KR200157299Y1 - Apparatus for removing a spot by using a luminance signal - Google Patents

Abstract

Disclosed is a spot removing apparatus using a luminance signal that can remove a spot phenomenon appearing on a screen using a luminance signal when the television is switched from an on state to an off state. The high frequency signal, which is an image signal applied through the antenna, is selected by the tuner circuit part, converted into an intermediate frequency, and then amplified by the intermediate frequency amplifier. After being amplified by the intermediate frequency amplifier, only the video signal is detected by the video signal detector and applied to the video signal amplifier to be amplified again. The image signal amplifying unit demodulates the image signal into a color signal and a luminance signal suitable for displaying on the entire screen by applying the image signal to the demodulation circuit. The demodulation circuit unit applies a color signal and a luminance signal to the CRT driving unit, and the luminance signal is controlled to be applied to the CRT by the luminance signal trap unit. That is, when the power of the television is turned off, the microcomputer applies a high signal to the luminance signal trap unit. When the high signal is applied from the microcomputer, the luminance signal output from the demodulation circuit unit flows through the luminance signal trap unit. Since no luminance signal is applied to the screen, spot phenomenon does not appear.

Description

Spot removal device using luminance signal

The present invention relates to a spot removing apparatus generated when the television is turned off. More specifically, the spot phenomenon that appears on the screen when the television is switched from on to off is removed by using a luminance signal. The spot removal apparatus using the brightness signal which can be performed.

In general, a television receives a broadcast signal transmitted from each broadcasting station through an antenna so that a broadcast corresponding to a screen is displayed. An image of an object photographed by a camera at the broadcasting station is converted into an image signal, and the image signal is a constant high frequency signal. It is carried on a signal and transmitted through a transmitting antenna. The high frequency signal transmitted through the transmitting antenna is received through a receiving antenna installed in each home and applied to the television. The high-frequency signal received by the television is separated from the image signal, and after a certain step, the image signal is displayed on the full screen. In this case, when the user selects a broadcast channel to receive through a television using a channel conversion switch, a program of a corresponding broadcasting station is displayed on the screen.

When the power supply to the television is cut off, the current supply of the deflection coil for deflecting the video signal displayed on the screen of the television is first interrupted, so that the video signal is caused by the high voltage output from the high voltage transformer (FBT) for a short time. Scanning in the center of the spot occurs an intense white spot occurs instantaneously.

In more detail, the receiving tube of the television is provided with an electron gun, and the negative electrons generated at the cathode provided at the rear end of the electron gun are accelerated by the second grid after the generation amount is controlled by the first grid. It is scanned by the fluorescent film provided in the whole screen of a picture tube. The negative electrons generated from the cathode and accelerated by the second grid are controlled by the third and fourth grids to be scanned toward the center of the fluorescent film, and the negative electrons passing through the third and fourth grids are deflected coils. It is deflected up and down and left and right while passing through and is scanned on the fluorescent surface.

Therefore, the negative electrons generated from the electron gun are adjusted in the third grid and the fourth grid so as to be scanned at the center of the fluorescent surface, and the negative electrons continue to be deflected up and down and left and right by the deflection coil, so that the negative electrons continue when the deflection coil is not operated. Thus, only the central portion of the fluorescent film is scanned.

When the television having the above function is switched from the on state to the off state, the power supplied to the deflection coil is cut off, so that the deflection coil does not operate. In the state where the deflection coil is not operated, the cathode of the electron gun generates negative electrons by residual heat, and the residual voltage is present in the anode voltage of the high voltage applied to the entire screen of the receiving tube, so that the negative electrons are temporarily in the center of the fluorescent film. Spot phenomenon occurs when scanning is done.

When the spot phenomenon is repeatedly generated, the fluorescent material coated on the center of the fluorescent film in which the negative electron image signal is scanned is destroyed and the image signal is not normally displayed on the center of the screen.

Conventionally, in order to eliminate the spot phenomenon, when the power of the television is switched off, the spot phenomenon is detected by reducing the voltage of the first grid. That is, the voltage of the first grid is normally -60V to control the scanning amount in which the negative electron generated from the cathode is scanned into the fluorescent film of the entire screen. When the power of the television is switched off, if the voltage of the first grid is reduced to about -160V, spot electrons are not detected in the fluorescent film because no negative electrons generated from the cathode can pass through the first grid. I never do that.

In order to realize the conventional spot removing apparatus as described above, the structure is complicated, and when a power source of the television is frequently turned off, a negative voltage must be separately supplied to the first grid, so that spot phenomenon cannot be effectively prevented.

The present invention has been made to solve the above problems, the object of the present invention is to enable the luminance of the spot to be eliminated by using a luminance signal when the television screen is switched from the on state to the off state using the luminance signal The present invention provides a spot removing device using a signal.

1 is a view showing a spot removing apparatus according to the present invention.

