DE2163399C3 - Arrangement for controlling the clear tone screen of an optical sound recording device - Google Patents

Description

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dependent on the bridge upset. If this AC voltage signal is a phase-dependent Rectifier supplied, which is connected by the oscillator feeding the bridge, so occur on its Output DC voltage signals, which take the form of full-wave rectified AC voltage signals with the difference that these DC voltage signals depend on the bridge signal are positive or negative. They can be smoothed in a sieve element, with those described above Disadvantages of rectifying the audio frequency signal and subsequent sieving using charging capacitors appear.

In the patent application P 20 54120.2 was a Proposed method for rectifying an alternating voltage, in which alternating in the cycle of the half-periods of the input alternating voltage one of two memories is charged to the value of the input AC voltage and the other memory sends the previously recorded value to the output. Each memory is at the beginning that half-cycle of the AC input voltage during which it equates to the value of the AC input voltage should be charged, briefly discharged. Such a method is suitable only to rectify an alternating voltage with a single specific frequency, but not a mixture of signals with different frequencies, as is the case with audio signals.

The present invention is accordingly based on the object to provide an arrangement which it allows to control the clear tone screen of an optical sound recording device from an audio frequency signal to form a signal which approximates the time course of the envelope of the audio frequency signal. In particular, the swing-in and swing-out times should be short, so that the audio frequency signal is timed Sequence of recording and opposite can be recorded as optical soundtrack. According to the invention, this object is achieved in that two charging capacitors that are decoupled from one another are provided, to which switches are connected, which are controlled by an oscillator whose frequency is at most equal to the lowest frequency of the audio alternating voltage, are controlled such that the charging capacitors alternately discharge and the charging voltage of the respective non-discharged capacitor or a voltage derived therefrom is used to control the clear tone screen. at Using such an arrangement, an optical sound recorder can transmit an audio frequency signal in both Directions are recorded so that, as above, the dubbing time is changed to multiple tracks the rewinding times are shortened. Apart from this, such an arrangement can also lead to other rules or Control purposes mi: Can be used advantageously if the signal for the steep link comes from a AC voltage mixture is obtained and short settling and decay times of the actuator are required will.

The invention and further advantages and additions are described below with reference to the drawing explained in more detail. It shows

F i g. 1 shows the basic circuit diagram of an exemplary embodiment,

Fig. 2 shows the dependence of the output voltage / on the input voltage of an amplifier used in the arrangement according to FIG. 1 and

3 and 4 voltage diagrams of the arrangement according to FIG. 1.

In Fig. 1, the schematic diagram of an arrangement is shown as an exemplary embodiment, which is used to form a control voltage for the clear tone screen of an optical sound recording device. The input voltage U _{E of} this arrangement is equal to the audio frequency signal to be recorded, which is processed for recording with a different circuit

ίο will. The signal Ug is fed via an input transformer Ul to a preamplifier Vl, the transmission behavior of which is in the form shown in FIG. 2 is plotted. From this it can be seen that stage VI amplifies small signals more than large ones. Such a transmission behavior is achieved by switching on diodes in the negative feedback branch. The stage Vl is followed by a further amplifier stage V 2 , which connects a rectifier Gr via a second transformer U2.

ao controls. Their output resistance is low so that the capacitors C1 and C2 connected downstream of the rectifier Gr are charged quickly and the rectifier can act as a peak rectifier. The two capacitors Cl and C 2 are over

