JP2754542B2 - Video signal processing circuit - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a video signal processing circuit suitable for recording on a video tape recorder (VTR). [Summary of the Invention] The present invention performs contour correction suitable for each recording format by switching the contour correction characteristics of video signals recorded on a VTR having a plurality of recording formats according to the recording format. is there. [Prior art] Conventionally, a video signal obtained from a television camera is
When recording in R, the contour signal for contour correction of the luminance signal has its center frequency fixed at a specific frequency determined by the image sensor, and even when added to the luminance signal, the inversion of the electromagnetic conversion system by the white peak value The amplitude is set so that the phenomenon does not occur. [Problems to be Solved by the Invention] In the conventional VTR, the frequency band of the reproduced luminance signal is set to, for example, 3 MHz so that the reproduced luminance signal does not overlap with the reproduced carrier chrominance signal. In this case, the horizontal resolution of the reproduced video is, for example, about 240 lines. On the other hand, with the development of video technology, improvement in the definition of reproduced images is also required in the field of VTR. To address this, in the recording system, by setting the carrier frequency of the FM modulator higher than before, for example,
Extend the frequency band of the luminance signal to 5-6MHz, for example
It is possible to achieve a horizontal resolution of 400-500 lines,
Recently, VTRs having two types of recording formats, wideband and narrowband, have come to be marketed. However, a recording format in which the frequency band of the reproduced luminance signal is narrow cannot support a contour signal having a high center frequency. On the other hand, even if contour correction with a low center frequency is performed in a recording format in which the frequency band of the reproduced luminance signal is wide, only a reproduced image similar to that obtained in the narrow band recording format can be obtained. As described above, if the center frequency of the contour signal is fixed, there is a problem that a plurality of recording formats cannot be effectively handled. Further, among a plurality of recording formats, the margin for the reversal phenomenon of the electromagnetic conversion system differs for each format.
In the format having a large inversion margin, the frequency transition of the FM luminance signal is moderately restricted, and white-side contour correction can be performed up to, for example, a level of 115%. on the other hand,
In a format with a small inversion margin, the frequency transition of the FM luminance signal is severely restricted, and white-side contour correction can be performed only up to, for example, a level of 105%. As described above, if the amplitude of the contour signal is also fixed to a specific value, there is a problem that a plurality of recording formats cannot be supported. In view of the above, an object of the present invention is to provide a video signal processing circuit capable of performing contour correction suitable for a plurality of VTR recording formats. [Means for Solving the Problems] According to the present invention, when a video signal is recorded by adding a predetermined contour signal to a tape recorder having a plurality of recording formats, contours having optimum characteristics are provided for each of the recording formats. Contour signal forming circuit (1
0) and (40), and these contour signal forming circuits (10) and (4)
0) according to the above recording format (switch (3
3)) A video signal processing circuit characterized in that an edge signal having optimum characteristics according to the recording format is added to the video signal to be recorded. [Operation] According to the present invention, contour correction suitable for each recording format of the VTR is performed. [Embodiment] Hereinafter, an embodiment of a video signal processing circuit according to the present invention will be described with reference to FIG. 1 and FIG. FIG. 1 shows the configuration of an embodiment of the present invention. In FIG. 1, a luminance signal Y and a carrier chrominance signal C are supplied to a pair of input terminals (1) and (2), respectively, and the carrier chrominance signal C is output to an output terminal (4) via a delay line (5). Then, together with the luminance signal derived from the signal processing circuit (6) to the output terminal (3), the frequency band of the reproduced luminance signal is supplied to a VTR (9) having, for example, two recording formats of 3 MHz and 5 MHz, respectively. You. A pedestal signal and a synchronization signal are supplied to the signal processing circuit (6) from terminals (7) and (8). (10) is a contour signal forming circuit, and an input terminal (1)
From the input terminal (11) and the drive amplifier (1
2) and a matching resistor (13), which is supplied to a delay line (14). The output of the delay line (14) is supplied to a video signal output terminal (16) via an amplifier (15) having a high input resistance. Is derived. An input terminal and an output terminal of the delay line (14) are respectively connected to an inverting input terminal and a non-inverting input terminal of the operational amplifier (17), and an output of the operational amplifier (17) is a contour signal output terminal (18).
