KR100601629B1 - High-tension correction apparatus - Google Patents

Abstract

The present invention discloses a high pressure correction device for correcting high pressure by accurately detecting a change in high pressure in an image device. An apparatus according to the present invention, the display unit for displaying a video signal; A high pressure generator for generating a high pressure to the display unit; A color signal processor which generates color signals of the east-west distortion correction signal and the image signal according to the high voltage variation detected through the automatic beam limiting terminal of the high pressure generator; A high pressure variation detection unit for detecting a high pressure variation using the color signal generated from the color signal processing unit; And a deflection processing unit for providing a display unit and a high pressure generation unit, respectively, to the display unit and the high pressure generation unit to perform a deflection process using the east-west distortion correction signal according to the high pressure variation detected by the high pressure variation detection unit. Therefore, the correction for the high pressure variation can be accurately made without delay.

Description

High-tension correction apparatus

1 is a view for explaining the relationship between the high pressure and the beam and the high pressure and deflection angle.

2 is a functional block diagram of a video device for explaining a conventional high pressure correction method.

3 is a timing diagram for explaining the relationship between the actual high voltage pulse and the high voltage variation detected by the automatic beam limiting terminal of the high voltage generator.

4 is a functional block diagram of an imaging apparatus having a high pressure correction device according to the present invention.

5 is an output waveform diagram of the integrator shown in FIG. 4 for the high pressure fluctuation pulse.

The present invention relates to distortion correction of a displayed image, and more particularly, to a high pressure correction apparatus for correcting distortion of a displayed image due to fluctuation of a high pressure.

In order to express the desired video signal at the correct position on the glass panel of the television or monitor, the high voltage on the screen must be constant. However, since the high pressure applied to the screen is inversely proportional to the R, G, and B levels of the input video signal, the high pressure and the beam directed to the screen have inversely proportional characteristics as shown in FIG. Therefore, when the R, G, and B levels of the input video signal are increased, the brightness of the beam directed to the screen becomes relatively bright, but the high pressure is lowered. High pressure is equal to the force that pulls the beam towards the screen. Lowering the high pressure means less force that pulls the beam towards the screen.

As such, when the pulling force is reduced toward the screen, the degree of warpage of the beam directed toward the screen is changed to cause the input image to be displayed at a position out of a desired position on the screen. That is, as shown in (b) of FIG. 1 (b), the high pressure level required to display an image input at a desired position on the screen is 'P1', but the brightness of the currently generated beam is brightened, so the high pressure level is 'P2'. When lowered to, the beam directed towards the screen is deflected by θ2 to the left and right relative to the center of the deflection yoke, forming a magnetic field of the deflection yoke so that it is enlarged by 2W wider than the horizontal width displayable on the actual screen. do. This causes distortion such as shaking of the screen displayed on the screen. This distortion is more severe when the high pressure fluctuates in horizontal periods.

In order to correct the distortion of the image displayed on the screen by such a change in the high pressure, the high pressure fluctuation detected through the auto bright limiter terminal of the flyback transfomer which is conventionally provided in the video equipment. A method of deflection treatment using was used.

FIG. 2 is a functional block diagram of a video device that corrects distortion of an image displayed on a screen according to a high pressure variation by performing a deflection process as described above. The color signal processor 204 is a high pressure generator ( A parabola type east-west distortion correction signal (also referred to as an EW signal) reflecting the high voltage variation provided from the ABL terminal of 202 is generated. This east-west distortion correction signal is a deflection signal. The generated east-west distortion correction signal is transmitted to the deflection processing unit 206.

The deflection processor 206 outputs a deflection current and a deflection voltage corresponding to the high voltage variation using the applied east-west distortion correction signal. The output deflection current is provided to a deflection coil (not shown) such as a deflection yoke provided in the display unit 210 to influence the formation of a magnetic field that determines the degree of deflection of the beam. 202 is amplified to a predetermined value, and then provided as a high pressure of an anode end (not shown) of the display unit 210. In this case, the display unit 210 may display a screen capable of displaying an image, beam providing means such as an electron beam gun capable of shooting a beam toward the screen, and vertical and horizontal deflection coils such as a deflection yoke (line / field). coil).

Alternatively, the fluctuation of the high pressure detected by the ABL terminal of the high pressure generator 202 is added to the east-west distortion correction signal (EW signal) output from the color signal processor 204 and transmitted to the deflection processor 206. Another method is to correct the high pressure so that the image displayed on the screen is not distorted.

However, the variation of the high pressure detected through the ABL end of the high pressure generator 202 is as shown in FIG. 3 due to elements such as the coil L or the capacitor C existing in the high pressure generator 202. Likewise, it has a delayed shape compared to an actual high voltage pulse. Therefore, the deflection current and voltage output from the deflection processor 206 are also delayed, which makes it difficult to accurately correct the deflection current.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and an object thereof is to provide a high pressure correction device for accurately detecting and correcting variations of high pressure in an image device.

Another object of the present invention is to provide a high pressure correction device that accurately corrects variations in high pressure using an input image signal.