As each a diode Dl or D 2 decoupling the capacitors and a resistor Al or Rl which determines the charging time constant of the capacitors Cl and Cl are charged. A Zener diode Z limits the charging voltage of the capacitors C1 and C2 to a certain value, which corresponds to the desired central position of the clear tone screen. An instrument / indicates whether the Zener tension has been reached.
The capacitors C1 and C2 are alternately short-circuited by means of electronic switches, in the exemplary embodiment field effect transistors TjI and Ts 2, and thereby discharged. The control electrodes of the transistors are connected to monostable multivibrators MKl and MKl , which in turn are connected to the two outputs of an astable multivibrator AM . Whenever this changes its switching state, one of the two monostable multivibrators MKl and MKl is triggered, which controls the transistor connected to it for the duration of its time constant. The astable multivibrator AM further controls alternately two transistors Ti 3 and Ti 4, each of which during its control time the output voltage of an amplifier V 3 or V 4

through to the input of an amplifier VS. The amplifiers K3 and V 4, which have high input resistances, are connected to the capacitors C1 and C 2. The gain of at least one of the amplifiers V 3 and V 4, in the exemplary embodiment of the amplifier V3, can be regulated so that when the capacitors C1 and C 2 are charged to the same voltage, the output voltages of amplifiers V3 and V4 can also be set to equality.

With reference to FIGS. 3 and 4, the operation of the arrangement according to FIG. 1 explained. In the example according to FIG. 3 it is assumed that the input voltage U _E is initially zero and then suddenly a sinusoidal signal appears which, after a few oscillations, suddenly collapses again to zero. The charging voltages of the capacitors Cl and C 2, the time course of which is eezeiet in the diagrams el and el. is

also zero. The switching states of the transistors While the clear tone screen is still moving, the astable multivibrator switches Ts 3 and Ts 4, which are switched through alternately. As a result, the diagrams ts3 and ts4 show the transistor Ts 4 blocked and the transistor, the hatched area indicating that Ts3 is open, so that the respective transistor is switched through in the amplifier V3 rather than the time. 5 amplified charging voltage of the capacitor C1 to At the beginning of the time representation in FIG. 3, it switches the amplifier VS. Since the output span transistor Ts 3 is turned on . Since the charging voltages of the amplifiers V 3 and V 4 are the same, which voltage of the capacitor C1 is zero, the output is achieved by adjusting the gain of the voltage of the amplifier V 3 and thus also the amplifier V 3 , the changes Input of the amplifier KS, which is labeled Ul, zero. 10 voltage of the amplifier VS and thus the span. After a certain time the astable multi- voltage Vl does not flip. When the astable vibrator AM is switched over, the transistor Ts3 flip-flop AM is now also the monostable flip-flop is blocked and the transistor Ti4 is switched through stage MK2 excited, which is through the transistor Ts2. At the same time, the monostable multivibrator MK1 is switched. As a result, the capacitor C 2 .entangustucht, which in turn charge the transistor TsI to 15, which results in a drop in the voltage c2 discharge of the capacitor; Cl switches through. Since shows. The resistor R2 protects the Trander capacitor Cl was not charged anyway, sistor Ts 2 by limiting the current against over-changing, the voltage el does not change. With the load. The diode Dl decouples the two Kon occurrences of the input signal U _E , which is downstream of the capacitors, so that the capacitor Cl maintains its load gain in the peak full-wave rectifier Gr ao. After blocking the transistor Ts 2 is rectified, both capacitors are first of all charged increases the charging voltage of the capacitor C 2 with capacitors Cl and C 2, since the time _{curve of the input voltage U E} up to the resistance of the rectifier Gr are low Peak value. These switching, discharge and should, the charging of the sine wave charging processes are always repeated, which follows. Since the rectifier Gr is a peak DC voltage Vl with a constant amplitude of the device, the capacitors Cl and C 2 output voltage is constant.

except for the peak value of the load on the secondary winding.

of the transformer V 2 occurring input voltage initially keep the capacitors Cl and C 2 their charged. An image of the charging process is shown in the state of charge until the multivibrator AM switches over at the output of the amplifier V 4 and, since the 30 tet. In the example chosen, the capacitor transistor Ti 4 is switched through, discharged at the output of the capacitor C 2, which has no effect on the amplifier VS. The voltage Vl has correspondingly rises, since now the charging voltage Vl is queried in the same way as the charging voltage of the capacitor C1. Not until after C2. the next time the multivibrator is switched

