KR0165233B1 - Definition control method and the circuit - Google Patents

Abstract

The present invention relates to all systems that process and output the input video signal, the sharpness adjustment circuit 100 in a television comprising an adjustment voltage generator 10, brightness and contrast adjustment unit 20, screen adjustment unit 40 ) Is connected to output the signal S for adjusting the sharpness from the voltage output from the adjustment voltage generator 10 to adjust the brightness and contrast of the image signal, thereby adjusting the sharpness, and thus, adjusting the sharpness. White noise is reduced to a minimum.

Description

Clarity Control Circuit and Control Method

1 is a block diagram showing an adjustment circuit in a conventional television.

2 is a block diagram showing a sharpness control circuit according to an embodiment of the present invention.

3 is a flowchart illustrating a sharpness control method according to an embodiment of the present invention.

4 is a block diagram showing a sharpness control circuit according to another embodiment according to the present invention.

* Explanation of symbols for main parts of the drawings

10: adjustment voltage generator 20: bypass unit

40: screen adjustment unit 100: sharpness adjustment circuit

R21, R22, R1001: Resistor 101: A / D Converter

30, 102: Micombu

The present invention relates to all systems for processing and outputting an input video signal, and more particularly, to a sharpness control circuit and method for controlling the sharpness of a video signal.

In general, a television is a video signal and an audio signal received through an antenna are processed separately, and the processed video and audio signals are mixed and then output on the screen.

1 is a circuit diagram for controlling brightness and a business card of a conventional input video signal.

That is, the adjustment voltage generator 10, the bypass unit 20, the microcomputer 30, and the screen adjustment unit 40, the magnitude of the voltage output from the adjustment voltage generator 10 is the screen adjustment unit Applied to 40, brightness B and contrast C of the image signal are controlled.

At this time, the output of the adjustment voltage passed through the bypass unit 20 is controlled by the microcomputer unit 30.

As described above, the brightness and contrast of the video signal are controlled according to the magnitude of the input voltage, and the white noise is generated by the control of the brightness and contrast of the video signal. There was this.

SUMMARY OF THE INVENTION The present invention has been made to solve such a problem, and an object of the present invention is to provide a sharpness control circuit and method in which sharpness is increased by controlling sharpness separately from control of brightness and contrast of an image signal.

A feature of the present invention for achieving the above object is that, in a television in which the brightness and contrast of an image signal are controlled by applying the adjustment voltage output from the adjustment voltage generation section to the screen adjustment section, Sharpness control further includes a sharpness adjustment circuit in which the adjustment voltage output from the adjustment voltage generation unit is a DC voltage, and the adjustment voltage output from the generation unit is converted to a DC voltage, and the sharpness of the image signal is controlled by the converted DC voltage. Is in the circuit.

Hereinafter, a sharpness control circuit according to an embodiment of the present invention and a control method thereof will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing a sharpness control circuit according to an embodiment of the present invention, in which the adjustment voltage generator 10, the bypass unit 20, and the screen adjustment unit 40 are configured in the same way as the existing circuit. A sharpness adjustment circuit 100 for controlling the sharpness is connected between the adjustment voltage generator 10 and the screen adjustment unit 40.

The sharpness adjustment circuit 100 is composed of an A / D converter 101 and the microcomputer 102, the magnitude of the voltage output from the adjustment voltage control unit 10 is converted into a DC voltage, the converted DC The signal S for controlling the sharpness according to the magnitude of the voltage is configured to be output.

3 is a flowchart illustrating a sharpness control method according to an embodiment of the present invention, a sensing process (P1) for detecting a control state of brightness and contrast of an image signal, and data converted after the detected voltage is converted into a DC power source. The data conversion process (P2) of reading and the signal (S) whose sharpness is controlled by the data output in the data conversion process (P2) is output and the adjustment process (P3) to control the sharpness.

4 is a block diagram showing a sharpness control circuit according to another embodiment of the present invention, in which the adjustment voltage generation unit 10, the brightness and adjustment unit 20, the microcomputer unit 30, and the screen adjustment unit 40 are conventional circuits. The voltage difference between the adjustment voltage generator 10 and the screen adjustment unit 40 is generated by the difference in voltage output from the adjustment voltage generator 10, and the sharpness is controlled by the potential difference. The sharpness adjusting unit 100, to which the signal S is applied to the screen adjusting unit 40, is connected.

Here, the sharpness adjusting unit 100 is composed of a resistor (R1001) that the potential difference is generated by the voltage input is dropped.

