BACKGROUND OF THE DISCLOSURE
[0001] The present disclosure generally relates to electronic mobile devices, and more particularly
to key and display structures of electronic mobile devices.
[0002] In the design of electronic mobile devices, such as cellular phones and the like,
there is an inclination to continuously improve aesthetic qualities. One manner for
making such improvements involves designing smaller and/or thinner devices by using
smaller and/or thinner components. Another manner for making aesthetic improvements
includes using visually and/or tactilely pleasing individual components. One set of
visually pleasing components includes an external lens that overlies a display module
and defines, in part, one or more adjacent menu keys. This structure provides a smooth
appearance with few, if any, breaks or discontinuities on the lens between the display
module and the keys and between the keys themselves. As such, the keys appear to be
part of a bezel structure that surrounds the display.
[0003] The above keys, while aesthetically pleasing, can be difficult for a user to manipulate.
For example, if each key includes a mechanical switch (
i.e., a dome switch) beneath the lens, the keys can be prone to "falsing". That is, keys
may be inadvertently deflected and actuated when pressing a neighboring key due to
the continuous structure of the lens. Slits or breaks can be provided between adjacent
keys to prevent adjacent lens portions from unintentionally deflecting, although such
a solution reduces the aesthetic appeal of the device.
[0004] Another solution to address key falsing involves using a touch-sensitive input device
instead of mechanical switches. A touch-sensitive input can readily distinguish key
presses between adjacent keys that are defined, in part, by a common lens structure.
However, such touch-sensitive inputs typically do not provide tactile feedback to
indicate to a user that a key has been successfully pressed.
BRIEF DESCRIPTION OF THE DRAWINGS
[0005] Fig. 1 is a front perspective view of an electronic mobile device including a key/display
assembly according to the present disclosure;
[0006] Fig. 2 is a partially exploded perspective view of the key/display assembly of Fig.1;
[0007] Fig. 3 is a rear partial perspective view of a lens of the key/display assembly of
Fig. 1;
[0008] Fig. 4 is a section view of the key/display assembly along line 4-4 of Fig. 1;
[0009] Fig. 5 is a section view of the key/display assembly along line 4-4 of Fig. 1 showing
deflection of a menu key;
[0010] Fig. 6 is a section view of the key/display assembly along line 6-6 of Fig. 1 showing
deflection of a first menu key; and
[0011] Fig. 7 is a section view of the key/display assembly along line 6-6 of Fig. 1 showing
deflection of the second menu key.
DETAILED DESCRIPTION
[0012] According to some embodiments, a key/display assembly includes a first switch and
a second switch, and a display module is disposed aside the first switch and the second
switch. A lens is disposed adjacent the display module and has an inner surface facing
the display module. The lens includes a first contact region adjacent the first switch
and a second contact region adjacent the second switch. The inner surface supports
a first foot disposed between the first contact region and the second contact region.
A first key is defined by the first switch and the first contact region such that
the first key is actuated by deflecting the first contact region to actuate the first
switch. A second key is defined by the second switch and the second contact region
such that the second key is actuated by deflecting the second contact region to actuate
the second switch. When the first contact region deflects to actuate the first switch,
the first foot inhibits the second contact region from actuating the second switch.
When the second contact region deflects to actuate the second switch, the first foot
inhibits the first contact region from actuating the first switch.
[0013] The teachings of the present disclosure relate generally to portable electronic devices,
e.g., mobile communication devices such as pagers, cellular phones, global positioning
system (GPS) navigation devices and other satellite navigation devices, smart phones,
wireless organizers, wireless personal digital assistants (PDA), and tablet computers.
The portable electronic devices could be devices without wireless communication capabilities
such as PDAs, electronic gaming devices, digital photograph albums or picture frames,
digital cameras, or digital video recorders. These examples are intended to be non-limiting.
It is also possible that the teachings of the present disclosure could be applied
to electronic devices other than handheld electronic devices, e.g., notebook computers.
[0014] Referring now to Figs. 1-2, an electronic mobile device 100 according to the present
disclosure generally includes a base 102 that houses various electronic components
that control operation of the device, such as a microprocessor (not shown). The base
102 also supports a keypad or keyboard 104 on a front surface thereof. The keypad
104 includes keys that are actuatable by a user to provide inputs to the device 100
(e.g., to enter alphanumeric characters and the like). Sides of the base 102 may also
support volume control or shortcut keys 106.
