DE4027388A1 - VIDEO RECORDER FOR A TV WITH AN ADDITIONAL SIGNAL - Google Patents

Abstract

The aim of the invention is to record, using a VHS video recorder, not only the main but also the auxiliary signal for high-definition TV reproduction. The auxiliary signal (Z) is recorded using second magnetic heads (K2) with a greater gap separation than that of first magnetic heads (K1) in a second magnetic layer (S2) lying under the first magnetic layer (S1). The invention is intended for use in S-VHS video recorders with high-definition TV recording facilities.

Description

The invention relates to a video recorder according to the Preamble of claim 1.

For the compatible introduction of a 16: 9 widescreen format in existing television standards (eg PAL, SECAM, NTSC) with The format 4: 3 is the so-called "letterbox" - method applied. To display a 16: 9 picture on a 4: 3 Receivers are displayed only 431 lines, while the remaining 144 active lines as black stripes with each 72 lines appear at the top and bottom of the screen.

For the representation of a high-quality 16: 9 picture it is known to transmit additional signals during the 144 lines. So that these signals are not visible in the 4: 3 receiver, is the area between the black for the additional signals level and the half sync pulse height, the so-called Ul exploited.

When recording such a signal with Zusatzsi gnals with a standard VHS video recorder go the extra Signals lost because the recorder for recording ei Such a signal in the ultra-black range is not suitable is. On the other hand, but the additional signal for the Wieder  Give a true 16: 9 image with high quality entspre HDTV is needed.

The invention is based on the object in a conventional Video recorder next to the recording of the usual Fernsehsi gnals for a 4: 3 playback additionally the recording the additional signals for 16: 9 playback with high signal quality to enable it.

This object is achieved by the in claim 1 Erfin solved. Advantageous developments of the invention are specified in the dependent claims.

The invention is based on the following consideration. The record tion in the lower-lying magnetic layer with heads size gap width is on S-VHS recorders or VHS recorders using a S-VHS magnetic tape with only one clam Greater bandwidth of about 100 kHz to 4.7 MHz possible. These Bandwidth, however, is for the auxiliary signal for 16: 9 picture as sufficient. Preferably, the recording takes place the additional signal in the form of a quadra with the additional signal turmodulierten carrier, in particular a color carrier with the PAL color subcarrier frequency. By recording the egg 4: 3 natural signal on the one hand and the additional signal ande on the other hand, in separate depths of the magnetic tape is a perfect separation between these signals. at the playback is thus the CVBS signal from the additional signal freed, so that by the additional signal in the television receiver with 4: 3 format no synchronization problems can occur. For a TV receiver or monitor with 16: 9 picture tube becomes the 4: 3 signal from the upper magnetic layer with the Zu set signal from the underlying, deeper magnetic layer combined.

The invention will be described below with reference to the drawings play for recording and playback explained. therein demonstrate

Fig. 1 is a block diagram for the recording,

Fig. 2 in principle the recording in two magnetic layers and

Fig. 3 is a block diagram for playback.

In the following description have the symbols used following expressions and values:

fH = Line frequency 15.625 kHz f1 = Frequency of the modulated PAL color carrier 4.43361875 MHz f2 = Frequency of the recorded PAL color carrier f3 = Frequency of a mixed carrier with 550 * fH = 8.593750 MHz f4 = Frequency of the Z-modulated recorded carrier of 4.16013125 MHz F = modulated PAL color carrier with f1 fm = frequency-reduced, recorded color carrier with f2 M = Mixed carrier with f3 T 1 = Frequency modulated sound carrier for L 1.4 MHz T 2 = Frequency modulated sound carrier for R 1.8 MHz T 1 m = frequency-reduced, recorded sound carrier T 1 at 0.4 MHz T 2 m = frequency-reduced, recorded sound carrier T 2 at 0.8 MHz Z = Additional signal for HDTV playback

Fig. 1 shows a circuit for recording for various ne operating modes, which are explained below in succession.

First operating mode with recording of the additional signal

All switches shown are in the extended position shown. The FBAS signal at terminal 1 is split with the comb filter 2 into the signal Y + Z and the modulated color carrier F. Y + Z passes through the low-pass filter 3 with a cutoff frequency of 6 MHz to the blanking stage 4 , which separates the signal in the pure luminance signal Y at the terminal 5 without Z and the additional signal Z without Y by temporal blanking and keying. Y is available at terminal 5 without Z for 4: 3 playback. In addition, Y passes through the switch 6 to the FM modulator 7 , which produces at the output a Y-frequency-modulated image carrier according to the S-VHS system. The image carrier passes through the scarf ter 51 to the recording amplifier 8 and is recorded with the heads K 1 in the upper magnetic layer S 1 ( Fig. 2) of the magnetic tape T.

