DE3105068A1 - Broadband network for communications signals - Google Patents

Abstract

The invention relates to a broadband network for the transmission of communications signals in analog or digital technology. Cables with optical waveguides are routed in ducts (6), which are combined into a group and installed in conventional cable channels with a wide clearance, from a transmitter (S) or exchange to a distribution point (A). The signals are forwarded from the distribution point (A) via a distributor (8) to individual subscribers (3), each subscriber (3) being connected via a dedicated optical waveguide (2) to the distributor (8). Each distributor is connected to only one optical waveguide (9) of the cable. <IMAGE>

Description

Broadband network for communications signals

The invention relates to a broadband network for the transmission of communications technology Signals, using between a transmitter and equipped with a receiver Participants running cables with optical fibers, at least partially are arranged in channels laid in the ground.

A "broadband network" is a line network for the transmission of communications technology Signals on which, in addition to conventional services such as telephony, telex and fax, services that require broad frequency bands can also be transmitted.

Such services are, for example, television broadcasting, television telephone, Video conferencing, fast data transfer.

Cables with fiber optic cables should be cables that have any Number of fibers made of plastic or glass - in the following for the sake of simplicity half "LWL" (fiber optic cable.) called - exhibit. The fiber optics are housed in the core of such a cable, covered by an outer protective sheath can be surrounded. Such cables are in the core and / or in the protective jacket also attached with tensile strength elements. The protective sheath can consist of a suitable Made of plastic and it can have a metal layer in its structure as a layered jacket exhibit. It is also possible to design the protective jacket as a metal tube that is preferably corrugated transversely to its longitudinal direction.

Fiber optic cables are used in communications technology as a replacement for the previously common ones metallic conductor used. To produce a finished fiber-optic cable, individual Fibers embedded in suitable protective layers. Opposite the metallic ladders fiber optics have a number of advantages. They are very broadband and have little attenuation, so that over a fiber optic cable compared to a copper conductor more channels with enlarged Amplifier spacing can be transmitted. They are bendable and have a lot of small diameter, so that the cable cross-section can be reduced. Further step no influences from external electric and magnetic fields. The basic material for the production of the fiber optic cable is available in sufficient quantities all over the world.

One lying between a sender or an office and a recipient Transmission path with a fiber optic cable essentially consists of an electro / optical one Converter, a fiber optic cable located in a communication cable (fiber optic cable) and a opto / electrical converter. The two converters convert electrical signals in light signals and vice versa. Broadband networks can in principle with fiber optic cables be set up in the same way as the previous narrowband networks. In addition to the already mentioned the fact that such cables are lighter than conventional cables with metallic There are ladders and they can also have smaller diameters than the same Otherwise no advantages in the network structure, since the laying and connection work is not carried out if no special precautions are taken for this. the end For reasons of circuitry, such a broadband network is used when the previous one Star structure is retained, even considerably more expensive than a previous one Network, especially if it is designed for future growth.

The invention is based on the object of specifying a broadband network, an extreme for that both when creating and when making changes and additions low effort is required, i.e. during installation and operation can be designed inexpensively.

In the case of a broadband network, this task becomes the one described above Kind according to the invention solved in that the cable between the transmitter and a Distribution point located in the area of many participants in the ducts in pipes are attached, the diameter of which is small in relation to the clear diameter of the Channels is and of which several are combined into a unit in one channel are housed that each fiber optic cable of the cable at the splitting point a distributor is connected, and that a group of subscribers is connected to each distributor connected via their own fiber optic cables assigned separately to each participant is.

By using the tubes to accommodate the fiber optic cables, the Up to now common and mostly already laid components for conventional cables with their In principle, large channels can still be used; this is the case for the fiber optic cables however, a significantly reduced space requirement. In the previous major channels a flexible composite of at least four pipes is drawn in, so that in a previously common channel at least four fiber optic cables housed separately from each other can be.

The tubes are of particular advantage when, for example, six or more tubes combined to form a tube bundle drawn into a large duct will.

When installing new devices with large ducts for pulling in of cables, for example, only needs one of the previously common ones Channels to be present in which, by pulling in the tube bundle, several fiber optic cables can be accommodated separately from each other. The one that is no longer needed There can be space to accommodate other utility lines used will. Even with existing systems, only one channel is required for the fiber optic cables needed. The rest can also be used for other supply lines will.

If the core of the fiber optic cable is made metal-free, then you can in the space that has become free or in the ducts that have become free also power cables be accommodated because no more consideration is given to influencing problems must become.

