Backlit keyboards comprise a light distribution system for providing illumination to a backside of keys (“keycaps”) on the keyboard. The keycaps comprise translucent letters and/or symbols in each keycap enabling illumination provided to the backside of each keycap to pass through the letter and thereby illuminate the letters and/or symbols. In low light/no light conditions, use of a keyboard is difficult.
The present invention is illustrated by way of example, and not by limitation, in the figures of the accompanying drawings, wherein elements having the same reference numeral designations represent like elements throughout and wherein:
In some embodiments, keycap 100 may comprise a lesser or greater number and/or type of letters and/or symbols. In some embodiments, keycap 100 may comprise a different shape, e.g., circular, triangular, polygonal, etc. In some embodiments, keycap 100 may comprise un-tapered sides. In some embodiments, keycap 100 is movably connected with keyboard base 110 to enable movement of the keycap in a horizontal and/or vertical direction with respect to the keyboard base. In some embodiments, keycap 100 letters and/or symbols are transparent.
First light source 302 is positioned above second light source 304 and arranged to illuminate bottom 104 of keycap 100. First light source 302 defines a pair of pass-through regions 308, 310 for enabling illumination from second light source 304 to illuminate bottom 104. In some embodiments, pass-through regions 308, 310 comprise corresponding defined throughholes, i.e., gaps or openings, in first light source 302. In some further embodiments, pass-through regions 308, 310 comprise a transparent or translucent material positioned adjacent or within the defined throughholes in first light source 302. In some embodiments, pass-through regions 308, 310 comprise a substantially equivalent portion of the extent of first light source 302 under keycap 100. In some embodiments, the combined surface area of pass-through regions 308, 310 below keycap 100 is proportional to the surface area of the light emitting portions of first light source 304 below keycap 100.
Second light source 304 is positioned adjacent keyboard base 110 and arranged to illuminate bottom 104 of keycap 100 via pass-through openings 308, 310 of first light source 302.
In some embodiments, first light source 302 and second light source 304 are coupled with keyboard base 110 by a mounting mechanism, e.g., an adhesive, an overlying sheet, a connector applying pressure to retain the light sources 302, 304 in position, a connector passing through light sources 302, 304 to retain the light sources in position.
In some embodiments, first light source 302 and second light source 304 each illuminate at least a portion of bottom 104 of keycap 100. In some embodiments, first light source 302 and second light source 304 each illuminate the entirety of bottom 104 of keycap 100. In some embodiments, first light source 302 and/or second light source 304 may comprise a light emitting diode (LED) panel. In some embodiments, first light source 302 and second light source 304 extend to substantially the length and width of keyboard base 110. In some embodiments, first and second light sources 302, 304 may generate different color (wavelength) light.
In some embodiments, pass-through regions 308, 310 are shaped different from each other and may comprise non-rectangular shapes, e.g., circular, elliptical, triangular, polygonal, etc. In some embodiments, there may be more than two pass-through regions below keycap 100. In some embodiments, pass-through regions 308, 310 may extend beyond the sides of keycap 100.
In some embodiments, there may be more than two light sources stacked on top of each other above keyboard base 110. In the particular embodiment of multiple stacked light sources, the upper-most light sources, i.e., light sources positioned to have another light source between the light source and keyboard base 110, each define one or more aligned, pass-through regions similar to regions 308, 310. In some embodiments, the aligned, pass-through regions are nested to allow illumination to transmit to illuminate the bottom of keycap 100 from the lowest level light source.
First light source 502 is positioned aside second light source 504 in an interlineated manner and adjacent keyboard base 110. First light source 502 is arranged to illuminate bottom 104 of keycap 100. Second light source 504 is positioned aside first light source 502 and adjacent keyboard base 110. In some embodiments, first light source 502 comprises a substantially equivalent portion of the extent of second light source 504 under keycap 100. In some embodiments, the surface area of first light source 502 is proportional to the surface area of second light source 504 below keycap 100.
In some embodiments, first light source 502 and second light source 504 each illuminate at least a portion of bottom 104 of keycap 100. In some embodiments, first light source 502 and/or second light source 504 may comprise an electroluminescent panel and a light emitting diode (LED) panel. In some embodiments, first and second light sources 502, 504 may generate different color (wavelength) light. In some embodiments, there may be more than two light sources interlineated below keycap 100.
