DE4233356A1 - VTR for PAL-Plus signal recording and reproduction - performs two-layer magnetic dual-head recordings of VHS signal and of further carrier frequency-modulated with helper signal - Google Patents

Abstract

The VHS signal recorded by a first magnetic head (K1) is black-level-sampled within the duration of the so-called helper signal. The colour carrier (F) modulated with the helper signal is frequency-modulated (7) on to another carrier (THS) which is then band-pass filtered (8) and recorded by a second magnetic head (K2), after addn. (10) of two sound carriers (T1,T2), at a different depth in the magnetic coating of the tape (T). ADVANTAGE - The complete 16:9 format PAL-Plus video signal including helper signal can be recorded without visible noise occurring in black horizontal bands along upper and lower edges of picture.

Description

The invention is based on a video recorder for a PAL Plus signal according to the preamble of claim 1.

When displaying a PAL plus signal with one format 16: 9 on a 3: 4 format screen is created at the top and a horizontal black bar at the bottom of the picture with a total height of 144 lines. During these lines is the helper signal mentioned that is in a 16: 9 receiver to restore a high quality image with full Number of lines is used in the signal. This signal can ever protrude into the BA area of the signal according to the picture content and generate visible faults within the black bars gene.

The invention has for its object a videore training for a PAL plus signal so that one on the one hand the complete PAL plus signal including helper signal can be recorded, but on the other hand no visible ones within the black bars mentioned Disturbances occur.

This object is achieved by the inven in claim 1 solved. Advantageous developments of the invention are specified in the subclaims.

In the invention, therefore, the helper signal is on drawing of the VHS signal in the lower magnetic layer a black keying or gray keying completely eliminated. When playing the taken from a first magnetic head NEN VHS signal can thus disturbances within the black zen bars no longer occur. That in the VHS signal elimi ned helper signal is meanwhile with a second magnet head recorded in the top layer of the magnetic tape and stands for high-quality PAL Plus playback 16: 9 aspect ratio and full number of lines available. Here  the VHS signal with the first magnetic head in a lower ren layer of the magnetic tape recorded. The Knowledge exploited that the available recording tape width of the lower magnetic layer, due to the larger Gap width of the head, although less than the available Recording bandwidth in the upper magnetic layer, however sufficient to record a normal VHS signal. This allows the upper magnetic layer, which because of the small ren gap width of the magnetic head a larger available has drawing bandwidth, advantageously for one high quality recording of the helper signal can be used.

The invention has several advantages. First with a pure VHS playback by elimination of the helper signal interference in the black bars with Si security avoided. On the other hand, however, is the helper signal available for PAL Plus playback with 16: 9 aspect ratio, so that the recorder can display 16: 9 and full number of lines enabled. It is advantageous that the first magnetic head for the VHS signal with the lower Ma gnet layer due to its larger gap width with the Helper signal modulated carrier in the upper magnetic layer cannot read and is therefore not disturbed by it becomes. In addition, the frequency ranges of the VHS signal are in the lower magnetic layer and the helper signal in the upper magnetic layer essentially in an upper region half 1.5-2 MHz. In this frequency range the is through the different azimuth angles of the two heads of the bottom ren and upper magnetic layer effective azimuth damping sam. If e.g. B. the heads for recording the VHS-Si gnals in the lower magnetic layer an azimuth angle of +60 and the heads for recording the helper signal in the upper magnetic layer has an azimuth angle of ± 30 °, is also a crosstalk between due to the azimuth damping largely avoid the signals from the two magnetic layers the. Below the frequency range of the Helpersi gnal modulated carrier in the upper magnetic layer  additionally frequency-modulated sound carriers with sound signals be drawn. The recorder according to the invention enables So the separate recording and separate evaluation of a total of four signals, namely the one with the luminance si gnal frequency-modulated image carrier and in frequency degraded color under color carrier in the lower magnet layer and the additional modulated with the helper signal chen carrier as well as further sound carrier in the upper magnet layer. For the helper signal there is a particularly high interference distance reached. This is because on the one hand for the Helper signal a large frequency range is available and thus a large frequency swing is possible and others on the one hand, the recording with full amplitude that can. Compared to previous helpersign records As a result, the signal-to-noise ratio can be increased by a factor of about 4 become.

The invention is explained below with reference to the drawing tert. Show in it

Fig. 1 is a block diagram for the inventive At takeover,

Fig. 2 frequency spectra of the recorded signals,

Fig. 3-4 a development of the invention and

Fig. 5-7 an embodiment of a development of the invention.

