KR950011040B1 - Image data compensation device and method thereof - Google Patents

Abstract

The apparatus and method is for supervising a compressed 3:4 video data and uncompressed 9:16 video data exclusively. The apparatus includes a microprocessor(14) for detecting frame ratio changing signal, a frame ratio changer(16) for changing frame ratio according to the control signal of the microprocessor(14), a video data compensator(20) for compensating video data when frame ratio is changed, and a D/A converter(18) for controlling R,G,B signal according to output signal of the compensator(20).

Description

Image data compensation device and method

1 is a block diagram of a conventional widescreen TV.

2 is a block diagram of a wide screen TV equipped with an image data compensation device of the present invention.

3 is a flowchart showing a video data compensation method of the present invention.

* Explanation of symbols for main parts of the drawings

11: Tuner part 12: IF processing part

13: Matrix 14: Micom

15: chroma unit 16: conversion unit

17: R, G, B output part 18: D / A conversion part

19: CPT 20: Image data correction unit

21: address generator 22, 23: switch

The present invention outputs the controlled image data by separately managing the image data of the 3: 4 screen and the image data of the 9: 16 screen in order to compensate for the difference in image (brightness) of the aspect ratio 3: 4 screen and the aspect ratio 9: 16 screen. The present invention relates to a device and method for compensating image data.

In the conventional wide screen TV, as shown in FIG. 1, an aspect ratio conversion signal output through an intermediate frequency (IF) processing unit 2 for processing only a broadcast signal among the signals received by the tuner unit 1 and a key matrix 3 is output. A microcomputer (4) for detecting a signal, a chroma unit (5) for setting an image signal output from the IF processor (2) on an on-screen display (OSD), and an output signal and chroma unit (5) of the microcomputer (4). The aspect ratio conversion unit 6 for converting the aspect ratios of 3: 4 screens and 9: 16 screens by the output signal of < RTI ID = 0.0 >), < / RTI > 7) and a D / A converter 8 for converting the digital value output from the microcomputer 4 for controlling the R, G and B output signals to analog values, and the controlled R, G and B signals. It is composed of a cathode ray tube (CPT) (9).

In the conventional widescreen TV configured as described above, when the tuner 1 receives a broadcast signal, the user operates the key matrix 3 to convert the aspect ratio of the received broadcast signal as shown in FIG. ) Detects this and the screen set by the chroma unit 5 is converted by the aspect ratio converting unit 6 and displayed on the CPT 9.

That is, when the aspect ratio conversion signal output from the output terminal A of the microcomputer 4 is input to the aspect ratio conversion unit 6, and the screen set by the chroma unit 5 is 3: 4 screen, a high signal is displayed. In this case, the low signal is inputted and the aspect ratio is converted.

At this time, the converted screen is analog-converted by the D / A converter 8 input to the R, G, and B output terminals 7, and then the converted screen is displayed on the CPT 9.

However, in the conventional wide screen TV, when the screen set by the chroma unit 5 is 3: 4 screen, the aspect ratio converter 6 compresses by using the element during the conversion output and the line memory.

In this case, there is a problem in that an image (brightness) of the screen is changed due to a luminance difference between the compressed 3: 4 screen and the uncompressed 9: 16 screen.

In order to solve the conventional problem, the present invention stores the image data of the 3: 4 screen and the image data of the 9: 16 screen, respectively, in a memory device and outputs them separately so that the viewer can watch the screen image without changing the brightness. When explaining the configuration and effect of the present invention by the accompanying drawings to the purpose to be as follows.

First, the wide screen TV equipped with the image data compensator of the present invention includes an IF processor 12 for converting a signal received by the tuner 11 into an intermediate frequency of an audio and video signal, as shown in FIG. The microcomputer 14 for detecting the aspect ratio conversion signal output from the key matrix 13, the chroma unit 15 for color and demodulation of the video signal processed by the IF processor 12, and the control signal of the microcomputer 14; R, G to the CPT 19 by an output signal from the aspect ratio converter 16 for converting the aspect ratio set by the above, the image data corrector 20 for correcting the image data at the time of aspect ratio conversion, and the aspect ratio converter 16 R, G, B output unit 17 for displaying B signal, and D / A converter for controlling R, G, B output signal by converting digital output signal of image data correction unit 20 into analog signal (18), the image data correction unit 20 is a second output from the output terminal (B) of the microcomputer (14) Control output through an address generator 21 for generating an address by the signal, a switch unit 22 and 23 for switching the address signal, and an output terminal C of the switched address signal and the microcomputer 14. The reference numeral 25 denotes a NOT gate.