Is derived. The delay line (14) is, for example, 0.18 μs
Has a delay time τ ₁ . (20) is a contour signal control circuit. The output of the operational amplifier (17) of the contour signal forming circuit (10) is connected to an input terminal (21).
, For example, are commonly supplied to amplifiers (22) and (23) having gains of [1] and [1/2], respectively. The output of the amplifier (22) is supplied to a subtractor (24), and the output of the amplifier (23)
Is supplied to the subtractor (24) through the movable contact and the m-side fixed contact of the switch (25). N of the switch (25)
The side fixed contact is not connected, and the switch (25) is switched by a control signal from the terminal (26). The output of the subtracter (24) is led to an output terminal (28) via a gain control amplifier (27). The gain of the amplifier (27) is controlled by a variable resistor (29). In the adder (31), the luminance signal from the output terminal (16) of the contour signal forming circuit (10) and the contour signal control circuit (2
0) are added, and the output of the adder (31) is supplied to the nl side fixed contact of the changeover switch (33). A clamp circuit is appropriately inserted in each of the contour signal forming circuit (10) and the contour signal control circuit (20), but is not shown for simplicity. Second contour signal generation circuit (40), since except that the delay time tau ₂ of the delay line (44) such as 0.12Myuesu, is configured similarly to the contour signal forming circuit (10), Corresponding parts are denoted by the same reference numerals and will not be described in detail. The second contour signal control circuit (50) has exactly the same configuration as the first contour signal control circuit (20), and a detailed description is also omitted. In the adder (32), the luminance signal from the output terminal (46) of the contour signal forming circuit (40) and the contour signal control circuit (5
0) and the output of the adder (32) is supplied to the w-side fixed contact of the changeover switch (33). The output of the switch (33) is supplied to a signal processing circuit (6), and its amplitude is adjusted. The white clip level of the signal processing circuit (6) is set to, for example, 120%. The switching control signal from the switching control circuit (34) is supplied to the delay line (5) and the switching switch (33), and the terminals (26) and (56) of the two contour signal control circuits (20) and (50) are supplied. ). Next, the operation of the embodiment of FIG. 1 will be described with reference to FIG. When a video signal is recorded on the VTR (9) according to the narrow-band recording format, the changeover switch (33) is set to the connected state shown in FIG. When recording, the changeover switch (33) is switched to the connection state opposite to that shown in the figure. In this case, simultaneously with the switching of the switch (33), the delay time of the delay line (5) is switched to τ _nl or τ _w . When recording is performed in a recording format with a small reversal margin, the contour signal control circuits (20) and (50)
The changeover switches (25) and (55) of the
4) By the control signal from 4), the connection state shown
When recording is performed in a recording format having a large reversal margin, the changeover switches (25) and (55) are switched to the connection states opposite to those illustrated. As shown in FIG. 2A, when a pulse-shaped luminance signal having a steep rising and falling is supplied to the input terminal (1), the output terminal of the delay line (14) becomes as shown in FIG. Then, a luminance signal delayed by τ ₁ hour is obtained. Further, since the amplifier (15) and the operational amplifier (17) have high input resistance, reflection of the luminance signal occurs at the output terminal of the delay line (14). )
Through, it delayed further tau ₁ hour, reaches its input.
In the operational amplifier (17), a difference component of each signal of the output terminal and the input terminal of the delay line (14) is obtained.
This difference component is nothing but a contour signal. The difference component signal is appropriately amplified in the operational amplifier (17), and the white (positive) side and the black (negative) are output from the amplifier (17) as shown in FIG.
