DE1447157A1 - Device for magnetic sound recording - Google Patents

Description

Magnetic Sound Recording Apparatus This invention relates to a device for maenetic sound recording with a recording amplifier and with a high-frequency oscillator for premagnetization and / or loosening of the sound carrier as well as a preparation switch for putting the amplifier and oscillator into operation.

The devices customary up to now have mechanically operated changeover switches that are relatively stiff due to the high number of contacts, which switch the device from output mode to recording. In order to avoid erroneous deletion of magnetic sound recordings, the switch is usually still locked by a lock. With these devices, difficulties often arose when recording when it was necessary to insert further recordings in gaps in existing sound recordings, since it was possible to press these switches so precisely in terms of time. This changeover is particularly important in the case of sound film projectors with dragged swivel castors, since here a lead of a few seconds is necessary before the film reaches a stable speed at the recording point. In this case, the recording amplifier and oscillator can only be switched on and off while the sound carrier is running. It is practically impossible4 # to join the individual sound scenes together without any gaps. There is also the risk that parts of the original recording will be erased as a result of premature switching.

According to the invention, these disadvantages are avoided in that a preferably electronic switching device is arranged in an input circuit and / or output circuit of the amplifier and oscillator, which can be controlled from an idle function into a work function by an electrical signal and is in an idle function when the amplifier and oscillator is switched on Switching device dampen the output level of the same to an optionally adjustable value, in borderline cases it is completely blocked and, when a control signal is introduced, the switching device is switched to the work function and the amplifier and oscillator are released. will Advantageously / a control signal from a push button switch triggered, which is controlled manually or, if necessary, by notches attached to the sound carrier, according to other embodiments of the invention, the control signal from switching foils, optical markings or the like attached to the sound carrier. derived. Finally, the control signal can also be obtained from the input signal of the amplifier, if necessary after amplification and after rectification. This possibility b% -tet at especially when using a Verstärke'rs with automatic driving control, wherein the Regelspan- the amplifiers g as Steue * reigngl is used and causes a switchover of the switching means upon reaching a predetermined threshold value.

. . Further features of the invention emerge from the following description of several exemplary embodiments, reference being made to the drawing. 1 and 3 show the circuit diagrams of two recording amplifiers for magnetic sound devices. Fig. 2 shows a detail indicated in Fig. 1 switching order.

According to FIG. 1 , a signal derived, for example, from a microphone 1 is amplified in a preamplifier stage 2 and fed to the first control grid of a sheet metal tube 4 via a coupling capacitor 3. The output voltage of the amplifier 2 is further amplified in an amplifier 5 and fed to a voltage doubler circuit made up of the capacitors 6 and 7 and the diodes 8 and 9. Between the diode 8 and ground, an ohmic voltage conductor 10 and 11 is provided, which is bridged by a filter capacitor and to which a negative bias voltage is applied via a series resistor 12. A keyboard holder 13 is provided parallel to the resistor 21 and is closed in the idle state.

The voltage occurring at the capacitor 7 is also fed to the first control grid of the tube 4 via a resistor 14 and thus influences the degree of amplification thereof. The resistor 15 serves as a grid leakage resistor and, together with the capacitor 7, determines the decay time constant of the grid bias voltage. A partial voltage is picked up from a tap on the resistor 15 and fed to the first amplifier stage for regulating the degree of amplification of the same. The third grid of the tube 4 is connected via a time constant element 19, 20 and a resistor to the negative terminal of a voltage source (not shown). This negative grid bias can be short-circuited by a switching transistor 16 , the base of which is connected to positive voltage via a resistor 18 and connected to the branch point of the voltage doubling circuit via a Zener diode 17 and a resistor.

The output circuit of the tube 4 is coupled in a known manner to a further amplifier stage 21 which feeds the recording head 22. The negative bias of the third grid of the tube 4 is fed to the control grid of the oscillator tube 25 via the resistors 23, 24. The oscillator works in a known manner in a feedback circuit. The erase head 26 is provided in the output circuit of the oscillator. The necessary bias current is supplied to the Aufsprechkopf 22 via a trimming capacitor 27. A glow plug 28 is connected to the output terminals of the oscillator circuit. A photoresistor 29 is connected in series with the erasing head and is controlled by the light emitted by the glow lamp. The glow lamp is surrounded by a non-porous cylindrical sleeve 30 which has two tapering aperture openings 31 which are opposite two photoresistors 29 in parallel connection. By turning the sleeve 30 with the aid of the knob 32 , the amount of light hitting the photoresistors and thus the effectiveness of influencing the extinguishing current can be regulated within wide limits (see FIG. 2).

