Electricity: electrical systems and devices – Housing or mounting assemblies with diverse electrical... – For electronic systems and devices
Reexamination Certificate
2001-12-12
2003-03-04
Gandhi, Jayprakash N. (Department: 2841)
Electricity: electrical systems and devices
Housing or mounting assemblies with diverse electrical...
For electronic systems and devices
C361S689000, C361S785000, C361S802000, C361S807000, C439S327000, C024S563000
Reexamination Certificate
active
06529386
ABSTRACT:
TECHNICAL FIELD
The present invention is directed toward an apparatus and method for retaining a first circuit board on a second circuit board such as a motherboard.
BACKGROUND OF THE INVENTION
Computer systems often include a plurality of integrated circuit boards capable of performing different functions when interconnected to one another. Such an arrangement provides advantages of enhanced standardization of parts as well as increased varieties of possible computer systems. For instance, using the same basic hardware, many variations of a computer system may be created by including or not including various functionally distinct circuit boards with components based on the circuit boards. Additionally, circuit boards with computer components may be replaced with more capable circuit boards as such devices are developed.
A typical arrangement for a computer system is to have a backplane circuit board, such as a motherboard, that serves as a platform on which the computer system may be built. The motherboard typically has a number of sockets or slots into which other circuit boards with components may be plugged to form electrical and mechanical connections between the circuit boards and the motherboard. Examples of circuit boards with components that may be plugged into the motherboard include one or more central processing units, main memory cards, video adapter cards, video acceleration cards, sound cards, SCSI controller cards, parallel or serial interface cards, game adapter cards, network cards, and others. Circuit boards with components such as these may plug into a motherboard through connectors along one edge of the circuit board. The edge connectors plug directly into a slot or socket. When attached in this manner, the circuit board may be substantially perpendicular to the motherboard.
While it is convenient to have circuit boards with components that may be added to or removed from a motherboard so easily, significant problems are created if the circuit boards become electrically disconnected from the motherboard. Maintenance of a secure electrical connection can be assured by an adequate mechanical connection. Mechanical and subsequent electrical disconnection may occur when a computer system is subjected to jarring loads like those present during shipping. Therefore, significant design efforts have been directed toward adequate mechanical connection between socket connected circuit boards and the motherboard.
One connection that has been of particular concern is the connection between the central processing unit, or processor, and the motherboard. Such a processor is often resident on a circuit board. The circuit board and processor together will be referred to below as a processor package. The Intel Corporation P6-based processor packages connect to the motherboard through what is known as Slot
1
or Slot
2
connectors. A Slot
1
, or 242-contact slot connector, is used with PENTIUM II, PENTIUM III, or CELERON processor packages and is shown in
FIG. 1
as connector
104
. The Slot
2
, or 330-contact slot connector, is used with Xeon processor packages. However, Slot
1
and Slot
2
electrical connectors are not adequate to secure a processor package to a motherboard under normal service loads. Therefore, mechanical retaining structures must be added around a Slot
1
or Slot
2
connector to secure the processor package to the motherboard. A typical mechanical retaining structure is known as a “goal post” because it physically resembles a football goal post with two vertical uprights. See
FIG. 1
illustrating goal post
100
and uprights
102
. Each of the vertical uprights is positioned to support a vertical edge of a processor package that may be supported in connector
104
. Support along the vertical edges, however, has not proven adequate to support the processor package. A PENTIUM II or PENTIUM III processor package is illustrated in
FIG. 2 and a
CELERON processor package is illustrated in FIG.
3
.
To adequately support various Slot
1
and Slot
2
processor packages, a number of specialized retaining structures have been developed. For instance, U.S. Pat. Nos. 5,726,865 and 5,642,263 disclose such structures. A problem with both of these structures, however, is that they are not capable of functioning with each of the standard Slot
1
or Slot
2
processor packages. Additionally, the '865 patent requires special cutouts in the circuit board of the processor package. The '263 patent provides a top cover that gives additional retaining strength, but a single apparatus could not be used for processor packages of varying heights. Unfortunately, standard processor packages come in different heights. For instance, a standard CELERON processor package is significantly taller than a standard PENTIUM III processor package. See
FIGS. 2 and 3
. Therefore, separate retaining apparatuses would be required for each different processor package under the '263 patent.
Another shortcoming is that the structure of the '263 patent is not designed to exert a downward biasing force on the processor package. Although the '263 patent would prevent a processor package from moving beyond the cover, a more optimal solution would create a downward biasing force on the processor package. Such a downward force would reduce the movement of the processor package in the connector, and consequently, would reduce wear on the connections between the processor package and the connector that could otherwise occur.
Goal post connectors capable of excepting both a standard CELERON processor package and a standard PENTIUM III processor package are currently commercially available. One such connector is Part No. PT11008-5301 made by FOXCONN Electronics, whose parent company is Hon Hai Precision Ind. Co., LTD., Taipei, Taiwan, R.O.C. As illustrated in
FIG. 1
, the FOXCONN type connector
100
provides holes
101
and
103
in both uprights
102
. Holes
101
and
103
are for aligning with tabs
201
of a typical PENTIUM II or PENTIUM III processor package
200
as shown in FIG.
2
. Two pairs of holes
101
and
103
are provided so that the processor
200
may face in either direction relative to the connector
100
(FIG.
1
). For the CELERON processor package
300
shown in
FIG. 3
, the tabs
301
fit beneath the wings
105
or the wings
107
of the upright
102
as shown in FIG.
1
. Two pairs of wings
105
and
107
are provided so that the processor
300
may face in either direction relative to the connector
100
. Although the FOXCONN connector provides support for more than one variety of processor and does not require custom alterations to a processor, it alone does not provide adequate support under many observed service conditions.
An improved system would combine the flexibility and interchangability of a standardized goal post connector with the security and strength of a customized connector and processor. Further, the improved system would apply a biasing force to a processor package, or other circuit board, to further secure the device to a connector and its associated second circuit board. Additionally, an improved device would allow for a part to be merely added to an existing goal post type connector or similar structure. An improved device would also be easy to install and remove, requiring no tools or special skills to accomplish either task.
SUMMARY OF THE INVENTION
An embodiment of the invention is a clip for securing a first circuit board to a second circuit board. The clip is coupled to a first upright and a second upright. The uprights are coupled to a second circuit board. Therefore, by connection of the clip to the uprights, the first circuit board is secured relative to the second circuit board. The clip includes a first end for coupling to the first upright and an interior member coupled to the first end. A portion of the interior member contacts the first circuit board and biases the first circuit board toward the second circuit board. The clip also includes a second end coupled to the interior member. The second end is for
Gandhi Jayprakash N.
Perkins Coie LLP
LandOfFree
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