DE604709C - Device for the transmission of signals over a cable, which consists of an insulated inner conductor and an insulated, tubular outer conductor, both of which are connected to a grounded power source at the receiving end - Google Patents

Description

The invention relates to a device for transmitting signals via a cable and forms a further development of the arrangement of patent 557 889.
In both devices, the cable consists of an insulated inner conductor and an insulated, tubular outer conductor, both of which are connected at the receiving end to a grounded power source. It also stands

to the inner conductor at the transmitting end grounded with the same potential of another Power source in connection. For the purpose of signal transmission, it is used in a known manner causes a small increase or decrease in the transmission voltage without this to a large extent the capacitance of the inner conductor to earth is changed. Kick it thus greater fluctuations in the capacitance of the inner conductor compared to the outer one Conductor and thus also against earth at the sending end does not increase, whereby the telegraph speed would be affected. Another advantage is that in the subject matter of the patent and of the present invention also without essential Changes a telegraphing with alternating current as well as telephoning is possible.

In the arrangement of patent 557889 is the potential of the transmitting power source with which the inner conductor of the cable is continuously in Connection is greater than the potential of the power source at the receiving end of the cable. Since the potential of the outer conductor decreases as a result of the resistance and the discharge, so at the end of the transmission there is a fairly large potential difference between the inner and outer conductor, so that the inner conductor is no longer so well shielded and as a result an electrostatic charge is created between it and the earth can affect telegraphing.

The proposed improvement of the invention is that the power source on The sending end has a lower potential than the power source on the receiving sencle. The consequence of which is that the potential difference between

see the inner conductor and the outer one at the sending end is no longer so great that thereby the shielding of the inner conductor would suffer and an electrostatic one Charge can arise between the inner conductor and earth. The invention therefore provides better shielding of the interior Conducted against earth at the transmission end. The invention is based on the enclosed Figures that bring different embodiments, explained in more detail.

Fig. Ι shows the basic arrangement of the cable with the transmitter and receiver.

Figure 2 is a sectional view of the cable of the invention.

The Fijgi. 3 brings a special embodiment of the transmission part of the arrangement, ao. FIG. 4 shows an arrangement by means of which one can telephone. In FIG. 5, the voltage ratios of the two conductors of the cable at the transmitting end and receiving end are shown schematically. In FIG. 1, the transmitter part is denoted by T , which is connected to the receiver part R via the cable. The connecting cable consists of the inner insulated conductor and the outer insulated conductor, which surrounds the conductor in a tubular shape. e is the grounded return conductor of the cable. At the receiving end R , the two conductors a and b are connected via the potentiometer g to the positive pole of the battery /, the negative pole of which is connected to the grounded return conductor e via the adjustable resistor /. The potentiometer g is used to regulate the voltage applied to the cable.

In the transmitting station T , the inner conductor is also connected to the positive pole of the battery / via the potentiometers m and η , while the transmitting end of the outer conductor b is not connected to any battery. The negative pole of the battery / is connected to the grounded return conductor. The potentiometer tn is used to regulate the battery voltage / and the potentiometer η is used to regulate the signal voltage. The cable is connected to the receiving device in the receiver R via the transformer, an amplifier device being connected upstream.

According to the invention, the current source / is of a lower potential than the current source /. The inner conductor thus has a potential drop in the direction of the transmitter T. As a result, there is a smaller potential difference between the conductor α and the conductor b at the transmission end than if the current source / had a greater potential than "the current source /. As a result of this small potential difference, the conductor" is better shielded from earth The voltage relationships are described in more detail. At the receiving end R , the conductors and b have a voltage V against the return conductor e , which is supplied by the battery /. At the transmitting end T there is the battery /, whose potential V ^{a is} lower according to the invention than the potential V of the power source / of the receiver R. Since the outer conductor b of the cable at the transmitting end is not connected to a battery, its voltage V ^{b is} lower than the voltage V ". The voltage difference between V ″ and V ^b is in any case smaller than if the battery / had a higher potential than the battery /. When transmitting signals, the voltage V ^a must not exceed the limits formed by V and V ^b .

The electrostatic voltmeters 0 and i in the transmitter T and the display device q in the receiver /? Are used in FIG. 1 to measure the individual voltage ratios. For transmitting the Telegraphiersignale be ρ on the transmit button, the transmission batteries K and / to the inner conductor "of the cable via send key applied ρ, whereby corresponding voltage changes occur at the transmitting end, the flows of different Stärlse of battery / from the receiving apparatus T can flow through the transformer, having have been amplified by the amplifier tube 1. The grid 3 of the amplifier tube 1 is connected to one end of the secondary winding of the transformer s, the other end of which is connected to one pole of the heating current source 4 or anode current source 6. The filament 2 of the tube 1 is fed by the heating current source 4, and the anode 5 of the tube 1 is connected to the receiving device ί, in whose circuit the anode current source 6 is located.

The cross-sectional view of FIG. 2 shows the inner conductor of the cable and its outer concentric conductor b. In between is the isolation c. The insulation d is located between the conductor b and the return conductor e.

In Fig. 3, a modification of the transmitting part of the arrangement is shown. Of course, in this case too, the potential of the transmitting current source / is lower than that of the receiving current source. In contrast to the transmission arrangement of FIG. 1, in FIG. 3 the transmission device, consisting of the transmission button ρ and the _{transmission batteries Ze 1} , 1 ₁ , is connected to the beginning of the cable via a transformer α. The potentiometer η of the transmission device in FIG. Ί is omitted here. Otherwise one has the same

basic arrangement as in Fig. i. While in FIGS. 1 and 3 arrangements are shown which are suitable for telegraphing, FIG. 4 shows a telephone arrangement. In place of the telegraphic transmission device of FIGS. 1 and 3, the transmitter in FIG. 4 has the microphone V with the power source w, which are connected to the beginning of the cable via the transformer ti.

In the receiver, only the telegraphy receiving device t of FIG. 1 is replaced by the telephone t ^x. Otherwise, the basic arrangement of FIG. 4 is the same as in FIG. 1. As with the arrangements of FIGS. 1 and 3, in the case of FIG. 4 the potential of the current source / is lower than the potential the power source /.

Of course, you can also use several different telephone streams at the same time send out the arrangement of FIG. Demlentspanechejnd the circuit is to be designed in a known manner.

Claims (1)

Claim: Device for the transmission of Signalscn over a cable, which consists of a consists of an insulated inner conductor and an insulated, tubular outer conductor, both of which are connected to a grounded power source at the receiving end are, according to patent 557889, characterized that the current source at the sending end has a lower potential than the current source at the receiving end. 1 sheet of drawings