The color carrier F passes through the bandpass filter 9 with a laßbereich of 4.43 + 1.2 MHz to the converter 10 , which converts the frequency of the color carrier of f1 to f2. The so reduced in frequency color carrier Fm, also called color under carrier, also passes to the amplifier 8 and is recorded in frequency multiplex with the image carrier with K 1 on the magnetic tape T.

The additional signal Z for a 16: 9 reproduction, which is transmitted in 2 × 72 Zei len during the so-called black bars at the beginning and at the end, passes from the Austaststu Fe 4 via the Amplitudenkompander 55 on the single-sideband amplitude modulator 10th The compander 55 has the task to raise to about 0.15 Vss amplitude-limited additional signal Z for a better signal to noise ratio during playback to a Ampli Tude of 0.7 Vss and to reduce to the original value during playback. In the modulator 10 , the additional signal Z is modulated on a PAL color carrier in quadrature modulation, which is generated in the quartz oscillator 11 . This modulated with Z carrier TZ reaches the Frequenzum setter 12 , which also a mixing carrier M with the frequency f 3 is supplied. M is generated from the line sync pulses at the output of the sync separator 13 via the converter 14 . The carrier TZ at the output of the converter 12 ge reached via the high pass filter 52 with a cutoff frequency of 1 MHz, the switch 15 and the amplifier 16 to the heads K 2 , the TZ in a lower magnetic layer S 2 ( Fig. 2) of the Magnetban of Record T. The heads K 2 have opposite the heads K 1 larger gap width of about 0.4 m.

Two stereo audio signals L, R are modulated in the FM modulator 17 two carriers T 1 , T 2 . These carriers are converted in the converter 19 in carrier T 1 m, T 2 m with the frequencies of 0.4 and 0.8 MHz, which also reach the heads K 2 via the switch 54 and the amplifier 16 . T 1 m and T 2 m are thus recorded in the frequency division below the frequency spectrum of TZ with K 2 .

Second operating mode with recording of the additional signal

The recording of the luminance signal Y and the Farbträ gers F remain unchanged. The switch 53 is in the dashed position, so that TZ is no longer limited in the band width, but is recorded with full bandwidth with K 2 . The switches 51 , 54 , 56 are in the dashed position. T 1 , T 2 are now not recorded with K 2 , but arrive without frequency conversion to the amplifier 8 and are recorded with the heads K 1 .

By the open switch 51 , the notch filter 50 is effective, which suppresses the frequency ranges of the sound carrier T 1 , T 2 at 1.4 and 1.8 MHz in the modulated image carrier.

Third operating mode without additional signal

The switch 6 is in the dashed position. At the output of the low-pass filter 3 is only the luminance signal Y without Z and is recorded in the manner described with K 1 . The blanking 4 is then no longer erforder Lich. The recording of F remains unchanged. The sound carriers T 1 , T 2 are recorded in the manner described with the heads K 2 . This is the case of the usual VHS recording with hi-fi sound.

Fig. 2 shows in principle the recording in different magnetic layers. The heads K 1 have a small gap width and cause a record only in the upper magnetic layer S 1 of the magnetic tape T. The heads K 2 have a size re gap width and thereby cause a recording in the lower magnetic layer 22nd The trans ported in the direction 20 magnetic tape T thus initially passes to K 2 and closing at K 1 over. When recording with K 1 , the record made by K 2 in the upper magnetic layer S 1 is also deleted. In FIG. 2, Y + F are thus recorded only in the magnetic layer S 1 and the additional signal Z only in the lower-lying magnetic layer S 2 .