[0015] Above the keypad 104, the front surface of the base 102 supports a menu key/display
assembly 108. As the name implies, the key/display assembly 108 is actuatable to perform
various tasks (e.g., place and end voice calls, enter and exit device applications,
and the like) and displays information to the user. Furthermore, with the exception
of an optional input control (e.g., an optical trackpad 110 or the like), the key/display
assembly has a generally continuous and aesthetically pleasing external appearance.
The following paragraphs describe more specifically the structure of the key/display
assembly 108 that provides this pleasing appearance in addition to improved key manipulability.
[0016] Still referring to Figs. 1-2, the key/display assembly 108 includes a display module
212 (Fig. 2) supported by the base 102 and in communication with the microprocessor.
The display module 212 displays information to the device user and, in some embodiments,
is a liquid crystal display (LCD) module. Alternatively, the display module 212 may
be another type of display device, such as an organic light emitting diode (OLED)
module, a plasma display panel (PDP) module, or the like.
[0017] An open-rectangular gasket 214 (Fig. 2) surrounds the display module 212 on a side
adjacent to the front surface of the base 102. In some embodiments, the gasket 214
comprises a semi-elastic polymer, such as silicone, although other similar materials
may alternatively be used. Regardless of the specific material, the gasket 214 provides
impact resistance for the display module 212. In addition, the gasket 214 also permits
another component of the key/display assembly 108 to deflect as described in further
detail below.
[0018] The key/display assembly 108 further includes a first switch 216A, a second switch
216B, a third switch 216C, and a fourth switch 216D (Fig. 2) supported by or adjacent
to light guides 218A, 218B of the base 102. The switches 216A-D are disposed to the
side of the display module 212 proximate the keypad 104, and the first and second
switches 216A, 216B are disposed on the opposite side of the trackpad 110 than the
third and fourth switches 216C, 216D. In some embodiments, the switches 216A-D are
mechanical dome switches that "snap" when actuated by the user. Alternatively, the
switches 216A-D may be any other type that provides tactile feedback to the user when
actuated. Furthermore, it is appreciated that the device 100 is not limited to the
four switches disclosed herein, and that fewer or more switches may be utilized to
suit the application.
[0019] Each switch 216A-D defines, in part, a menu key of the key/display assembly 108 that
is actuatable to perform one or more tasks. In particular, the first switch 216A defines,
in part, a first key 120A (Fig. 1) that is actuatable, e.g., to place a voice call
or display "recent calls" information. The second switch 216B defines, in part, a
second key 120B that is actuatable, e.g., to display an application menu. The third
switch 216C defines, in part, a third key 120C that serves as, e.g., a "back" or "escape"
key. The fourth switch 216D defines, in part, a fourth key 120D that is actuatable,
e.g., to end a voice call or serve as an on/off button for the electronic mobile device
100. However, it is recognized that the keys 120A-D are not limited to performing
the above-identified functions.
[0020] The key/display assembly 108 further includes a lens 122 that overlies the display
module 212, the compressible gasket 214, and the switches 216A-D. The lens 122 protects
the components disposed therebelow and inhibits debris and other contaminants from
entering the electronic mobile device 100. As such, the lens 122 may comprise molded
materials such as polycarbonates, acrylics, thermoplastic elastomers (TPEs), and the
like.
[0021] The lens 122 includes a first deflectable portion 224A and a second deflectable portion
224B that are cantilevered past the edge of the display module 212 and further define
the menu keys 120A-D. In particular, the first deflectable portion 224A includes a
first contact region 226A that further defines the first menu key 120A and a second
contact region 226B that further defines the second menu key 120B. The second deflectable
portion 224B includes a third contact region 226C that further defines the third menu
key 120C and a fourth contact region 226D that further defines the fourth menu key
120D. As such, pressing and deflecting the first contact region 226A thereby actuates
the first switch 216A to indicate to the microprocessor that the first key 120A has
been pressed. Pressing and deflecting the second contact region 226B thereby actuates
the second switch 216B to indicate that the second key 120B has been pressed. Pressing
and deflecting the third contact region 226C thereby actuates the third switch 216C
to indicate that the third key 120C has been pressed. Lastly, pressing and deflecting
the fourth contact region 226D thereby actuates the fourth switch 216D to indicate
that the fourth key 120D has been pressed.