The mode of operation of the new circuit is as follows: First of all, no signal should be emitted from microphone 1. This means that no signal occurs in the output circuit of the amplifier stage 2 and of the control voltage amplifier 5 , so that the negative grid bias of the first grid of the tube 4 as well as the negative control voltage fed to the amplifier stage 2 only through the resistors 10 and 12 and the one applied to them negative bias is determined. At the grating 3 of the tube 4, however, is the negative VorBpannung iai height, since the transistor 16 is without current. The tube 4 is therefore blocked. In the same way, the oscillator tube 25 is also blocked, so that not only the opening head 22 but also the erasing head 26 is de-energized.

If now the switch 13 is open, so the voltage present at the branching point of the Spannungsverdopplerschalter negative voltage is increased absolute value by strong (beiapielawein, o of 195 V to - 5 V). The voltage applied to the Zener diode 17 exceeds the Zener voltage, so that the diode becomes conductive and the base of the transistor 16 becomes negative. The transistor hereby opens and short-circuits the negative bias voltage applied to the grid 3. The blocking effect of the tube 4 is hereby canceled. By opening the button 15 , the capacitor 7 is also charged, as a result of which the negative control voltage acting on the grid 1 and on the amplifier stage 2 increases in absolute value. This makes the amplifier less sensitive, so that disruptive room noises are not recorded. If the microphone is discussed, a signal appears at the output of the control voltage amplifier 5 , which causes the amplifier stages 2 and 4 to respond accordingly and maintains a negative voltage at the BEis of the transistor even when the button 13 is closed again.

When the button 13 is actuated and the tube 4 is switched on, the negative bias voltage of the oscillator tube is also eliminated. As a result of the larger time constant of the capacitor 33 and the resistor 34, the negative bias voltage is reduced more slowly than on the amplifier roar reel extinguishing current thus only reaches the full value after a period of time. which is equal to the running time of the sound carrier between the Lasch head and the recording head. Thus, a high-frequency voltage occurs in the output circuit of the oscillator stage, which causes the glow lamp 28 to be ignited. This Gilimm lamp illuminates the #hotoresistor 29 and thus reduces its resistance value from the extraordinarily high dark resistance to a relatively small value. A high-frequency current is thus fed to the erasing head 26 , and at the same time the recording head 22 also receives the required bias current. By turning the knob 32 (Fig. 2) the luminous flux falling on the photoresistor can be regulated and thus the intensity of the erasure can be adjusted. Normally, the original recording on the sound carrier will be completely dissolved; To fade in a further recording, however, the basic property can be weakened in any way and a second recording superimposed on the original. The setting knob 32 can be made of transparent material so that the glow lamp also indicates that the oscillator and recording amplifier have been switched on. However, this display can also take place by means of a further glow lamp.

To switch on the amplifier and the oscillator, it is not absolutely necessary to press button 13. In this case, it is switched on automatically as soon as the voltage occurring in the basic circuit of the transistor exceeds the Zener voltage of the Zener diode 17. As a result of the time constant elements present in the circuit, the amplifier 4 and the oscillator 25 are not switched on immediately at the beginning of the first signal, but with a slight time delay. In this case, it is advisable to switch on manually by pressing key 15. -The amplifier and the oscillator are always switched off automatically if there is no input signal. The absence of the input signal has to Folgeg that the Basiespannung of transistor 16 increases, we d until finally the Zener diode 17 is off. The voltage change in this circuit takes place with a time constant of about 10 seconds.In contrast, the decay time constant of the control voltage (capacitor 7, resistor 15) is considerably larger (about 60 seconds), so that a significant increase in the sensitivity of the circuit until the amplifier is switched off and- the oscillator does not occur.

