DE3307014C2 - - Google Patents

Description

For video recorders based on the VHS, Betamax and Video systems 2000, the luminance signal Y is an image carrier in Fre modulation and in this form together with the modulated ink carrier and possibly one or more mod gelled sound carriers on inclined tracks of a magnetic tape draws. A video recorder has the luminance signal not the full standardized bandwidth of 5 MHz, but one limited, among other things, by the characteristic of the video head Bandwidth in the order of 3 MHz. Through this be the bandwidth is limited, the sharpness in horizontal direction tung reduced.

To increase the image sharpness, it is state of the art (older right, unpublished DE 31 40 761 A1), in one VCR when recording or playing back circuits to increase image sharpness, so-called crispening Circuits to provide. With such circuits is before preferably the luminance signal by double diffs Correction signal obtained from the luminance signal added. This results in a steepening of the edges im again  given image which is a higher nonexistent Pretends bandwidth. Known circuits of this type have the disadvantage that the noise during playback increases. There is also a one-sided steepening large jumps in the luminance signal that the on effective FM modulation with preemphasis no longer can process properly.

The invention has for its object such Train the correction circuit so that the resulting Noise component is reduced and the image increases sharpness for small and large jumps alike is perfectly effective in the luminance signal.

This object is achieved by the one described in claim 1 Invention solved. Advantageous developments of the invention are described in the subclaims.

In the invention, small jumps in the light are deliberately density signal is taken into account more than large jumps. There is achieved by that the sharpness increase in the Large number of small signal jumps occurring in the picture is effective, while none of the larger signal jumps undesirably high voltage peaks in the corrected light density signal occur. The invention is general reversible when recording a luminance signal, So especially with commercially available video recorders and also with turntables, where also that Luminance signal by frequency modulation of an image carrier is distinguished. The invention also the signal-to-noise ratio compared to known ones Circuits increased by approx. 3 dB.

An embodiment of the invention is based on the Drawing explained. It shows

Fig. 1 is a block diagram for the inventive recording,

Fig. 2 shows the characteristic of the amplitude distortion according to the invention and

Fig. 3 shows the luminance signal for a known and for the correction circuit according to the invention.

In Fig. 1, the luminance signal Y is supplied via the delay element 2 and the linear amplifier 3 of the adder 4 . The luminance signal Y also passes through the amplitude distorter 5 with a pass characteristic according to the equation y = √ to two differentiating stages 6, 7 connected in series. The correction signal 8 obtained by two differentiations is added to the illuminated signal Y in the adder 4 . The corrected in the sense of an increase in sharpness luminance signal Y 'is modulated in the FM modulator 9, an image carrier, which is recorded with the video head 10 on the magnetic tape 11 . Signals that have been recorded further, such as a quadrature modulated color carrier and possibly one or more modulated sound carriers, are not shown for the sake of simplicity. The delay element 2 serves to introduce a delay in the path of the signal Y via the stages 2, 3 , which corresponds to the delay in the narrow-band path 5, 6, 7 , so that the signal Y and the correction signal 8 at the inputs of the adder 4 have the correct timing and phase relationship to each other.

Fig. 2 shows the transfer characteristic of the amplitude distorter 12. 5 The characteristic curve 12 corresponds to the function y = √. The characteristic curve 12 deviates from the linear transmission characteristic curve 13 , as it has the path 2, 3 , so that small signal amplitudes in the range 0 <1 <x are amplified proportionally, while in the range 1 <x <3, a disproportionate gain takes place finds. By means of this characteristic curve 12 , signals with small amplitudes are preferred in the correction path 5, 6, 7 , so that the correction voltage 8 becomes fully effective in the desired manner with the large number of small signal jumps. With larger signal jumps, however, a reduced correction is carried out in the desired manner, so that undesirably high voltage jumps in the signal Y 'are avoided. The value x = 0 corresponds to the black value and the value x = 3 to the white value of the luminance signal Y. In order to ensure the correct assignment of the amplitudes of the luminance signal Y to the characteristic curve 12 , the signal Y is preferred before being fed to the amplitude equalizer 5 clamped to its black level, ie during the back porch at the beginning of each line at the voltage value corresponding to x = 0 in the characteristic curve of the distortion 5 .

Fig. 3a shows the uncorrected Y signal at the terminal 1 together with the line sync pulses Z.

Fig. 3b shows a corrected signal Y ', as is produced by a known circuit with the addition of a correction signal obtained by double differentiation. This signal has undesirably high voltage jumps 14 , which have a disruptive effect on frequency modulation in the modulator 9 . If the signal Y according to Fig. 3a z. B. has a peak-to-peak amplitude of 1 V, the signal according to FIG. 3b undesirably has a peak-to-peak amplitude of 3 V.

Fig. 3c shows the corrected signal Y 'generated by the circuit according to the invention. This signal no longer has the undesirably high voltage jumps 14 shown in FIG. 3b with large signal jumps in the signal Y. With the small signal jumps 15 , however, the desired increase in the edges shown compared to the signal Y occurs, which is a clearly visible increase in image reproduction the image sharpness.

Claims (2)

1. A circuit for increasing the picture sharpness in a VCR, the luminance signal (Y) is added to a ge by double differentiation wonnenes correction signal (8) in which in the recording, characterized in that the light signal (Y) the differentiation stages (6, 7 ) is supplied via an amplitude distorter ( 5 ), which has a disproportionate transmission characteristic ( 12 ) for small amplitudes of the luminance signal (Y) and a disproportionately large transmission amplitude ( 12 ) for the luminance signal (Y), and that the transmission characteristic ( 12 ) has the function y = √ corresponds. 2. Circuit according to claim 1, characterized in that the distortion ( 5 ) supplied luminance signal (Y) is clamped to the black level.