The voltage Vl is also discharged with a capacitor C1 in a unit 35, the reference voltage V 2 generated by the voltage RF is compared, U 1 goes back to zero and the clear tone diaphragm is set differently depending on how it is in its rest position. Does the initial pandemic, whether the clear tone screen with the currentless anchor voltage of the multivibrator AM half a period of the middle position, with the maximum modulation possible duration of z. B. 20 msec, which is borrowed as a favorable value, or the rest position, in which no or only 40 has turned out, is in the selected example, low modulation is possible, occupies in the first the time from the interruption of the input voltage until ren case the rest position is only approximately set by a bias current to decrease the voltage Vl to zero, which is generated in that z. B. the 25 msec. The longest possible duration is 40 msec. Voltage V 2 greater by a certain amount Such short times are not selected even if the voltage signal is not selected as the voltage Vl when there is no AC sound event "backwards". With increasing input noticed. In addition, the level of the signal U _{E also} increases at low frequencies, and the voltage Vl also rises, and there is no distortion due to the clear tone screen, since the voltage Ul has a smooth plateau so that the current through the clear tone screen armature has a smooth plateau. back, until the output voltage of the DC 4 shows a time chart, as it reaches the Zener voltage of diode Z at the lifting pole Gr contact 50 of a slowly rising and slowly ausin this case, the Klartonblende must their central sounding input voltage U _E is produced, the charging position reaches to have. Deviations can be corrected by the voltages d and c2 of the capacitors C1 and changes in the gain of the amplifier C2 increase initially as a result of the gain VS. In the second case, in which the characteristic of the amplifier V1 suddenly comes on, and the clear tone diaphragm assumes its rest position , when it closes, the increase is somewhat lower, so that the later-anchor is de-energized, it becomes stronger again if there is no changer. The rise undervoltage signal V _E the reference voltage U2 are the same are intended. If necessary, the voltage Vl can also be set. With a rising level, a linear rise can be set. The transistors of the voltage U _E is then the voltage Ul GroE Ts3 and Ts 4 werden- again alternately durchßer than the voltage U 2 and the armature current 60 turned on so that a voltage Ul results in increases. of the discharges of the capacitors Cl and C

The diagrams in FIG. 3 apply to both situations which are not noticeable. The voltage Ul is therefore the guide types of the clear tone screen. After the increase approximately equal to the envelope of the input voltage Ul, the diaphragm also moves, such as voltage V _E. Also, the Klartonblende shows how from the bl is shown in the diagram, because of their inertia 65 is diagram bl be seen, but they can be linear one as the voltage Ul not follow special increase.

which it reaches its middle position for some time, e.g. B. When the amplitude of the input voltage decays

20 msec, later than the voltage Ul reaches its final value, however, the charging voltages follow the con-

capacitors Cl and Cl due to the decoupling by the diodes Dl and D 2 not the envelope of the input voltage, but the capacitors keep their voltage until the discharge through the parallel transistor. They are then charged to the new peak value of the input voltage. It arises

then a voltage al falling like a staircase, whereby a stair step has a duration of approx 20 msec. This duration is so short that the drop in voltage «1 is regarded as practically linear can be, especially since the steps are still blurred due to the inertia of the plasterboard will.

For this purpose 4 sheets of drawings

Claims (4)

