DE3435605A1 - Multiple branch-off for star distribution in cable television networks - Google Patents

Abstract

A multiple branch-off for star distribution in cable television networks with one input contact and a plurality of branch-off output contacts in the form of coaxial cable plug-in sockets with mutually identical output coupling elements (11,12,13,14) arranged between the input contact (4) and the individual branch-off output contacts (311,312,313,314) connected in parallel next to one another to a continuous line (10), in which the continuous line (10) is connected to a further output contact forming a continuous-line output contact (5) behind the branch-off of the last output coupling element (314). <IMAGE>

Description

Multiple branch for star distribution

in cable television networks The invention relates to a multiple tap for star distribution in cable television networks with an input and a plurality of branch output contacts in the form of coaxial sockets and between the input contact and the individual ones, connected in parallel next to one another with a through line Branch output contacts arranged, under the same decoupling members.

Multiple branches of this type are used in cable television networks to the television signal arriving via the network in the case of a house connection, for example to distribute to different apartments of the house. The branch output contacts in In the form of coaxial sockets with the supply lines to the individual apartments connected, and an amplifier is upstream of the input contact of the multiple feeder. Since the decoupling members consistently have a decoupling of about 12.5 dB and the decoupling of the through line itself between two branches approximately 1 dB is between the input contact and the last branch output contact with eight branches as a result of the cumulative throughput loss of the through line a total attenuation between input contact and branch output contact of approx 19 dB. Taking into account the economic amplifier power of a maximum 26-30 dB is therefore the maximum number of branch output contacts such Multiple taps limited to eight. There is also no way to get the number to enlarge the branch output contacts by having a multiple branch of this Kind of a second multiple branch is connected downstream in such a way that the input socket a second multiple branch, e.g. with the last (eighth) branch output socket of the first multiple branch is connected because, apart from the fact that the eighth branch output socket would be lost as a branch, the limited amplifier output would not be sufficient, the resistances of the decoupling elements and the damping resistance to overcome the through line in this second multiple branch. An extension In these cases, the number of branch output contacts can only be achieved by connecting them in parallel Possible with a branch in front of the cable entry. However, such a circuit requires either corresponding additional installations that have already been created as a precaution or their subsequent installation.

The invention is based on the problem of the need for such preventive installations or the technical effort of subsequent installations avoid and create the opportunity to reduce the number of branch output contacts to increase if necessary or the number of branch output contacts for new installations to be installed according to the respective specifications and a considerably larger one Number to be arranged as eight branch output contacts behind an amplifier.

This object is achieved in that the through line behind the branch of the last output coupling link with another, a through line output contact forming output contact is connected. Will be expedient with a multiple branch with return attenuators between selected branches the through line in this between the branch of the last decoupling element and the through-line output contact an additional return attenuator arranged. In the case of a multiple junction with a box-preferably cuboid housing, on the top of the output sockets and on one end of which the Input socket are arranged, the through-line output socket expediently arranged on the other end face of such a housing. The box-shaped Housing have, as the invention further provides, regardless of the number of Sockets under the same external dimensions, and the input socket as well the through-line output sockets are plugged into each other and wirelessly designed lockable.

The multiple branches according to the invention can be simply by Connect the straight line output jack to the input jack of the next multiple branch to multiple branch groups of the desired number of Assemble the junction output sockets, whereby the attenuation of the assembly only increased by one dB per branch output socket. By the arrangement a return attenuator between the branch from the last decoupling member and the through-line output contact are connected multiple branches practically like a single multiple branch, and there is no branch output socket lost by connecting two or more multiple branches. The order of through line output sockets and input sockets to each other facing away from the end faces of the box-shaped housing of the multiple branches allows plug these together to form fixed units, with the plugged-together unit themselves especially easy to install if the box-shaped Housing has the same external dimensions regardless of the number of sockets have and the input sockets and the through-line output sockets can be plugged into each other and locked wirelessly. This form of training makes it easier and also simplifies series production, since the housings are one and the same Tool can be used and simplifies warehousing and shipping.