On the other hand, the image data correction method of the wide screen TV, as shown in FIG. 3, the process of first determining whether the aspect ratio conversion signal is input, and if the control signal is output through the output terminal (A-1) of the microcomputer 14 Toggle (high → low, low → high) to output, and if the aspect ratio conversion signal is not input, determining whether there is an image mode conversion key input, and if the conversion key is input, the image mode is sequentially performed. After setting to the image data conversion mode by switching to each other, outputting the corresponding address data to the address generator 21, and if there is no image mode conversion key input, is a video data conversion mode and determining whether there is a + or-key input. If there is input of + and-key, the corresponding video data is converted, and the converted video data is output by outputting a low signal to the output terminal D of the microcomputer 14. Is stored through the lead / write (R / W) stage of the memory unit 24 and then outputs a high signal to the output terminal (D) of the microcomputer (14).

The effect of the present invention configured as described above is the aspect ratio conversion signal by operating the key matrix 13 when the user wants to convert the aspect ratio of the broadcast signal received from the tuner unit 11 as shown in FIG. 2 and FIG. Is output.

The microcomputer 14 determines whether an aspect ratio conversion signal is input, and when the aspect ratio conversion signal is input, toggles (high → low, low → high) control signals output through the output terminal A-1 of the microcomputer 14, respectively. The data adjusted in the aspect ratio of is output from the area of the memory and is applied to the D / A converter 18.

That is, when a high signal is output to the output terminal D of the microcomputer 14, the data is output through the memory unit 24 of the image data correction unit 20.

On the other hand, if the aspect ratio conversion signal is not input, it is determined whether the image mode conversion key is input, and if the conversion key is input, the image mode is sequentially changed by one step, and the image data mode is set. 20 is applied to the address generator 21 of FIG.

At this time, if the image mode conversion key is not input, it is determined that the +,-key is input while the image data conversion mode is input. After storing the image data in the memory unit 24, the high signal is output again from the output terminal (D) of the microcomputer (14).

At this time, the memory area of each image data is output from the address generator 21 because a high signal is output through the output terminal A-1 of the microcomputer 14 when the screen set by the chroma unit 16 is 3: 4 screen. The switch unit 22 for switching the address signal is turned off and the switch unit 23 on one side is turned on so that the changed image data is turned off to the address generator 21 and the switch unit 23 on the one side is turned on. The address in which data is added to the address generator 21 by a fixed amount is stored in the memory unit 24, and a low signal is output from the output terminal A-1 of the microcomputer 14 on the 9: 16 screen. Reference numeral 22 is turned on, and the switch unit 23 on one side is turned off, and the address generated by the address generator 21 is stored in the memory unit 24.

In this way, the address stored in the memory unit 24 is R, G, B output unit 17 through the D / A conversion unit 18 together with the control signal output through the output terminal (C) (D) of the microcomputer 14 By controlling the R, G, B signals applied by the aspect ratio converter 16 and displaying them on the CPT 19, the viewer can watch without changing the screen image (brightness) when the aspect ratio is converted.

As described above, since the image data of the 3: 4 screen and the image data of the 9: 16 screen are separately stored and output in the memory device, the viewer can watch the screen image without feeling a change in brightness.

Claims (3)

An IF processing unit 12 for converting the signal received by the tuner unit 11 into an intermediate frequency of the video signal and the audio signal, a microcomputer 14 for sensing the aspect ratio conversion signal output from the key matrix 13, and A chroma unit 15 for color demodulating the image signal processed by the IF processing unit 12, an aspect ratio conversion unit 16 for converting the aspect ratio set by the control signal of the microcomputer 14, and a correction for the image data during aspect ratio conversion. R, G, B output unit 17 for displaying R, G, B signals on the CPT 19 by the output signal of the image data correction unit 20, the aspect ratio conversion unit 16, and the image data correction unit. And a D / A converter 18 for converting the digital output signal of the digital signal into an analog signal to control the R, G, and B output signals. The image data correction unit 20 of claim 1, wherein the image data corrector 20 switches an address generator 21 for generating an address by a control signal output from the output terminal B of the microcomputer 14, and an address signal of the address generator. And a memory unit (24) for storing a switched address signal and a control signal output through the output terminal (C) of the microcomputer (14). Determining whether an aspect ratio conversion signal is input, operating a control signal output through the output terminal A-1 of the microcomputer 14 in a toggle (high to low, low to high), and outputting the aspect ratio If the conversion signal is not input, determining whether there is a video mode conversion key input, and if the conversion key is input, switch the video mode by one step sequentially to set the video data mode, and then convert the corresponding address data into the address generator 21. ), And if there is no video mode conversion key input, video data conversion and determining whether there is a + or-key input, and if there is a + or-key input, converting the corresponding video data and outputting the microcomputer 14 Outputs a low signal to the terminal D, and stores the converted image data through the lead / write (R / W) terminal of the memory unit 24, and then the high-scene is output to the output terminal D of the microcomputer 14. Image data compensation method comprising the steps in the output.