due to the short settling time Claims: Distortions when playing back a Listener did not notice and also the noise after 1 Arrangement for controlling the clear sound - a loud sound event is hardly noticeable, blind of a light sound recording device with a 5 The situation is different when you try to record the rectifier to which the sound alternating voltage - sound event "backwards", ie when it is performed and with it downstream with the recording at the end of the Tonereigmsses charging capacitors, marked thereby is started. Such a recording method that two chargers that are decoupled from one another could be used if several capacitors (C1, C1) are provided, to the optical sound tracks on a film next to one another on switches (TjI, MKl, Ts3] TsI, MKl, TsA). should be drawn. This is e.g. B. then the closed, which by an oscillator case, if on a film strip several narrow (AM), whose frequency at most equal to the low films are applied next to each other, of which the most rigorous frequency is the audio alternating voltage, each to be provided with an audio track and which are controlled in such a way that the charging capacitors 15 developing the film are split. The Tonsatoren alternately discharged and the charging event is mostly on a recording medium. B. magnetic film or magnetic tape stored. The sators (Cl, Cl) or a recording method derived therefrom would then run in such a way that, in addition to the voltage for controlling the clear tone diaphragm, a sound track is recorded while it is being used. »° the two recording media in one direction 2. Arrangement according to claim 1, characterized in that the recording then indicates that to amplify the toning optics of the optical sound recording device around the alternating voltage, an amplifier (Vl) is recorded, the gain of which is recorded for small neten first sound track perpendicular to the direction of movement signals is larger than for large signals. »5 of the film is moved and the second soundtrack 3. Arrangement according to claim 1 or 2, there is recorded, while the recording media characterized in that the two loaders in opposite directions transport capacitors (Cl, Cl) each have an amplifier (V 3, the and that then, if necessary, further tracks VA) with a high input resistance is connected after the respective shifting of the recording sensors, of which at least one has a single optics and a change in the transport direction of the set-up gain and whose award carriers are recorded. There would be output via one of the interrogation switches - that is, the sound event is switched once in the usual way in the formed switch (Ts 3, Tj 4) to a node-temporal sequence of recording and the other point. Times dubbed backwards. With such a 4. Arrangement according to claim 1 to 3, characterized by driving 35, the rewinding times of the sound recording are characterized in that the control inputs of the Ab- nung carrier saved. If the recording medium, question switch (Ts 3, Ts 4) is connected to the outputs of the tape on which the sound event is stored, a magnetais astable multivibrator (AM) , it can easily be connected to a "backward" oscillator. can be played without going through this playback process 40 Sound quality is lost. On the other hand, the backward recording of the light tone has an effect due to the ____— long decay time of the clear tone screen in the Playback in such a way that loud parts of the sound event are accompanied by a disturbing noise. The invention relates to an arrangement for controlling 45. Similar problems also occur in tion of the clear tone screen of a light sound recording- other cases, z. B. in the dynamic control, device with a rectifier, which the sound in which from an alternating voltage signal an alternating voltage is supplied, and with this sen amplitude-regulating signal is formed, downstream charging capacitors. It was recognized that such a record In optical sound recorders, a so-called 50 determination method provides good results if the Clear tone diaphragm controlled in such a way that when there is a control or regulating voltage for the clear tone diaphragm The amplitudes of the alternating voltage signal are only equal to the envelope of the alternating voltage the narrowest possible strip of the film is not signaled. To do this, the swing-in and swing-out lights must be illuminated will be, however, times short with large amplitudes. Although it is possible through Verdie full width of the available for recording 55 small of the discharge time of the filter capacitor standing film strip is exploited. This will shorten the decay time. Reached such a level the fact that when playing back also the soft take causes a distortion in the deep Adjustment of the indicated sound event not from frequencies of the recorded signal, are superimposed on a disturbing noise. The Si from the magazine "Elektrotechnik", 51 (1969), gnal for controlling the clear tone diaphragm is described in 60 Issue 11, pp. 18 and 19, it is known in jointly known Devices by rectifying the pitch with a phase-dependent rectifier frequency signal and subsequent sieving by means of an output signal that is equal to the envelope charging capacitors won. It has the clear ends of an alternating voltage signal. This fade in when large amplitudes of alternating voltage occur because a bridge is created a short settling and a long decay- «5 is fed by an oscillator and is bridging time. In normal operation, i. i.e. when the tone detuning occurs in the occurrence of an alternating chip event affect the chronological order of the recording signal on a bridge diagonal, is recorded, this does not matter; because the selected The amplitude of the alternating voltage signal is