NO167425B - CONNECTION LIST. - Google Patents

Description

Device for magnetic recording and reproduction of a television signal.

The invention relates to a device for magnetic recording and reproduction of a television signal which alternately contains video signal parts and reference signal parts, comprising a recording head for recording the television signal on a magnetic recording carrier, and where the signal emitted from the recording carrier is supplied to a level fixing device which brings the reference signal parts in the reproduced television signal on a fixed reference level.

In the case of devices for magnetic recording and reproduction of a television signal, where the television signal is fed to a magnetic recording head with the help of which the television signal is registered on a magnetic recording carrier, there will be a significant weakening of the lower frequencies in the signal reproduced from the recording carrier, while in particular the direct current components in the signal is completely lost.

In addition to video signal parts, the television signal usually also contains reference signal parts, e.g. synchronizing pulses or the leading and trailing edge of the synchronizing pulses, with the help of which the direct current components lost during the magnetic recording and reproduction can be reintroduced. For that purpose, the reproduced television signal is fed to a level fixing device which is preferably controlled by level fixing pulses which act synchronously with the reference signal parts and thereby bring the reference signal parts to a fixed reference level. Such a device is known from U.S. Patent 3,180,929.

An important problem that occurs with devices for magnetic recording and reproduction of television signals consists in the fact that, as a result of the recording and reproduction, noise signals are added to the television signal, especially noise signals with lower frequencies can significantly affect the quality of the images that are reproduced. Noise signals can largely be attributed to the fact that the recording medium has uneven magnetic properties, e.g. because the thickness of the magnetic layer changes locally and because this layer has a structure that results in uneven magnetizability.

The purpose of the invention is to provide a device by means of which the disturbing effect of irregularities in the recording medium on the reproduced television signal can be reduced to a considerable extent. This is achieved according to the invention by an addition step which adds an electrical current to the television signal to be recorded, so that the reference signal parts of the television signal which are supplied to the recording head are brought to such a level that in the course of these reference signal parts the signal current flowing through the recording head is at least approximately equal to zero. It should be noted that in general, e.g. from U.S. Patent 3-207,998 it is known to set the level to a value that lies between the amplitude limits of the television signal, but this does not apply to a device for magnetic recording and reproduction.

The invention is based on the recognition that disturbances to the television signal are to a significant extent due to noise signals that are present in the course of the reference signal parts, and these noise signals are transmitted by means of the level fixing device to the video signal parts, and that the precaution according to the invention causes a significant reduction of this disturbance because the recording and the reproduction of the reference signals is made independent of the recording medium's magnetic properties.

An embodiment of the invention will be explained in more detail with reference to the drawings. Fig. 1 shows a core principle for a device according to the invention. Fig. 2 shows some voltage curves to explain the operation of the device in fig. 1.

The device in fig. 1 contains a synchronization separator 1 whose input 2 is supplied with the television signal to be recorded. This television signal is shown in fig. 2a and contains i.a. video signal parts 22 and line synchronization pulses 23, while the trailing edge of the line synchronization pulses is denoted by 24. The leading and trailing edges of the synchronization pulses lie at the so-called black level. In practice, the video signal part can be approx. " J0% of the peak-to-peak amplitude of the overall television signal, while the synchronization pulses take the remaining ^ Ofo.

By means of the synchronization separator 1, the video signal parts 22 are separated from the synchronization pulses 23 (see fig. 2b and 2c) and the separated synchronization pulses are fed to a potentiometer 3 °£ an oscillator 4> whose natural frequency is approximately equal to the repetition frequency of the line synchronization pulses 23 - The oscillator 4 can e.g. e.g. consist of an unstable multivibrator which is synchronized by the positive edge of the line synchronization pulse 23- The output signal from the oscillator 4 controls a monostable multivibrator 5 with a time constant Tsom delivers a pulse train 26 as shown in fig. 2d. This multivibrator is energized at times coinciding with the positive edge of the line sync pulse 23" and the pulse width is determined by the time constant of the multivibrator

