CONECTIVITY

Cross-Reference to Related Application's)

This application claims priority to U.S. Patent Application Serial No. 61/935,692 filed on February 4, 2014, the disclosure of which is incorporated herein by reference in its entirety.

Background

The present invention concerns fiber optic networks. There is a continuing need to provide service in the event of a failure of a service providing center, such as a central office.

Summary

One aspect of the present invention relates to a fiber optic network including a central office or a mobile switching center which provides service to remote cabinets via cabling. The remote cabinets are connected to homes, businesses, or other premises with various cables. In the event the central office incurs a failure, a mobile central office or mobile switching center in the form of a vehicle can be used to deploy new service through one of the remote cabinets which provides service to the premises served by that cabinet, and to other cabinets in the network.

In one aspect of the invention, equipment is provided in each of the cabinets to receive service from a secondary source through cabling, and provide that secondary source through cabling to the premises served by that cabinet, or to provide service to other cabinets, thereby maintaining service in the network. The mobile switching center in the form of a vehicle can be utilized while the central office or mobile switching center is repaired.

Brief Description of the Drawings

FIG. 1 is a schematic representation of a fiber optic network in accordance with the present invention.

FIGS. 2 through 6 show in enlarged views different portions of the network of FIG. 1;

FIG. 7 is a front view of an example cabinet; FIG. 8 is a side view of the cabinet of FIG. 7;

FIG. 9 is a perspective view of the cabinet of FIG. 7, showing various doors in the open position to access an interior of the cabinet;

FIG. 10 is a front view of the cabinet showing the cabinet populated with various equipment including an exteriorly accessible patch panel;

FIG. 11 is a side view of the cabinet of FIG. 10 showing the exteriorly accessible patch panel;

FIG. 12 is a perspective view showing further details of a patch panel on a side of a cabinet, in one example embodiment.

Detailed Description

Various fiber optic networks include a central office which serves remote customers via fiber optic cables. The cables from the central office are linked to remote equipment which further distributes the fiber optic service to the remote customers. Hubs or cabinets can be used to connect customers to the central office. In some situations, the central office can become disabled or fail due to a catastrophic event. In such a situation, a back up system is provided to continue service to the customers connected to the central office. In some situations, the central office may also be referred to as a mobile switching center.

Referring now to the figures, a fiber optic network 10 includes a Mobile Switching Center (MSC) 12 which distributes fiber optic signals to one or more remote cabinets 40, 42, 44. The remote cabinets 40, 42, 44 distribute signals to one or more manholes 60, 62, 64. Manholes 60, 62, 64 include a terminal for receiving feeder cables and distribution cables 144. The manholes 60, 62, 64 serve individual premises such as businesses or homes 80, 82, 84. Network 10 shows three example remote cabinets 40, 42, 44, three manholes 60, 62, 64, and three businesses or homes 80, 82, 84. Network 10 can include more cabinets, manholes, and businesses or homes as desired.

Feeder cables 100 feed signals from MSC 12 to each of cabinets 40, 42, 44. Distribution cables 120 extend from cabinets 40, 42, 44 to serve manholes 60, 62, 64.

Disposed within each of cabinets 40, 42, 44 are sub-racks 150, 152 which are connected by patch cables 130 thereby connecting the feeder cables 100 to the distribution cables 120.

Should a problem arise with signal delivery by the MSC 12, a back-up network is provided. For example, MSC 12 may be damaged due to a fire, an explosion or other catastrophic event that prevents MSC 12 from providing and receiving signals. In case of damage to MSC 12, a vehicle, such as a truck, can provide temporary service to network 10. Access for the feeder cables into network 10 is through a patch panel 200 located one of cabinets 40, 42, 44. In the example shown, patch panel 200 is shown on cabinet 40. Patch panel 200 connects to sub-racks 154 which deliver signals to sub-racks 152 with patch cables 138 in order to serve manholes 60 connected to cabinet 40. Sub- racks 154 also deliver signals to sub-racks 156 in cabinet 40 with patch cables 132. Sub- racks 156 are connected by cables 134, 134 to cabinets 42, 44 to provide feeder signals to these cabinets. Sub-racks 158 in cabinets 42, 44 receive feeder signals from cabinet 40. Patch cables 138, 140 connect sub-racks 158 to sub-racks 152 for delivery of signals to their respective manholes 62, 64 connected to cabinets 42, 44.

In this manner, the MSC 12 can be repaired, while signals can be delivered to the customers by accessing a feeder input at cabinet 40 at patch panel 200.

Patch panel 200 can be an external patch panel which uses hardened fiber optic cables which have improved resistance to water, dust, and other environmental conditions. By using an external patch panel 200, access to an interior of cabinet 40 is not needed except for routing of the internal patch cords, as needed. In one example, multi- fiber hardened connectors are used. See an example OPTI-TIP hardened connector by Corning and U.S. Patent No. 7,264,402. Within sub-racks 154, the multi-fiber cables 300 are fanned out into individual fibers at cassettes 400.

Back-up cables 140, 142 can be provided should cables 134, 136 fail.

Back-up sub-racks 170, 172 connect to back-up cables 140, 142.

Referring now to FIGS. 7 through 12, further examples of cabinets 40, 42, 44 are shown. Each of the cabinets includes an enclosure 600. Doors 602, 604, 606 are used to access an interior 620 of each cabinet. Interior 620 is where the various equipment for connecting the customers to the MSC 12 are housed. The interior 620 is also the location of the various patch cables which connect the different pieces of equipment to enable connection from the MSC 12 to the customers, or the vehicle 500 to the customers.

When back-up service is desired, such as due to a failure of the MSC 12, patch cords are used within each cabinet 40, 42, 44 to connect the sub-racks 154, 156, 158 to the various customers. It is to be appreciated that the various patch cables used during back-up service can be the same ones used under normal service from the MSC 12, or they can be different, especially if different lengths are needed. The various sub-racks 150, 152, 154, 156, 158, 170, 172 can include telecommunications equipment for connecting fiber optic cables. In one embodiment, the sub-racks can contain splices. In the case of sub-racks 154, fan-outs can be provided for accepting a multi- fiber feeder cable and splitting the cable into individual single fiber cables. In one example, a multi- fiber to single fiber cassette 400 in sub-rack 154 can be provided. An appropriate number of cassettes 400 are utilized depending on how many input and output cables are desired. The various cables 100, 120, 134, 136, 140, 142 can be multi-fiber cables, as desired.

In some situations, not all of the customers connected to the MSC 12 are connected during the back-up service provided by vehicle 500. There are situations in which only a certain percentage of the customers are connected to the back-up service. In such situations, priority may be given to certain customers or premises in which service is in high demand or for critical needs. This may reduce the number of patchings needed in each of cabinets 40, 42, 44 during the back-up service. However, it is to be appreciated that all of the customers can be connected if desired through the back-up service.

List of Reference Numerals and Corresponding Features

10 Fiber optic network

12 MSC

40 Cabinet

42 Cabinet

44 Cabinet

60 Manhole

62 Manhole

64 Manhole

80 Home

82 Home

84 Home

100 Feeder cables

120 Distribution cables

130 Patch cables

132 Patch cables

134 Cables

136 Cables

138 Patch cables

140 Back-up cables

142 Back-up cables

144 Drop cables

150 Sub-racks

152 Sub-racks

154 Sub-racks

156 Sub-racks

158 Sub-racks

170 Back-up sub-racks

172 Back-up sub-racks

200 External patch panel

300 Multi-fiber cables

400 Cassettes

500 Truck

600 Cabinet enclosure 602 Door

604 Door

606 Door

610 Side

620 Interior