[0022] In addition to protecting the components disposed therebelow and partially defining
the menu keys 120A-D, the lens 122 is also generally continuous (i.e., lacking breaks
and changes in thickness except for a passageway 228 through which the trackpad 110
extends) to provide an aesthetically pleasing appearance. In particular, the lens
122 is continuous between the first and second contact regions 226A and 226B and between
the third and fourth contact regions 226C and 226D. Furthermore, the lens 122 is also
continuous between a display region 230 that overlies the display module 212 and the
contact regions 226A-D.
[0023] From the above, it should be apparent that deflecting one of the contact regions
causes deflection of the adjacent contact region due to the continuous lens structure.
For example, deflecting the first contact region 226A causes the second contact region
226B to deflect towards the second switch 216B. To prevent such switch falsing, an
inner surface 332 (Fig. 3) of the lens 122 integrally supports a first foot 234A and
a second foot 234B that inhibit the contact regions 226A-D from unintentionally actuating
the switches 216A-D.
[0024] As shown most clearly in Fig. 3, the first and second feet 234A, 234B each have a
shape that is generally elongated in a direction extending between the keypad 104
and the display module 212. The first and second feet 234A, 234B each also have a
six-sided polygonal cross-sectional shape that is thicker near the inner surface 332
of the lens 122. Feet having other constructions may alternatively be used without
departing from the scope of the disclosure.
[0025] Regardless of the specific shape that is used, the first foot 234A is disposed between
the first contact region 226A and the second contact region 226B. As such, when the
user deflects the first contact region 226A to actuate the first switch 216A (
i.e., actuates the first key 120A), the first foot 234A contacts the first light guide
218A to inhibit the second contact region 226B from actuating the second switch 216B.
Conversely, when the user deflects the second contact region 226B to actuate the second
switch 216B, the first foot 234A contacts the first light guide 218A to inhibit the
first contact region 226A from actuating the first switch 216A.
[0026] In order to provide relatively low initial tactile feedback forces to the device
user, the first foot 234A is normally spaced apart from the first light guide 218A
by a small distance (e.g., approximately 0.2mm). As such, the first and second contact
regions 226A, 226B are deflectable over a first distance before the first foot 234A
contacts the light guide 218A. After the first foot 234A contacts the first light
guide 218A, the pressed contact region 226A or 226B may be further pressed and deflected
over a second distance (e.g., approximately 0.2mm) to actuate the associated switch
216A or 216B. However, the unpressed contact region 226A or 226B moves slightly away
from the other switch 216A or 216B due to the "see-saw" structure of the first deflectable
portion 224A and the first foot 234A. In particular and as shown most clearly in Fig.
6, the second contact region 226B moves away from the second switch 216B when the
first contact region 226A deflects to actuate the first switch 216A. Conversely and
as shown most clearly in Fig. 7, the first contact region 226A moves away from the
first switch 216A when the second contact region 226B deflects to actuate the second
switch 216B.
[0027] The second foot 234B is disposed between the third contact region 226C and the fourth
contact region 226D but otherwise acts in a similar manner to the first foot 234A.
In particular, when the user deflects the third contact region 226C to actuate the
third switch 216C (
i.e., actuates the third key 120C), the second foot 234B contacts the second light guide
218B to inhibit the fourth contact region 226D from actuating the fourth switch 216D.
Conversely, when the user deflects the fourth contact region 226D to actuate the fourth
switch 216D, the second foot 234B contacts the second light guide 218B to inhibit
the third contact region 226C from actuating the third switch 216C.
[0028] In order to provide relatively low initial tactile feedback forces to the device
user, the second foot 234B is normally spaced apart from the second light guide 218B
by a small distance (e.g., approximately 0.2mm). As such, the third and fourth contact
regions 226C, 226D are deflectable over a first distance before the second foot 234B
contacts the light guide 218B. After the second foot 234B contacts the second light
guide 218B, the pressed contact region 226C or 226D may be further pressed and deflected
over a second distance (e.g., approximately 0.2mm) to actuate the associated switch
216C or 216D. However, the unpressed contact region 226C or 226D moves slightly away
from the other switch 216C or 216D due to the "see-saw" structure of the second deflectable
portion 224B and the second foot 234B. In particular, the fourth contact region 226D
moves away from the fourth switch 216D when the third contact region 226C deflects
to actuate the third switch 216C. Conversely, the third contact region 226C moves
away from the third switch 216C when the fourth contact region 226D deflects to actuate
the fourth switch 216D.