Explanation of symbols on the main parts of the drawing

10 antenna 12 tuner circuit

14: intermediate frequency amplifier 16: video signal detector

18: video signal amplifier 20: demodulation circuit

30: CRT driving unit 40: micom

50: luminance signal trap unit 60: CRT

In order to achieve the above object, the present invention provides a tuner circuit unit for converting a high frequency signal of a desired channel from a high frequency signal applied through an antenna into an intermediate frequency that is easy to amplify; An intermediate frequency amplifier unit connected to the tuner circuit unit and amplifying the intermediate frequency applied from the tuner circuit unit to a size suitable for displaying on a full screen; An image signal detector connected to the intermediate frequency amplifier and detecting an image signal from the intermediate frequency amplifier; A video signal amplifier connected to the video signal detector and amplifying a video signal applied from the video signal detector to a size suitable for displaying on a full screen; A demodulation circuit unit connected to the video signal amplifier and configured to demodulate the video signal applied from the video signal amplifier to a full screen; A CRT driving unit connected to the demodulation circuit unit and displaying a luminance signal and a color signal applied from the demodulation circuit unit on a full screen; A luminance signal trap unit connected between the demodulation circuit unit and the CRT driving unit and controlling a luminance signal applied from the demodulation circuit unit to the CRT driving unit; The present invention provides a spot removing device using a luminance signal connected to the luminance signal trap unit and a microcomputer operating the luminance signal trap unit by applying an operation signal to the luminance signal trap unit when the power source of the television is switched off.

According to the present invention, a high frequency signal, which is an image signal applied through an antenna, is selected by the tuner circuit unit, is converted into an intermediate frequency, and then amplified by the intermediate frequency amplifier. After being amplified by the intermediate frequency amplifier, only the video signal is detected by the video signal detector and applied to the video signal amplifier to be amplified again. The image signal amplifying unit demodulates the image signal into a color signal and a luminance signal suitable for displaying on the entire screen by applying the image signal to the demodulation circuit. The demodulation circuit unit applies a color signal and a luminance signal to the CRT driving unit, and the luminance signal is controlled to be applied to the CRT by the luminance signal trap unit. That is, when the power of the television is turned off, the microcomputer applies a high signal to the luminance signal trap unit. When the high signal is applied from the microcomputer, the luminance signal output from the demodulation circuit unit flows through the luminance signal trap unit. Since no luminance signal is applied to the screen, spot phenomenon does not appear.

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

1 is a block diagram schematically showing a spot removing apparatus using a luminance signal according to the present invention.

Referring to FIG. 1, a spot removing apparatus using a luminance signal is described. A high frequency signal applied through an antenna 10 is applied to a tuner circuit unit 12, and the tuner circuit unit 12 is applied through an antenna 10. Select the high frequency signal of the desired channel among the high frequency signals to be converted into the middle frequency that is easy to amplify.

An intermediate frequency amplifier 14 is connected to the tuner circuit 12, and the intermediate frequency amplifier 14 has a size suitable for displaying an intermediate frequency applied from the tuner circuit 12 on the full screen 60. Will be amplified. An image signal detector 16 is connected to the intermediate frequency amplifier 14, and the image signal detector 16 detects an image signal from the intermediate frequency amplifier 14.

An image signal amplifier 18 is connected to the image signal detector 16, and the image signal amplifier 18 is suitable for displaying an image signal applied from the image signal detector 16 on the full screen 60. Amplify again to size.

A demodulation circuit 20 is connected to the video signal amplifier 18, and the demodulation circuit 20 is demodulated to be suitable for displaying a video signal applied from the video signal amplifier 18 on the full screen 60. FIG. Let's go. The CRT driver 30 is connected to the demodulation circuit 20, and the CRT driver 30 displays the luminance signal and the color signal applied from the demodulation circuit 20 on the full screen 60.

A luminance signal trap unit 50 is connected between the demodulation circuit unit 20 and the CRT driver 30, and the luminance signal trap unit 50 is a luminance applied from the demodulation circuit unit 20 to the CRT driver 30. To control the signal.

The microcomputer 40 is connected to the luminance signal trap unit 50. The microcomputer 40 applies a high signal as an operation signal to the luminance signal trap unit 50 when the power of the television is switched off. The trap unit 50 is operated.

In addition, the luminance signal trap unit 50 is composed of a resistor (R2) and a transistor (TR), the collector terminal of the transistor (TR) is connected to the demodulation circuit unit 20 through a resistor (R2), the base end Is connected to the microcomputer 40 through the resistor R1. The emitter terminal of the transistor TR is grounded, one end of the capacitor C1 is connected between the transistor TR and the resistor R1, and the other end of the capacitor C1 is grounded.

According to the present invention, when the viewer switches the power of the television while watching the television, the broadcast signal transmitted from the broadcasting station is applied to the tuner circuit unit 12 through the antenna 10, and the tuner circuit unit 12 is A high frequency signal, which is a video signal corresponding to a channel selected by a channel selection terminal (not shown), is selected and converted into an intermediate frequency.

