SE516274C2 - Connecting device for optical fibers - Google Patents

Abstract

The present invention relates to an arrangement for connecting a plurality of optical fibres from dwellings in a an apartment building to an external connection point, such as to a central unit. Optical fibres from the dwelling places are connected to the arrangement, which comprises a passive part and an active part. The arrangement is, in turn, connected to optical fibres extending to the external connection point, such as said central unit. The passive part of the arrangement includes cassettes (3) and an optical fibre organiser (5). The active part includes a cross-connecting unit (9), a current converter (10), and cooling means (12).

Description

20 25 30 ø ø u n av n c 516 274§ ¥ @ ä fl} hÅšL% {§¿ 2 the device for connection to the device, whereby the opto signals transported with the optical fibers can be switched and forwarded with the device. The centrally located device can. be designed as a cabinet a so-called enclosure cabinet consisting of essentially two parts: a passive part and an active part. The fiber optic passive part consists of a transition from optical fibers in pipes from the living spaces so-called to a fixed exchange unit. microducter cross-connection and a The electrically active part consists of the gear unit and a converter. The idea with the cabinet is to connect the passive optical fiber part with the active electronics part to an optical fiber network in a simple way and on a small building surface, which could supply subscribers with 100 Mbps fiber (SX) lines. The active part and the passive part are spaces in the enclosure cabinet with separate doors and keys. In this way, arranged in their respective adjacent smaller ways, the risk of unauthorized persons being able to access sensitive details in the enclosure cabinet can be minimized and the functions can be separated. The cabinet can primarily be intended for wall mounting indoors and can as such be fastened, for example, with four screws with a wall bracket without the cabinet itself having to be opened.

The invention will now be described in more detail with the aid of a preferred embodiment and with reference to the accompanying figure sheets.

DESCRIPTION OF FIGURES Figure 1 shows a view of an optical fiber network connected to an individual subscriber.

Figure 2 shows an exchange unit for local switching of signals in the network shown in figure 1.

Figure 3 shows in perspective an enclosure cabinet with a passive part and an active part according to the invention for use in the optical fiber network according to Figures 1 and 2. Figure 4 shows in detail and in different views an organizer for the enclosure.

PREFERRED EMBODIMENTS ROOMS Figure 1 shows an optical fiber network for connection to a subscriber. The fiber network consists of a local exchange unit 101 which 103 to subscribers / residential spaces 105 with a local optical fiber loop 107. to a central unit 109, connects pairs of optical fibers individual The local optical fiber loop 107 is in turn connected which in turn can be connected to a transport network lll, such as the Internet, in a conventional way.

By arranging the local exchange unit 101, a number of advantages are achieved compared to a conventional optical fiber network for connection to a subscriber (Fiber to the home / FTTH). Thus, pairs of optical fibers do not need to be pulled from each individual subscriber to the central unit. This means that less optical fiber needs to be drawn, as the total cable length becomes shorter. Furthermore, connection of new subscribers is simplified because a new optical fiber only needs to be pulled from the individual subscriber to the exchange unit, which can be placed much closer to the subscriber, for example in the basement of an apartment building, instead of optical fiber routing all the way to the central unit. Furthermore, the local exchange unit is preferably built into a robust housing so that it can be placed in a basement or attic without risk of damage to the electronics.

In addition, switching is achieved at the local level, which reduces the traffic load to the central unit because all traffic transferred between subscribers connected to the same exchange unit never needs to be transferred to the central unit 109. thus cross-connection of the exchange unit can be closer, CPX 201 Figure 2 shows the exchange unit include one for 515 2 74 4 signals to / from different subscribers connected to the exchange unit. CPX 201 is connected to a PIN diode array 203 and to a VCSEL laser array 205. The PIN diode array receives signals such as. arrives at the exchange unit and the VSCEL laser array 205 transmits signals from the exchange unit.

The PIN diode array and the VCSEL laser array, respectively, are connected to separate optical ribbon fibers. In the CPX, these are cross-connected so that receiver / transmitter pairs are formed. Each individual pair is then connected to a specific subscriber.

The PIN diode array 203 is connected to an amplifier 207, which in turn is connected to a conventional packet handling unit 209. The packet handling unit 209 is connected to a block 211 comprising a distribution selector, suitable filters and preferably also support for handling a VLAN (Virtual Local Area Network).

The block 211 is connected to a packet switch 213. The packet switch 213 is connected to a buffer 215, where packets out of the packet switch are stored while waiting to be transmitted from the switch unit. Preferably, the buffer has support for handling different priority on the sent packets.

The buffer 215 is then connected to a conventional packet handler 217 and an amplifier 219, which in turn is connected to the VCSEL laser 205.

In a preferred embodiment, the exchange unit thus comprises filters to prevent information sent to / from an individual subscriber from being received by another subscriber connected to the same exchange unit. Filtering of information takes place 'also to prevent a. subscriber can interfere with another subscriber connected to the same exchange unit. Furthermore, by arranging so-called virtual local area networks (Virtual Local Area Network / VLAN), different subscribers can be given different connection quality. 5 10 15 20 25 30 o n ø a en u n 5 When a cross-connection is arranged in the exchange unit, switching at local level traffic to / from connected to the same exchange unit can be cross-connected at local level, ie subscribers in the exchange unit.