In Fig. 1, the CVBS signal at terminal 1 with the comb filter 2 is separated into the light density signal Y and the color carrier F. Y is modulated in the EM modulator 3 an image carrier BT in frequency modulation, which reaches the adding stage 4 . The color carrier F with the frequency f1 of 4.43 MHz is converted in the frequency converter 5 to a lower frequency f2 of 626 kHz. The resulting modified color carrier Fm, also called color-under carrier, also arrives at adding stage 4 . The output signal of the adder 4 , that is BT + Fm, passes through the switch 6 in the position shown to the first magnetic head K1 with a gap width of 0.9 μm and is recorded there on the magnetic tape T. In practice, two magnetic heads K1 are arranged on a rotating head drum.

The color carrier F also reaches the FN modulator 7 , which generates a carrier THS frequency-modulated with F. The water carrier is evaluated with the bandpass 8 and the scarf ter 9 fed. The output of the switch 9 is connected to the input of the adder 10 , which is also supplied with two frequency-modulated sound carriers T1, T2 with sound signals. The output signal of the adder 10 reaches the second magnetic head K2 with a gap width of 0.2 μm and is recorded on the same tracks as the signal of the magnetic head K1 on the magnetic tape T.

With reference to FIG. 2, the following explains how the actual VHS signal and the helper signal are recorded. During the duration of the actual VHS signal without a helper signal, that is to say about 432 lines of an image, the switches 6, 9 are in the upper position. The VHS signal of these 432 lines is then recorded in a known manner with K1. The input of the adder 10 is grounded to the switch 9 , since a helpersi signal is not present during these lines. The sound carriers T1, T2 are recorded during this time with K2. The recording with K1 takes place with an azimuth angle Ai of ± 6 °.

During the 144 lines with the helper signal, which write black bars at the top and bottom of the picture, switches 6 and 9 have been switched to the lower position. The signal supplied to the magnetic head K1 is now keyed to a black or gray value, so that no signal is recorded with K1 during these lines. Instead, now the carrier THS which is frequency-modulated with the color carrier F modulated by the helper signal, in accordance with FIG. 2a, is added to the adder 10 and is thus recorded together with T1 and T2 with K2 in the upper magnetic layer S1. The color carrier F modulated onto the carrier THS and in turn modulated with the helper signal has a frequency deviation H1 of ± 1.2 MHz, while the carrier THS modulated with the color carrier has a frequency deviation H2 of 3.6 MHz (6.4 MHz - 10. 0 MHz). The entire frequency spectrum of the carrier THS modulated with the helper signal extends from 2.3 to 12 MHz. The recording with K2 takes place with an azimuth angle A2 of ± 30 °.

During playback, the signals recorded in this way recovered separately and without mutual interference become. The head K1 then supplies the signal BT + Fm for one pure VHS playback with 432 lines, e.g. B. for a picture with the format 16: 9 on a screen with the format 4: 3. The helper signal also recorded causes in the black bars no interference because this signal with K2 is recorded only in the upper magnetic layer S1 and from not the head K1 with the larger gap width of 0.9 µm is read. The two sound carriers T1, T2 are included K2 read from the upper magnetic layer S1 and stand for the sound reproduction is available.

During the 144 lines, the carrier THS can be scanned from the tape T with K2. By a demodulation adapted to the modulator 7 , the color carrier F modulated with the helper signal is then recovered. By demodulating the color carrier F, the helper signal can be recovered to generate a high-quality 16: 9 image with a full number of lines.

Fig. 3 represents a development of the invention. The switches 6 and 9 have been replaced by the image signal Austaststufen 16 , 19th The waveform changes in the way that the color carrier F with the frequency F1 of 4.43 MHz is converted in the frequency converter 5 to a lower frequency F2 of 627 kHz. This results in the modified color carrier Fm, also called color under carrier, which also reaches the adder stage 4 via the image signal blanking stage 16 . The output signal of the adder stage 4 , ie BT + Fm, reaches the first magnetic head K1 with the gap width of 0.35 μm and is recorded there on the magnetic tape T.

The color carrier F also passes through the image signal blanking stage 19 to the FM modulator 7 , which is carried out with an F freguenzmo-modulated carrier THS. This carrier is evaluated with the bandpass filter 8 and is connected to the input of the adder stage 10 , which is also supplied with two frequency carriers T1, T2 with frequency signals. The output signal from the adder 10 arrives at the second magnetic head K2 with a gap width of approximately 0.25 μm and is recorded on the same tracks as the signal of the magnetic head K1 on the magnetic tape T with reference to FIG. 4 will be explained below which the actual VHS signal and the helper signal are recorded. During the duration of the actual VHS signal without a helper signal, ie during approximately 432 lines of an image, the blanking stage 16 is out of operation and the blanking stage 19 is in operation. The VHS signal of these 432 lines is then recorded in known manner with K1. The input signal of the adder stage 10 is switched off via the image blanking stage 19 , since a helper signal is not present during this line. During this time, the sound carriers T1, T2 are recorded with K2. The recording with K1 takes place with an azimuth angle A1 of ± 6 °.

