KR200162015Y1 - Image processing device for tv with pip - Google Patents

Abstract

The present invention relates to an image processing apparatus of a TV having a PIP, and outputs a color signal from a matrix circuit which receives an analog signal of a luminance signal Y and a color difference signal BY and RY output from a color decoder. The differential circuit outputs the derivatives according to time, and the three threshold detectors receiving the derivative values determine whether each derivative value is greater than or equal to the threshold and output the signal as an "H" or "L" signal. A luminance signal Y, a color difference signal BY, and a RY are inputted to the PIP controller by inputting a signal according to whether there is a color boundary part having a value of "H" in the summation unit that receives this detection result. If any one of them has a color boundary, the clock signal (Clock), the luminance selection signal (Ys), the color difference selection signal (B-Ys), and (R-Ys) are outputted so that the color boundary becomes 1: 1: 1. Color boundary becomes clear and color bleeding does not occur It will have to.

Description

Image processing apparatus of a TV having a PIP

1 is a block diagram schematically showing a conventional configuration.

2 is a waveform diagram showing a conventional operating state.

3 is a schematic diagram showing a conventional data format.

4 is a block diagram showing a color boundary according to a conventional operation.

5 is a block diagram schematically showing the overall configuration of the present invention.

6 is a block diagram showing the configuration of the color boundary detection unit of the present invention.

7 is a waveform diagram showing an operating state of the present invention.

8 is a schematic diagram showing a data format of the present invention.

9 is a block diagram showing a color boundary according to the operation of the present invention.

* Explanation of symbols for main parts of the drawings

11: decoder 12: analog / digital converter

13: PIP Controller 14: Memory

15 digital / analog converter 16 color boundary detection unit

22,23,24: Differential circuit 25,26,27: Threshold detector

The present invention relates to an image processing apparatus of a TV having a PIP. In particular, when the user switches the TV (Television) to the PIP (Picture In Picture) mode, the data format of the luminance signal and the two chrominance signals is 4 It relates to an image processing apparatus of a TV having a PIP such that the color boundary is 1: 1, while the color boundary is 1: 1, thereby eliminating color bleeding due to the collapse of the color boundary.

In general, it is well known that a TV having a PIP tunes a broadcast signal of a desired channel through two tuners among a plurality of broadcast signals received through one antenna so that it can be viewed using one main picture and one or more sub-pictures. It is true.

In the image processing apparatus of the TV having the conventional PIP, as shown in FIG. 1, the luminance signal (Y) and the color signal (T) in which the television broadcast signal received through the antenna (not shown) are input through the tuner and the associative detector. C) the color decoder 1 which decodes and outputs the luminance signal Y and the color difference signals BY and RY, and the luminance signal Y and the color difference signal inputted from the color decoder 1 described above. BY) and (RY) analog / digital converters (2) for converting analog signals into 6-bit digital signals and 6-bit digital signals from the analog / digital converters (2) to receive clock signals (Clock). A PIP controller (3) for storing and reading a digital signal in the memory (4) during control while outputting a luminance selection signal (Ys), a color difference selection signal (B-Ys), and (R-Ys); Analog controller receives luminance signal (Y), color difference signal (BY), and (RY) from controller 3 Digital to analog converters 5 outputting signals.

In the image processing apparatus of the TV having the conventional PIP as described above, the analog signals of the luminance signal Y and the color difference signals BY and RY input from the color decoder 1 are transferred to the analog / digital converter 2. Is converted into a 6-bit digital signal and input to the PIP controller 3,

In the PIP controller 3 that inputs 6-bit digital signals, the clock signal Clock, the luminance selection signal Ys, the color difference selection signals B-Ys, and (R-Ys) are output as shown in FIG. The data of the 6-bit digital signal output from the analog-to-digital converter 2 is 4: 1: 1 as shown in FIG. If this is expressed in data format, it is like the third figure.

Therefore, the luminance signal Y and the color difference signal BY and the color difference signal BY and RY from the PIP controller 3 are converted into analog signals while passing through the digital / analog converter 5 and the color difference signal BY ), (RY) data is composed of 4: 1: 1, so the color boundary is not clear as shown in FIG.

The present invention selects a PIP for viewing two or more screens through a single TV so that the data format of the luminance signal and the two chrominance signals is 4: 1: 1 where the color boundary is not at the color boundary, but is 1: 1: at the color boundary. It is an object of the present invention to provide an image processing apparatus of a TV having a PIP such that a color of 1 is eliminated due to color collapse.

In order to achieve the above object, the present invention provides a video processing apparatus of a TV having a general PIP, comprising: a matrix circuit for receiving an analog signal of a luminance signal and a color difference signal output from a color decoder, and outputting the analog signal as a color signal; A differential circuit for outputting the color signal from the circuit as a differential value over time, a threshold detector for judging whether the derivative value output from the differential circuit is equal to or greater than a threshold value, and the detection results of the threshold detector are added together. By adding a color boundary detection unit composed of summation units that determine whether the color boundary is determined by either the luminance signal or the color difference signal, it becomes 4: 1: 1 at the non-data color boundary and 1: 1: 1 at the color boundary. This is to eliminate the color bleeding caused by the collapse of the color boundary.

