DE1265787B - Electronic switch for symmetrical power feed into a transmission line - Google Patents

Description

Electronic switch for symmetrical power feed into a Transmission line The invention relates to an electronic switch for symmetrical Feeding power into a transmission line.

Such a circuit is already known from US Pat. No. 2,995 667 became known, in which a transistor in the collector circuit controls the signal voltage on a transmission line. The feed is asymmetrical here, so that the disadvantages associated therewith are effective. There is such a disadvantage z. B. is that a certain length of the transmission line is not exceeded if sufficient transmission of the signals is to be guaranteed. On the other hand, the susceptibility to failure is relatively high. To avoid these disadvantages, it is known to carry out a symmetrical transmission of the signals. This requires but more effort, because then symmetry measures at both the transmitter and the receiver must be made, the structure of which is relatively complicated.

The object of the invention is to create a circuit the structure of which does not require much more effort than was previously the case for asymmetrical ones Circuits has been required, but with one absolute symmetry and one just as low susceptibility to failure as is guaranteed with a symmetrical structure.

According to the invention the object is achieved in that the symmetrical Power feeding the transmission line through the collector of a transistor first conductor of the transmission line to a first operating potential source and the emitter of the transistor both via one only in the conductive state of the transistor conductive diode in series with the second conductor of the transmission line to a fixed middle potential source and via a resistor to a second operating potential source is connected and that the value of the resistor and that of the second operating potential source is chosen so that the current on both conductors of the transmission line is the same is.

In an advantageous development of the circuit according to the invention is the emitter of the transistor via a second, only in the non-conductive state of the transistor conducting diode connected to a fixed potential.

According to one embodiment of the invention is a PNP transistor used. Expediently serve as potential sources, namely the middle potential source and the fixed potential source, earth potential connections.

With simple means can be a achieve perfect symmetry.

Further subtasks and advantages of the invention emerge from the The following description, with the help of the drawing on the basis of an exemplary embodiment the invention explained in more detail, and from the claims.

As can be seen from the drawing, the transistor T, with a Transmission line L connected, which consists of the two conductors L, and L2. Of the Conductor L2 is at a potential Vo, which in the example shown is the mass potential is equivalent to. The other end of the conductor L2 lies across the two diodes Dl and D2 also in mass. The connection point of both diodes in the drawing, namely the point O, is connected to the emitter of the transistor T, as well as via a Resistance Ra to a potential source V3. Circuit part C determines the base voltage of the transistor T, and thus serves to control it. The potentials V ,, V2, Vä and the resistances R ,, R2, R3 are chosen in their respective values so that the transistors T, and T2 can work in the desired operating mode. in the locked state of transistor T1 arises at point O under the action of Diode Dl and the potential source V3 a low positive potential that only deviates slightly from zero potential. The diode D is blocked so that no current can reach the conductors L1 and L2.

If the transistor T1 is driven into saturation, the emitter potential becomes negative, so that the diode Dl is blocked and the diode DZ is opened. A current I now occurs on conductor L1, and a current I 'occurs on conductor La. A current I flows on the connecting line L3 between the point O and the emitter of the transistor T1, and thus a base current I5 of the transistor T. Due to the fact that the emitter current of a transistor is equal to its collector current plus the base current, the following relationship results : le = Ib -! - IC . By dimensioning the values of the potential V3 and the resistance Ra so that the source of the potential V3 supplies a current I = I5, the current Ij flowing through the conductor L becomes equal to the value of the current 1e through the conductor L1 . In this way there is a balance of the currents through the two conductors of the transmission line L.

Claims (3)

Claims: 1. Electronic switch for symmetrical current feed into a transmission line (L), characterized in that the Kal-Lektor of a transistor (TL) via the first conductor (Ll) of the transmission line (L) to a first operating potential source (- V) and the Emitter of the transistor (T,) both via a conductive diode (D2) only in the conductive state of the transistor (TJ) in series with the second conductor (La) of the transmission line (L) to a fixed medium potential source and via a resistor (R) is connected to a second source of operating potential (V3) and that the value of the resistor (Ra) and that of the second source of operating potential (V.) is selected so that the current on both conductors (L,., L @ of the transmission line (L) is the same is. 2. Electronic switch according to claim 1, characterized in that that the emitter of the transistor (TL) has a second, only in the non-conductive state of the transistor (TL) conducting diode (Dl) is at a fixed potential (V,). 3. Electronic Switch at least according to Claim 1, characterized in that the transistor (TL) is a PNP transistor.