The pulses 26 originating from the multivibrator 5 are fed to a second monostable multivibrator 6 with a time constant 1<*>2" which is energized by the trailing edge (the positive edge) of the pulses 26. The multivibrator 6 thereby delivers pulses 27, as shown in fig. 2e, whose leading edge coincides with the trailing edge of the pulses 26, and the width of the pulses 27 is determined by the multivibrator 6's time constant f 2' ; It should be noted that the multivibrator 5 can be controlled directly by the synchronizing pulses extracted from the synchronizing separator 1 and thus without intermediate coupling of the oscillator 4. In many cases, however, it is desirable that such an oscillator is used, in order to prevent equalization pulses in the television signal from causing the occurrence of pulses 27. Furthermore, the oscillator prevents pulses 27 from dropping out if the television signal drops out for a short time. The pulses 27 are mixed with a suitable amplitude in a gate connection with synchronization pulses (fig. 2b) from the outlet and on the potentiometer 3, the gate connection containing diodes 7 and 8 with the same direction of passage. If the amplitude of the pulses 27 e.g. is 10 volts, the amplitude of the synchronizing pulses will be chosen approximately equal to 6 volts. As a result of the action of the diodes 7 and 8, the output signal appearing on the anode of these diodes is at any instant equal to the input signal which is negative at that instant. The right for the occurrence of a synchronization pulse 23 is e.g. diode 8 supplies the voltage - 6 volts, and diode 7 supplies a voltage of 0 volts. The output signal from the port connection is then - 6 volts. In the course of a line synchronization pulse, both input voltages are 0 volts, so that the output voltage from the gate connection is also 0 volts. When a pulse 27 occurs, the voltage supplied to the diode is 8.-6 volts, and the voltage supplied to the diode 7-10 volts, so that the output voltage from the gate connection is -10 volts. The output voltage from the port connection 7, 8 is shown in fig. 2 f. In a summing circuit consisting of the resistors 9, 10 and 11, the signal originating from the port connection 7"8 is then added to the video signal parts 22 separated in the synchronization separator 1 (see fig. 2g), and the television signal obtained in this way is passed through a pre-amplifier 12 and an output amplifier 13 are supplied to the magnetic recording head 14 by means of which the television signal is recorded on a recording carrier 15 which is movable in relation to the recording head. through an inductance 18 to the recording head 14. In addition, a high-frequency amplifier is supplied to the head through a capacitor 19. A level control diode 20 which is connected to the base electrode of the transistor 16 ensures that the peaks of the synchronization pulses in the television signal supplied to the recording head are kept at a constant level. In the embodiment example in fig. 1, a magnetic reproduction head 28 is also arranged, which cooperates with the recording medium 15 and which serves to reproduce the television signal recorded on the recording medium. The reproduced signal is amplified in an amplifier 29 and then the reference signal parts in the reproduced signal are brought to a constant level by means of a schematically shown in per se known level fixing device JO. ;These reference signal parts are formed with the help of ;the trailing edge of the synchronization pulses 23. As can be seen from the curves in fig. 2 and particularly of the curves in fig. 2 a and 2g it appears that this trailing edge is brought about by the pulses 27 at a level that lies approximately midway between the peak value for the synchronization pulses and the peak value for the video signal parts. In other words, the reference signal parts lie approximately at half peak - the peak value V of the complete television signal. If therefore the recording carrier is controlled maximally, the current that flows through the recording head 14 during the synchronization peaks is maximal in one direction and during the white peaks of the video signal is maximal in the other direction. ;During the course of the reference signal parts (pulses 27), the current flowing through the recording head is equal to zero, so that during this part the recording medium is not magnetized. The recording and reproduction of these parts are therefore completely independent of the recording medium's magnetic properties, and thereby, as already mentioned, a significant improvement in the signal-to-noise ratio for the reproduced television signal is achieved. ;As shown in fig. 1, an adjustable resistor 21 is connected to the collector electrode of the transistor l6, which is connected to the direct voltage source. By means of this resistance, an adjustable direct current is sent through the recording head 14, so that the level of the reference signal parts can be set with great accuracy in such a way that in the course of these parts, no signal current flows through the head 14. It should be noted that also without the use of the pulses 27, the reference signal parts (e.g. the trailing edge 24 of the synchronization pulses in Fig. 2a) could be brought to such a level by means of a direct current that in the course of these parts no signal current will flow through the recording head. However, this method has the disadvantage that the recording medium is then not fully equipped, so that part of the medium's signal processing properties remain unused. It should also be noted that e.g. by setting the time constants * Cog Tg, the monostable multivibrators 5 and 6 can place the pulses 27 at any desired location

and give these pulses any desired width. If the pulses 27 e.g.

only occupies part of.the trailing edge of the line sync-

the pulses (as shown in fig. 2g), the other parts of these rear flanks can be used for the transfer of other information, e.g. a color synchronization signal or an audio signal belonging to the remote

the visual signal.

The Pulse 27 could also fully use the rear

flank of the line synchronization pulses and any additional information

tions could be in one or more parts of the pulses 27-

Preferably, however, it is then done in the reproduction channel device

lower level fixing device JO only active in the course of the part of the pulses 27 which do not contain this extra information. In this connection, it should be noted that extra space for such extra informa-

tions can be achieved by the time constant f of the multivibrator 5

is chosen less than the duration of the synchronization pulses 23, in other words that it is ensured that the pulses 27 begin before the end of the synchronization pulses 23- Thereby, without the use of additional coupling elements, the width of the synchronization pulses can be reduced,

which results in space savings behind the synchronization pulses.

Claims (2)

1. Device for magnetic recording and reproduction of a television signal which alternately contains video signal parts and reference signal parts, comprising a recording head for recording recording of the television signal on a magnetic recording medium, and where the signal emitted from the recording medium is supplied to a level fixing device which brings the reference signal parts in the reproduced television signal at a fixed reference level, characterized by an addition stage which adds an electrical quantity to the television signal to be recorded, so that the reference signal parts of the television signal supplied to the recording head are brought to such a level that during the course of these reference signal parts the signal current flowing through the recording head is at least approximately equal to zero. 2. Device according to claim 1, characterized by a coupling pulse generator which in the course of the reference signal parts produces pulses which are added to the television signal to be recorded, with such an amplitude that in the course of the reference signal parts the signal current flowing through the recording head is at least approximately equal zero. Device according to claim 2, characterized in that during recording the recording head is supplied with an adjustable direct current for fine-tuning the level of the signal current in the course of the reference signal parts. 4" Device according to claim 2, characterized in that the generated pulses have such a width that they occupy almost the entire rear flank of the line synchronization pulses of the television signal and also part of the line synchronization pulses themselves.