A contour signal having the same amplitude on each side is output. Both amplifiers (22) and (23) of the contour signal control circuit (20)
The contour signal is supplied in common to the amplifier (23)
Is a contour signal whose amplitude is reduced by half as shown in FIG. 2D. When the switch (25) is in the connection state shown in the drawing, the half-decreased contour signal is subtracted from the contour signal in the subtractor (24), and the contours having different amplitudes on the white side and the black side as shown in FIG. A signal is obtained. Switch (2
When 5) is in the opposite connection state as shown, the subtractor (24)
Is a contour signal having the same amplitude in black and white. On the other hand, in the second contour signal forming circuit (40), the delay time tau ₂ of the delay line (44), the first contour signal forming circuit delay line (10) and the delay time tau ₁ (14) During, τ
_1> because of the tau ₂ relationship, as shown in FIG. 2 F, narrow contour signal monochrome such amplitude is formed. Also, in the second contour signal control circuit (50), when the switch (55) is connected in the opposite direction as shown, a narrow contour signal of equal amplitude in black and white is obtained. , A narrow outline signal having different black and white amplitudes as shown in FIG. Τ ₁ by the delay line (14) of the contour signal forming circuit (10)
The luminance signal as shown in FIG. 2H delayed by the time and the contour signal or the contour signal as shown in FIG. 2C or 2E from the contour signal control circuit (20) are added in the adding circuit (31). Then, when the switch (25) is connected in the opposite direction to that shown in the figure, as shown in FIG. J, a luminance signal whose outline is corrected by the same amount on the white side and the black side is obtained, and the switch (25) is turned on. When the connection is made as shown in the figure, as shown in FIG. 29K, a luminance signal whose outline is corrected with less white and more black is obtained. Τ ₂ by the delay line (44) of the contour signal forming circuit (40)
The luminance signal as shown in FIG. 2H, which is delayed by the time, and the contour signal or the contour signal as shown in F or G from the contour signal control circuit (50) are added in the adder circuit (32). When the switch (55) is connected in the opposite direction to that shown in the figure, as shown in FIG. L, a luminance signal whose white side and black side have each been narrowed by the same amount is obtained, and the switch (55) is obtained. ) Are connected as shown in the figure, and as shown in FIG. M, a luminance signal whose outline is corrected to be narrower with less white side and more black side is obtained. In the embodiment shown in FIG. 1, the pulse width corresponding to the center frequency of the contour signal and the white and black sides are determined according to the width and width of the frequency band of the recording format and the size of the inversion margin. Since the amplitude and the amplitude are switched, optimum contour correction can be performed for each recording format. In the embodiment of FIG. 1, the amplitudes of the white and black sides of the contour signal are changed by an equal amount.
Both may be changed, or only the white side may be changed. Further, in the above-described embodiment, the contour correction characteristics are switched in comparison with the frequency bands and the inversion margins of the two recording formats, but three or more recording formats may be used. Further, for example, when the running speed of the magnetic tape, that is, the recording track width is different, such as in the standard mode and the long time mode of the 8 mm VTR, the S / S of the reproduction signal accompanying the mode switching is changed.
The contour correction characteristic can be switched according to N. [Effects of the Invention] As described above in detail, according to the present invention, the contour correction characteristic of the video signal recorded on the VTR having a plurality of recording formats is switched according to the recording format. A video signal processing circuit capable of performing suitable contour correction is obtained.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing the configuration of one embodiment of a video signal processing circuit according to the present invention, and FIG. 2 is a waveform diagram for explaining the operation of one embodiment of the present invention. . (9) is a VTR, (10) and (40) are contour signal forming circuits, (2)
(0) and (50) are contour signal control circuits, and (34) is a switching control circuit.

Claims (1)

(57) [Claims] When recording a video signal by adding a predetermined contour signal to a tape recorder having a plurality of recording formats, a contour signal forming circuit for forming a contour signal having optimum characteristics for each recording format is provided. A video signal processing circuit, wherein a signal forming circuit is selected according to the recording format, and a contour signal having optimum characteristics according to the recording format is added to the video signal to be recorded.