KR920002987Y1 - Picture definition compensation circuit - Google Patents

Abstract

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Description

Image quality compensation circuit using field memory

1 is a conventional circuit diagram for image quality compensation.

2 is a quality compensation circuit diagram using a field memory according to the present invention.

* Explanation of symbols for main parts of the drawings

1, 10: color difference signal separation unit 2, 40: A / D converter

3, 50: field memory 4, 90: D / A converter

5, 60: memory controller 6, 70: microcomputer

20: control unit 30, 80: switch

100: current conversion sensor 200: current-voltage conversion circuit

300: integral circuit OPI: offer amplifier

C: Capacitor R1-R4: Resistance

Sv: Video signal Svo: Video signal output

The present invention relates to an image quality compensation circuit using a field memory for preventing image quality damage due to external shock or vibration during the operation of a set in an image device such as a compact disc player, a compact disc video and a laser disc player.

FIG. 1 shows a conventional image quality compensation circuit diagram. As shown, the video signal Sv is connected to the color difference signal separator 1, and the color difference signal separator 1 is an analog / digital converter (2). A / D converter 2 is connected to the field memory 3, and the field memory 3 is connected to the video signal output terminal through a digital / analog converter (hereinafter referred to as D / A converter). A memory controller 5 and a microcomputer 6 which are connected to (Svo) and also serve as an interface between the A / D converter 2 and the field memory 3 are connected to each other. (Sv) is applied to the color difference signal separation unit 1 to output the separated color difference signals (ER-EY, EB-EY, EY) and the output color difference signals (ER, EY, EB-EY, EY) are A / An analog signal is converted into a digital signal by the D converter 2.

The digital signal converted by the A / D converter 2 is applied to the field memory 3 and at the same time various functions (mosaic function, partial enlargement function and scroll [Scroll] by the memory controller 5 and the microcomputer 6). ; Move the contents of the displayed screen one by one in a row], etc.) and the digital signal output from the field memory 3 is converted into an analog signal by the D / A converter 4 again to output the video signal (Svo). Each color difference signal (ER-EY, EB-EY, EY) is output by applying to.

Therefore, although the field memory is conventionally used, since only the function of outputting the stored screen is performed, distortion of the screen and sound may be changed due to external shock or vibration.

Therefore, in view of the above situation, the present invention compensates for image quality using field memory to prevent the damage of the screen and the change of sound caused by external shock or vibration when using image devices such as compact disc, compact disc video and laser disc player. The purpose is to provide a circuit.

The present invention for achieving the above object is applied from the current conversion sensor and the output of the current conversion sensor for converting the electrical signal for the shock or vibration to direct current by detecting it when there is an external shock or vibration The switch is turned on in response to a current voltage conversion circuit for converting the current signal back to a voltage and an integration circuit for maintaining a constant voltage level by receiving the voltage signal output from the current voltage conversion circuit and a pulse signal output from the integration circuit. It is characterized by consisting of a control unit for preventing the distortion of the screen and the change of the sound to the vibration or shock by outputting the screen of the field before the field was memorized in the field memory.

Hereinafter, the technical configuration of the present invention will be described in detail with reference to FIG.

The video signal Sv is connected to the input side of the chrominance signal separator 10 and at the same time to one terminal of the switch 30 of the controller 20 and the other terminal of the switch 30 to the video signal output terminal Svo. The A / D converter 40 is operated by the output of the color difference signal separating unit 10 that separates the color difference signal, and the output is 1 by the output of the A / D converter 40. The field memory 50 for memorying the field signal is operated, and the memory controller 60 and the microcomputer 70 are connected between the A / D converter 40 and the field memory 50 to generate an arbitrary video frequency. It is configured to control the signal and the frequency signal by the external shock or vibration, the output terminal of the field memory 50 is connected to one terminal of the switch 80 of the control unit 20, the other terminal of the switch 80 Is connected to the input side of the / A converter 90 and the output of the D / A converter 90 is While connected to the signal output terminal (Svo) to operate, while the output terminal of the current conversion sensor 100, the current voltage conversion circuit 200 consisting of resistors (R1), (R2), (R3) and the op amp (OPI) And an integrated circuit 300 composed of a resistor R4 and a capacitor C at an output terminal of the current voltage conversion circuit 200 and an output terminal of the integrated circuit 300 are controlled by the microcomputer 70 and the controller 20. It is configured to operate by connecting to the terminal (C).

The operation of the present invention configured as described above will be described.

2 shows an image quality compensation circuit using a field memory according to the present invention.

As shown in the drawing, when the set is normally operated, the video signal Sv is separated into the color difference signals ER, EY, EB-EY, and EY by the color difference signal separation unit 10 to the A / D converter 40. As the digital signal is converted into a digital signal and stored in the field memory 50 and the switch 30 of the controller 20 is turned on, the video signal Sv is output through the video signal output terminal Svo through the switch 30.

On the other hand, when external shocks and vibrations are generated during the operation of the set, the current converting sensor 100 detects this and converts an electrical signal for shock or vibration into a current so that the converted currents are resistors R1 and R2 , To the inverting terminal (-) of the op amp (OP) of the current voltage conversion circuit 200 consisting of (R3) and the op amp (OP).

The current-voltage conversion circuit 200 converts the input current into a voltage and outputs the output voltage, and the output voltage is a constant voltage level (O-5V) at the output terminal of the integration circuit 300 composed of the resistor R4 and the capacitor C. The pulse signal having the output is applied to the control terminal C of the control unit 20 and to the microcomputer 70 at the same time.

Accordingly, the controller 20 senses a pulse signal to turn on the switch 80 and, as the switch 80 is turned on, before the one field previously stored in the field memory 50 by the memory controller 60 and the microcomputer 70. The screen is applied to the D / A converter 90 through the switch 80 to convert the digital signal back to an analog signal to apply an analog signal to the video signal output (Svo) to prevent the screen caused by external shock or vibration The screen memorized in the field memory 50 is output.

The present invention that operates as described above uses field memory in image devices such as compact discs, compact disc video, and laser disc players to prevent damage to the screen and sound changes due to external shock or vibration during the operation of the set. It is with.

Therefore, according to the current miniaturization trend, the present invention enables the reproduction of a normal screen using a memory, thereby enabling a model change as a portable of various image devices.

Claims (1)

The video signal Sv is operated by the A / D converter 40 by the output of the chrominance signal separator 10 separating the chrominance signal, and according to the output of the A / D converter 40, one field signal is output. The memory controller 60 and the microcomputer 70 are connected between the field memory 50 and the A / D converter 40 and the field memory 50 to store the digital memory. In the image quality compensation circuit having a D / A conversion unit 90 for converting into a signal, a current conversion sensor for detecting an external shock or vibration and converting the electrical signal of the shock or vibration into a current And a predetermined voltage signal output from the current voltage converter circuit 200 and the current voltage converter circuit 200 for converting the current signal applied from the output of the sensor 100 and the current converter 100 back to voltage. Is applied to a certain voltage level Switch 80 and 30 are turned on / off according to the integrating circuit 300 and the pulse signal output from the integrating circuit 300 to switch the screen before the one field that was memorized in the field memory 50. And a control unit 20 for outputting through the control unit to prevent damage to the screen and damage to the screen due to shock or vibration.