DE751441C - Method and device for producing a low-noise optical sound recording in sprout script - Google Patents

Description

Method and device for producing a low-noise system Optical sound recording in sprout script It has already been proposed in the Recording of tones in sprout script as a function of the light control organ to control the envelope current of the sound stream in such a way that the average light transmittance the resulting sound recording changes according to the tone strength, namely in such a way that with decreasing tone strength the average light transmittance of the for Reproduction of the sound vibrations serving sound recording decreases. About distortion to eliminate the sound vibrations during playback, the individual Sound vibrations correspond to momentary changes in the transmittance of light Record the two sides of the respective mean light transmittance equivalent be and should be within the straight line part of the light transmission curve of the recording. Since it is usually desirable to do this part of the light transmission curve at the largest Sound strength - to use as much as possible, it is important to to control the Lirhtsteuerorgan so that enstrom with increasing envelope curve the average light transmission of the sound recording only up to the midpoint the value corresponding to the straight part of the light transmittance curve increases and therefore, if the tone strength is still increasing, it is not changed any further.

For this purpose, according to the invention, the tone amplitude becomes zero Light control organ flowed through by a direct current, which the light control organ so affects that the 1-literary darkness assumes a minimum, while with increasing Tonamplitude the increasing envelope current increasing up to half of the Blackening of the maximum tone amplitude can increase.

In the preferred embodiment of the method according to the invention becomes half of the blackening corresponding to the maximum tone amplitude for a Reached the amplitude value that is smaller than the maximum amplitude.

It is advisable to use a facility that is known in the art Way a tube amplifier and a rectifier circuit to amplify the sound current which rectifies part of the sound current amplitudes and, if necessary, smooths out. The invention proposes in this context, the device so to train that the current drawn from the rectifier the grid circle of an electron tube is supplied, in the anode circuit of which the light control element is switched on, in such a way that that as the tone amplitude increases, the anode current decreases to the tip value.

It is also useful that the grid circle has an adjustable bias and that the rectifier contains means for adjusting the input amplitude.

The low-noise sound recording is carried out in a known manner Copying a sound recording obtained by recording the sound amplitudes manufactured.

The invention is explained in more detail in the drawing.

Fig. I shows the blackening curve of a low noise level, for reproduction of the tones determined soundtrack, Fig. 2 the blackening curve e of the corresponding original (negative) sound recording, FIG. 3 shows the light transmission curve for sound reproduction sound track to be used, Fig. q. schematically a sound recording system and Fig. Fig. 5 is a circuit diagram of a device to be used for recording.

In Fig. I, o, o ', o "and o"' are the different values of the Sound intensity corresponding values of the mean blackening of a sound reproduction certain low-noise light recording.

The point o corresponds to the value of the mean density at dein Amplitude value zero of the sound recording, and the point c, the center of the approximate rectilinear part of the blackening curve e a corresponds to that which is not to be fallen below : Minimum value of the average density of the recording.

On the blackening curve a1 (Fig. 2) of the sound recording, after which the basic noise charixie optical sound recording to be used for playback Copy is produced, the point o (Fig. I) corresponding to point o1 lies such that the corresponding mean blackening is only small and increases with increasing Tone amplitude shifts towards the midpoint cl of the rectilinear part of this curve.

The shape of the blackening curve a (Fig. I) depends on the exposure of the sound film in question during copying and of the exposure of the original recording of the tones shown from the light toilet record. By appropriate development of the mentioned sound recording it becomes possible to use the blackening curve this recording and thus also the blackening curve a of the one produced by copying Adjust the low-noise soundtrack in such a way that the points cl and o1 of the blackening curve a (Fig. i) get the right position. This makes it possible for the low-noise Soundtrack fraction of the amount falling on this soundtrack that prevails during sound playback Amount of light, d. H. the transparency Gp of the low-noise soundtrack, itself according to the exposure intensity used when recording the tones I, (Fig. -2) plays (see. Fig. 3).

By moving the points o and o, respectively, in the above Way is achieved that the average light transmission of the low noise In the case of weak sound amplitudes, the sound track has a corresponding point a- of the curve il in FIG. 3 assumes a low value and that the mean light transmittance, light-transparency increases with increasing Tone amplitude is increasingly shifted towards the center point y of curve d.