During the 144 lines with the helper signal, which write black bars at the top and bottom of the screen, the blanking stage 16 is effective, while the blanking stage 19 passes all image content signals. It now reaches the carrier THS which is frequency-modulated with the color carrier F modulated by the helper signal, as shown in FIG. 4a, on the additive stage 10 and is thus recorded together with T1 and T2 with K2 in the upper magnetic layer S1. The modulated on the carrier THS, in turn with the helper signal modulated te color carrier F has a frequency deviation H1 of ± 1.2 MHz. The carrier THS has a frequency swing H2 of 3.6 MHz. The entire frequency spectrum of the carrier THS modulated with the helper signal extends from 2.3-12 MHz. The recording with K2 takes place with an azimuth angle A2 of ± 30 °. As is the case as described under Fig. 2, only that the gap width is not 0.9 µm but 0.35 µm.

In a development of the invention, the image carrier and the color-under ink carrier in a normal track over the entire depth of the magnetic layer and a sound carrier and the with color carriers modulated within the helper signal Track recorded along a narrow track, its width is smaller than that of the normal gauge and also over extends the entire depth of the magnetic layer. The video heads this modified VHS recorder in this case same head gap width of about 0.3 µm, otherwise unchanged have the same properties, for the same magnetization to be able to reach stripes. With a correspondingly modifi graced VHS recorders would also need both video heads same head gap widths of about 0.25 µm. In the narrow Track can be added during the first group of lines the sound carriers are recorded a color carrier, for. B. the Original PAL color carrier or the frequency reduced te color-under carriers each by frequency modulation another carrier.

This type of recording has the following advantages: There is a good separation between the video signal including color-under carrier the Ton- and Helpersi gnal. The sound carrier and the helper signal can be separated drawn-erased and erased by a new record be set because the narrow track in the wide normal track is stamped in a way. This type of recording is also known as "track trenching". The helper signal will not be at a different depth of the magnetic layer but over part of the normal gauge over the entire depth  of the magnetic layer. Compatibility with egg The usual VHS recorder or S-VHS recorder remains full receive. The video head of the VHS recorder scans the entire one Width of the standard track and thus the modulated image carrier and the color-under carrier. The head feels it too narrow track in the middle of the normal track. This gives but no interference because this narrow track with one other azimuth angle is recorded. The tape heads of one HiFi recorders, however, scan the narrow track and lie thereby distant the recorded media there. Furthermore it is achieved that the recorded in the narrow track Helper signal in the desired way in that of the normal gauge sampled signal does not appear and therefore in the bar No interference occurs above and below the image. In that the recordings are recorded in the narrow track net, the sound carrier can optionally by a digi tal audio DAT carrier to be replaced. This training the invention is particularly for an S-VHS recorder reversible. Overall, this type of recording results good use of the tape. Overall, with sufficient decoupling and separate evaluation option following signals recorded along a track: The with the video signal frequency-modulated image carrier, which in the Frequency-reduced color under color carriers with Tonsi signal frequency modulated sound carrier, the helper signal for the 2 × 72 lines and an additional FM color carrier with increased quality.

This further development will be explained with reference to FIGS . 5 to 7. According to Fig. 5, is first recorded with the head K1 across the width of the standard gauge Sn of the image carrier BT and the color under color carrier Fm on the magnetic tape T, which passes in the direction 15 on the heads. Then the narrow track Ss is also written over the entire depth of the magnetic layer with the head K2, which has a gap length of 19 μm, approximately in the middle of the normal track Sn. In this narrow track Ss are recorded two sound carriers T1, T2 frequency-modulated with sound signals and the carrier THS modulated with the helper signal. THS is recorded during the 2 × 72 lines. A color carrier can also be recorded during the 432 lines.

Fig. 6 shows the arrangement of the heads K1 and K2 on the head drum 16th The heads have an angular offset of 4.583 ° corresponding to 8 lines H.

Fig. 7a shows the frequency spectrum of the recorded microns head K1 in the normal track Sn having a width of 49 th signal. Fig. 7b shows the signal recorded with the head K2 during the 432 lines in the narrow track SS. An ink ribbon is recorded, which is with the. Original PAL color carrier is frequency modulated. This recording has the advantage that, due to the frequency modulation, amplitude fluctuations that can cause interference when recording the color-under carrier according to FIG. 7a are switched off.

