KR930007375B1 - Apparatus for improving the quality of brightness of tv - Google Patents

Abstract

The circuit controls sharpness, contrast, and brightness of luminance signals. It comprises the first processing section for soft luminance signal (high frequency component is attenuated), the second processing section for sharp luminance signals which have many high frequency components, the third processing section of general luminance signals, the controlling section for contrast, brightness, sharpness, a variable clock generating section.

Description

Luminance signal characteristic switching circuit

1 is a conventional circuit diagram.

2 is a circuit diagram of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a luminance signal characteristic switching circuit of a video signal, and more particularly, to a luminance signal characteristic switching circuit capable of performing a sharpness contrast bright control of a luminance signal in parallel with a microcomputer and a user setting mode. will be.

Sharpness, contrast, and bright control of a video signal processing apparatus such as a conventional television receiver and a videotape record are controlled by a microcomputer.

A conventional luminance signal characteristic circuit will be described with reference to FIG.

Luminance signals input to the input terminal IN are sequentially adjusted through the sharpness adjusting unit 10, the contrast adjusting unit 20, and the bright adjusting unit 30, and outputted to the output terminal OUT, where the microcomputer 100 is output. The PWM pulse processed by the embedded program is output through the LPF unit 40 to control the voltage of the sharpness adjusting unit 10, the contrast adjusting unit 20, and the bright adjusting unit 30. That is, the sharpness adjusting unit 10 adjusts the sharpness of the luminance signal according to the DC voltage of the luminance signal inputted to the input terminal IN according to the PWM voltage of the microcomputer 100 filtered by the first LPF 41. To print. In addition, the contrast adjusting unit 20 adjusts the contrast by the DC voltage output from the second LPF 42.

The bright adjustment unit 30 outputs the brightness signal adjusted to the output terminal OUT by adjusting the bright according to the DC voltage of the third LPF 43. Therefore, in the related art, the technology of controlling sharpness, contrast, and bright only by the PWM pulse of the microcomputer has a problem in that it cannot satisfy the image quality selection for various user's needs. Accordingly, an object of the present invention is to provide a luminance signal characteristic switching circuit which can increase the image control efficiency of the luminance signal.

It is still another object of the present invention to provide a luminance signal specific switching circuit capable of performing the sharpness, contrast, and bright control of the luminance signal in parallel with the microcomputer and the user setting mode.

The present invention for achieving the above object is a first processing means for processing a predetermined input luminance signal to output a soft luminance signal of which a high frequency component of the luminance signal is attenuated according to the first control signal applied, and the input luminance signal Second processing means for outputting a sharp luminance signal having a relatively high frequency component of the luminance signal according to a second control signal applied thereto; and a second processor for outputting the input luminance signal according to a third control signal applied thereto. 3 processing means, sharpness adjusting means for applying said 1-3 control signal to said 1-3 processing means for inputting a sharpness control signal, and a luminance signal obtained by combining outputs of said 1-3 processing means is inputted; Contrast adjustment means for adjusting the contrast of the luminance signal in accordance with the contrast control signal applied thereto, and contrast adjustment of the contrast adjustment means Bright adjustment means for adjusting the brightness of the brightness signal according to the brightness control signal applied by inputting the brightness signal, and variable click generating means for varying and generating the sharpness, contrast, bright control signal according to a user setting mode Characterized in that configured.

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

2 is a circuit diagram of a preferred embodiment according to the present invention.

Hereinafter, the present invention will be described in detail with reference to FIG. First, the luminance signal input to the input terminal is applied to the HPF 54 and the capacitor C1. The luminance signal applied to the capacitor C1 is integrated by the resistor R1 and the capacitor C2 and then input to the first buffer 50 after the DC component of the luminance signal is coupled. The luminance signal input to the first buffer 50 is a signal in which the high frequency component of the luminance signal is attenuated, that is, a soft luminance signal.

In addition, the luminance signal applied to the HPF 54 is a high-frequency component of the luminance signal becomes a sharp luminance signal more than the input luminance signal, which is the result of the high pass filtering by the HPF 54. The sharp luminance signal output from the HPF 54 is input to the second buffer 51 as a sharp luminance signal in which edge components are further emphasized by the resistor R2 and the capacitor C4.

Meanwhile, the luminance signal coupled to the third buffer 52 is input as it is. The control signals applied to the first to third processing means applied to the first to third buffers 50 to 52 are respectively output to the sharpness adjusting unit 10. Is a 1-3 control signal.

The sharpness adjusting unit 10 inputs a sharpness control signal to apply the first to third buffer signals to the first and third buffers 50-52, wherein the sharpness control signal is a variable resistor of the variable resistor unit 110. The DC voltage adjusted by VR1 is obtained. Here, it should be understood that the DC voltage is obtained by low-pass filtering the PWM pulse output from the microcomputer 100 or the variable clock generator 130 by the LPF 40.

