This invention relates to panels for coaxial cables. More particularly this invention relates to coaxial panels including surge protection.
In the telecommunications industry, high frequency signals are commonly transmitted across coaxial cables. From time to time, such cables must be interconnected. For example, it is desirable to provide an interconnection point between two pieces of telecommunications equipment to provide a convenient location in a telecommunications system for accessing signals as well as monitoring signals from time to time. It is also convenient to aggregate these access locations in a single rack of equipment both for efficiency and to allow patch cables to quickly and easily route or reroute a communications signal between or around telecommunications equipment.
There is a need to protect the coaxial cables from lightning and power surges. Protecting the cables from power surges, while maintaining efficient use of space associated with the racks, is a concern.
One aspect of the present invention relates to a coaxial module including a replaceable surge protector device. Preferably, the module includes an electrically conductive housing including coaxial connectors. Disposed within an interior of the housing is a replaceable surge protector device. A portion of the housing is removable to allow access to the replaceable surge protector device.
In the preferred embodiment, the module includes a circuit board disposed within the housing. Preferably, the circuit board includes a cutout portion for receiving the replaceable surge protector device. In one preferred embodiment, the surge protector device includes three pins connectable to the circuit board along an edge of the circuit board.
The preferred modules of the present invention are mountable together in a panel. Preferably, the panel is mountable to a telecommunications rack.
Referring now to
Panel 20 and other equipment mount to rack 12 with fasteners into fastener holes 22 in uprights 14, 16. Fastener holes 22 are spaced apart as desired. Preferably fastener holes 22 are spaced apart in accordance with either an EIA standard (for a rack unit spacing of 1.75 inches) or a WECO standard (for a rack unit spacing of 1 inch), both of which are standards in the telecommunications industry.
Referring now to
The coaxial modules 40 include a front 50 and a back 52. The front 50 and the back 52 along with first sides 54, 56 and second sides 58, 60 define a housing 62. Disposed along front 50 and rear 52 are cable connectors 51, such as BNC, F, or 1.6/5.6 connectors for connecting to mating connectors on coaxial cables. BNC connectors are shown. Front 50 is spaced from back 52 providing the module with a depth for including an electrical circuit 70 electrically connecting the connectors 51. Connectors 51 include a center conductor pin 53, and two ground shield pins 55 to connect to circuitry 70.
In the preferred embodiment, module 40 is a dual monitor module with two front connectors 51, defining two monitor signal connectors 60, 61, and four rear connectors 51, defining four main signal connectors 62, 63, 64, 65. Circuit 70 preferably includes a circuit board 80 containing the circuitry for linking the various connectors 51. As shown in
Housing 62 is made from an electrically conductive material, such as metal. In the illustrated embodiment, housing 62 is made from sheet metal components. Alternatively, housing 62 can be made from die-cast materials, or other manufacturing processes. Front 50 and back 52 are panel pieces mounted perpendicularly relative to circuit board 80. A main housing portion 57 with a main panel 66 and two ends 68 are mounted to front and back 50, 52, such as with fasteners 69.
Side 58 of housing 62 is preferably a removable cover separable from a remainder of housing 62 by removing fasteners 44. By removing cover 58, surge protector device 100 can be removed and replaced, if desired.
The following dimensions are provided with respect to the embodiment illustrated in
The embodiment illustrated in
Referring now to
With the location of the surge protector device 100 in module 40, a user can remove device 100 if it is necessary to replace it, by only removing cover 58. Also, the width profile of module 40 resulting from placing device 100 in the cutout 90 with an edge mount to board 80 allows for the densities noted herein for the 19 or 23 inch racks. Other pin mounted surge protector devices can be used, as well as non-pin mounted devices to achieve the densities in accordance with the invention.
The modules 40 in panel 120 are oriented horizontally, rather than vertically in panel 20. The dimensions of panel 120 are as follows:
The dimensions for panel 220 are as follows:
Referring now to
An example of a surge protector device 100 in one preferred embodiment is a gas tube or gas discharge tube surge protection device by Littelfuse®. of Des Plaines, Ill., part no. 1021 medium duty arrester series, 260 volts. During a surge in power, the device connects the center conductor to ground, which connects it to housing 62, and frame 26. Device 100 includes a fail safe element 103. While the preferred surge protection device is removable, a non-removable device is also contemplated.
Since many embodiments of the invention can be made without departing from the spirit and scope of the invention, the invention resides in the claims hereinafter appended.
This application is a continuation of application Ser. No. 10/377,305, filed Feb. 28, 2003 now U.S. Pat. No. 6,881,076, which application is incorporated herein by reference.
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Number | Date | Country | |
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20050146828 A1 | Jul 2005 | US |
Number | Date | Country | |
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Parent | 10377305 | Feb 2003 | US |
Child | 11055241 | US |