DE1285002B - Device for magnetic recording of signals - Google Patents

Description

The invention avoids these disadvantages. It concerns a device for magneti-5 See recording of signals using a continuously moving, magnetic storage effect having carrier, the small area of the signal currents perpendicular to its surface is interspersed, and the invention is characterized

Magnets are supplied with a suitable io in that the carrier is as stroked or as possible shaped air gap on the ferromagnetic known punctiform by a free Particle acts and this according to the each- electron flow or by a displacement winder Signal amplitude magnetized. The re-current is interspersed, which contains the signal and there is a completely analogous way, and it can also by means of the magnetic force linked to it to reduce the background noise at 15 lines causes the recording in the carrier material, the recording in addition to the the signals It is obvious that here to the electrical proportional magnetic field nor a high frequency conductivity of the sound carrier material no magnetization occur. requirements are made, since a free electron

With these known methods, flow or a displacement flow readily result know disadvantages, at least if you enforce a non-conductor on a 20. Wear and tear Tape to be applied message content appearances of any kind here wants to increase significantly. In which so far also did not occur.

a track becomes the usual magnetic recording.

Obtained certain width, the recording system formed by the used tion according to the invention as a magnetic tape, ie the constructive Aus 25, which is due to an air condenser with the possible design of the recording head, and concentrated, generated by the signal voltages difficult or not at all in significant measure tem field runs, which can almost thread or tape reduce. Even when recording with two-shaped displacement current evokes. Even in the case of adjacent tracks, the use of low currents in the size of the width of the tape is apparently only very poorly ₃₀ order of mA, a sufficient use is made here, whereas the available magnetization of the tape material can be achieved, as the amount of magnetic material in itself has shown in significant experiments. This is understandable as it would allow for greater absorption capacity. if one takes into account that the magnetic field

It is also already a method of drawing amplification in the vicinity of a straight current of magnetograms on magnetizable 35 fluted conductor is inversely proportional to the Known carrier, in which the recorded decreasing distance increases, with the Speech current by means of a needle-shaped tip of the size of the individual ferromagnetic particle Recording head in the magnetogram carrier as the limit of the distance that transgresses. In this case, the signal current is, if possible, for the field strength that magnetizes this particle small area the magnetic storage properties 40 is decisive. In this way it succeeds in the tape exhibiting Carrier transversely to its surface to produce material soundtracks whose width is in the out into which it crosses and lies through that with the order of magnitude of the particle diameter. It The magnetic field of lines of force linked to him in this way means that much more sound is recorded causes. tracks are accommodated on one and the same tape This known method basically shows, in other words: the tape becomes considerable the advantage that the borrowed in the recording is better used. This is especially true Material-impacting magnetic fields are of immediate importance when considering the recording of The area around the current entry point on the smallest television picture streams thinks that with the previously Concentrate space and so a very narrow customary procedure a very substantial material lettering of the carrier material. That would require consumption.

but driving has the fundamental disadvantage that the recording on the magnetic tape can

afflicted that it is only advantageous in the case of recording media to use one in relation to the highest can find application that has a sufficient electrical signal frequency high carrier frequency possess Irish conductivity. Another drawback occurs that exists with signal voltage amplitudes in that the application of a high-55 is modulated. As already mentioned, the same frequency bias is Difficulties in the early application of a high-frequency pre-magnetization, since the massive magnetic material is known per se, but it is here formation gives rise to eddy currents, while the one is not about reducing the background noise, Use of the powdered magnet, which is customary today, but because of this high carrier frequency, material is used Because of this, it is very poor electrical 60 that is sufficient as a recording medium is out of the question. Finally, air condenser also took advantage of low signals Difficulties with the prakfrequencies also arise for the recording Carrying out this known method, sufficient displacement current flows, Since the recording is extremely fine, the carrier frequency is advantageously high

Tips should be used which, however, should be chosen enough to avoid a strong displacement side However, not to allow a good current transfer between the tip and current to flow through the strip Must have sound carriers. The peaks must be so high that the frequency increases therefore with noticeable pressure on the sound carrier increasing loss of recorded signal

intensity already makes noticeable noticeable. There is a choice of carrier frequency a most favorable value, but the maximum of this function is relatively flat, see above that the choice of carrier frequency is not too critical.

In the devices according to the invention, a capacitor can advantageously be used for recording serve, one of which is an electrode from the point where the cathode ray hits the fluorescent screen a Braun tube and its other electrode just outside the fluorescent screen the tube is arranged at such a distance that between the piston crown and the outer electrode the tape can be pulled through while the carrier frequency voltage modulated with the signal voltage on the Wehnelt cylinder of the pipe. This way there is a point-like concentration of the displacement current causing the recording can be achieved.

