KR20000037671A - Method for automatically controlling vertical slant of television set and apparatus for doing the same - Google Patents

Abstract

PURPOSE: A method for automatically controlling vertical slant of a television set and an apparatus for doing the same are provided to adjust the amount of current of horizontal deflection circuit. CONSTITUTION: An apparatus for automatically controlling vertical slant of a television set includes a detector(48), a microcomputer(49), a vertical slant adjustor(50). The television set includes a tuner(42), an image processor(44), an amplifier(45), and a deflector(47) generating horizontal deflection signal and vertical deflection signal. The detector(48) detects the amount of beam emitted from a cathode of a brown tube. The microcomputer(49) detects the output of the detector and generates a control signal adjusting the vertical slant. The vertical slant adjustor(50) adjusts the vertical slant according to the control signal from the microcomputer.

Description

Auto-control method of vertical lean in television and device for the same

The present invention relates to a television receiver, and more particularly, to a method and apparatus for automatically adjusting the vertical tilt of a television receiver which detects an amount of an electron beam applied to an electron gun of a CRT and adjusts the vertical tilt according to the detected amount to prevent distortion of the screen. It is about.

1 is a block diagram showing the configuration of a typical television.

The antenna 11 converts the television broadcast waves transmitted through the air into current and outputs them. The tuner unit 12 detects and outputs an intermediate frequency signal of a desired channel from the television broadcast signal input from the antenna 11. The image intermediate frequency amplifying unit 13 detects and amplifies the image intermediate frequency from the intermediate frequency signal input from the tuner unit 12. The image processor 14 processes the image intermediate frequency input from the image intermediate frequency amplifying unit 13 to separate and output the synchronization signal and the image signal. The amplifier 15 amplifies and outputs an image signal input from the image processor 14. The deflection unit 17 generates a vertical deflection signal and a horizontal deflection signal in accordance with the synchronization signal input from the image processing unit 14 and outputs the same to the CRT 16. The CRT 16 receives a video signal and a deflection signal from the amplifier 15 and the deflector 17 to display a television image.

The fluorescent surface of the CRT uses a phenomenon in which the electron beam from the cathode stimulates the material of the fluorescent film to emit light. The intensity of the light emission is proportional to the amount of electrons and becomes dark when the amount of electrons is small.

2 schematically shows the internal structure of the CRT.

A heater 410 that raises the temperature of the cathode 420 by generating heat by receiving an image amplified R, G, B signal, and a cathode that emits electrons when a negative voltage is supplied from the heater 410. 420, a control grid 430 that modulates luminance (change in brightness) by adjusting the amount of electrons emitted from the cathode 420, and electrons emitted from the cathode 420 are fluorescent surfaces 492 behind the panel 490. Acceleration grid 440 which supplies a constant voltage (eg, + 110V to 400V) to reach the negative pole and attracts electrons with charges and accelerates them in the axial direction. The medium acceleration grid 450 which accelerates the electrons by supplying a constant voltage (for example, +10 mA or more) to the secondary, and the electrons emitted from the cathode 420 and moved toward the fluorescent surface 492 of the panel 490 are electrons. Focusing on the axial direction to diffuse by mutual repulsive force makes a thin electron beam The acceleration is carried out three times by supplying a constant voltage (for example, +10 kV or more) to electrons emitted from the focusing grid 460 and the cathode 420 and accelerated twice through the acceleration grid 440 and the medium acceleration grid 450. And a high acceleration grid 470 that collides with the fluorescent surface 492 of the panel 490, and a high voltage of a predetermined voltage (for example, +10 kV) or more to the aluminum film of the fluorescent surface 492 of the glass tube 490, and supplies a power source. An anode terminal 480 for discharging a high voltage at the time of "off".

In this case, a shadow mask, which is a porous metal plate attached to a position about 10 mm away from the fluorescent surface 492, is required in order to accurately match the beam emitted from the electron gun with the set fluorescent position.

The anode voltage of the CRT applies a high voltage of about 10 to 15 kV to accelerate the electrons emitted from the cathode and impinge on the fluorescent surface. The input of the high-voltage rectifier circuit is obtained by boosting the pulse voltage generated during the return period of the horizontal output circuit by the high-voltage generating flyback transformer (FBT). When a portion of the image is bright as shown in FIG. 3, the horizontal amplitude corresponding to the portion is increased, and the upper portion of the object 31 is inclined.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method and an apparatus for automatically adjusting the vertical tilt of a television receiver which detects an amount of an electron beam and adjusts a current of a horizontal deflection circuit to correct an inclination of a screen.

1 is a block diagram showing the configuration of a typical TV

Figure 2 is a schematic illustration for explaining the internal configuration of the CRT

3 is an exemplary view showing an upper portion of a narrower object than a lower portion displayed on a CRT screen

4 is a block diagram of a television having a vertical tilt adjustment function according to the present invention;

5 is an operation flowchart showing a vertical tilt adjustment method according to the present invention.

<Explanation of symbols for main parts of drawing>

41 antenna 42 tuner portion

43: intermediate frequency amplifier 44: image processor

45: amplification unit 46: CRT

47: deflection portion 48: ABL detection portion

49: micom 50: vertical tilt adjustment unit

Features of the present invention for achieving the above object is an antenna for converting and outputting a television broadcast wave transmitted through the air to the current; A tuner unit which detects and outputs an intermediate frequency signal of a desired channel from a television broadcast signal input from the antenna; An image intermediate frequency amplifying unit which detects and amplifies the image intermediate frequency from the intermediate frequency signal input from the tuner unit; An image processor for processing an image intermediate frequency input from the image intermediate frequency amplifying unit to separate and output a synchronization signal and an image signal; An amplifier for amplifying and outputting an image signal input from the image processor; A deflection unit for generating and outputting a vertical deflection signal and a horizontal deflection signal according to the synchronization signal input from the image processing unit; A CRT receiving a video signal and a deflection signal from the amplifier and the deflector to display a television image; An ABL detector for detecting an amount of the electron beam emitted from the cathode of the CRT; A microcomputer that detects the amount of the electron beam in the ABL detector and outputs a control signal for adjusting the vertical tilt according to the detection result; It is composed of a vertical tilt adjustment unit for receiving a control signal output from the micom to adjust the vertical tilt.

