The present invention relates to the field of input/output (IO) connectors, more specifically to IO connectors in a ganged configuration.
The use of IO connectors is known. One typical application is a server or switch. In order to provide a sufficient number of IO ports, it is common to provide multiple IO connectors side by side in what is referred to as a ganged configuration. The use of ganged connectors decreases the space between connectors so that for a given width of switch it is possible to have additional ports. One issue that has arisen due to the increased number of ports is that it has become more difficult to cool the system. This cooling issue is further exacerbated by the fact that the modules being positioned in the ports are increasing requiring to be active (e.g., power consuming) components compared to the passive components that were frequently used in the past. Thus, existing ganged solutions that used a continuous cage system are becoming difficult to use due to thermal performance issues. Consequentially, certain individuals would appreciate further improvements to a ganged connector system.
A connector system includes a plurality of cages, each cage separately enclosing a housing, each cage defining at least one port. The cages are spaced apart so that there is a gap between adjacent cages. A thermal washer is provided around the plurality of cages. The thermal washer includes air apertures to allow air to flow between the gaps. The thermal washer can include a front portion that is configured to engage a front of the cage and can further include a sealing surface that allows the thermal washer to seal against a bezel.
The present invention is illustrated by way of example and not limited in the accompanying figures in which like reference numerals indicate similar elements and in which:
The detailed description that follows describes exemplary embodiments and is not intended to be limited to the expressly disclosed combination(s). Therefore, unless otherwise noted, features disclosed herein may be combined together to form additional combinations that were not otherwise shown for purposes of brevity.
The cages 20 (and the corresponding housing 15) as depicted each provide a first port 28a and a second port 28b, the two ports being in a stacked configuration. It should be noted that if desired, however, the cage 20 and housing 15 could be configured so as to provide a single port. Such a configuration would be power profile but would also provide less ports per front edge of the circuit board 40.
A bezel 60 is depicted and the bezel 60 has an opening that extends around the plurality of cages 20. The bezel 60 includes a lip 62 that defines the opening and includes a rear surface 64 that can be supported by the structure that forms the switch or server in a conventional manner.
As can be appreciated, the depicted cages 20 have a front edge 22 and a front face 25 with apertures suitable for air and/or indicators (such as would be suitable for use with light pipes). A thermal washer 80 includes a front portion 84 that has edges 85 so as to provide the front portion with a first width D1. The front portion 84 is configured to press against the front face 25 and/or the front edge 22 of the cage. The thermal washer 80 further includes a main portion 83 with a width D2 and the main portion that is that is intended to be positioned between cages 20 and can engage an electromagnetic interference (EMI) gasket 29. The EMI gasket extends around a perimeter of the cage near the front face and allows the cage to have suitable EMI protection when the cage is inserted into the bezel. As depicted, the EMI gasket 29 includes fingers and the main portion 83 engages the fingers and causes them to deflect. As can be appreciated, the width D1 is great than the width D2, which allows the front of the cage 20 engage the thermal washer 80.
The thermal washer 80 includes a plurality of air apertures 86 that are configured to allow air to flow past the thermal washer and in the gap 17 between the cages 20. The air apertures 86 are provided on both the front portion 84 and the main portion 83. The thermal washer 80 also includes a sealing surface 88 that is configured to compress a seal 96 between the sealing surface 88 and the rear surface 64 of the bezel 60. The seal 96 can be configured to help block EMI so that the connector system can provide good EMI protection. Thus, the thermal washer 80 allows for thermally valuable air flow while providing suitable EMI protection. In addition, the design of the thermal washer allows the front of the cage 20 to press against the thermal washer 80 and that force causes the sealing surface 88 to compress the seal 96 against the rear surface 64 of the bezel 60.
The disclosure provided herein describes features in terms of preferred and exemplary embodiments thereof Numerous other embodiments, modifications and variations within the scope and spirit of the appended claims will occur to persons of ordinary skill in the art from a review of this disclosure.
This application claims priority to U.S. Provisional Application No. 61/642,771, filed May 4, 2012, which is incorporated herein by reference in its entirety.
Filing Document | Filing Date | Country | Kind |
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PCT/US2013/039705 | 5/6/2013 | WO | 00 |
Number | Date | Country | |
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61642771 | May 2012 | US |