Figure 3 shows an example of an enclosure cabinet 1A and 1B comprising a passive part and an active part and designed according to the invention to e.g. enclose the gear unit shown in figure 2. Cabinet 1A and 1B are shown with open doors / lids 2A and 2B and partly disassembled. The cabinet can preferably be made of 1.5 mm lacquered steel and aluzinc sheet and be painted coral white with structure. In the left cabinet part 1A there are the passive components such as 8 cassettes 3 for handling at present a maximum of 96 optical fibers / 48 ribs and an organizer. Incoming multiduct cables and / or micro products with optical fibers from, for example, different homes in an apartment building could be installed in the cabinet according to a special installation instruction. On the back of the cabinet part there is hole 4 for the insertion of ducts / pipes with optical fibers from the dwellings. The ends of the different duct tubes are then placed in the organizer 5, see figure 4, so that the optical fibers in the duct tubes are arranged and easier to handle ”at the transition of the optical fibers from the tubes to the cassettes.

The organizer 5 can, as shown in the example in figure 4, consist of a composite step-like holder for individual pipes or pipe ends, where the pipe ends can be placed parallel to each other in recesses 17 on both sides of the holder. Opto-fibers blown in / sucked in with FTTH (Fiber To The Home) technology or with FFTH (Fiber From The Home) technology are preferably numbered according to a special numbering regulation, for example with markers or the like to ensure a simple and accurate handling of the optical fibers. pcs 2-fiber rib on the 12-fiber rib on the gear side. In the top and last cassette can also be placed. In each cassette 3, for example, 6 the subscriber side can be spliced to, for example, s 10 15 20 25 30 516 274 6 so-called. towards the central unit 109.

Around the edges of the lid 2A there is a sealing strip 7 to make the cabinet part tight. a rail 8 for attaching the cabinet to a base such as a basement wall or the like may be attached to the underside of the cabinet part 1A. In the right cabinet part 1B are the active components such as an exchange unit 9 described above in connection with Figure 2, for power supply and fans 12 for cooling enclosed a DC converter 10 and a mains cable 11 components. The door opening is here equipped with specially made conductors optimized to stop electromagnetic radiation so that silicone gaskets 13 and all other openings are the unit can meet so-called EMC requirements.

The gear unit 9 could with a suitable design be mounted easily in the cabinet without tools with, for example, a light pressure on a pivotable so-called locking clip. On the gear unit 9, a fixed cross-coupling unit 14, a so-called CPX, can be embedded in the 12-fiber rib. 8 pcs 1.8 m long CPX pigtails for cassettes 3 and for example 2 or 4 single mode pigtails for upstream traffic to an external connection point. All pigtails can be pulled through one or more holes in an intermediate piece between the passive part and the active part, preferably through a hole 16 with a diameter of 5 mm to meet the EMC requirements.

The spacer may itself consist of nünst one side to one of By marking all. pigtails with predetermined similar can the cabinet parts. numbers, for example with markers or the placement is facilitated in designated places in the respective splice cassette. On the underside of the cabinet part 1B, a rail 15 for attaching the cabinet to a base such as a basement wall or the like may be attached.

The cable seals can preferably be made of rubber and the 7 internally mounted splice cassettes can, for example, be made of modified PPO with fire protection class UL 94 V0.

The invention is of course not limited to the embodiment described above and the embodiment shown in the drawing, but can be modified within the scope of the appended claims.

Claims (1)

Device for connecting several optical fibers in an optical fiber network to an external connection point such as a transport network, in that several individual optical fibers from living spaces are connected to a central unit for switching the optical signals transported with the optical fibers. between the housing vacancies and the. central unit and. between. the central unit. and that. external connection point, characterized in that the central unit consists of two parts: a passive part in a cabinet part (1A) of an enclosure cabinet and an adjacent active part in a cabinet part (1B) of the same enclosure cabinet, where the passive part. includes cassettes (3) and. organizer (5) for arranging the optical fibers from the living spaces into and out of the passive part to the active part and where the active part comprises a cross-coupling unit (14), a gear unit (9), a current converter (10) and cooling means (12) for arranging the optical fibers from the passive part into the cross-coupling unit of the active part and the exchange unit with optical connection to the external connection point for switching the optical signals transported with the optical fibers xnellan. the living spaces and the. central unit. and. between. the central unit. and the external connection point. Device according to claim 1, characterized in that each cabinet part (1A, 1B) of the enclosure cabinet is provided with an openable lid (2A, 2B). Device according to claim 2, characterized in that each lid (2A, 2B) is provided with sealing means (7 , 13) to ensure the tightness of the cabinet parts. Device according to one of Claims 1 to 3, characterized in that the device is arranged to be able to be placed centrally in a building. 516 274 9. Device according to any one of claims 1-3, characterized in that the device is arranged to be able to be placed vertically.