DE2048849A1 - Communication system using a coaxial cable - Google Patents

Description

Communication system using a coaxial cable.

The invention relates to a message transmission system Use of a coaxial cable, especially an arrangement using a with a messenger wire provided with a coaxial cable.

As a coaxial cable provided with a "messenger wire" a "radiative coaxial cable called. The" radiative coaxial cable "means a coaxial cable that is slotted over which a radio frequency signal is transmitted and received. Using this Cables can provide communications links with the train and between rail lines be uniformly manufactured in railway communications technology. For the communication link with the train the radio frequency is used, while for the fixed stations the carrier frequency is provided between the railway lines.

The following figures are described: FIGS. 1 and 2 message transmission system using a "radiative coaxial cable", which is an object of the invention; 3 shows a message transmission system previously used; 4 shows an illustration to explain the invention; Fig.5 embodiment of the invention.

Fig. 1 shows a communication system using a "radiative coaxial cable" (radiative coaxial cable ) and FIG. 2 is a block diagram which essentially represents the part of the transmission therefor.

In Fig. 1, 1 "radiative coaxial cable means" radiative coaxial cable, 4 connector for the "radiative coaxial cable", 24 carrier wave transmission circuit, 23 radio frequency converter, 5 "messenger wire" (suspension cable), 21 resistance for the Power supply part, its voltage drop portion, each converter and each Transmission is supplied, Fig.2 serves to explain Fig.1. First will the radio frequency converter A23 explained. In Figure 2, 1 "means radiative coaxial cable "(radiative coaxial cable), 4 coaxial connectors, 3 central conductors des "radiative coaxial cable", 5 messenger wire "(suspension cable), 6 low-pass filters for the transmission of the carrier frequency, 7 high-pass filters for the transmission of the radio frequency, 8 carrier frequency high-pass filter, which transmits the high-pass side of the carrier frequencies, 9 carrier frequency low-pass filter, which transmits the low-pass side of the carrier frequencies, 11 Resistance attenuator for adjusting the impedance, 12 'hybrid coil "(equalizing transformer), which partially separates the carrier frequency, 13 resistance attenuator for level control of the electrical signal in the separated frequency band and for the adaptation of the Impedance, 14 band filters for the separation of the carrier frequency, 15 radio frequency converters, 19 supply source, which is connected to the resistor 21 of the measuring wire "(supporting cable) 5 supplies dropped voltage, 18 radio frequency converter.

The one received from 1 at the right end of the radio frequency converter 23A Radio frequency runs through the connector 4, the high-pass filter 7 for the Radio frequency, the radio frequency converter 18, the band filter 17 and the resistance attenuator 16 for the adaptation of the impedance or the level control and is used with the "hybrid coil "(equalizing transformer) 10 coupled. In the radiative coaxial cable" (radiant Coaxial cable) 1 the carrier frequency band and the radio frequency band are present together. From the original frequency band fa-fn to fa-fe, fd-ff are converted into the radio frequency. It is assumed here that the converted radio frequency corresponds to Fc-a (transmission wave for the train) and F-d (reception wave directed by the train according to FIG. 1).

The carrier frequency band (fn-fa) - (ff-fd) is transmitted on 1 to the left of 23A. (fn-fa) - (ff-fd) is switched via the circuit parts 3-6-8-10-11-12-8-6 (right) from 4 transferred to 1. Of this, the “hybrid coil” (equalizing transformer) 12 only transfer (fn-fa) - (ff-fd) - (fa-fc) via the ochal exercise parts 8-6-4-1, see above that (fa-fc) separated into 12, converted into radio frequency via 13-14 into 15, Transferred from 4 to 1 via 7 (left), radiated in 1 from the slots 2 and is transferred to the train 28.

In FIG. 2, the one sent out by train 28 at the left end of A23 received electric wave in the direction of the arrow of 20 in FIG. The electric wave runs from 1 to 4 and from 7 to 18; there the radio frequency Fa-f in fa-ff converted and only fd-ff allowed through in the band filter 17 and via the drag attenuator 16 coupled to the "hybrid coil" 40 (equalizing transformer). That is why the in Direction of arrow 29 guided carrier wave (fn-fa) - (ff-fd) to (ff-fd) added to the Carrier wave converted to fn-fa and passed through 11.

B24 has the same function as A23, with 11 in A23 a carrier wave transmission 22 is replaced. This carrier wave transmission will attenuated in the transmission of the carrier wave, so that it is a transmission for the Represents attenuation compensation and introduced through several radio frequency converters A23 is. Here the frequency band not converted into radio frequency (fn-fa) - t (fc-fa) + (ff-fa)} always transferred to 1. There are e.g. two groups, i.e. one A group with a higher frequency and a group with a lower frequency.

If the group with higher frequency is the transmitting side and the Group with lower frequency represents the receiving side, the communication link can established between the earth stations by the two-wire system divided into groups will. It is assumed that from fn-fa fj-fg the deep group area and fn-fk represents the high group area.

In A23 and B24 of FIG. 2, fg-fi runs over the cable and circuit parts 1-4-6-9-10-22 or via the cable and circuit parts 11-12-9-6-4-1. fn-fk becomes transmitted via 1-4-6-8-10-22 or 11-12-8-6-4-1. This will establish the communication link established between the base stations ("base station").

is never mentioned above, four groups (fi-fg), (fn-fk) and (fc-fa), (ff-fa) (the latter converted into radio frequency).