[0029] In addition to the features described above, the lens 122 further includes in-mold
decorative features that identify the menu keys 120A-D. In particular, the in-mold
decorative features include invariant indicia (
i.e., invariant text characters, such as letters, numbers, punctuation, and symbols, and
invariant functional characters, such as shift, enter, delete, menu, back, place call,
end call, 'sym', and 'alt') aligned with the contact regions 226A-D and corresponding
to the functions of the menu keys 120A-D. For example, the indicia includes a telephone-shaped
functional character aligned with the first contact region 226A and corresponding
to the "place call" function of the first key 120A.
[0030] As used herein, the term "invariant", when used to describe indicia, means that the
text and/or functional character of a key does not change to other text and functional
characters. However, the function performed by pressing such a key may vary depending
on the operating mode of the electronic mobile device (e.g., if placing a phone call,
sending a text message, playing a game, etc.). Furthermore, invariant indicia may
be transparent or translucent and may be illuminated by light directed from the light
guides 218A, 218B depending on the operating mode of the electronic mobile device
(
e.g., upon sensing low-light conditions). In addition, it is noted that the indicia are
not limited to "invariant" indicia, but could also include variant indicia that changes
based on the application, using such technology as e-ink, for example and as known
in the art.
[0031] The key/display assembly 108 described above may be modified in various manners without
departing from the scope of the disclosure. For example, the embodiments described
above do not include a falsing-inhibiting foot between the second and third contact
regions 226B, 226C because the trackpad passageway 228 reduces the likelihood of falsing
between these contact regions. In other embodiments, the optical trackpad 110 is omitted
and a foot is disposed between the second and third contact regions 226B, 226C to
inhibit switch falsing (not shown).
[0032] From the above description it should be apparent that the present disclosure provides
an electronic mobile device that has an aesthetically pleasing external appearance
due to a generally continuous protective lens. In addition, the key/display assembly
has a structure that inhibits switch falsing while providing tactile feedback to the
device user.
[0033] The various embodiments presented above are merely examples and are in no way meant
to limit the scope of this disclosure. Variations of the embodiments described herein
will be apparent to persons of ordinary skill in the art, such variations being within
the intended scope of the present application. In particular, features from one or
more of the above-described embodiments may be selected to create alternative embodiments
comprised of a sub-combination of features which may not be explicitly described above.
In addition, features from one or more of the above-described embodiments may be selected
and combined to create alternative embodiments comprised of a combination of features
which may not be explicitly described above. Features suitable for such combinations
and subcombinations would be readily apparent to persons skilled in the art upon review
of the present application as a whole. The subject matter described herein and in
the recited claims intends to cover and embrace all suitable changes in technology.
1. A key/display assembly (108), comprising:
a first switch (216A) and a second switch (216B);
a display module (212) disposed aside the first switch (216A) and the second switch
(216B);
a lens (122) disposed adjacent the display module (212) and having an inner surface
facing the display module (212), and the lens (122) including a first contact region
(226A) adjacent the first switch (216A) and a second contact region (226B) adjacent
the second switch (216B);
a first foot (234A) supported by the inner surface and disposed between the first
contact region (226A) and the second contact region (226B);
a first key (120A) defined by the first switch (216A) and the first contact region
(226A) such that the first key (120A) is actuated by deflecting the first contact
region (226A) to actuate the first switch (216A);
a second key (120B) defined by the second switch (216B) and the second contact region
(226B) such that the second key (120B) is actuated by deflecting the second contact
region (226B) to actuate the second switch (216B); and
wherein when the first contact region (226A) deflects to actuate the first switch
(216A), the first foot (234A) inhibits the second contact region (226B) from actuating
the second switch (216B), and when the second contact region (226B) deflects to actuate
the second switch (216B), the first foot (234A) inhibits the first contact region
(226A) from actuating the first switch (216A).
2. The key/display assembly (108) of claim 1, wherein the second contact region (226B)
moves away from the second switch (216B) when the first contact region (226A) deflects
to actuate the first switch (216A), and the first contact region (226A) moves away
from the first switch (216A) when the second contact region (226B) deflects to actuate
the second switch (216B).
3. The key/display assembly (108) of claim 1, further comprising a base (102) supporting
the first switch (216A), the second switch (216B), the display module (212), and the
lens (122), and wherein when the first contact region (226A) deflects to actuate the
first switch (216A), the first foot (234A) contacts the base (102) to inhibit the
second contact region (226B) from actuating the second switch (216B).