In the sharpness control circuit constructed as described above, first, a description will be given with reference to FIG.

When a voltage for controlling the brightness and contrast of the image signal is output through the adjustment voltage generator 10, the output voltage is applied to the resistors R21 and R22 of the bypass unit 20 and passed through. In this case, the adjustment voltages passed through are applied to the screen adjustment unit 40 to control the brightness B and the contrast C of the image signal.

On the other hand, the adjustment voltage output through the adjustment voltage generator 10 is applied to the A / D converter 101 of the sharpness adjustment circuit 100 is converted into a DC voltage, the DC voltage is applied to the microcomputer 102 A signal S for controlling the sharpness of the video signal is output according to the DC voltage applied and input, and the output signal S is applied to the screen controller 40 to adjust the sharpness of the video signal.

The above-described process will be described in detail with reference to FIG. 3 as follows.

The amount of the adjustment voltage outputted to detect the change of the adjusted state of the brightness and contrast of the current video signal by the stem S1 of the sensing process P1, and to control the adjusted state of the brightness and contrast of the video signal. Is checked by step S2.

Then, the voltage checked by step S2 is converted into a DC voltage by performing step S3 of the data conversion process P2, and the converted DC voltage is read by performing step S4. .

When it is determined that the comparison of the DC voltage output at the step S4 is completed here, the sharpness of the appropriate video signal is adjusted according to the difference between the adjustment voltage applied to the brightness B and the contrast C by the step S5. The signal S is outputted.

That is, the sharpness is adjusted according to a signal whose sharpness is controlled according to the state of the currently adjusted brightness and contrast of the image signal. If the brightness of the screen is dark, reduce the sharpness accordingly to prevent white noise from occurring. If the brightness of the screen is bright, control the brightness to be increased in the range where no white noise is generated to improve the image quality. Adjusted.

Meanwhile, referring to a sharpness control circuit according to still another embodiment of the present invention with reference to FIG. 4, an adjustment voltage for controlling the sharpness output from the adjustment voltage generator 10 is output, and the output adjustment voltage is a sharpness adjustment circuit. It is applied to the resistor R1001 of 100 and bypassed. The passed adjustment voltage is applied to the screen adjusting unit 40 to adjust the sharpness of the video signal. The brightness and contrast of the video signal are adjusted as before.

The sharpness adjustment circuit inside the screen adjustment unit 40 is composed of a circuit configuration such that the frequency characteristic of the image signal is changed by the voltage value of the control signal S for sharpness adjustment, for example, the control signal S By changing the resonant frequency of the resonant circuit for varying the frequency characteristics it is possible to improve the sharpness.

As described above, in the sharpness control circuit which senses the adjustment state of the brightness and contrast of the video signal and controls the sharpness according to the detected state, the white color generated by the adjustment of the brightness and contrast of the existing video signal is The noise can be reduced to a minimum.

Claims (5)

In the television in which the brightness (C) and contrast (B) of the video signal are controlled by the adjustment voltage output from the adjustment voltage generator 10 passing through the bypass unit 20 and applied to the screen adjustment unit 40. And a sharpness adjustment circuit (100) for converting an adjustment voltage output from the adjustment voltage generator (10) into a DC voltage and controlling the sharpness of an image signal by the converted DC voltage. The A / D converter 101 of claim 1, wherein the sharpness adjustment circuit 100 converts an output voltage into a direct current power source to control the brightness and contrast of an input video signal. A signal S for controlling the sharpness by the signal output from the 101), the sharpness control circuit comprising a microcomputer 102 for removing white noise generated due to adjustment of brightness and contrast of the image signal. The sharpness control circuit according to claim 1, wherein the sharpness adjustment circuit (100) comprises a resistor (R1001) in which a potential difference is generated by applying a voltage output from the adjustment voltage generator (10). In a sharpness control circuit in which the sharpness of the image signal is controlled according to the adjustment state of the brightness and contrast of the image signal, an adjustment state of the brightness and contrast of the image signal is detected, and an adjustment voltage is output to adjust the detected state. A sensing process P1 for sensing a voltage, a regulated voltage detected after the sensing process P1 is converted into a DC voltage, a data conversion process P2 for reading the converted DC voltage, and the data conversion process ( And a signal S for controlling the sharpness from the input data after P2), so that the sharpness is controlled. According to claim 2, Adjusting step (P3), the step (S5) for determining the sharpness signal (S) according to the input DC voltage, and the sharpness signal (S) output in the step (S5) is output image Sharpness control method consisting of the step of controlling the sharpness of the signal (S6).