unit 460 as R, G, and B video signals.

4 is a flowchart illustrating a method of compensating a video signal of a video apparatus according to the first embodiment of the present invention.

In the method of compensating an image signal according to the first embodiment of the present invention, the luminance signal Y and the color signal C are separated from the transmitted image signal by the luminance / color separation unit 420 (S10).

Then, the color carrier deviation amount measuring unit 430 measures the color carrier deviation amount with respect to the color signals (S20).

In step S30, a color carrier compensation value is determined for each of the color signals according to the measured color carrier deviation amount in steps set by the deviation amount determination unit 451.

Then, the comparator 452 compares the color carrier shift amount and the color carrier compensation value to determine whether they are identical (S40).

In accordance with the comparison result, the compensation value changing unit 453 changes the color carrier deviation compensation value to the matching compensation value (S50).

The change value application unit 454 applies the color carrier deviation compensation value to the changed compensation value (S60).

Then, the color signal compensated by the changed compensation value in the change value application unit 454 and the luminance signal corrected by the luminance signal processing unit 440 are combined in the combining unit 460 (S70). The combined video signal is output to the video backend unit 500.

5 is a flowchart for explaining a video signal compensation method of a video apparatus according to a second embodiment of the present invention.

In the method of compensating an image signal according to the second embodiment of the present invention, the luminance signal Y and the color signal C are separated from the transmitted image signal by the luminance / color separator 420 (S110).

Subsequently, the color carrier deviation amount measuring unit 430 measures the amount of color carrier deviation with respect to the color signal, and the oscillation frequency shift amount measuring unit 470 measures the oscillation frequency shift amount (S120).

Next, the deviation amount determining unit 455 determines a predetermined compensation value for the color signal according to the measured color carrier deviation amount, and determines a compensation value for the oscillation frequency deviation amount (S130). That is, to prevent an error in the color carrier deviation due to the deviation of the oscillation frequency.

Then, the comparator 452 compares whether the deviation amount and the compensation value match (S140).

According to the comparison result, the compensation value changing unit 453 changes the color carrier shift and the oscillation frequency compensation value to the matching compensation value (S150).

The change value application unit 454 applies the color carrier and the oscillation frequency shift compensation value to the changed compensation value (S160).

Then, the color signal compensated by the changed compensation value in the change value application unit 454 and the luminance signal corrected in the luminance signal processing unit 440 are combined in the combining unit 460 (S170). The combined video signal is output to the video backend unit 500.

The video apparatus and the video signal compensation method according to the present invention have the following effects.

First, it is possible to compensate for the deviation of the color carrier (transport) by measuring the broadcasting standard signal received from the video equipment inside the video equipment, thereby compensating for the no color due to the color carrier deviation.

Second, it is possible to compensate for the color carrier deviation considering the deviation of the clock generator with respect to the oscillation frequency.

Third, reliability of a video apparatus is improved and unnecessary service requests can be prevented.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments but should be defined by the claims.

Claims (9)

A front end unit for mixing and processing an analog video signal at a frequency required by the video apparatus according to an internal oscillation frequency of the video apparatus and converting the analog video signal into a digital video signal; An intermediate frequency processor for down-converting the digital image signal to a baseband; A digital / analog converter for converting the baseband digital video signal into an analog video signal; Converting the analog-converted image signal into a digital signal, separating the image signal into a luminance signal and a color signal, measuring a color carrier deviation amount of the separated color signal, and compensating, comparing, and changing the deviation amount of the color carrier, A correction value of a shift amount of a color carrier is applied and a correction for the luminance signal is performed and then the corrected luminance signal and a color signal to which the deviation correction value is applied are combined to output a video signal in which a color and a luminance signal are corrected A video signal processor; And a video backend unit for outputting the corrected video signal as R, G, and B video signals. The method according to claim 1, The front- A TOP (Takeoff point) section for holding an automatic gain control point for the analog video signal, A clock generator for generating the oscillation frequency, A mixing unit for mixing the oscillation frequency and the automatic gain control video signal, And an analog / digital converter for digitally converting the mixed analog video signal. The method according to claim 1, Wherein the video signal processor comprises: An analog / digital converter for converting the baseband analog video signal converted by the digital-analog converter into a digital video signal; A luminance / color separator for separating a color signal and a luminance signal from the digital video signal, A luminance signal processor for compensating for the luminance signal; A color carrier shift amount measuring unit for measuring a color carrier shift amount of the color signal, Performing a stepwise compensation on the amount of color carrier deviation measured by the color carrier deviation amount measuring unit and performing a comparison according to the compensation amount, and changing the compensation value of the color carrier to a matching compensation value according to the comparison result, Wow, And a combining unit for combining the compensated luminance signal and the color signal in the color decoder unit and the luminance signal processing unit. The method of claim 3, Wherein the video signal processor comprises: Further comprising: an oscillation frequency shift amount measuring unit that receives an oscillation frequency of the front end unit from the analog / digital conversion unit configured in the front end unit and measures an oscillation frequency shift amount of the clock generation unit. The method of claim 3, The color decoder unit, A deviation amount determining unit for determining a compensation value for each step of the color carrier by an experiment or a field test; A comparison unit comparing a compensation value corresponding to a shift amount of the color carrier to compare whether the shift amount of the color carrier matches the compensation value, A change value compensator for changing a compensation value of the color carrier to a compensation value according to the comparison result; And a change value application unit for applying a color carrier compensation value to the changed compensation value. 6. The method of claim 5, Wherein the deviation amount determining unit Wherein the compensation value of the oscillation frequency is determined by receiving a shift amount of the oscillation frequency from the oscillation frequency shift amount measurement unit together with the stepwise compensation value of the color carrier. Separating a luminance signal and a color signal from the transmitted image signal; Measuring a color carrier deviation amount for the separated color signal to determine a predetermined compensation value for each step; Comparing the color carrier shift amount with the determined compensation value and changing the color carrier shift compensation value to a matching compensation value; Compensating the color carrier shift with the changed compensation value; And combining the brightness signal after the separation and the color signal compensated for the color carrier deviation. 8. The method of claim 7, And outputting the combined video signal as R, G, and B video signals, respectively. 8. The method of claim 7, Wherein the step of determining a predetermined stepwise compensation value by measuring a color carrier deviation amount of the separated color signal comprises: Determining a compensation value for the oscillation frequency deviation amount by measuring an oscillation frequency shift amount with respect to the oscillation frequency of the video apparatus; Comparing the color carrier shift amount and the oscillation frequency shift amount with the determined compensation value to change the color carrier shift compensation value and the oscillation frequency shift compensation value to a matching compensation value; And And compensating the color carrier shift and the oscillation frequency shift with the changed compensation value.

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