4. The key/display assembly (108) of claim 3, wherein the first foot (234A) is normally
disposed apart from the base (102) and the first contact region (226A) is deflectable
over a first distance in which the first foot (234A) does not contact the base (102),
and when the first foot (234A) contacts the base (102), the first contact region (226A)
is deflectable over a second distance to actuate the first switch (216A).
5. The key/display assembly (108) of claim 1, wherein the first contact region (226A)
and the second contact region (226B) are cantilevered past an edge of the display
module (212).
6. The key/display assembly (108) of claim 1, further comprising a compressible gasket
(214) disposed between the display module (212) and the lens (122) and proximate an
edge of the display module (212).
7. The key/display assembly (108) of claim 6, wherein the compressible gasket (214) supports
the lens (122) such that the first contact region (226A) and the second contact region
(226B) are cantilevered past the edge of the display module (212).
8. The key/display assembly (108) of claim 7, wherein the lens (122) further includes
a display region (230) overlying the compressible gasket (214) through which the display
module (212) is viewable.
9. The key/display assembly (108) of claim 8, wherein the lens (122) is continuous between
the display region (230), the first contact region (226A), and the second contact
region (226B).
10. The key/display assembly (108) of claim 1, wherein the lens (122) is continuous between
the first contact region (226A) and the second contact region (226B).
11. The key/display assembly (108) of claim 1, wherein the lens (122) further includes
a display region (230) through which the display module (212) is viewable, and the
lens (122) is continuous between the display region (230), the first contact region
(226A), and the second contact region (226B).
12. The key/display assembly (108) of claim 1, further comprising:
a base (102) supporting the first switch (216A), the second switch (216B), the display
module (212), and the lens (122);
a third switch (216C) supported by the base (102);
a fourth switch (216D) supported by the base (102);
wherein the lens (122) further includes a third contact region (226C) adjacent the
third switch (216C) and a fourth contact region (226D) adjacent the fourth switch
(216D);
a second foot (234B) supported by the inner surface and disposed between the third
contact region (226C) and the fourth contact region (226D);
a third key (120C) defined by the third switch (216C) and the third contact region
(226C) such that the third key (120C) is actuated by deflecting the third contact
region (226C) to actuate the third switch (216C);
a fourth key (120D) defined by the fourth switch (216D) and the fourth contact region
(226D) such that the fourth key (120D) is actuated by deflecting the fourth contact
region (226D) to actuate the fourth switch (216D); and
wherein when the third contact region (226C) deflects to actuate the third switch
(216C), the second foot (234B) contacts the base (102) to inhibit the fourth contact
region (226D) from actuating the fourth switch (216D), and when the fourth contact
region (226D) deflects to actuate the fourth switch (216D), the second foot (234B)
contacts the base (102) to inhibit the third contact region (226C) from actuating
the third switch (216C).
13. The key/display assembly (108) of claim 12, further comprising an input control (110)
supported by the base (102) and disposed between the second switch (216B) and the
third switch (216C), and wherein the lens (122) includes a passageway (228) between
the second contact region (226B) and the third contact region (226C) through which
the input control (110) extends.
14. The key/display assembly (108) of claim 1, wherein the first foot (234A) integrally
connects to the lens (122).
15. The key/display assembly (108) of claim 1, wherein the first key (120A) further includes
at least one of an invariant text character and an invariant functional character,
and the second key (120B) further includes at least one of an invariant text character
and an invariant functional character.
Amended claims in accordance with Rule 137(2) EPC.
1. A key/display assembly (108), comprising:
a first switch (216A) and a second switch (216B);
a display module (212) disposed aside the first switch (216A) and the second switch
(216B);
a lens (122) disposed adjacent the display module (212) and having an inner surface
facing the display module (212), and the lens (122) including a display region (230)
overlying the display module (212), a first contact region (226A) adjacent the first
switch (216A), and a second contact region (226B) adjacent the second switch (216B),
and the lens (122) being continuous between the display region (230) and the first
contact region (226A) and between the display region (230) and the second contact
region (226B);
a first foot (234A) supported by the inner surface and disposed between the first
contact region (226A) and the second contact region (226B);
a first key (120A) defined by the first switch (216A) and the first contact region
(226A) such that the first key (120A) is actuated by deflecting the first contact
region (226A) to actuate the first switch (210A);
a second key (120B) defined by the second switch (216B) and the second contact region
(226B) such that the second key (120B) is actuated by deflecting the second contact
region (226B) to actuate the second switch (216B); and
wherein when the first contact region (226A) deflects to actuate the first switch
(216A), the first foot (234A) inhibits the second contact region (226B) from actuating
the second switch (216B), and when the second contact region (226B) deflects to actuate
the second switch (216B), the first foot (234A) inhibits the first contact region
(226A) from actuating the first switch (216A).
