Electricity: electrical systems and devices – Housing or mounting assemblies with diverse electrical... – For electronic systems and devices
Reexamination Certificate
1999-11-09
2002-04-02
Gaffin, Jeffrey (Department: 2841)
Electricity: electrical systems and devices
Housing or mounting assemblies with diverse electrical...
For electronic systems and devices
C361S803000, C361S784000, C361S749000, C439S065000
Reexamination Certificate
active
06366473
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of Invention
The present invention relates to a method for supposing mode walls, or other wall-like structures, without the use of conventional attachment methods such as screws or clips.
2. Description of the Related Art
Mode walls are thin wall structures typically used within electronic equipment for a variety of purposes, including isolating electrical components from electromagnetic interference (EMI) emissions. Mode walls are necessarily widely used in a variety of electrical devices such as audio amplifiers, cellular phones, and others.
FIG. 1
shows a conventional method of supporting a mode wall structure within an environment of amplifier pallets. A mode wall
11
having an L-shaped feature
13
is positioned in a slot
16
between two amplifier pallets
10
. The mode wall
11
is supported by using a screw
14
, which secures the mode wall
11
onto a bed of substrate
12
by connecting the L-shaped feature
13
to the substrate
12
. The substrate
12
has a cavity
15
that is wide enough to allow for insertion of the L-shaped feature
13
. The L-shaped feature
13
and the cavity
15
must also be sufficiently wide to allow for insertion of an attaching mechanism such as a screw
14
and tools required to fix the attaching mechanism in place.
Many disadvantages are associated with the conventional method illustrated in FIG.
1
. First, due to the compact arrangements of components typically found within electrical circuitry, it is often very difficult to insert a device such as a screw gun to secure the L-shaped feature
13
within the cavity
15
. At the same time, it often becomes very difficult to insert a mode wall with an L-shaped feature into a slot that is, in the case of amplifier circuits, often no wider than 0.03 inches. Furthermore, because a cavity must be formed to support an L-shaped feature, at least part of one of the amplifier pallets
10
extends over empty space. Incidentally, surface contact with the underlying substrate material allows an amplifier pallet to disperse excess thermal energy, a process that is essential in achieving maximum power capability. Consequently, reduced surface contact with the substrate below, as in the case of a cavity formation, decreases an amplifier pallet's power capability.
FIG. 7
shows another example of a conventional method of supporting mode wall-like structures. Small metal clips
73
are installed at several locations on a circuit board
72
using either hand mounting techniques or surface mount technology. The mode wall
71
is then installed between the metal clips
73
. The location and the number of metal clips
73
determines the grounding points for the mode wall
71
and therefore its relative effectiveness. Several disadvantages are associated with this conventional method of support. First, it can be costly to manufacture and install the metal clips
73
. More particularly, it may become very difficult and time consuming to access through the neighboring components on the circuit board in order to align accurately each metal clip such that the metal clips
73
form an accurate linear path or a path matching the curvature of the mode-wall like structure to be installed. Second, it may become difficult to install the mode wall-like structure in between the clips, especially if the mode-wall like structure is not linear. Finally, a mode-wall installed using metal clips may not be appropriately grounded through limited contact using the clips.
FIG. 2
shows another example of a conventional method for supporting mode wall-like structures. A thin elongated slot
22
is cut on a substrate
20
using a diameter cutter. The diameter of the thin slot
22
is slightly larger than the width of the mode wall
21
such that mode wall
21
can fit snugly and rigidly into the thin slot
22
. The mode wall
21
is grounded in several portions at which the mode wall
21
comes in contact with electrical contacts
23
, which are tightly pressed between the outer side of mode wall
21
and an inner side of the thin slot
22
.
The method illustrated in
FIG. 2
also causes many disadvantages and difficulties. First, there is a limit on how thin a slot can be cut by a diameter cutter. Currently, the thinnest slot width able to be cut by a diameter cutter is about {fraction (1/32)} of an inch in width (approximately 0.03 inches). This minimum width requires the use of heavier sheet metals in order to accommodate a snug fit. In addition, a small diameter cutter has a significant deflection problem, which makes it difficult to meet and satisfy tight tolerances at any reasonable metal removal rates. Moreover, due to the deflection problem, small diameter cutters are often manufactured with a short overall length to minimize the deflection. Since the body of a diameter cutter is generally much wider than the cutter itself, this limits the cutter's ability to access tight spaces on the substrate within an amplifier case (a problem otherwise known as milling head interference). Finally, if a slot with interference is required, the full length of the slot must be an interference or snug fit, making it difficult to install a thin mode wall into the slot. An interference fit of this type often requires that the application of load from both sides of the slot to “crush” the mode wall in order for the mode wall to be properly secured. As a result, elements such as electrical contacts
23
from
FIG. 2
become extremely difficult to assemble.
SUMMARY OF THE INVENTION
The present invention provides an amplifier assembly having a grounded mode wall which overcomes the above noted disadvantages in supporting mode walls.
In particular the present invention provides an amplifier assembly, comprising a mode wall and a substrate having an upper support surface for supporting amplifier circuitry which generates EMI emissions having a wavelength. A substantially serpentine slot is provided in the upper support surface of the substrate which supports and grounds the mode well. More specifically, the serpentine slot defines a plurality of points of contact arranged to contact and ground the mode wall. The points of contact are spaced apart at roughly ¼ of the wavelength or less such that the mode wall is grounded at a spacing of roughly ¼ of the wavelength.
Further features and advantages of the present invention are set out in the following detailed description of the invention.
REFERENCES:
patent: 3968336 (1976-07-01), Johnson
patent: 4724760 (1988-02-01), Bubley
patent: 5176238 (1993-01-01), Deglau
patent: 5437408 (1995-08-01), Chesnut
patent: 5754411 (1998-05-01), Woychik
patent: 5835356 (1998-11-01), Wieloch et al.
patent: 6195618 (2001-02-01), Rosenberg et al.
patent: 6197254 (2001-03-01), Silver et al.
patent: 53-117991 (1978-10-01), None
Bui Hung
Gaffin Jeffrey
Myers Dawes & Andras LLP
Powerwave Technologies Inc.
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