Fig. 7c shows a variant of Fig. 7b. One of the col color-under color carriers is recorded by frequency modulation of a carrier. Fig. 5d shows the frequency spectrum of the currency rend 144 lines head K2 in the narrow track Ss recorded signal. The signal again contains the frequency-modulated sound carrier T1, T2 and the carrier signal modulated with the helper signal HS.

The recording in the normal track Sn is preferably carried out with an azimuth angle of ± 6 ° and the recording in the narrow track Ss with an azimuth angle of ± 30 °. Through the This different azimuth angle becomes a sufficient ent coupling between the signals of the two tracks reached. In particular, it is ensured that the head K1 for the wide normal track Sn the signal in the narrow track Ss in can practically not read. The amplitude of the helper signal THS in the narrow track Ss is preferred point to one during the second group of 144 lines  larger or the maximum control range raised. There this can improve the signal-to-noise ratio the. This is possible because the narrow track Ss over the extends the entire depth of the magnetic layer and therefore with full Level can be recorded. The recorder preferably has two In addition to the usual F-BAS output, a second F- BAS output, which was an F-BAS signal without the helper signal finished. This signal is then used for image reproduction black bars above and below the picture without visible interference from the helper signal possible.

Claims (14)

1. Video recorder for a PAL-Plus signal, which in the course of a vertical period during a first group of lines, the VHS signal with the modulated by the luminance signal image carrier and your color under color carrier and in a second group of lines with the Hel persignal modulated color carrier contains, characterized by the following features:

• a) the VHS signal fed to a first magnetic head (K1) is keyed to a constant black or gray value during the second group of lines and recorded in a lower magnetic layer (′ 32 ),
• b) the color carrier (F) modulated with the helper signal (HS) is modulated onto a carrier (THS) in FM and recorded in an upper magnetic layer (S1) during the second group of lines with a second magnetic head (K2).

2. Recorder according to claim 1, characterized in that the gap width of the first magnetic head (K1) is approximately 0.9 µm and the gap width of the second magnetic head (K2) is about 0.2 µm. 3. Recorder according to claim 1, characterized in that the azimuth angle (A1) of the first magnetic head (K1) approximately ± 6 ° and the azimuth angle (A2) of the second magnetic head (K2) is approximately ± 30 °. 4. Recorder according to claim 1, characterized in that with the second magnetic head (K2) below the frequency area of the carrier modulated with the helper signal (THS) additively frequency-modulated soundtracks with sound signals ger (T1, T2) are recorded.   5. Recorder according to claim 1, characterized in that the image carrier (BT) and the color-under-color carrier (Fm) in a normal track over the entire depth of the magnet layer and a sound carrier (T1, T2) and with the Hel persignal modulated color carriers (THS) are recorded within the same track along a narrow track (Ss), the width of which is smaller than that of the normal track and which also extends over the entire depth of the magnetic layer ( FIG. 3). 6. Recorder according to claim 5, characterized in that in the narrow track during the first group of lines ( 432 ) additionally a modulated with the color difference signals color carrier ( Fig. 5b, c) is recorded. 7. Recorder according to claim 6, characterized in that the color carrier of the original PAL color carrier ( Fig. 5b) or the frequency-reduced color-under-color carrier (Fm, Fig. 5c), each by FM of a carrier to be recorded. 8. Recorder according to claim 5, characterized in that the narrow track (Ss) has a width of approximately 19 µm. 9. Recorder according to claim 5, characterized in that the recording in the normal track (Sn) with an Azi Mutual angle of ± 6 ° and the recording in the narrow Track (Ss) with an azimuth angle of ± 30 °. 10. Recorder according to claim 5, characterized in that the amplitude of the helper signal during the second Group of rows on a larger or the maximum The control range is raised.   11. Recorder according to claim 5, characterized in that the recorder has a second CVBS output that provides a composite signal without the helper signal. 12. Recorder according to claim 1, characterized in that the gap width of the first magnetic head (K1) is approximately 0.35 µm and the gap width of the second magnetic head (K2) is about 0.25 µm for VHS deeplayer operation. 13. Recorder according to claim 1, characterized in that both heads have the same gap width of 0.3 µm track trenching process for VHS operation and / or both heads with a gap width of 0.25 µm ha ben with S-VHS operation. 14. Recorder according to claim 5, characterized in that helper signal modulated in the recorder-side FM In addition, a recorder's own identification signal is recorded with the help of which a later connected PAL Plus TV set can be said that again given PALplus-Signsl from a video recorder with syn chronization disorders comes.