The arrangement can be modified in such a way that the transistor is only influenced by the pushbutton switch 13 and is therefore independent of the control voltage. In this case, the amplifier and oscillator remain switched on only as long as the button 13 is pressed. The transistor can, however, also be controlled by a playback head arranged on the same track in front of the recording head 2.2 (the erasing head 26 can also be used as such). In this case, the amplifier and oscillator are only released when the playback head faces a gap in a first recording. Such an arrangement is particularly useful for dubbing cine films, in which further sound recordings are made between scenes that have already been set to music. Drawings are to be inserted. The ZeA t Switch-on constant of the running time of the sound carrier between adapted to the playback head used for control and the recording head. The playback head used for control can also be opposite to another track which carries corresponding control signals.

The Aufsprechkopf 22 shown in Fig. 1 kanng long as the amplifier and oscillator locked sindg for disconnecting listen to serve a first recording. The monitoring device must be bridged when the amplifier is switched on. With such a device, the use of the new recording can be determined particularly precisely.

3 shows another circuit arrangement which is particularly suitable for controlling the amplifier by means of pulses which are recorded on the sound carrier, for example, in the form of mechanical, optical, electrical or magnetic markings. The circuit diagram given in FIG. 3 also shows a three-stage amplifier that feeds the recording head. The oscillator 25 supplies the erase head in a known manner and supplies the pre-magnetization current for the pick-up head. The amplifier is designed without rule control, tc # L, - # itik. In the stream 'Kreie des grids 3 of the tube,', ## _ '.; t a bi-stable transistor Achalter provided, 'which in Arl.gitsstellung the grid with ground connects and thus reduces the negative bias. Switch is made up of two symmetrical circles-z- each contain a transistor 35 and 35 ' . Di- # 3 work- & ts% gi- resistors are denoted by 36 and 361 , respectively. the Both transistors trode are positive -z "or-tensioned 12-d by diagonal connections, which each have a 'resistance or 371 and a bii capacitor 38 or 381 with the the other's electrode, the transistor, connect the They are attached to the base electrodes via capacitor 39 bg # 71. 59 ' and diodes 40 and 401, respectively. By one of the 35 1 through a diode 41 and a capacitor 42 ziisä - #, - zlich supplied negative inrush current, the Tr, -t - "- lsistar- .351 initially conductive when commissioning the device. Ln Diode 401 is therefore the very little collecti ## o-Basis-Remainder- tension. The base of transistor 35 remains positive, de2 The transistor is blocked. On the grid 3 is thereby a negative bias so that the amplifier 4 remains stored> Y-, rt # The circuit is designed so that the diode 40 occurring reverse voltage to its absolute value ii # z, - h larger zr than the voltage of the positive control pulse. Bai- 2 # L - k # OLEM- In response to a control pulse, the diode 40 remains open, the diode 401, however, is leitond, whereby the on Jia Ba transistor 35 ' sis getting positive pulse eilü Kippon der Schalteinrichtumg Dei Transistor 35 wid Reduction of the negative bias on the grid 3 of the tube 4, both the amplifier and the oscillator are switched on. The next incoming positive impulse causes these facilities to be switched off.

The impulses can be derived from suitable recordings on the sound carrier. For example, switching foils can be attached to the sound carrier, which are picked up by contacts, magnetic impulses can be recorded on the same or another track, which control the switching device. Control through notches made on the sound carrier is also possible. Finally, it is also possible to provide an optical signature on the sound carrier, which can be scanned by photoresistors. Such a solution is particularly useful when dubbing cine films, since by sticking on opaque strips at the beginning and end of the scene, the amplifier and oscillator can be easily switched on and off. The switching device can switch on another device, eg a tape recorder, via suitable amplifiers or relay circuits, so that the transfer process takes place automatically after the fade-in and fade-out points have been marked.

The invention is not restricted to the examples shown. Instead of the switching devices shown, Schmitt trigger threshold amplifiers can be used with switch

electrical shears ete. Find use. Anztelle d3r shown in both games Mixing tubes for the '#P' retärkers can use other sheet metal electron tubes or you guys are used. The- se elements Körmen DAB 3 - only the function of a switch members need additional reinforcement works.