The signal converted into the intermediate frequency by the tuner circuit 12 is amplified by the intermediate frequency amplification unit 14, and the image signal detection unit 16 is a video signal from the intermediate frequency amplified by the intermediate frequency amplification unit 14. Will be detected. The image signal detector 16 applies the image signal detected by the intermediate frequency amplifier 14 to the image signal amplifier 18, and the image signal amplifier 18 amplifies the image signal to demodulate the circuit ( 20). The demodulation circuit unit 20 demodulates the image signal applied from the image signal amplifying unit 18 into a color signal and applies the same to the CRT driving unit 30 so as to be displayed on the full screen 60.

The demodulation circuit unit 20 applies the RGB signal, which is a color signal, and the Y signal, which is a luminance signal, to the CRT driving unit 30, and the Y signal is connected to the luminance signal trap unit 50. In the demodulation circuit unit 20, when the RGB signal, which is a color signal, and the Y signal, which is a luminance signal, are applied to the CRT driving unit 30 and the power switch is turned off while being displayed on the full screen 60, the current supplied to the television is blocked. Even if the residual current exists instantaneously, the electron beam is instantaneously generated from the electron gun of the CRT driving unit 30, and the anode voltage provided on the entire screen 60 also has the residual voltage. Projected toward). At this time, since the current is not supplied to the deflection circuit unit 20, the electron beam is projected to the center of the full screen 60.

When the power switch of the television operating as described above is switched off, the microcomputer 40 detects this and immediately applies a high signal to the transistor TR of the luminance signal trap unit 50.

When the high signal is applied from the microcomputer 40 to the base terminal of the transistor TR constituting the luminance signal trap unit 50, the transistor TR is switched on and is applied from the demodulation circuit unit 20 to the CRT driving unit 30. The Y signal flows from the collector end of the transistor TR to the emitter end and flows to ground. Therefore, the Y signal, which is a luminance signal, is not applied to the CRT driver 30.

Therefore, since the Y signal, which is a luminance signal, is not applied from the demodulation circuit unit 20 to the CRT driver 30, the luminance signal is removed even if the electron beam is projected from the CRT driver 30 to the entire screen by the remaining power when the power is cut off. In this state, no spot phenomenon appears in the center of the entire screen.

As can be seen from the above description, the present invention is a high-frequency signal that is an image signal applied through the antenna is selected in the tuner circuit unit is converted into an intermediate frequency and then amplified in the intermediate frequency amplifier. After being amplified by the intermediate frequency amplifier, only the video signal is detected by the video signal detector and applied to the video signal amplifier to be amplified again. The image signal amplifying unit demodulates the image signal into a color signal and a luminance signal suitable for displaying on the entire screen by applying the image signal to the demodulation circuit. The demodulation circuit unit applies a color signal and a luminance signal to the CRT driving unit, and the luminance signal is controlled to be applied to the CRT by the luminance signal trap unit. That is, when the power of the television is turned off, the microcomputer applies a high signal to the luminance signal trap unit. When the high signal is applied from the microcomputer, the luminance signal output from the demodulation circuit unit flows through the luminance signal trap unit. Since no luminance signal is applied to the screen, spot phenomenon does not appear.

Claims (2)

A tuner circuit unit 12 for converting a high frequency signal of a desired channel from a high frequency signal applied through an antenna into an intermediate frequency for easy amplification; An intermediate frequency amplifier unit 14 connected to the tuner circuit unit 12 and amplifying an intermediate frequency applied from the tuner circuit unit 12 to a size suitable for displaying on a full screen; An image signal detector (16) connected to the intermediate frequency amplifier (14) for detecting an image signal from the intermediate frequency amplifier (14); An image signal amplifier 18 connected to the image signal detector 16 for amplifying the image signal applied from the image signal detector 16 to a size suitable for displaying on a full screen; A demodulation circuit unit 20 connected to the video signal amplifier 18 for demodulating the video signal applied from the video signal amplifier 18 to a full screen; A CRT driver (30) connected to the demodulation circuit unit (20) for displaying the luminance signal and the color signal applied from the demodulation circuit unit (20) on a full screen; A luminance signal trap unit 50 connected between the demodulation circuit unit 20 and the CRT driver 30 to control a luminance signal applied from the demodulation circuit unit 20 to the CRT driver 30; And The microcomputer 40 is connected to the luminance signal trap unit 50 and applies an operation signal to the luminance signal trap unit 50 when the power source of the television is switched off to operate the luminance signal trap unit 50. Spot removal device using a luminance signal. The base terminal of the transistor TR constituting the luminance signal trap unit 50 is connected to the microcomputer 40 through the resistor R1, and the collector terminal is connected to the demodulation circuit unit through the resistor R2. A spot removal apparatus using a luminance signal, characterized in that 20 is connected to a luminance signal output terminal for applying a luminance signal to the CRT driving unit 30, and the capacitor C1 is connected to the base terminal of the transistor TR. .