DE1499763A1 - Process for the commutation of modulation bodies for magnetic recording and playback as well as equipment for carrying out the process - Google Patents

Description

VEAFAHREi 7iiu K'JI "TUTING OF MODULATION HEADS F [1R X & GNET RECORDING AND REPRODUCTION AND DEVICE FOR IMPLEMENTING THE PROCEDURE The present Invention relates to a method for magnetic recording, in particular to a method for commutating modulation heads for magnetic recording and -playback as well as a facility for carrying out the procedure.

There are methods for commutating modulation heads for magnetic recording and playback, in which the #hodulatiön of the recording or reproducing iiagnets flux by magnetizing. a magnetic conductor part of the heads takes place.

Ls are also facilities based on the procedure mentioned known, which is a linear unit of Niagnet-kiodulationsköpf with signal- and magnetizing windings arranged on the magnetic conductor and connected to the magnetizing current sources are connected, as well as means for controlling the magnetization of a magnetic conductor part of magnetic heads included.

Such devices require an electronic circuit for Commutation of the magnetization circuits. Therefore, the facilities mentioned have no advantages compared to a main group of conventional switchable ring heads.

The aim of the present invention is to develop a new one Method for recording analog or digital signals on the magnetic carrier surface in any order. The method can be used both in the case of recording used during playback does not require any mechanical position of the magnetic heads in the scanning direction and is free from the disadvantages mentioned above.

This task is done by modulating the recording or reproducing Magnetic flux by magnetizing a Llagnetleiterteils the heads with the help of independent from each other -,;, Jicklungs. In this method, according to the invention control current is supplied to one of the windings and the other windings of each Head are gnetisierungsstromes to a special direct current source of the Ma connected that at any given point in time the magnetic conductors of all heads of the Assemblies are magnetized with the exception of a r @ opf, in which the ampere turns of two windings mentioned compensate each other, with the result that this Head can perform a signal recording 3 ct.nunng and playback.

The device for implementing this method can, for example, be a Assembly of @ magnetic modulation heads with arranged on the magnetic conductor and magnetizing windings connected to magnetic sources and means for controlling the magnetization of a magnetic conductor portion of the heads in the form of a control winding common to all heads.

The above-mentioned winding is supplied with the current whose law of change determines the commutation sequence.

There are drawings to explain the method according to the invention attached. It shows -Fig. 1 a magnet Kodulatioaskopf with additional finite winding whose help the state of the magnetic circuit is controlled, Fig. 2 is one of the possible embodiments of the assembly the magnetic heads jnit all Winding connections which are used to carry out the method according to the invention are required and, Fig. - 3 a Diagraiuiu, which the method for signal recording illustrated on the Iviagnet signal carrier when the method is used in oscillographic Devices with a linear amplitude line or with time-linear recording of the signal is used.

In Fig. '(Is one of the possible embodiments of the magnetic Iodulation head which can be used in our invention. The head is made of following main parts: de: u @ ;: a ;; netkern 1, which is made of a magnetically soft material is made with high permeability, the Xrbeitsspalt 2, which is usually with filled with any non-ferromagnetic material such as brass, bronze, etc. is, of the winding 3, whose magnetomotive force is derived from that by the winding flowing current is generated, is applied to the working gap 2 of the head. That The main element of the head is the section 4 of its magnetic conductor, which magnetizes and the windings 5 and 6 as well as 7 and 8 carries. The windings 5 and 6 become formed in such a way that the aiagnet flow created by them, that of that created by them flowing current is generated within 'the section to be magnetized 4 closes and does not penetrate into the working gap 2. By changing the ampere turns of the windings 5 and 6, the section to be magnetized can be magnetically saturated where its magnetic resistance grows * and is significantly greater (r than the magnetic resistance, of the head working gap 2 becomes. This head can do both in the recording as well as in used for playback.

When recording, a signal stream is passed through the winding 3, which generates the recording magnetic flux (; rather, the portion to be magnetized 4 of the head and the working gap 2 penetrates. If there is no current through the oil windings 5 and 6 flows, all the magnetomotive force is applied by your through the Winding 3 flowing current is generated in the working gap 2. As a result the signal was recorded on the i.iagnet carrier located under this gap. If a magnetic stimulation flow I1y I2 flows through the eye lungs 5 and 6, where I2 is the threshold value of the magnetizing current at which the to: i: agnc: tisicriden Sections 4 of the magnetic circuit are saturated, so the magnetic grows Section 4 resistance abruptly and the magnetomotive force exerted by the signal winding 3 was generated, distributed between the working gap 2 and the magnetized section 4, whereby the intensity of the ..: ä: net field below the working gap is significantly reduced and no signals are recorded.

