DE742170C - Circuit for the coupling of photocells working in push-pull mode to an optical sound reproduction amplifier - Google Patents

Description

Circuit - for coupling of photocells working in push-pull to an optical sound reproduction amplifier The invention relates to the photoelectric Sampling of soundtracks recorded in push-pull. Such sound tracks are created known from the fact that the positive and negative half-waves of the Vibrations are recorded separately. They are separated when played back sampled and reassembled after sampling to the original oscillation. The recording can be in the two known forms, namely either in half-wave writing or in full wave script.

For scanning such sound tracks, it is already known to use two im Push-pull working photocells like - to the input of an amplifier to connect that one photocell is positive and the other is negative Has suction voltage with respect to the zero potential of the amplifier.

The disadvantages of this circuit are that you get high negatives Voltages compared to the amplifier zero potential are required, but these are normally are not available because only high positive voltages (anode voltage) in the amplifier are needed. The present invention does not require negative voltages to oppose the zero potential of the amplifier.

- A circuit has also become known in which two cells in opposite directions with respect to the audio frequency voltage and parallel with respect to the DC voltage are connected in the same direction in series with the common DC voltage source. However, the known circuit is for the scanning of push-pull optical sound recordings Cannot be used in half-wave writing because one cell has its voltage above the another cell receives. So if one cell is dark, the other cell is not able to work. However, the known circuit is also not suitable for scanning whole-wave writing usable because the size of the suction tension, which at one and the other Cell is due to the ratio of the internal resistances of the cells themselves is. Z. B. the one cell a lot of light, which a large photocurrent in this Cell would have to result in a small suction voltage at this cell lie while on the other cell, which at the same time according to the Push-pull recording gets little light, so only a small photocurrent should give, there is a high suction tension. But since the photocurrent of the size of the Suction voltage is dependent, is caused by the mutual influence described of the cells decreased their sensitivity. The distribution of the suction tension is so extremely unfavorable with the known circuit.

The disadvantages described are eliminated by the invention. It consists of a circuit for the coupling of photocells working in push-pull mode to an amplifier in which the two cells with respect to the audio frequency voltage parallel in opposite directions and in the same direction with regard to the direct voltage (suction voltage) are connected in series with the common DC voltage source for the photoelectric Sampling of soundtracks recorded in push-pull, which is characterized is that the distribution of the DC voltage on both cells is by one to each Cell parallel resistor takes place.

An example embodiment of the invention is shown in the accompanying drawings Drawing shown.

It means: Z, and Z, the two photocells, R-, R., Rs, R4 resistors in parallel with these cells, C., C3, C4 bypass capacitors, Cl and R ,; Coupling elements of a CLi "circuit.

At the point + Z the one common to both photocells is opposite the cathode point of the amplifier is positive suction voltage.

If the sum of the resistances R, and R. equals the sum of the resistances R3 and R4, the voltage -! - Z must be twice that required by each cell Suction tension.

The operation of this circuit is as follows. As you can see, they are the two photocells are connected in opposite directions and in parallel with alternating currents, there they with unequal poles on the one hand on the grid of the amplifier tube and on the other hand at the cathode point of the amplifier. That cell Z .., immediately, the Cell Z, but coupled through a capacitor C4, has no crucial Significance because this capacitor represents a short circuit for the modulation voltage.

With regard to the DC voltage, however, the two photocells are in the same direction and connected in series. The distribution of the total voltage + Z between the two photocells takes place in the ratio of the resistances R, and R_ to R3 and R.,. Both 'cells received the suction tension with the correct sign. The two resistor pairs R1, R_ and R3, R, thus a double task: On the one hand, they act as a DC voltage distributor, on the other hand they determine together with R "the alternating current resistance between the amplifier input and inside the cathode point and thus in turn "at one with." the circuit capacitances between the grid and cathode lines determine the frequency response the overall arrangement.

In general, for a given resistance magnitude, both influences cannot be exercised in this way, since the reversing current resistances are a must have different sizes than the Gleiclistrornoresistors. It is therefore in the sense of the word of the invention, the resistors R, = R_ and R3 - R; through partial bridging with condensers (C., C3) different values with regard to the DC voltage and to give the @@ - ee @ rlspannung.

It is also within the meaning of the present invention to make the resistors adjustable for the purpose of more precise adjustment of the timing effect. Since the resistance R, is normally much greater than the resistance R. , when the resistance R is changed, the level of the suction voltage, ie the cell sensitivity, and when the resistance R is changed, the size of the alternating voltage supplied by the photocell. changes.

The same arrangement can also be applied to the resistor pair R3, R4 For the most part, however, it will be sufficient to influence the one photocell.

Claims (1)

PATENT CLAIMS: a. Circuit for coupling push-pull photocells to an optical sound reproduction amplifier for push-pull tone writing, in which the two cells are connected in opposite directions in parallel with respect to the audio frequency voltage and in series with the common direct voltage source in the same direction with respect to the direct voltage (suction voltage), characterized in that. that the DC voltage (Z) is distributed to both cells by a resistor (R, R = and R3, R4) connected in parallel to each cell (Z ,, Z ..). Circuit according to Claim i, characterized in that the resistor (R ,, R., or R3, R4) lying parallel to each cell (Z, lizw. is partially short-circuited. 3. A circuit according to claim z or 2, characterized in that the resistor lying parallel to the cell can be adjusted as a whole or in part (R1). Circuit according to Claims r to 3, characterized in that the grid circuit and photocell circuit are separated from one another by a CW coupling (Cl, R5). To distinguish the subject of the application from the state of the art, the following publications were considered in the granting procedure: German patent specification ..... No. 6o6 032; French 745 580; British 332I97, 322,796, 36o 898; American Patent No. r 81-2763, 2000705-