2. The key/display assembly (108) of claim 1, wherein the second contact region (226B)
moves away from the second switch (216B) when the first contact region (226A) deflects
to actuate the first switch (216A), and the first contact region (226A) moves away
from the first switch (216A) when the second contact region (226B) deflects to actuate
the second switch (216B).
3. The key/display assembly (108) of claim 1, further comprising a base (102) supporting
the first switch (216A), the second switch (216B), the display module (212), and the
lens (122), and wherein when the first contact region (226A) deflects to actuate the
first switch (216A), the first foot (234A) contacts the base (102) to inhibit the
second contact region (226B) from actuating the second switch (216B).
4. The key/display assembly (108) of claim 3, wherein the first foot (234A) is normally
disposed apart from the base (102) and the first contact region (226A) is deflectable
over a first distance in which the first foot (234A) does not contact the base (102),
and when the first foot (234A) contacts the base (102), the first contact region (226A)
is deflectable over a second distance to actuate the first switch (216A).
5. The key/display assembly (108) of claim 1, wherein the first contact region (226A)
and the second contact region (226B) are cantilevered past an edge of the display
module (212).
6. The key/display assembly (108) of claim 1, further comprising a compressible gasket
(214) disposed between the display module (212) and the lens (122) and proximate an
edge of the display module (212).
7. The key/display assembly (108) of claim 6, wherein the compressible gasket (214)
supports the lens (122) such that the first contact region (226A) and the second contact
region (226B) are cantilevered past the edge of the display module (212).
8. The key/display assembly (108) of claim 7, wherein the display region (230) overlies
the compressible gasket (214).
9. The key/display assembly (108) of claim 8, wherein the lens (122) is continuous between
the display region (230), the first contact region (226A), and the second contact
region (226B).
10. The key/display assembly (108) of claim 1, wherein the lens (122) is continuous between
the first contact region (226A) and the second contact region (226B).
11. The key/display assembly (108) of claim 1, wherein the lens (122) is continuous between
the display region (230), the first contact region (226A), and the second contact
region (226B).
12. The key/display assembly (108) of claim 1, further comprising:
a base (102) supporting the first switch (216A), the second switch (216B), the display
module (212), and the lens (122);
a third switch (216C) supported by the base (102);
a fourth switch (216D) supported by the base (102);
wherein the lens (122) further includes a third contact region (226C) adjacent the
third switch (216C) and a fourth contact region (226D) adjacent the fourth switch
(216D);
a second foot (234B) supported by the inner surface and disposed between the third
contact region (226C) and the fourth contact region (226D);
a third key (120C) defined by the third switch (216C) and the third contact region
(226C) such that the third key (120C) is actuated by deflecting the third contact
region (226C) to actuate the third switch (216C);
a fourth key (120D) defined by the fourth switch (216D) and the fourth contact region
(226D) such that the fourth key (120D) is actuated by deflecting the fourth contact
region (226D) to actuate the fourth switch (210D); and
wherein when the third contact region (226C) deflects to actuate the third switch
(216C), the second foot (234B) contacts the base (102) to inhibit the fourth contact
region (226D) from actuating the fourth switch (216D), and when the fourth contact
region (226D) deflects to actuate the fourth switch (216D), the second foot (234B)
contacts the base (102) to inhibit the third contact region (226C) from actuating
the third switch (216C).
13. The key/display assembly (108) of claim 12, further comprising an input control (110)
supported by the base (102) and disposed between the second switch (216B) and the
third switch (216C), and wherein the lens (122) includes a passageway (228) between
the second contact region (226B) and the third contact region (226C) through which
the input control (110) extends.
14. The key/display assembly (108) of claim 1, wherein the first foot (234A) integrally
connects to the lens (122).
15. The key/display assembly (108) of claim 1, wherein the first key (120A) further includes
at least one of an invariant text character and an invariant functional character,
and the second key (120B) further includes at least one of an invariant text character
and an invariant functional character.