The invention is based on the exemplary embodiments shown in the drawing explained in more detail. In the drawing, Fig. 1 shows a multiple branch with a box-shaped Housing in plan view, FIG. 2 the side view of FIG. 1, FIG. 3 the plan view to a multiple branch according to FIG. 1 with a different number of branch output sockets, Fig. 4 shows the arrangement of the switching elements in the housing of the multiple branch according to 3 and 5 show a tabular overview of the plug-in options for multiple branches with different numbers of branch output sockets.

As can be seen from Figs. 1 and 2, are on the top 1a of the Pot housing 1 of the branch 4 two parallel rows of four branch output sockets 3 arranged. The input sockets 4 are located on one end ib and the through-line output socket 5 on the other end face 1c of the housing 1.

Fig. 3 shows, in the rest of the housing according to FIGS. 1 and 2 completely identical housing 1 the arrangement of two branch output sockets 3 in two parallel rows on the top 1a and the housing 1. The branches can by plugging the through line output socket 5 of the a branch with the input socket 4 of the next branch electrical and at the same time are mechanically connected to each other.

As can be seen from FIG. 4, branch off at the branch according to FIG. 3 from the through line 10 behind the input socket 4, the decoupling members 11, 12, 13 and 14 and lead to the branch output sockets 311 '312' 313 and 314. Between the branches to the coupling-out element 12 and the coupling-out element 13 A return flow attenuator 15 is provided in the through line 10. Behind the branch of the last decoupling element 14 is the through line 10 the through line output socket 5 connected and between this and the Branch another return flow damping member 16 is arranged.

5 shows the summation of the attenuation values resulting from arrangements the outcoupling members correspondingly in FIG. 4 to the through line 10 using the through line output socket 5 for taps with different large numbers of branch output sockets 3 and connecting them together Branching results.

For a branch with four branch output sockets, the Attenuation between the input socket and the first branch output socket 12 dB, the second branch output socket 13 dB, the third branch output socket 14 dB and the fourth branch output socket 15 dB, corresponding to one Branch with six branch output sockets this resistor at the last Branch output socket 17 dB and for taps with eight branch output sockets at the last branch output socket 19 dB.

Ten branch output sockets are required and for this purpose one branch with six branch output sockets with one branch with four Branch output sockets plugged together, then the attenuation value is between the input socket and the first branch-output socket of the second branch only 18 dB, which is made up of 6 dB of the through line of the first tap and 12 dB of the resistance of the coupling-out element 11 between the junction of the through line 10 and the first branch output socket of the second Branch. With the same arrangement, the attenuation value is therefore at last branch output socket of this second branch 21 dB, which are composed from the through loss of 6 dB of the through line of the first tap, 3 dB of the through line of the second tap and the attenuation value of the (last) Decoupling element 14. The summation of the attenuation values for the illustrated, Connected taps for a total of 12, 14 or 16 branch sockets results analogously, whereby it should be noted that the respective final values also remain the same, if branches with different numbers of branch sockets are plugged together such as two branches with six branch sockets each or one with eight and one with four branch sockets.

With a total of sixteen branch sockets, the last one Branch socket an attenuation value of only 27 dB.

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Claims (5)

Requirements Multiple branch for star distribution in cable television networks with an input and a plurality of branch output contacts in the form of Coaxial cable sockets and between the input contact and the individual, in parallel Branch output contacts connected next to one another with a through line arranged, under the same decoupling members, characterized in that, that the through line (10) behind the branch of the last decoupling element (314) 4) with a further, a through-line output contact (5) forming Output contact is connected. 2. Multiple branches with return attenuators between selected ones Branch of the through line, characterized in that in the through line (10) between the branch of the last main coupling element (14) and the through-line output contact (5) an additional backflow damping element (16) is arranged. 3. Multiple branch with box-preferably cuboid housing, on the top of the branch output sockets and on one of its front sides the input socket is arranged, characterized in that that the through line output socket (5) on the other end face (1c) of the Housing (1) is arranged. 4. junction according to claim 3, characterized in that the box-shaped Housing (1) has the same external dimensions regardless of the number of sockets exhibit. 5. Branch according to claims 3 and / or 4, characterized in that that the input socket (4) and the through-line output socket (5) Cordless are designed to be plugged into one another and lockable.