The mode of operation of the modulation head in the corsetry is analogous. A voltage is induced in the magnetic head winding 3 which is caused by the modulation of the magnetic flux, the source of which in this case is the T: Tagnet signal carrier, provided, however, that I1 L 1 2.

The magnetic head shown in Fig. 1 also has on the to The magnetizing core section also has additional windings 7 and 3. We call the latter Control windings, as the control current I3 is passed through them. The magnetic one State of the magneti-0 sizing section 4 of the head magnetic conductor is controlled by the magnetizing and control current.

The introduction of control windings made it possible to control the state of the section to be magnetized and thus also the loop function. The control method is explained below. Provided that the magnetizing current is constant and Il '1 2 and that a signal current 14 is passed through the signal winding 3 of the head, it follows that Il >> I2 is with this head. no recording takes place. If a control current I3 = f (t) is now passed through the windings 7, 8, then when the magnetization-A: nperwindings I1W are equal to the control ampere-turns I3 V1 and when they are directed in the opposite direction, the magnetic resistance of section 4 significantly less, and the magnetic signal carrier is reduced by the. Signal current magnetized. At every other instant when (Ilw - I3 (t) W), 1 2 V @, the magnetic resistance of the section 4 increases again and no recording is made on the magnetic signal carrier. From the inequality cited, it follows that each selected fourth I, with a constant threshold value of the current 1 2, corresponds to a certain 'Jert 1 3 , is magnetized by the current I4 in the magnet carrier.

The situation is analogous for the reproduction of signals that are picked up by the Lagnetsignalträger. In this case, a clektromotoric force is only induced in winding 3 if the following inequality applies: (Ilw - 1 3 (t) w) L. 12 w (2) In the remaining time, for all other currents in the winding 3; only induces a significantly lower EPM.

The tax procedure described for an individual. ':? Odula-. tiz) nskopf can be used both for switching the Sigralauf recording or playback process on and off, as well as for example for amplitude analysis of signals. In the latter case, the signal to be analyzed is passed through the control windings 8 and 9 and the magnetizing current I is set equal to the level value with which the signal current is compared. Through the winding 3, either direct or alternating current with a sufficiently high frequency can be let out. During the transport of the magnetic signal carrier on the head, through which windings these currents are conducted, the. Recording only when condition (2) is met. When playing back the recording, which has been quietly obtained, with the aid of ordinary ring-shaped playback heads, every case can be recorded when the signal under investigation exceeds the level 1 1 W.

In this way, by predetermining different values of I451, the amplitude distribution of the signal under investigation can be fully determined. This object can be achieved significantly more quickly if, instead of a magnetic modulation head, an assembly is used with such heads whose v: backlun; en are connected to one another in a corresponding manner. Fig. 2 shows one of the possible embodiments of such an assembly. For the sake of simplicity and clarity, only three modulation heads are shown in FIG. In practice, their number can be chosen according to the specific task at hand. The head ie s-_nd i @ ii-ü u.en letters A, B and C. You four to i3aü.rc, 2re so united; that their workplaces are drawn on straight lines aa. The working column a11cr 'I,.:; -: fe are der Oi) erfläeho des illanetsünalträ @; ers; 'zuge;. = to @ .t. At j ee ~ c: .. '-'oljf is; a pair of 1, tla ";nctisieruni,; windings as in the case of dei« in 1 ezeE, ten head in loan switched and the Znaen ues are brought out of the Bangruhpe. So c) it is Koof A die Al1SClilui3k1 (- ,, L- @ en 10 and 11, which add to the i :: ü, @ i_e tiieruns- wicklun @; en 12 and 13 belong. The 1alae; netisierti; swickluii, cn des Iio @): there are i3 with; uen Allschlurkleünen 14 unö. 15, and aiu des Ko; 'Les C c-Len hle:., Ien 16 and 1`T verbLuiden. The arrangement for all .: @ aiitien h öpfen the iianGru2pe is similar. The Si., Nal vricl% -i.uii; _; en of all KÖE> f ( : be on equals '-.' Softly in R @: iie-: Switched. You can also access the rie # 2ne al- ler Hö;. 'Lc L; evawicked, i.e. it can eiize; @ ei11; @a: I signal- ceiiutz * V will be. In Fig. 2 CLil: nt the lyre '18 as v tiJ.c!; @ - LluiV He we u from - en 1ila - # : e glides of all heads . uif old. the = eil a..l # "r Lö @) f e can also be switched 1.n borrow üE: n. l21 Fig. 2 are the control windings through one, n conductor 1 C; @ ::; Gt @@ t, which is part of the .iagnetisietrun; sabsc'nn.i-t. the i.:anetlc:i- _ door of all heads a :: ifaiit will. From fig. 2 it can be seen that all A, iy>"reviindtul,.; Cn, which flow from the through the ladder 'i ö and 19 @ .en- don Ströaun are generated, are the same in all heads. The. which of the rivers, rush through the ia @ nc: i; isie- run @; sr: icl @ luii @ en one jeczen four heads flow, erzeu.t v, (- reen, can, however, have any advance i) estii @ .i; iteli Viert, (. he of the one produced by these developments (with terminals 10 and 11, 14 and 15, 16, and 17) flowing current or from the W1nuun solenoid number each such winding depends. If, for example, the magnetizing current flowing through head A is assumed to be I11, that in head B to be I12 and that of head C to be I13, where I11 4 12'-I13 and the number of turns of the idlagneizing windings of each head is the same, then becomes the P @ @ rlagnetsi naltrüger are not magnetized equilateral but alternately by all heads when in Leii er-19 a control current 1 3 and the conductor 13, for example,

