JPH0669213B2 - Video image contour correction device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a contour correction apparatus for video images.

<Prior Art> An apparatus for displaying a video image on a cathode ray tube originally has a sharp rising portion and a falling portion as shown in FIG. 1A due to some cause such as a circuit constant of a signal transmission line. In the case where the video signal has a dullness as shown in FIG. 3B, which causes blurring in the peripheral portion of the displayed video image, the brightness of the blurred portion is increased to correct the contrast in the peripheral portion of the image. There is the following method as one of the means. That is, a video signal having a rising portion and a falling portion as shown in FIG. 1 (b) is directly input to the CRT as a luminance signal,
This signal is differentiated to create a differential signal as shown in FIG. Also, the horizontal deflection coil section of the cathode ray tube is the first
It is composed of a main horizontal deflection coil that generates a deflection magnetic field that linearly changes with time as shown in FIG. 6D, and an auxiliary coil that is arranged so that the coil axis is parallel to it. A differential signal is passed through this auxiliary coil via an amplifier. Therefore, the horizontal deflection magnetic field of the cathode ray tube shows a temporal change as shown in FIG. 1 (e) in which the waveforms shown in FIGS. 1 (c) and (d) are superimposed. For this reason, the magnetic field sweep is stagnant for a very short time at the rising portion and the falling portion of the video signal (FIG. 1 (b)). Since the brightness of the video image is proportional to the video signal level and the reciprocal of the horizontal magnetic field deflection speed, the time change of the magnetic field deflection as shown in FIG. The decrease in contrast due to rounding is corrected.

However, for example, when it is necessary to display characters, symbols, etc. prepared on the image receiving side in a part of the periphery of the video image, the signals for these characters or symbols should be supplied to the luminance signal input terminal of the cathode ray tube. To the image signal. Therefore, if the brightness correction is still performed in the entire area of the image periphery by the method as described above, the brightness abnormality occurs in the portion such as the superimposed characters and symbols that overlap the image periphery, and these characters and symbols are generated. In some cases, it may be difficult to correctly recognize such as.

<Object of the Invention> The object of the present invention is to eliminate the above-mentioned drawbacks associated with the prior art,
The contour correction function is stopped only in the peripheral portion of the image where characters and figures are displayed superimposed on the video image to prevent the occurrence of abnormal brightness that has occurred in the area where characters and figures are superimposed on the video image. It is an object of the present invention to provide a contour correction device for a video image capable of performing the above.

<Structure of the Invention> In order to achieve the above object, the apparatus according to the present invention comprises an auxiliary deflection coil having a coil axis parallel to the axis of a horizontal deflection coil of a cathode ray tube, and a differentiating circuit for detecting a primary differential waveform of a video signal. And an amplifier circuit for amplifying the output of the differentiating circuit. By supplying the output current of the amplifier circuit to the auxiliary deflection coil, the horizontal deflection magnetic field generated by the horizontal deflection coil is generated by the magnetic field generated by the auxiliary deflection coil. In a contour correction apparatus for a video image for improving the contrast of a contour portion of a video image by superimposing a symbol, when a signal such as a character or a graphic is superimposed and displayed on the video image, a character, a graphic or the like displayed on the video image is displayed. An image correction stop signal corresponding to the signal portion is input, and the output current of the amplifier circuit is short-circuited only during the time corresponding to the input image correction stop signal. The feature is that an image correction stop circuit is provided.

<Examples> Examples of the present invention will be described below with reference to the drawings. Second
FIG. 1 is a block diagram showing a state in which the embodiment of the present invention is applied to an image display section of a video image receiver. Figure 3 shows
FIG. 2 is a diagram showing a concrete example of the image correction function stopping circuit 10 in FIG. 2 and a connection relationship between the circuit and the amplifier 7, and FIG. 4 is an operation explanatory view of the embodiment of the present invention.

In FIG. 2, a detection circuit 1 removes a carrier wave from an input signal and outputs an image signal and both horizontal and vertical synchronizing signals. The image signal is amplified by the video signal amplifier 2 and then input to the cathode ray tube 9 to control the intensity of the electron beam. The horizontal and vertical sync signals trigger the deflection current generator 3 to output both horizontal and vertical deflection currents. Both of these deflection currents are supplied to the deflection coil unit 4 to generate horizontal and vertical deflection magnetic fields to sweep the electron beam of the cathode ray tube 9. In addition to the above-mentioned normal video image display section having no image correction means, in FIG. 2, a video image correction apparatus 8 having a differential signal amplifier 7 according to the present invention is added. In this device, the differentiating circuit 6 differentiates the video signal (Fig. 1 (b)) and outputs the differentiated signal (Fig. 1 (c)). This differential signal is amplified by the amplifier 7 and then supplied to the auxiliary deflection coil 5 to create a horizontal deflection magnetic field that changes with time as shown in FIG. 1 (e), and image correction is performed as shown in FIG. Be seen. As described above, the image correction method is basically the same as the case of the above-described conventional technique, but in the present invention, it is shown between the preamplifier section of the amplifier 7 and the final stage current amplifier circuit in FIG. The output section of the image correction stop circuit 10 having such a circuit configuration is connected so that the brightness correction of the peripheral portion of the image can be stopped at least partially. In FIG. 3, terminal A is an additional image signal input terminal for inputting symbols such as characters and symbols.

