DE954163C - Circuit which, under the influence of switching voltages, passes on a voltage of any polarity applied to its input terminal from its output terminal, especially for equalizing transmitters for telegraphic characters - Google Patents

Description

The invention relates to a circuit which, under the influence of switching voltages passes on voltage applied to its input terminal of any polarity of its output terminal.

The manner in which a "known circuit is controlled has several disadvantages permeable layer of the circuit, d. H. when the applied voltage to the output terminal is passed, the switching voltage source is not switched off, so that this source for the Circuit forms a load. 'You would this

You can reduce the load by placing large resistances in front of the terminals of the circuit switches, but then the switching voltage has to be very high and then the blocking state occurs as a result the circuit, d. H. if the applied voltage is not passed on to the output terminal, a high voltage across the rectifiers, which they may not be able to endure. Moreover, must In any case, the switching voltage must be considerably higher than that to be blocked or passed by the circuit applied voltage.

The said disadvantages are now avoided in the circuit according to the invention, and in that it consists of two cell relays of opposite polarity, the cell relays are interconnected by means of two branches of each of these cell relays and one of the connection points is the input terminal and the other is the output terminal and the Switching voltages to pass on the voltage present at the ίο input terminal to the third branches of these cell relays are placed in such a way that one Switching voltage depends on the polarity of the cell relay in question and of an absolute value which is equal to or greater than that of the voltage to be passed on, the passing on the input voltage is terminated by changing the polarity of the switching voltages.

Under a cell relay there are several, ao branching off from a common connection point To understand rectifier cells with the same forward direction. The rectifier cells form the branches of the cell relay.

Under a cell relay of positive (negaa5 tiver) polarity is to be understood as a cell relay whose connection point is still through a resistor is connected to a voltage of positive (negative) polarity. The direction of transmission of the Rectifier cell € n is then directed from the connection point to the connection point.

According to the invention, the voltages of these opposite polarities are absolute Value that is greater than that of the voltage to be passed on. The two cell relays opposite one another Polarity are interconnected by means of two branches of each of these cell relays.

Circuits according to the invention can e.g. B. in receivers and equalizing transmissions for Characters in a start-stop alphabet are used to convey voltages, which have polarities corresponding to the steps of the signs.

The invention will now be based on the drawing, which represents an embodiment described in more detail.

The voltage to be passed on is applied to the input terminal α. In the transparent position of the circuit, this voltage appears at the output terminal b. At b , a second circuit, e.g. B. a flip-flop with two states of equilibrium can be 'connected', which is to be controlled by the transmitted voltage. The connection points α and b form the common input and output terminals of two cell relays of opposite polarity, namely cell relays, consisting of the rectifier cells G ₁ , G ₂ and G ₃ , which are branched from a common connection point e , where e is still through a Resistor R _{1 is} connected to a voltage of positive polarity, and of cell relays, consisting of the rectifier cells G ₄ , G ₅ and G ₆ , which are branched off from a common connection point /, with / still through a resistor R ₂ with a 6g voltage of negative polarity is connected. The voltages of positive and negative polarity should have an absolute value, greater than that of the voltage to be passed on.

In the blocking state of the circuit, point c is negative and point d is positive, which z. B. is obtained by connecting the two points with suitable taps of a voltage divider. The voltage at point e is almost equal to the more negative of the voltages at points α and c. Regardless of the voltage to be passed on at α , point e has a negative voltage as long as c remains negative. Point / has a voltage which is almost equal to the more positive voltage of points d and α; since d is positive, point / has a positive voltage to earth. This voltage is also independent of the voltage to be passed on at α as long as d remains positive. The rectifiers G ₃ and G ₆ are not conductive; the connection point b can assume any potential between those of e and /. The toggle switch with two equilibrium positions can therefore be in either of the two positions.

So that the circuit passes the voltage on to a , a pulse of positive polarity is fed to point c and a pulse of negative polarity to point d. This can e.g. B. be done by connecting c and d via capacitors to the corresponding anodes of the two tubes of a multivibrator circuit, these pulses occurring once per period. The voltages of c and d should now have _{an absolute value s} , equal to or greater than that of the voltage to be passed on. If the input terminal α were positive, points will now be positive; Point / remains positive.

If the flip-flop is in the "positive" position, it is maintained in this position; on the other hand, if it is in the "negative" position, it is put in the positive position _{via the rectifier cell G 3.} If the input terminal α is negative, point e remains negative, while point / has become negative. If the flip-flop is in the "positive" position, it is set in the "negative" position _{via the rectifier cell G 6.}

Claims (1)

PATENT CLAIM: Circuit which, under the influence of switching voltages, passes on a voltage of any polarity applied to its input terminal of its output terminal, characterized in that it consists of two cell relays (G ₁ to G ₃ , A ₁ ; G ₄ to G ₆ , R ₂ ) of opposite polarity , whereby the cell relays are connected to one another by means of two branches (G ₂ , G ₃ ; G ₅ , G ₆ ) of each of these cell relays and one of the connection points is the input terminal (a) and the other is the output terminal (&) and the switching voltages for passing on the voltage applied to the input terminal to the third branches (G ₁ ; G ₄ ) of these cell relays are applied in such a way that a switching voltage of the polarity of the cell relay and in question is applied to each of these branches is set by an absolute value which is equal to or greater than that of the voltage to be passed on, the passing on of the input voltage being terminated by changing the polarity of the switching voltages. For this purpose ι sheet of drawings © 609 514/338 5. 56 (609 705 12 ·. 56 ^