In such an arrangement, it is important to determine the electrode spacing for recording used condenser as independently as possible of the thickness of the piston crown of the Braun tube close. This is possible if you look into the bulb wall of the electron beam tube on the Radiation point of impact uses a Lenard window, which can optionally be designed so that there is one has the narrowest possible outlet for the electron beam.

On the baffles of the Braun tube, according to a further aspect of the invention, a temporally variable, preferably sawtooth-shaped voltage, which the electron beam transversely to Direction of movement of the tape over a distance that does not exceed the bandwidth and with deflects at such a speed that the entire surface of the tape is ready for recording is exploited. So it is, so to speak, the cellular scanning, as it is in television is common to transfer to the recording process, and when recording television signals the ratios can be chosen so that each image line of a transverse track on the for recording used tape. However, this is by no means absolutely necessary. Such a thing The procedure is also advantageous when recording audio frequency signals, as the material of the Tape is used much better than before and the tape speed is reduced accordingly without having to accept a loss of quality. This grows accordingly also the recording capacity of a tape of a given length.

Such a recording can also be made without a lateral Deflection of the cathode ray in the tube used for recording or in an arrangement can be achieved with an air condenser for recording. If you form the Cathode ray so that it has a line-shaped cross section transversely to the tape transport direction owns, or is the air condenser designed so that its field the tape in the form of a on the Ribbon edges interspersed vertical line, and also has the ribbon in place of a uniform a wavy or zigzag-shaped active surface, so when the belt passes through the recording device only at the intersection of the line-shaped beam or field with causes a recording of the active surface.

The invention is illustrated by means of some exemplary embodiments shown schematically in the drawings explained in more detail, namely shows

Fig. 1 shows a device according to the invention for Recording and playback using magnetic tape,

F i g. 2 the individual magnetic force fields in the magnetic tape,

F i g. 3 shows a modified device for recording with a cathode ray tube,

F i g. 4 the force line fields that hit the magnetic tape with zigzag recording,

5 shows a magnetic tape with a wave-shaped track for recording,

6 shows a complete circuit arrangement of a simple device for recording by means of of a magnetic tape.

The basic principle of a device according to the invention, in which the signals on a magnetic tape can be recorded from the schematic illustration in FIG. 1. Here is the signal frequency to be recorded in a step of a high-frequency auxiliary voltage, not shown further superimposed, and the mixture of high frequency and signal frequency is the control grid a tube 1 fed. On the anode side, there is a separation of the DC and AC components of the Anode current in a manner known per se with the aid of a choke-capacitor arrangement 2, 3. The Capacitor 2 is designed as an air condenser with a field that is as concentrated as possible and is single-pole grounded. A magnetic tape 8 is passed between its plates. On this tape ring-shaped magnetic fields are formed, as shown in FIG. 2, their distance from the frequency and the belt speed is dependent. An amplitude modulation of the frequency has an effect in the intensity of these magnetic fields. Essentially, then, there is a "magnetic" one on the tape Sprossenschrift «, as it is similar in cinema technology with sound recording by means of light is known. This tape is fed past a magnetic head 4 for playback in a known manner, where the subsequent reinforcement in Fi g. 1 indicated only schematically by the tube 5 is.

In order to achieve better utilization of the belt at the same speed, the a capacitor plate with its feed can be replaced by a cathode ray. Such a one Recording device is shown in FIG. 3 indicated. The direct current component of the cathode ray is the same here over the inner lining of the cathode ray tube 6 and with the help of the secondary emission. Of the The alternating current component flows over the area shown by the cathode ray on the one hand and the outer coating 7 on the other Condenser to earth, the latter being outside the tube in front of the piston crown is located. A narrow air space is provided between the lining 7 and the piston crown which the magnetic tape 8 is passed through. In this case, it is expedient to choose for the beam a high current density and a low anode voltage. By applying a suitable alternating voltage The beam is oscillating over the width of the strip to and from one pair of deflection plates

moved here. This results in a zigzag shape Record the signals on the tape as shown in FIG. 4 is shown. This way they are very high Write speeds achievable. Hence it is very possible with such an arrangement too to record high frequencies, as required, for example, when storing television signals is. If necessary, on the other hand, in the case of less high demands on the Frequency bandwidth reduces the speed of movement of the tape to a corresponding extent so that a considerable saving in tape material can be achieved. Does it the recording of television signals, the arrangement can be made such that the The content of an image line is distributed across the width of the magnetic tape, i.e. the entire image is magnetic is recorded in lines one below the other.