a direct current 'flows. The head A magnetizes the magnetic signal carrier when (I11 Y1 - I3 (t) VJ) L 1 2 W. Likewise, the @ 1.head B magnetizes the magnetic signal carrier when (I12VJ -is, etc. In other words, signals are recorded (or reproduced) by each of the heads only if condition (2) is met for that head .

By attaching an ordinary RingkQpg # es to each of the recording tracks of the 1-magnetic signal carrier and by predetermining different masking currents for each of the recording heads incorporated in the assembly of Fig. 2, an amplitude analysis can be carried out in parallel for a large number of signal levels. By describing devices for amplitude analysis of signals, our inventive method for controlling the magnetic modulation heads is illustrated. This consists in that the point in time at which the recording or reproduction takes place by each of the heads in the module is set by the current flowing through the control winding common to all the heads of the module, which the magnetizing sections of each head The initial value of the magnetization ampere-turns for each of the heads is given by individual magnetization currents generated for each of the heads. The i ,, ag- nt # tsi-nalträger is through each of the heads in the Zeitpunkuen that by the relation (2) of the control and:, fencing currents StinuG- are magnetized with a current that passes through the for the Whole construction; group - lonely signal winding flows. If I2üt for al- le heads is the same and the magnitude of the magnetization ampere win- dun_-en a linear function of the ordinal "n" of the building group built-in head and the same IlW = 1 0 = n12W, (3) in this way an invisible magnetic image can be placed on the magnetic signal carrier of the recorded signal in the form of an invisible magnetic Oscillogram of the signal y = k 13W can be obtained. To this Z, r: corner, a current is passed through the conductor 18, the proportional tional to the signal with a cutoff frequency of fi. Through the Conductor 1 8 is either direct current or alternating current with a Frequency of f2).> Fl (4) 'let through. When choosing the frequency Recording current is also taken into account that the ferrographic process runs optimally. The magnetic signal carrier is only magnetized by the head for which the relationship (2) is applicable. For the device shown in Fig. 2, this is the , Head C. As a result, a invisible magnetic oscillogram of the recorded signal les, which is processed by one of the well-known ferrographic processes can be traded. With a constant distance between the heads and with fulfillment condition (3), an oscillo- gram with linear amplitude curve; as shown in FIG. 3. By Änü.erünö the strength of 1: Magnetization currents that flow through C, DEFG each of the heads can flow according to the selected row follow any predetermined amplitude curve from head to head while oscillographing.

Claims (2)

PATEIQUITY PRINCIPLES 1. "Learned about the correction of modulation heads for magnetic recording and playback, in which the modulation of the recording or reproducing magnetic flux is carried out by magnetizing a magnetic conductor part of the bowls with the help of independent controls, characterized in that one of control current is fed to the windings and the other windings of each head are connected to a special power source of the magnetic current in such a way that the league conductors of all heads of the assembly with the exception of one head are magnetized at each determined point in time, in which the outer windings of two mentioned windings compensate each other, which means that this head can carry out signal recording and reproduction. 2. Device for connecting modulation heads for magnetic recording and playback, which has a linear assembly of: .ia- # net-; iodrilations with Si; -nal and magnetizing windings arranged on the magnetic conductor, as well as a power source for: 7a; netizing the aforementioned Has heads and means for controlling the 4Iagnetisierung einer.Magnetleitersteils of the aforementioned magnetic heads, because they are characterized in that they are designed in the manner of a control winding common to all heads. .