The simple structure and simple operation of the broadband network will be still favored by the star-shaped structure behind the splitting point. A larger one is connected to a fiber optic cable of the fiber optic cable through the intermediary of a distributor Number of fiber optic cables connected separately from each other, each with one participant get connected. The entire Broad frequency band transmitted to the point of division and there in the individual, each subscriber assigned narrower frequency bands divided. The number of A subscriber that can be connected to a distributor or a fiber optic cable of the fiber optic cable is included by the width of the entire frequency band and by the width of the participants assigned frequency bands limited.

Here the broadband network according to the invention now offers the other The advantage that for a growing number of participants a simple and inexpensive Retrofitting is possible. It only needs to go into one of the exposed pipes Another fiber optic cable between the transmitter or an office and the splitting point to be drawn in, which will then cover a further increasing demand for a long time can (modular network structure).

This advantage is especially true if the fiber optic cables have been replaced should be. Such a case can occur if a cable is defective or if the rapid further development leads to fibers of improved quality. The breakdown the fiber optic cable on the tubes allows easy replacement. Also offer pipes that have remained free the possibility of pulling in a new fiber optic cable and to interconnect while the other is still in operation, so that the participants for the switchover only briefly temporarily separated from the sender or from the office Need to become. Another advantage of this network structure is that for the fiber optic cables between the transmitter (office) and the distribution point are only a few different ones Cable types are required.

Since only a single fiber optic cable runs from the split point to each subscriber a corresponding cable can also be suspended from poles, i.e. H. above the ground to be guided to the participants.

Advantageously, the masts that already exist can also be used for this purpose Power systems are used, as they do not affect the optical signals occurs. The installation above the ground is not only a temporary one but also as a permanent solution, since such cables only have one or a few optical fibers have such a small diameter that they are barely noticeable and thus optically do not bother.

An embodiment of the subject matter of the invention is shown in the drawings shown.

1 shows a schematic overall view of a broadband network according to the invention with transmitter and splitting point.

2 shows a cross section through part of the transmission link on a larger scale.

3 shows a detail of the split point on an enlarged scale.

The telecommunications signals emanating from a transmitter (office) S are first via a cable section 1 arranged in the ground up to a splitting point A transferred. There is a variable number of fiber optic cables in this cable section. This number depends on how many participants are behind the split point A should be connected to the transmitter S. The split point A becomes accordingly as close and central as possible to an area in which a large number of participants is available. The cable route 1 is preferred in urban areas laid in the sidewalks. Individual sections of the cable route are in shafts interconnected that also arranged in the sidewalk and can be closed by means of lids. The fiber optic cables are preferred in the ground laid in devices, the more precise structure of which can be seen, for example, from FIG. From splitting point A onwards, individual fiber-optic cables 2 are each routed to subscriber 3, all of which are connected with their own fiber-optic cable 2 that is independent of the others.

The devices for receiving the fiber optic cables can consist of individual There are plastic pipes that are connected either individually or as a unit next to or can be arranged one above the other in the ground. However, the devices can also be cable blocks, in which, for example, four channels are arranged side by side are.

Such cable blocks can also be arranged one above the other will. The distance between two manholes that these devices are between are laid, depends on the circumstances in which the fiber optic cables should be relocated. An average value for this distance is around 100 m.

Such a device can now, for example, in accordance with the illustration in Fig. 2 consist of four plastic tubes 4, which by means of mechanical fasteners 5 can be combined into one unit. These plastic pipes are combined laid in the ground, between two shafts.

For mechanical protection and for fastening the plastic pipes they can also be embedded in cement.

In the illustrated embodiment is in one of the plastic pipes 4 a bundle of seven tubes 6 arranged, the diameter of which is much smaller than the clear diameter of the plastic pipe. These seven tubes 6 are preferred combined into a flexible bundle which can be wound onto spools.

They are drawn into the plastic tube 4 as a unit. Through this the large channel of the plastic pipe is divided into seven smaller channels, in which fiber optic cables can be pulled.

In order to facilitate this drawing in, the tubes 6 are expedient Equipped from the outset with tensile elements to which the fiber optic cables to the Retracting can be attached.

The dimensions of the tubes, which are preferably made of plastic 6 can be chosen so that in each of the tubes, for example, a fiber optic cable with six LWI. fits in. This is enough for a relatively large coverage area for example already four such fiber optic cables, so that only four tubes 6 to are occupied. The three other pipes can remain free. They then stand for extensions to disposal.

The structure of the L, WL cables, which are included in the pipes 6 is arbitrary. The number of fiber-optic cables is also arbitrary.

In principle, it is sufficient if such a fiber optic cable is included only one fiber optic cable is drawn in. The fiber optic cable just needs to be designed so that it can be drawn into a tube 6. It is also possible to look for the bundle Tubes 6 to use tubes with different diameters, so that too Fiber optic cables with different diameters can be drawn in.