Another possibility for recording on a magnetic tape is illustrated in FIG. In this case, the tape is not moved over its full width with the effective magnetic layer, but the layer is only in the form of a wavy line or zigzag as a narrow strip on the tape upset. The active layer is denoted by 9 in FIG. 5. The Electron beam not with a punctiform cross-section, but with one that is roughly rectangular in shape formed, as shown by the dash-dotted rectangle 10 in FIG. on In this way, it is possible to reduce the belt speed compared to the conventional embodiments, considerably reduce. A normal Commercially available earphones are used, the gap of which has approximately the shape shown by the rectangle 10. Discussing such a tape with a wavy or zigzag sound track can in itself with the usual speaking heads. If an electron beam tube is used for the recording, this can advantageously have a correspondingly shaped Lenard window in the piston crown wear. Such a window is useful for all magnetic recordings according to the invention, because this reduces the electrode spacing considerably and increases the recording field strength accordingly is.

A simple circuit arrangement for the recording of signal streams according to the invention'50 is as a complete circuit diagram in F i g. 6 shown. A cathode ray tube is used for recording 6, in front of the piston head, an electrode 7 is arranged in such a way that a magnetic tape 8 can be pulled through between the piston crown and the electrode. For the power supply the cathode ray tube is provided with a push-pull oscillator consisting of the tubes 17, the oscillates at a frequency of, for example, 200 kHz. The anode circuit coil 19 is with a Secondary coil 20 provided, which has about 5 times the number of turns, so that at its ends to operate the electron beam tube 6 required high voltage of about 1 to 1.5 kV arises. A diode 21 is used for rectification, and there is also a charging capacitor 22 is provided, however is dimensioned so that there is still a high-frequency component required for sound recording of a few volts reaches the electron beam tube as a ripple voltage. Under these circumstances it is possible to determine the signal voltage from those marked with the signal frequency AC symbol Clamping via coupling capacitors to the brightness control electrode of the electron beam tube and thus the electron beam, which already has a ripple voltage of 200 kHz, is modulated, in addition to pushing the audio frequency modulation. With vertical guidance of the magnetic tape 8 can also be attached to the plates of the electron beam tube which cause the horizontal dissipation an alternating voltage can be applied, as indicated in FIG of the electron beam and the recording on the tape 8 zigzag or wavy to undertake. During the recording, the switch 23 is also closed, but the switch 24 opened. The electrode 7 is grounded and the signal voltages are shown on the magnetic tape in recorded in the manner already described.

In order to listen to the recordings again, the switch 24 is closed in the circuit shown and the switch 23 is open. So that the electrode 7 is at the entrance of one of the tubes 25 and 26 existing amplifier with listening device 27, in the simplest case a loudspeaker. Closing switch 24 ensures that there is no modulation on the brightness control electrode the electron beam tube can get. The electron beam is then only modulated with the 200 kHz hum, and a corresponding one Displacement current penetrates the magnetic tape 8. As the tape passes through it will be voltage fluctuations at the electrode according to the recorded audio frequency modulation? generated after amplification by means of the tubes 25 and 26 in the loudspeaker 27 for display reach.

Claims (7)

Patent claims: 1. Apparatus for magnetic recording of signals using a continuous moving, magnetic storage effect exhibiting carrier, that of the signal currents is penetrated over a small area perpendicular to its surface, characterized in that the carrier (8) is penetrated by a displacement current or a current of free electrons which the signal as a modulation of a relative to the highest occurring signal frequency contains high carrier frequency. 2. Apparatus according to claim 1, characterized in that the recording medium is a Magnetic tape (8) is through an air condenser (2) with as concentrated as possible, from the Signal voltages generated field runs. 3. Apparatus according to claim 2, characterized in that a magnetic tape (8) with a the tape surface only partially covering active layer (9) is used, the one relatively narrow, zigzag or undulating track forms (Fig. 5). 4. Apparatus according to claim 1, characterized in that an electron beam tube for recording (6) is used, in front of whose luminescent screen a single electrode (7) in such a stood is arranged that the magnetic tape (8) runs through between it and the piston head and the signal voltage on the one hand on the Wehnelt cylinder of the electron beam tube, on the other hand on the electrode (7) (Fig. 3). 5. Apparatus according to claim 1, characterized in that an electron beam tube for recording serves, which is equipped with a Lenard window for the exit of the electron beam, which is between the Lenard ίο Window and an adjacent electrode penetrated through magnetic tape. 6. Apparatus according to claim 4 or 5, characterized in that on the deflector plates of the electron beam tube a time-varying borrowed, preferably sawtooth voltage, which the electron beam transversely to the direction of travel of the magnetic tape over a bandwidth does not exceed the distance and deflects at such a speed that the entire Surface of the magnetic tape is used for recording. 7. Apparatus according to claim 3 or 6, characterized in that a magnetic head is used to reproduce the signals recorded in a wave-like or sawtooth-like track on the tape, the gap length of which corresponds to at least the width of the wave or sawtooth amplitude and whose gap direction is exactly perpendicular to the Direction of movement of the tape is. 1 sheet of drawings 809647/1786