So far, the electrical power required for each transmission and any wireless transceiver is used over the coaxial cable fed. For this purpose there is between the filters 6, 7 the transmission and the coaxial line 1 a filter 34 is provided, d- & s ait.nal and the electrical Disconnects line. This circuit is shown in Fig.3. In Figure 3, 30 High-pass filter for the Signal Vieg, 31 low-pass filters for the direct current path, 72 load resistance, 33 Terminal for the voltage decrease.

As can be seen from this figure, 6 represents the low-pass filter and 30 has the high-pass filter property, so that the transmission frequency (luence band of the signal is limited and the transmission of a sufficiently wide signal band is difficult is. Furthermore are. ineirere filters to a transmission system for the separation of the electric power switched, so that the delay distortion is increased. This is for the establishment of a connection for several purposes exclusively the telephone connection, such as image and data transmission, very disadvantageous.

The invention is based on the object of avoiding these disadvantages. This is done in a communications system that uses the signals a coaxial cable provided with a "messenger wire" are achieved according to the invention in that the resistance of the central conductor de.smessenger wire "(suspension cable) and the resistance value of the inner conductor of the coaxial Cables can be chosen almost the same and through the central conductor of the "messenger wire" (Suspension cable) and the inner conductor of the coaxial cable the supply takes place.

The invention is explained in more detail below.

The invention is concerned with the fact that to avoid the Disadvantages of an above-mentioned, previously used feed arrangement, the feed below Use of the "messenger wire" (suspension cable) is made. However, at usual "messenger wires" only take into account their strength, so that these "messenger wires" for the transmission of electrical signals intended in the invention Performance are not suitable. Since the coaxial cable and the "messenger wire" (suspension cable) in their DC resistance value of each other are different occurs when between the inner conductor of the coaxial cable and the "messenger wire "(suspension cable) the current is carried, an electrical imbalance, whereby the communication line is disturbed. The invention solves this problem as well. Provided that the resistance value Rc of the inner conductor and the resistance value Rm of the measuring wire "(supporting cable) are in a relationship Rc = Rm (1>, the efficiency of the power transmission is improved, so that the feed power can be brought to an optimal value.

To this end, it is used to improve the efficiency of the feed and mechanical strength, a messenger wire is used to support this has both properties.

To reduce the electrical resistance of the "messenger wire" (Support rope) is a metal body made from an aluminum wire or copper wire with good electrical conductivity used while to achieve mechanical strength a steel wire is used, these Matalle mixed together or individually and applied to the outside of the steel wire, as "aluminum weld steel wire" (welded aluminum-iron wire), "copper weld steel wire" (welded copper-iron wire) or used as a wire rope of the same. Furthermore, the steel wire is made in aluminum or copper wrapped.

Provided that the resistance value of the steel wire is Ra, the one of the aluminum wire with RAl and that of the copper wire with R cu is, the "messenger wire" (suspension cable) is produced in such a way that the conditions Rs + RAl = Rc (2) Rs + Rcu = Rc (3) are met.

In Fig.4 the "messenger wire" seen from the outside is shown, while Fig.5 shows the construction of the "messenger wire" (supporting cable). In Fig.4a, b means 25 current source for supplying the power, 35 insulator of the "messenger" wire "(suspension cable), 6 insulating bodies of the" radiative coaxial cable "(radiant Coaxial cable), 2 outer conductors, 7 inner conductors, 5 "messenger wire" (suspension cable), 1 "radiative coaxial cable "(radiative coaxial cable), 37 insulation between the inner and the outer conductor.

Fig.5 shows the section through the "messenger wire" (support cable) of the Invention, wherein Fig. 5a shows a state in which the steel wires in aluminum are enveloped. With 38 aluminum, with 35 the insulating body and with 39 denotes the steel wires. FIG. 5b shows a state in which the steel wires 39 are encased in copper 40. In Fig.5c, the "messenger wire" (supporting cable) is off "copper weld steel wire" (welded copper-iron wire) is shown, where 39 the steel wire, which is surrounded by copper 37, and 35 means the insulating body.

In Fig. 5d, the "aluminum weld steel wire" is shown, which thereby is formed so that the steel wire 39 is surrounded by aluminum 38. 35 also means the insulator.

As mentioned above, the subject matter of the invention is the efficiency the power transmission is increased while maintaining the relationship Rm = Rc if the "messenger wire" (carrying cable) ei the transmission circuits, radio frequency converters etc. is used to multiply the electrical signals as four groups by means of a single "radiative coaxial cable" to enable.

four the "messenger wire" (suspension cable) is made of copper or; iumjnium iiDrawn steel wire used single-core or multi-core. Further the steel wires are encased in aluminum or copper, making the "messenger wire "(suspension cable). A corresponding metal can be used on copper or steel be metallized. The invention is based on a transmission system under Use of a "radiative coaxial cable" explained but it goes without saying that the invention can be used with every communication link, where the "messenger wire" is used, can be used.

1 claim 5 figures

Claims (1)

P a t e n t a n s p r u c h Message transmission system in which give away the signals under V @ w @ ndu @ g of a @@@ a "messenger wire" (suspension cable) @oaxial @abels are transmitted, d u r c h e k e r a Z e i c h n e t that the resistance value of the central conductor of the "messenger wire" and the resistance value of the inner conductor of the coaxial cable can be chosen almost identically and by the central conductor of the "messenger wire" and th inner conductor of the coaxial cable the supply takes place