According to another aspect of the present invention for achieving the above object, the method according to the present invention is a method for adjusting the vertical tilt of a television, comprising: initializing each variable and a set value, and controlling an ABL detector to control an electron beam of a horizontal deflection signal; Detecting an amount of the electron beam; determining whether the detected amount of the electron beam is greater than a reference value; and if the amount of the detected electron beam is not greater than a reference value, detecting the amount of the electron beam; When the detected amount of the electron beam is larger than the reference value, the vertical tilt adjustment unit outputs a control signal to adjust the vertical tilt.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, with reference to the accompanying drawings for an embodiment according to the technical idea of the present invention configured as described above in detail the operation and operation effects are as follows.

4 is a block diagram showing the configuration of a television having a vertical tilt adjustment function according to the present invention.

The antenna 41 converts television broadcast waves transmitted through the air into current and outputs them. The tuner 42 detects and outputs an intermediate frequency signal of a desired channel from the television broadcast signal input from the antenna 41. The image intermediate frequency amplifying unit 43 detects and amplifies the image intermediate frequency from the intermediate frequency signal input from the tuner unit 42. The image processor 44 processes the image intermediate frequency input from the image intermediate frequency amplifier 43 to separate and output the synchronization signal and the image signal. The amplifier 45 amplifies and outputs an image signal input from the image processor 44. The deflection unit 47 generates a vertical deflection signal and a horizontal deflection signal according to the synchronization signal input from the image processing unit 44 and outputs them to the CRT 46. The CRT 46 receives a video signal and a deflection signal from the amplifier 45 and the deflector 47 to display a television image. The ABL detector 48 detects the amount of electron beams emitted from the cathode of the CRT 46. The microcomputer 49 detects the amount of the electron beam in the ABL detector 48 and outputs a control signal for adjusting the vertical tilt according to the detection result. Vertical tilt adjustment unit 50 receives the control signal output from the microcomputer 49 to adjust the vertical tilt.

Hereinafter, the operation and effects of the present invention will be described.

The deflection portion 47 has a vertical deflection portion and a horizontal deflection portion, and the horizontal deflection portion scans the electron beam emitted from the electron gun by deflecting from the left side to the right side of the CRT. The vertical deflection deflects the electron beam from top to bottom to allow scanning. When the upper part of the object 31 displayed on the screen is bright as shown in FIG. 3, it means that the amount of the electron beam scanning the upper part is large. At this time, the horizontal deflection signal output from the deflection portion 47 to the CRT 46 causes a large amount of anode current to flow. The ABL detection unit 48 receives the horizontal deflection signal output from the deflection unit 47 and detects the amount of the electron beam and outputs it to the microcomputer 49. The microcomputer 49 receives a signal indicating the amount of the electron beam input from the ABL detector 48 and compares it with a reference value. When the amount of the electron beam is larger than the reference value, the control signal for reducing the anode current is output to the vertical tilt adjusting unit 50. The vertical tilt adjustment unit 50 adjusts the horizontal deflection signal of the deflection unit 47 to reduce the amount of anode current.

5 is a flowchart showing a vertical tilt adjusting method according to the present invention.

In step S51, each variable and set value are initialized. In step S52, the ABL detection unit 48 is controlled to detect the amount of the electron beam of the horizontal deflection signal. In step S53, it is determined whether the detected amount of the electron beam is larger than the reference value. If the detected amount of electron beam is not larger than the reference value, step S52 is repeated. If the detected amount of the electron beam is larger than the reference value, in step S54, a control signal is output to the vertical tilt adjusting unit 50 to adjust the vertical tilt.

As described above, according to the present invention, by detecting the anode current of the deflection portion and comparing the amount of the electron beam with the reference value, the normal electron beam is output, thereby preventing the vertical tilt from tilting to form a television screen without distortion. have.

While the invention has been shown and described with respect to particular embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention as set forth in the claims. Anyone can see it easily.

Claims (2)

Detects the video intermediate frequency from the signal received through the tuner unit which detects and outputs the intermediate frequency signal of the desired channel from the TV broadcasting signal inputted from the antenna, and processes the video intermediate frequency to separate and output the sync signal and the video signal. A television having an image processor, an amplifier for amplifying and outputting an image signal input from the image processor, and a deflection unit for generating and outputting a vertical deflection signal and a horizontal deflection signal according to a synchronization signal input from the image processor. In An ABL detector which detects an amount of the electron beam emitted from the cathode of the CRT; A microcomputer that detects the amount of the electron beam in the ABL detector and outputs a control signal for adjusting the vertical tilt according to the detection result; Vertical tilt automatic adjustment device of the television receiver characterized in that it comprises a vertical tilt adjustment unit for receiving the control signal output from the microcomputer to adjust the vertical tilt. In the method of adjusting the vertical tilt of the television, Initializing each variable and setting value; Controlling the ABL detector to detect an amount of the electron beam of the horizontal deflection signal; Determining whether the detected amount of the electron beam is larger than a reference value; If the detected amount of the electron beam is not greater than a reference value, repeating the step of detecting the amount of the electron beam; And adjusting the vertical tilt by outputting a control signal to a vertical tilt adjusting unit when the detected amount of electron beam is larger than a reference value.