DE634219C - Method and apparatus for producing low-noise optical sound recordings - Google Patents

Description

The invention relates to a method and a device for producing a light tone recording in zigzag script with an envelope curve running along its edge.
In the known methods and devices in which the areas not occupied by the sound recording are covered in order to produce light sound recordings in zigzag script in order to

"O noise avoid ^1, the control is of the diaphragm for manufacturing the envelope curve by means of an auxiliary microphone circuit, which is controlled by the male tones. The control of the diaphragms by means of an auxiliary microphone is disadvantageous because the auxiliary microphone not only causes disturbances itself as a further part, but also can only be completely adapted to the main microphone with difficulty in terms of phase and frequency response.

According to the invention, the light control element generating the envelope is of a branched off part of the circuit of the recording microphone or its switched on Amplifier controlled flowing speech streams.

To carry out the method according to the invention, according to the invention, the Envelope generating light control member on a movable in a magnet system Attached coil, which consists of two windings, one of which is from the envelope current, the other of which is traversed by a direct current, the latter being a more trouble-free one and more precise return of the control element to its normal position is guaranteed than Feathers.

According to the invention, two mirror galvanometers can also be used for the two light controls to be used.

The invention is illustrated, for example, in the drawing in the context of a recording device known per se.

The condenser microphone 11 with amplifier 13 is used to produce a current of varying strength * that corresponds to the one to be recorded Corresponds to sound vibrations. When using several microphones, the device 15 is used by the various Microphones to combine recorded currents in the appropriate ratio. The streams so combined will be through the device 15 to the amplifier 17 fed.

The current generated by the amplifier 17 controls the mirror oscilloscope 19. The light from the source L passes through the condenser lens C, through the diaphragm A ₁ and

through the galvanometer lens GL to the oscilloscope mirror GM, from which it is through the; Lens GL and is thrown onto the film F by the usual optical system 0 / The system 0 consists of the cylindrical lens CL and the lens L _x , which serve to direct the light in the form of a narrow slit onto the narrow gap SL to sam- '. mine, the image of which is thrown onto the sound section R of the film F in the form of a narrow ίο light line 5 ".

The surface of the film exposed to the action of light produces the usual serrated script. A further slit diaphragm A _{2 is} arranged between the oscilloscope mirror GM and the lens CL. The movement of this diaphragm serves to reduce the width of the sound path in the opposite direction to the shielding, which results from the combination of the opening A ₁ and the oscilloscope mirror GM . Thus, with respect to the film F, the action of the diaphragm A ₂ serves to produce the darkened portion N of the record R , 25 'while the combined action of the aperture A ₁ and the oscilloscope mirror GM serves to produce the darkened portion M of the record R to manufacture; the latter is therefore the darkness corresponding to the streams of speech. The negative film produced by this process will be transparent at the portions indicated by the darkenings, while the bright portions will have been exposed to light. During development, the * negative will therefore appear dark in these sections and light in the sections where it was _{shadowed during recording by the opening ^ 1} and the mirror GM or the diaphragm A ₂ , while "the positive of the recording film looks like this, as shown in the drawing.

A two-stage amplifier is connected to the circuit that feeds the oscillating mirror GM. 21 and 23 includes. The output of this amplifier is fed to the electric rectifier 25. The speech current rectified in this way is fed to a direct current amplifier 27.

The rectified and amplified pulses are conducted through a resistor 29, battery 31 and through the coil 35 of the electrodynamic device 37 to ¹ earth. The field 38 of the device 37 is fed by the battery 40. The coil 35 is divided into two sections 33 and 39; when a current flows through the amplifier 27, both sections 33 and 39 serve to move the coil in one direction. The center tap connecting the coils 33 and 39 is connected to the heating battery 41 via a variable resistor 43. The mentioned circuits are dimensioned so that when no current flows through 6g, the amplifier 27, the current flowing through the section 39 of the coil 35 is sufficient to keep the coil 35 in its rest position. The above-described diaphragm. ^ _{2 is} connected to the movable coil 35 of this device.

The shutter therefore moves in proportion to the magnitude of the amplifier input current, outward under the pressure of the rectified current of coil 33 to follow the peaks of modulation on the film, and back under the pressure of section 39 of coil 35 when the Modulation has stopped. The oscillation of the aperture stop A ₂ is in more precise tune with the DC pulses from the rectifier 25 and therefore the light passes only to the extent necessary so as not to disturb the peak modulation reaching the film at any given instant . If there is no modulation, the diaphragm is adjusted so that it ^{emits a light beam with a width of approximately 1} I ₁₀ HIm towards the; exposing film can get.

A milliammeter 45 is turned on in front of the section 33 of the loudspeaker 35 to display the current changes in this system. A similar ammeter 47 is switched into the line from earth to section 39 of the loudspeaker coil for the same purpose.

Another recording arrangement can be designed in such a way that, according to the invention, a second mirror is placed in place of the diaphragm A _{2 of} the arrangement described and illustrated above, both mirrors being controlled in such a way that they expose the recording web from the two edges. The use of a second mirror galvanometer is advantageous because in this case two completely equivalent devices come into effect when recording the sound on the film and certain possible delays in the operation of the two devices are excluded. This second mirror can be operated by the usual galvanometer coils controlled by the output of amplifier 27 and would regulate the adjustment of the 115 image from a second light source which has its own condenser lens and aperture stop. This image would be projected onto the film F through the same optical system O. With this arrangement, a film is obtained as drawn, i.e. a positive.

Claims (3)

Patent claims: ι. Method for producing a sound recording negative in serrated script with an envelope curve running along its edge, characterized in that the light control element (A ₂ ) generating the envelope curve is controlled by a branched off part of the circuit of the recording microphone (ii) or its connected amplifier (17) Speech streams. 2. Apparatus for carrying out the method according to claim 1, characterized in that the light control element (A ₂ ) generating the envelope is attached to a coil which is movable in a magnet system (37) and consists of two windings (33, 39) whose one (33) of the envelope current, the other (39) of which is traversed by a direct current. 3. Apparatus according to claim 2, characterized by a mirror galvanometer each for the envelope and the speech curve circuit. For this purpose τ sheet drawings