In Fig. 3 reach in the described second mode, the recorded as shown in FIG. 1, sampled signals on the playback amplifier 21 , which also causes the switch between the heads K 1 . The color carrier F is again converted in the converter 22 from the frequency f2 to f1 and passes through the bandpass filter 23 with a passband of 4.43 ± 0.6 MHz on the terminal 24 , where it is available for playback in the original frequency position. The Y frequency-modulated image carrier passes to the FM demodulator 25 , which provides the low-pass filter 26 with a cutoff frequency of 6 MHz at the terminal 28, the luminance signal Y for the reproduced. The signal Y at terminal 28 can thus be used for a compatible reproduction in 4: 3 format. The recorded with K 1 sound carrier Tm are in the Umset zer 32 again converted to the sound carrier T 1 , T 2 , which pass through the switch 33 to the FM demodulator 46 . This provides again the stereo audio signals L, R. The converter 32 is to a mixer carrier supplied from the frequency converter 34 , which is fed by the synchronizing signal 5 . The heads K 2 deliver via the amplifier 35 and the low-pass filter with a cutoff frequency of 5 MHz to the additional signal Z modulier th carrier TZ, whose frequency is implemented in the converter 37 of f4 in f1. The converter 37 is controlled by the converter 38 with the mixing carrier M. The converter 38 is controlled by the Synchronimpulsabtrennstufe 40 with the line sync pulses S. The carrier TZ passes through the low pass filter 39 with a cutoff frequency of 4.7 MHz and the compander 30 to the terminal 31 , where the additional signal Z is available for a 16: 9 playback.

In the described first mode, the switch 33 is placed in the dashed position. The phonograms T 1 , T 2 now come from the heads K 2 and 46 are supplied to the FM demodulator 46 via the bandpass filter 45 with a passband of 1.2-1.6 MHz.

The adder 41 receives the modulated color carrier F, the luminance signal Y without Z and the additional signals Z from the output of the compander 30th At terminal 42 , the signal FBAS + Z is thus available as output with additional signal Z for devices with 16: 9 reproduction. The adder 43 receives only the color carrier F and Y without Z and provides at the terminal 44 the composite signal without additional signal Z for conventional devices with 4: 3 format. This signal is thus desirably freed from the also recorded additional signal Z.

Claims (10)

1. Video recorder for a television signal with a Zusatzsi signal in which a modulier ter with the luminance signal image carrier and a color carrier with first Magnetköp fen along helical tracks in a first magnetic layer (S 1 ) of the magnetic tape (T) are recorded, characterized in that the Additional signal (Z) with second magnetic heads (K 2 ) with respect to the first magnetic heads (K 1 ) larger gap width in a band (T) below half of the first magnetic layer (S 1 ) lying second magnetic layer (S 2 ) are recorded. 2. Recorder according to claim 1, characterized in that the additional signals (Z) in the form of a quadrature modulator be recorded carrier. 3. Recorder according to claim 2, characterized in that during recording and / or playback, the frequency of the Carrier is reacted with a mixed carrier (M), the by frequency multiplication of the line sync pulses of the signal is won. 4. Recorder according to claim 1, characterized in that the second magnetic heads (K 2 ) have a relation to the first magnetic heads (K 1 ) larger azimuth angle of about ± 30 ^o . 5. Recorder according to claim 1, characterized in that the written by the second magnetic heads (K 2 ) Spu Ren have a width such that a gap between tween these tracks remains. 6. Recorder according to claim 1, characterized in that with sound signals (L, R) frequency-modulated sound carrier (T 1 , T 2 ) with the first heads (K 1 ) in the first Ma gnetschicht (S 1 ) in frequency multiplex with the Bildträ ger and the color carrier (F). 7. Recorder according to claim 1, characterized in that the sound carrier (T 1 , T 2 ) in the frequency range of a per se in the first magnetic layer (S 1 ) recorded color carrier and the ink carrier with the second Ma gnetköpfen (K 2 ) in the second magnetic layer (S 2 ) is recorded. 8. Recorder according to claim 1, characterized in that for recording the additional signals (Z) a Com pander circuit with an amplitude compression in the Recording and an amplitude expansion in the playback be provided. 9. Recorder according to claim 1, characterized in that with the second magnetic heads (K 2 ) an identification signal for the presence of recorded additional signals is recorded. 10. Recorder according to claim 1, characterized in that in a first mode, the additional signal (Z) and frequency converted, with sound signals frequenzmodu profiled phonogram (T 1 m, T 2 m) in the frequency division with the second magnetic heads (K 2 ) and in a second loading mode the additional signal (Z) with the second magnetic heads (K 2 ) and frequency-modulated with audio signals sound carrier (T 1 , T 2 ) in frequency division with the Bildträ ger and the color carrier with the first magnetic heads (K 1 ) to be recorded.