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

5 shows the overall configuration of the present invention, in which a television broadcast signal received through an antenna decodes a luminance signal Y and a color signal C, which are input through a tuner and an image detector, to decode the luminance signal Y and the color difference signal. The color decoder 11 outputted to (BY) and (RY) and the analog signal of the luminance signal Y and the color difference signal BY and (RY) inputted from the color decoder 11 An analog / digital converter 12 for converting to a digital signal, and a 6-bit digital signal from the analog / digital converter 12 are received, and a clock signal (Clock), a luminance selection signal (Ys), and a color difference selection signal (B). -Ys) and the PIP controller 13 for storing and reading the digital signal in the memory 14 during the control while outputting (R-Ys), the luminance signal Y and the color difference signal from the PIP controller 13; Digital / analog converters that receive (BY) and (RY) and output them as analog signals A color boundary based on a threshold while differentiating an analog signal of the luminance signal Y and the color difference signal BY and RY output from the color decoder 11 and the color decoder 11; 13 is composed of the color boundary detection units 16.

6 shows a detailed configuration of the color boundary detection unit, and receives analog signals of the luminance signal Y and the color difference signals BY and RY output from the color decoder 11, and receives the color signals R and G. ), And a differential circuit for outputting the color signals R, G, and B from the matrix circuit 21 at different values over time, respectively. 22) (23) (24), and threshold detection sections (25) (26) (27) for determining whether the derivative value output from the above differential circuits (22) (23) (24) is greater than or equal to the threshold value; Summing units 28 that determine whether the color boundary is determined by any one of the luminance signal Y, the color difference signal BY, and the RY by adding the detection results of the threshold detection units 25, 26, and 27 It is composed of.

In the booster control apparatus of the TV having the two screens of the present invention configured as described above, the analog signal of the luminance signal Y and the color difference signal BY and RY input from the color decoder 11 is an analog / digital converter ( 12) is converted into a 6-bit digital signal and input to the PIP controller 13.

The PIP controller 13 receiving the 6-bit digital signal outputs a clock signal (Clock), a luminance selection signal (Ys), a color difference selection signal (B-Ys), and (R-Ys). The data of the 6-bit digital signal output from the digital converter 2 is set to 4: 1: 1 as shown in FIG.

At this time, the matrix circuit 21, which receives the luminance signal Y and the analog signals of the color difference signals BY and RY, which are output from the color decoder 11, receives the color signals R, G, Differential circuits 22, 23, and 24 that output to (B) and receive the color signals R, (G), and (B) from these matrix circuits 21 are each differentiated over time. Output

Threshold detectors 25, 26, and 27 that receive the differential values output from the differential circuits 22, 23, and 24, respectively, determine whether each derivative value is greater than or equal to the threshold value, and " H " Outputs with the signal of "L".

In the summation unit 28 which receives the detection result of "H" or "L" from the threshold detection unit 25, 26, 27, the color boundary part which has any one of these values is "H". By inputting a signal according to whether or not to the PIP controller 13, if any one of the luminance signal Y, the color difference signal BY, and the RY has a color boundary, the clock signal Clock and the luminance selection signal ( Ys), color difference selection signals (B-Ys), and (R-Ys) are output, and the data of the 6-bit digital signals outputted from the analog-to-digital converter 2 are 1: 1: 1: Let it be 1.

When these digital signals are represented in a data format, the eighth degree is obtained.

Therefore, the luminance signal Y and the color difference signal BY and the color difference signal BY and RY from the PIP controller 13 are converted into analog signals while passing through the digital / analog converter 15. ) And (RY) in the state where the data is composed of 4: 1: 1, the color boundary becomes 1: 1: 1 so that the color boundary is clear as shown in FIG. 9 so that color bleeding does not occur.

Therefore, the image processing apparatus of the TV having the PIP of the present invention outputs the color signal from the matrix circuit which receives the luminance signal and the chrominance signal from the color decoder, and the differential circuit receiving the color signal receives the derivative value according to the time. The threshold detection unit which receives the derivative value and outputs the difference value "H" or "L" depending on whether the derivative value is greater than or equal to the threshold value, and the color boundary unit may be used in any of the summation unit receiving the detection result. By inputting the signal according to whether there is a color boundary between the luminance signal and the color difference signal, the clock signal, the luminance selection signal, and the color difference selection signal are outputted so that the color boundary becomes 1: 1: 1. The color boundary becomes clear so that color bleeding does not occur.

Claims (2)

The color boundary detection unit 16 detects the color boundary due to the threshold while differentiating the analog signal of the luminance signal Y and the color difference signal BY and (RY) output from the color decoder 11 and the PIP controller ( 13) An image processing apparatus for a TV having a PIP, characterized in that it is configured to selectively output a luminance selection signal Ys, a color difference selection signal B-Ys, and R-Ys. . The color boundary detection unit 16 receives the luminance signals Y and the analog signals of the color difference signals BY and RY, which are output from the color decoder 11. A matrix circuit 21 for outputting to G) and (B) and a differential circuit for outputting color signals R, G and B from the matrix circuit 21 at different values over time, respectively; (22) (23) (24), and threshold detection sections (25) (26) (27) for determining whether the derivative value output from the differential circuits (22) (23) (24) is greater than or equal to the threshold value; A summation unit 28 that adds the detection results of the threshold detectors 25, 26, and 27 and judges whether or not the color boundary is determined by any one of the luminance signal Y, the color difference signal BY, and RY. An image processing apparatus of a television (TV) having a PIP.