That is, in the case where the brightness correction of the image peripheral portion such as the image peripheral portion overlapping the signal of the character, the symbol, etc. inputted from the additional image signal input terminal A should be partially stopped, correspondingly,
According to a program prepared in advance in a microcomputer or the like, a rectangular pulse image correction stop signal as shown in FIG. 4 (b) is input to the input terminal A of the image correction stop circuit shown in FIG. In FIG. 3, reference numerals 7a and 7b represent the preamplifier section and the final stage current amplifier section of the differential signal amplifier 7 in FIG. 2, respectively. From the output point B of the preamplifier 7a, a signal proportional to the differential waveform of the image signal corresponding to FIG. 1 (c) is output as shown in FIG. 4 (a). The image correction stop signal input from the terminal A is inverted by the input-stage transistor T ₁ , becomes a signal as shown in FIG. 4 (c) at the output point a, and is further amplified and inverted by the amplifying transistor T ₂ . From the output point b, a gate signal proportional to the input signal as shown in FIG. 4 (d) is taken out. This gate signal is input to the gate terminal of the field effect transistor T ₃ as a switching element. By this gate signal, the drain of the field effect transistor
As shown in FIG. 4 (e), the impedance between the sources is virtually zero only while the image correction stop signal is at a high level, and the preamplifier 7a of the differential signal amplifier 7 outputs the impedance for image correction during that period. The differential signal of is short-circuited, and the contour correction of the peripheral portion of the image where the characters, figures, etc. are displayed superimposed on the video image is partially stopped.

<Advantages of the Invention> Since the video image correction device of the present invention has the following configuration, it is possible to stop the contour correction only in the image peripheral portion of the portion where the characters, figures, etc. are displayed superimposed on the video image.
Since it is possible to eliminate the occurrence of the brightness abnormality that has conventionally occurred in the portion where characters, figures, etc. are superimposed and displayed on the video image, there is an excellent effect that these characters, figures, etc. can be visually recognized correctly. .

[Brief description of drawings]

FIG. 1 is a time chart explaining a method of correcting a video image. FIG. 2 is a block diagram showing the configuration of the embodiment of the present invention, FIG. 3 is a circuit diagram of the image correction stopping circuit used in the above-mentioned embodiment, and FIG. 4 is an operation explanatory view of the above-mentioned embodiment. 5 ... Auxiliary deflection coil, 6 ... Differentiation circuit 7 ... Differential signal amplifier 7a ... Preamplifier section of differential signal amplifier 7b ... Current amplification section of differential signal amplifier 7 ... Image correction circuit section 10 ... Image Compensation stop circuit 11… Additional image input terminals R ₁ , R ₃ , R ₆ …… Base current control resistance C ₁ , C ₂ …… Speed-up capacitor R ₂ , R ₄ , R ₅ …… Waveform shaping resistance R ₇ …… Field-effect transistor T ₃ drain-source potential difference adding resistors T ₁ , T ₂ …… Transistor T ₃ …… Field effect transistor

Claims (1)

[Claims] 1. An auxiliary deflection coil having a coil axis parallel to the axis of a horizontal deflection coil of a cathode ray tube, a differentiation circuit for detecting a primary differential waveform of a video signal, and an amplification circuit for amplifying the output of the differentiation circuit. , A video for improving the contrast of the video image contour by superimposing the magnetic field generated by the auxiliary deflection coil on the horizontal deflection magnetic field generated by the horizontal deflection coil by supplying the output current of the amplifier circuit to the auxiliary deflection coil. In a contour correction device for an image, when a signal such as a character or a graphic is superimposed and displayed on a video image, an image correction stop signal corresponding to a portion of the signal such as the character or the graphic superimposed and displayed on the video image is input, An image correction stop circuit that short-circuits the output current of the amplifier circuit only during the time corresponding to this input image correction stop signal is provided. Stopping the outline correction only the image peripheral portion of the portion to be displayed over the contour correction apparatus of a video image, characterized in.