In the embodiment according to FIG. 2, there is a composite of four plastic pipes 4 shown. Three of these plastic pipes are similar to the previous ones Versions no longer required for fiber optic cables. You can therefore apply for other supply lines services are exploited. For example, it is possible to use the free plastic pipes 4 pulling in power cables. There is no need to consider questions of influence here to be taken because the core of the fiber optic cable can be made metal-free. Other supply lines can in principle also be gas and water pipes. By the joint laying of different supply lines can be one of the reasons here Economic reasons to strive for favorable cost allocation achieved will.

Instead of the plastic pipes 4, cable blocks with appropriate Channels are used. A bundle of pipes can in turn be placed in one of these channels 6 are drawn in, with seven such pipes being used here as well can be. Here, too, the anal ones that remain free stand for other supply lines to disposal.

The bundle of tubes 6 is manufactured by means of prefabrication.

For this purpose, suitable pipes made of plastic become one Combined unit, preferably in that these tubes together be stranded. The longest possible lay should be used for stranding so that when the fiber optic cables are pulled into the tubes 6 there are no excessive frictional forces appear. However, it is also possible to have the tubes 6 parallel to one another by means of mechanical means To connect fasteners to form a unit. This unit can additionally also be surrounded by a common jacket 7.

The fiber optic cables end, starting from the transmitter S or an office after leaving of cable route 1 in a splitting point A.

This division point is as central as possible in an area with many subscribers 3. To connect these subscribers 3 to the splitting point In the same, A is a number corresponding to the number of optical fibers in the optical fiber cable Distributors 8 are provided, into which at least one fiber optic cable 9 of the fiber optic cable opens. On the other hand, the fiber-optic cables 2 are connected to the distributor 8, which lead to e-iner Group of participants 3 are guided.

A fiber optic cable 9 carries the entire broad frequency band outgoing from the transmitter S, which is divided into the individual fiber-optic cables 2 of the subscribers 3 in the distribution point A. For this purpose, the distributor 8 uses the entire broad frequency band for each subscriber the narrower frequency band assigned to him is selected, so that each participant 3 is served with its own, narrower frequency band.

The number of fibers connected to a fiber optic cable 9 with the interposition of a distributor (rs 8 connectable participants is on the one hand by the width of the frequency bands and on the other hand limited by the losses in the distributor. If all possible so far broadband services with a return channel are to be made possible for all subscribers, then the number of subscribers to be connected to a fiber optic cable 9 is approximately twelve Subscriber 3 limited, all of which are connected to distributor 8 with their own fiber optic cable 2 will. In the same way, all other fiber optic cables 9 of the fiber optic cable are provided with distributors 8, to which the fiber-optic cables 2 are then connected.

For further improved utilization of the existing in a fiber optic cable LWL can also be used for the transmission of the different services, that for example you.

Signals for radio and television for all at one point of distribution A subscriber to be connected is transmitted via a single fiber optic cable of the fiber optic cable will. The other 1.WL of the fiber optic cable can then be used with the channels for the others Services are occupied. To include the frequency bands for radio and television too To be able to transmit the subscribers 3, the corresponding fiber optic cable of the fiber optic cable must then be used be connected to all distributors 8 in the splitting point A.

The "passive" division of the signals described so far can be carried out by an "active" division can still be improved. Assuming that from a larger number of subscribers 3 only a few at the same time the full broadband djenst avail, then the participant can if necessary by electronic Circuits are assigned a free frequency band.

In the preceding explanations, the invention for the analog Signal transmission explained. However, the broadband network is without any restrictions can also be used for digital signal transmission. Each participant is then informed by Distributor 8 zugeteil.t the time grid assigned to it from the data stream on the optical fiber 9.

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Claims (4)

Claims 1. Broadband network for the transmission of telecommunications Signals, using between a transmitter and equipped with a receiver Participants running cables with optical fibers, at least partially are arranged in channels laid in the ground, characterized in that the Cable between the transmitter (S) and one in the range of many participants (3) Distribution point (A) in the channels in tubes (6) are attached, the diameter of which is small in relation to the clear diameter of the channels and of which several combined into a unit in a channel that each optical waveguide (9) of the cable is connected to a distributor (8) at the splitting point (A), and that at each distributor a group of participants (3) via their own, each participant separately assigned fiber optic cable (2) is connected. 2. Broadband network according to claim 1, characterized in that the frequency bands intended for radio and television in the cable via separate Optical fibers are guided, which are connected to all distributors (8). 3. Broadband network according to claim 1 or 2, characterized in that the cable is constructed without metal. 4. Broadband network according to one of claims 1 to 3, characterized in that that the optical waveguide (2) between the split point (A) and participants (3) are suspended from masts.