DE890811C - Hybrid circuit for four-wire-two-wire transmissions - Google Patents

Description

Hybrid circuit for four-wire-two-wire transmissions Hybrid circuits have the purpose of signal alternating currents (i.e. speech alternating currents, etc.) of different Direction to separate so that reinforcement, implementation, etc. is possible.

The most well-known hybrid circuit up to now was the bridge fork circuit, which was developed from the Wheatstone bridge circuit and for two-wire line amplifiers and the like worked with a line replica. The latter had to match the values exactly set accordingly for the line .. Other hybrid circuits work with Rectifier. In addition to these there are also circuits that alternate between the one or switch to another transmission direction. Electromechanical ones are used for this Means, such as relays, etc., or electrical means, such as tubes, rectifiers, etc. Switching is done either by incoming speech streams (toggle switches) or through control frequencies. The hybrid circuit according to the invention .soll the unfavorable Properties of the previously known circuits largely cancel or at least keep within low limits; this is achieved in that, the four-wire input voltage is counter-doubled and that the counter-li: coupling voltage taken from the output circuit with an equal part of the four-wire input voltage, compensating this, is coupled to the four-wire output and that from the four-wire output one the Reaction on the two-wire circuit blocking counter-voltage in the four-wire input circuit is coupled. The advantages are mainly any frequency bandwidth,! None Loss of performance, freedom from distortion, no delay and sufficient independence of changing line values.

Feedback via the amplifier tube is also advantageous the opposite direction to Cancellation or regulation of the voltage damping, which the reverse-coupled tube in the Gegenridiltung vearur @ siaaht applied. Doing this the positive feedback is made so strong that the circuit is considered more negative AC resistance acts and is used for these purposes.

Other reinforcing agents, such as magnetic, electromechanical, and crystal amplifiers, can be used.

The basic idea of the invention is as follows: (Fig. I) An alternating signal voltage Ui comes from A to the grid of the tube R I. This amplifies the voltage Ui, and U2 is created. The voltage U2 is transmitted in the transformer UI to the winding w1I and thus to the line leading to B and to the winding wIII as U3. The voltage U3 should be the same. U2 be (rooolo negative feedback) and have the indicated pole symbols in an instantaneous value. U3 is directed opposite to Ui, that is, the two voltages subtract, and the difference U4 arises on the grid of the "tube RI. The voltage U4 is now U2 divided by the gain factor of the tube R I. A division of U1 results in U5. The voltage U5 should have the same magnitude as U3 so that U6 becomes 0. So there is no or only a small signal alternating current that comes from direction A flows in direction C.

(Fig.2) If there is an alternating signal current from direction B, the result is the alternating signal voltage U7 on the winding, w III of the transformer Ü I. This is transferred to the grid of the tube R II as U .. Since no current flows, the resistance of the winding w II of the transformer lU II can be neglected, and U $ nlst is equal to U7. Tube R II amplifies U8, creating a voltage U. which transmits an alternating signal current in direction C. So that U7 cannot act on the grid of the RI tube, which would result in great attenuation (see pole symbols: in square brackets), a fraction of U9 is returned as Ulo to the grid of the RI tube. U7 and Ulo subtract (see pole symbols). So that Ull becomes zero and thus the harmful negative effect of tube RI on the signal alternating current coming from direction B is canceled, Uio should be as large as U7.

In the school example ssnd, d'erEdnf; achheit hasber, who in the amplifier house usual and for the essence of the invention insignificant parts have been omitted.

The mode of operation of the circuit can also be achieved by other transmission elements (Resistor-capacitor coupling, galvanic coupling, etc.).

Claims (5)

PAMVMmeMennftrvV. i. Güb @ elsichaltung for four-wire # -Zyveidraht @ transmissions, characterized in that the four-wire input voltage (Ui) is fed back @ Isit and, dbß the negative feedback voltage (U3) taken from the output circuit an equal part (U.) of the four-wire input voltage, compensating it, is coupled to the four-wire output and that from the four-wire output one the Feedback on the two-wire circuit blocking counter-voltage (U5) in the four-wire input circuit is coupled. 2. (hybrid circuit according to claim. I, characterized in that in addition a feedback via the amplifier tube in the opposite direction to cancel or to regulate the voltage damping, which the counter-coupled tube in the opposite direction is applied, g - is applied. 3. Hybrid circuit according to claim i and 2, characterized in that that the positive feedback is made so strong that the, circuit as negative AC resistance acts and is used for these purposes. q .. Hybrid circuit according to claim @i and ->., characterized in that other reinforcing means, such as magnetic amplifiers, crystal amplifiers, etc., used for the stated purpose will. 5. Hybrid circuit according to claim i to q., Characterized in that: ß it is used in a transmission circuit for modulated high frequency.