According to an aspect of the present invention, there is provided an apparatus for correcting a high pressure of a display unit for displaying an image signal, the apparatus comprising: a high pressure generator for generating a high pressure to the display unit; A color signal processor which generates color signals of the east-west distortion correction signal and the image signal according to the high voltage variation detected through the automatic beam limiting terminal of the high pressure generator; A high pressure variation detection unit for detecting a high pressure variation using the color signal generated from the color signal processing unit; It is preferable to include a deflection processing unit for providing a display unit and a high pressure generation unit, respectively, to the display unit and the high pressure generation unit to perform a deflection process using the east-west distortion correction signal according to the high pressure variation detected by the high pressure variation detection unit.

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

4 is a functional block diagram of an imaging apparatus having a high pressure correction device according to the present invention, the same high pressure generating unit 202, color signal processing unit 204, deflection processing unit 206, display driver ( 208, a display unit 210, and a high pressure variation detection unit 410 using R, G, and B color signals.

The high voltage variation detector 410 includes an impedance matching circuit 412, an integration circuit 414, and an inverted amplifier circuit 416. The impedance matching circuit 412 is composed of resistors R1, R2, and R3 connected to the R, G, and B output terminals of the color signal processor 204, respectively. The integration circuit 414 is composed of a resistor R4 and a capacitor C1. The inverting amplifier circuit 416 is composed of an npn type transistor Q1 and resistors R5 to R9.

The device thus configured operates as follows.

First, the high voltage generation unit 202 is composed of a conventional flyback transformer to provide a high pressure currently generated to the anode end of the display unit 210, while providing an automatic beam limiting (ABL) terminal. Outputs the fluctuation of the current high pressure

As described in the above description of FIG. 2, the color signal processing unit 204 receives an east-west distortion correction signal (EW signal), which is a parabola-type deflection signal for correcting the high pressure by the high pressure variation provided from the high pressure generator 202. The R, G, and B signals of the input image signal currently applied to the deflection processor 206 are output to the display driver 208 and the high pressure variation detector 410, respectively.

The high voltage variation detector 410 detects the level of the R, G, and B signals applied through the resistors R1, R2, and R3 provided in the impedance matching circuit 412, and detects each of the detected R, G, and B signals. The sum of the levels of the B signal ADD is transmitted to the integrating circuit 414.

The integrating circuit 414 integrates the signal transmitted from the impedance matching circuit 412 through the resistor R4 and the condenser C1 in the same manner as before, and outputs the same waveform as the high voltage fluctuation pulse as shown in FIG. 5. do. The output integral waveform is transmitted to the inversion amplifier circuit 416.

The inverting amplifier circuit 416 adjusts the gain of the integrated waveform transmitted from the integrating circuit 414 by using the resistors R5 and R6, and then inverts the waveform through the transistor Q1 which is an inverting amplifier. ) At this time, the resistors R7. R8. R9 are bias resistors.

The inverted waveform output through the resistor R9 is provided to a line to which the east-west distortion correction signal EW of the deflection processor 206 is applied. Accordingly, the east-west distortion correction signal (EW signal) applied to the deflection processor 206 has a waveform shape that is not affected by the delay generated by the high voltage generator 202.

The deflection processing unit 206 amplifies the East-West distortion correction signal (EW signal) applied in the same manner as before, to a predetermined value, performs a deflection process, and outputs a corresponding deflection current and deflection voltage, respectively. The output deflection current is applied to a deflection yoke (not shown) of the display unit 210 to form a magnetic field that affects the degree of bending of the beam, and the deflection voltage is transmitted to the high voltage generator 202 to display the display unit ( A high pressure corresponding to the anode of 210 is provided.

Meanwhile, the display driver 208 amplifies the RGB signals transmitted from the color signal processor 204 to a displayable level and transmits the RGB signals to the display unit 210, and the display unit 210 displays the display unit 210 of FIG. 2. ), A screen, an anode provided with a high pressure, and a deflection coil such as a deflection yoke are provided to display an input video signal at a desired position.

As described above, the present invention detects the change in the high pressure by using the R, G, B signals output from the color signal processing unit and corrects the change in the high pressure, thereby performing the correct high pressure correction without delay to the delay of the high pressure change. There is an effect that can correct the distortion of the display image.

Claims (2)

In the device for correcting the high pressure of the display unit for displaying a video signal, A high pressure generator for generating a high pressure to the display unit; A color signal processor for generating an east-west distortion correction signal and a color signal of the video signal according to the high voltage variation detected by the automatic beam limiting terminal of the high pressure generator; A high pressure variation detector detecting a high pressure variation using the color signal generated by the color signal processor; And a deflection processor configured to provide a deflection processing result to the display unit and the high pressure generator by using the east-west distortion correction signal according to the high pressure variation detected by the high pressure variation detection unit. The high voltage compensation circuit of claim 1, wherein the high voltage variation detection unit comprises an integrating circuit for integrating the color signal and an inverting amplifying circuit for outputting the result of inverting and amplifying the color signal integrated in the integrating circuit as the high voltage variation. Device.

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