The contrast adjusting unit 20 inputs the brightness signal synthesized by the output adder 53 of the first buffer 50-52 and adjusts the contrast of the brightness signal according to the contrast control signal applied thereto. 30). Here, the contrast control signal is a DC voltage adjusted by the variable resistor VR2 of the variable resistor unit 110, and the DC voltage is a LPF for the PWM pulse output from the microcomputer 100 or the variable output generator 130. It is obtained by the low pass filtering by the section 40.

The bright adjusting unit 30 inputs the output of the contrast adjusting unit 20 and adjusts the bright of the luminance signal according to the applied bright control signal to output to the output terminal OUT. Here, the bright control signal is a DC voltage adjusted by the variable resistor VR3 of the variable resistor unit 110.

The switch unit 120 outputs the PWM pulse output terminal M1-M3 of the microcomputer 100 or the PWM pulse output terminal V1- of the variable clock generator 13 according to the selection mode signal C of the microcomputer 100. It is composed of 1-3 switches (SW1-SW3) for switching V3). The switch unit 120 is implemented by a switch IC, wherein the first switch SW1 is a PWM pulse switching switch for sharpness control, the second switch SW2 is a PWM pulse switching switch for contrast control, and the third switch ( SW3) was used as PWM pulse transfer switch for bright control.

In addition, the variable clock generator 130 is a clock generator for outputting a PWM pulse according to the user's request in the user setting mode or the setting mode of the manufacturing plant, it is composed of a general oscillator. Accordingly, the 1-3 buffer 50-52 outputs a soft luminance signal and a sharp luminance signal input luminance signal according to the 1-3 control signal of the sharpness adjusting unit 10, respectively. It can be seen that is applied as a DC voltage. That is, the 1-3 buffers 50-52 are configured with a general operational amplifier, and the DC voltage becomes a gain voltage of the operational amplifier.

Therefore, the user may output the selection mode signal C of the microcomputer 100 in a high or low state to randomly output the PWM signal of the variable clock generator 130 or the microcomputer 100, and the variable clock generator 130. ), The PWM pulses can be arbitrarily varied so that the desired image quality can be viewed.

As described above, the present invention has the advantage that the sharpness, contrast, and bright control of the luminance signal can be combined with the microcomputer and the user setting mode, so that the optimum image quality can be viewed according to the needs of the user.

Claims (11)

A luminance signal characteristic switching circuit of a video signal processing apparatus equipped with a microcomputer, comprising: a first process for predetermined processing of an input luminance signal to output a soft luminance signal obtained by attenuating high frequency components of the luminance signal according to an applied first control signal; Means, second processing means for predetermined processing of said input luminance signal to output a sharp luminance signal having a relatively high frequency component of said luminance signal in accordance with a second control signal applied, and third control for applying said input luminance signal; Third processing means for outputting in accordance with a signal, sharpness adjusting means for inputting a sharpness control signal and applying said 1-3 control signal to said 1-3 processing means, and an output of said 1-3 processing means Contrast adjusting means for adjusting the contrast of the luminance signal in accordance with a contrast control signal applied by inputting the synthesized luminance signal, and the contrast Brightness adjusting means for adjusting the brightness of the brightness signal according to the brightness control signal applied by inputting the contrast-adjusted brightness signal of the adjusting means, and generating the variable by varying the sharpness, contrast and brightness control signals according to a user setting mode. A luminance signal characteristic switching circuit comprising a variable clock generating means for. The method of claim 1, wherein the first processing means comprises an integrator for obtaining the soft luminance signal of the luminance signal and a first buffer 50 for outputting the soft luminance signal in accordance with the first control signal. Luminance signal characteristic switching circuit. 2. The method of claim 1, wherein the second processing means comprises a differentiator for obtaining a sharp luminance signal of the luminance signal and a second buffer 51 for outputting the sharp luminance signal in accordance with the second control signal. Luminance signal characteristic switching circuit. 2. A brightness signal characteristic switching circuit as claimed in claim 1, wherein said third processing means comprises a third buffer (52) for outputting said input brightness signal in accordance with said third control signal. 2. The brightness signal characteristic switching device of claim 1, wherein the variable clock generation unit comprises a variable clock generation unit 130 for outputting the sharpness, contrast, and bright control signals as PWM pulses according to a user's setting mode. Circuit. 3. The brightness signal characteristic switching circuit according to claim 2, wherein said integrator comprises a resistor (R1) and a capacitor (C2). 4. The brightness signal characteristic switching circuit as claimed in claim 3, wherein the differentiator comprises an HPF (54), a resistor (R2), and a capacitor (C3-C4). 2. The brightness signal characteristic switching circuit as claimed in claim 1, wherein said 1-3 control signal is a DC voltage. The brightness signal characteristic switching circuit according to claim 1, wherein the sharpness control signal is a DC voltage generated by integrating a PWM pulse for controlling sharpness. The brightness signal characteristic switching circuit as claimed in claim 1, wherein said contrast control signal is a DC voltage generated by integrating a PWM pulse for controlling contrast. The brightness signal characteristic switching circuit according to claim 1, wherein said bright control signal is a DC voltage generated by integrating a PWM pulse for controlling the bright.