It should be noted that the rectilinear or approximately rectilinear Part of the curve d (Figure 3) has a relatively larger extension than the straight line or approximately rectilinear part of the curves a1 and a; this is due to that the curvature of the curve a1 in the area of the point Ol is, so to speak, the opposite curvature the curve a in the area-of the point o compensates.

In Fig. 4, e is an oscillating mirror of an oscilloscope, whose Loop f flowed through by the sound currents. will. By means of an optical system n1, a light source i is imaged in the plane of the mirror e. The light permeates a gap g in a screen h, and an image g 'of this gap is displayed on an intermediate thrown the: mirror e and your recording film k -arranged screen Z,: such, that this image partially covers a gap m in the screen l. A cylinder lens In the middle of the light penetrating the gap, n creates a linear image Light source on the film k.

When the mirror e oscillates around the longitudinal axis of the loop f is offset, then the image g 'is alternately more or less across the gap m introduced, whereby the part penetrating this part of the reflecting from the mirror e Amount of light in accordance with the vibrations of the mirror, d. H. in accordance with the changes in the tone amplitudes. .

The mirror e is to be adjusted in such a way that the image g 'only slightly covers the gap m if the sound amplitudes to be recorded are weak, ie if there are no sounds to be recorded, the mirror should adjust itself automatically so that one edge of the image g' an or close to an edge of the gap m comes to lie, z. B. should be the upper edge of the image g 'close to the lower edge of the gap in . The intensity of the exposure of the recording film k is then low and corresponds to the point o1 of the curve a1 (FIG. 2). When sound vibrations to be recorded appear, the mentioned edge of the image g 'is pushed in over the gap m, the more so the greater' the sound amplitudes become, i.e. the point o1 is shifted towards the point c1, as described above (Fig. 2).

This shift of the image g 'is illustrated in FIG Way effected. By means of a transformer, the fluctuations in the ' Tones to be recorded correspond to the tone current of the grid circle of a rectifier tube pressed on. The directional current passes through a resistor t and is made by a capacitor u smoothed. The directional current causes voltage variations in the resistance t, and these voltage variations are imposed on the grid of an amplifier tube v. The oscilloscope loop f (Fig. 4) is connected to the anode circuit of the tube v and is also in the usual way by means of a transformer T in the circuit of the sound stream to be recorded. The central position of the mirror e is from the anode current the tube v dependent.

The mirror e is adjusted in relation to the gap m in such a way that that when the amplitude of the tones to be recorded is zero and the anode current is the Tube v has the value zero, which the gap in the amount of light penetrating such a Has magnitude that the exposure of the film k corresponds to the point cl of the curve a1 (Fig. 2) corresponding value, d. H. half the maximum exposure of the film.

The anode current of the tube v is determined by changing the grid bias This tube is regulated in such a way that, if the tone amplitude is very weak, the Center position of the mirror e changed so that the amount of light penetrating the gap m causes blackening of the film corresponding to point o1. When the tone amplitude increases, the anode current will decrease to the value zero, causing the point o1 has been relocated after point c1. Another shift of the point o1 will therefore not be able to take place if the tone amplitude is still increasing.

The rectifier is expediently used with means not shown Adjustment of the input amplitude provided.

Claims (4)

PATENT CLAIMS: r. Method for producing a low noise floor Sound recording in rung writing by means of a depending on the envelope curve current of the Tonstrom so controlled light control element that the central blackening of the corresponding sound recording changes, characterized in that the Sound amplitude zero the light control organ is traversed by a direct current and the mean exposure assumes a minimum and with increasing tone amplitude the increasing envelope curve current the mean exposure increasing up to half the maximum exposure increases. 2. The method according to claim i, characterized in that that the mean exposure is half of the maximum exposure already at that maximum amplitude value of the sound recording or one below this Amplitude value reached. 3. Device for carrying out the method according to the claims r and 2 with a tube amplifier that amplifies the sound current and a rectifier circuit, which rectifies and smooths out part of the sound current amplitudes, through this characterized that the current drawn from the rectifier is connected to the grid circuit of a Electron tube is supplied, in the anode circuit of which the light control element is switched on is such that with increasing sound current amplitude, the anode current down to zero decreases. 4. Device according to claim 3, characterized in that the grid circle contains an adjustable bias voltage and the rectifier contains means for setting the input amplitudes. To distinguish the subject matter of the invention from the state of the art, the following documents were taken into account in the grant procedure: French patent specifications No. 685 344 5 8 3 418, 642 373; Austrian Patent No. 83 175; German patent specification No. 71q.507.