Claims (1)

A n ap r ü cb s 1. A device for magnetic recording sounds with a Aufnahmeyerstärker and with a high-frequency oscillator # ur yormagnetisierung and / or deletion of the Tonträgere as well as a switch for start-up of amplifiers and Oozillatorg d a d ur o h g e k ennzeichnet that preferably electronic switching '! .- aritehtung is arranged in an input circuit and / or output circuit of the amplifier and oscillator, the d, 14.r- # li an electrical signal from a rest function can be reversed and with the amplifier and oscillator switched on and switching devices in the idle function dampen the output level of the same to a possibly adjustable value. . 2. a device according to claim 1, gekennzeielinet that a control signal is triggered by a TastBchalter, the one ually or, if necessary, is controlled by notches attached to the sound carrier. .3. Device according to claim 11, characterized in that a control signal from switching foil attached to the sound carrier , # 5 directed. Einrichtv-ng according to # mspz- # z3e-; h i, F ", 2-duwGil marked, d2ß dGE # - a lot of that 3.1 Setup according to -i up to 4v dadlurch that i01; and Assessment a diG level on the MirJ-Mus.i. ', # ver-hate b3- # J works. z: Lo tur d a 2-- o T-he r- e An al ') r ü C h e -y1 ## I 3-US Q #em input- deG delay, expansion and 'ic', IJ nis xLi # 2 # 2c "ha-1 t; ic-- 't delayed 7. according to claim 6 using one with automatic control, control, at wel- ' ohezi derived from an amplifier stage and eir tone signal possibly after amplification and rectification of a Reielstufe of the amplifier is fed, thereby marked net that the control voltage of the amplifier can also be used as a control signal nal is used to hold the same and, when a predetermined threshold value is reached, causes the switching device to switch. 8. A device according to claim 7, characterized in that the switch-on pulse is derived from a switch arranged, for example, in the microphone casing, whereby if necessary the switch-on pulse also causes the control amplifier to switch to a preferably adjustable sensitivity value and that the switch-on circuit when falling below a predetermined threshold value of the control voltage time delay takes place. Device according to one of the preceding claims, characterized in that a control signal is derived from a hearing head preferably arranged in front of the preheating head. JL device according to claim 9, characterized in that the ear head rests on the same spar as the speaking head and, at? &%, A pulse recorded on the recording medium switches on the amplifier and otaillator * device according to claim 99, characterized in that the ear head on the same spar how the Aufeprochkopf is applied and in the absence of a voltage on the ear head causes the triggering of a corresponding control signal, so that the switching device switches on the amplifier and the Ostillator and in gaps of a harvest recording in a second recording process. additional S ignale displayed becoming ". 12. Device according to claims 10 and 119 using an amplifier with automatic level control # in which a tone signal is derived from an 'amplifier stage and optionally fed to a control stage of the amplifier after amplification and rectification, .- daduroh characterized .. that the fade-in time constant of the control amplifier the running time of the sound carrier, between the ear head provided for obtaining the control events and the Aufsproohkopf * is adapted. 13. Device according to claims 9 and 10 "daduroh denotes # that the recording head serves as an earpiece in recording paunas to obtain a control signal. 14, Einriohtung ne. # H claim 9, characterized @ that the ear head one of the Autzeiobaungspur different track the sound carriers Device according to claims 9 and 10, characterized in that an erase head serves as a hearing head in the recording pauses for obtaining a control event. Device according to one of the preceding claims, characterized in that the control signal is fed to further switching devices which have other functions Device according to one of the preceding claims, characterized in that different switching devices are provided for the amplifier and the extinguishing oscillator, the on-time constant for the extinguishing oscillator being greater than that for the amplifier according to one of the preceding claims »characterized in that the switching device controls a display device, for example a glow lamp, which indicates the switching state of the switching device. Device according to one of the preceding claims, characterized in that a 1> hot resistor is provided in the circuit of the erase head, the one. ' optionally also = r display of the switching state serving glow lamp is opposite, which can be switched on by the holding device at the same time as the amplifier and thus also switches on the erase head. 20. Device according to claim 19, characterized in that an adjustable diaphragm is provided between the photoresistor and the glow lamp, through which the intensity of the erasure can be determined. 21. Device according to one of the preceding claims, characterized in that the switching device switches the amplifier from recording to playback.