In some embodiments, first light source 502 panels and second light source 504 panels are shaped different from each other and may comprise different shapes, e.g., circular, elliptical, triangular, polygonal, etc. In some embodiments, there may be more than two panels per light source 502, 504 below keycap 100. In some embodiments, first and second light source 502, 504 may extend beyond the sides of keycap 100.
In operation, controller 700 generates and transmits an activate signal to first light source 302 causing the light source to activate, i.e., generate illumination to illuminate keycap 100 letters and/or symbols. Controller 700 does not transmit an activate signal to second light source 304 and the light source does not generate illumination. In some embodiments, controller 700 generates and transmits a deactivate signal to second light source 304 in order to prevent the light source from generating illumination.
Controller 700 monitors, via the coupling between the controller and the first light source, a parameter of the first light source related to the operation of the first light source during the period in which the light source is generating illumination. In some embodiments, the monitored parameter may comprise an operating time, illumination brightness, current draw, resistance value, or other light source-related operating parameter.
Controller 700 comprises a predetermined threshold parameter 702, e.g., a value representing an operating time, illumination brightness, current draw, resistance value, or other light source-related operating value. In some embodiments, predetermined threshold parameter 702 may be stored in a memory.
Responsive to controller 700 determining that the monitored first light source 302 operating parameter is outside predetermined threshold parameter 702, e.g., the operating time of the light source exceeds a maximum operating lifetime for the light source, the monitored brightness or the light source falls below a minimum brightness for the light source, the current draw of the light source exceeds the maximum current draw specified for the light source, etc., the controller generates and transmits a deactivate signal to first light source 302 causing the first light source to deactivate (“turn off”). Controller 106 also generates and transmits an activate signal to second light source 304 causing the second light source to activate, i.e., generate illumination to illuminate keycap 100 letters and/or symbols. In this manner, the lifetime of the illumination for the keycap may be extended beyond the lifetime of a single light source.
In some embodiments, input device 802 comprises a hardware and/or software switch activatable by a user. In some embodiments, a user may manipulate input device 802 directly, e.g., in the form of a switch, to generate a signal to cause controller 800 to cause first light source 302 to deactivate and to cause second light source 304 to activate. In some embodiments, input device 802 comprises a software control manipulable by a user operating a computer or processor-based device to which the keyboard comprising keycap 100 and illumination system 300 is attached. Manipulation of the software control by the user causes the generation and transmission of a signal to controller 800 to cause the controller to control first light source 302 and/or second light source 304.
In operation, controller 800 generates and transmits an activate signal to first light source 302 causing the light source to activate, i.e., generate illumination to illuminate keycap 100 letters and/or symbols. Controller 800 does not transmit an activate signal to second light source 304 and the light source does not generate illumination. In some embodiments, controller 800 generates and transmits a deactivate signal to second light source 304 in order to prevent the light source from generating illumination.
Responsive to receipt of a signal from input device 802, controller generates and transmits a deactivate signal to first light source 302 causing the first light source to deactivate (“turn off”). Controller 106 also generates and transmits an activate signal to second light source 304 causing the second light source to activate, i.e., generate illumination to illuminate keycap 100 letters and/or symbols. According to the present embodiment, control of illumination system 300 is exercised under control of a user via input device 802.
In at least one further embodiment, controller 800 may be configured to be both responsive to input device 802 and operate according to predetermined threshold parameter 702 (
Keypad 900 comprises a grid-like arrangement of a plurality of keycaps 100 (depicted in dashed lines for clarity). Keypad 900 further comprises an extended width keycap 902, e.g., a larger zero (“0”) key, and an extended height keycap 904, e.g. an enter key.
For simplicity and ease of understanding, one of the plurality of keycaps 100 is described, however, the description applies equally to the remaining keycaps 100 and extended keycaps 902, 904. First light source 302 comprises a plurality of pairs of pass-through regions 308, 310 arranged below a corresponding one of the plurality of keycaps 100, 902, 904. The plural pairs of pass-through regions 308, 310 enable the transmission of illumination from second light source 304 through first light source 302 to bottom 104 of keycaps 100 to illuminate the letters and/or symbols 106-109.
Keycap 904 comprises a second pair of pass-through regions 308, 310 based on the extended height of the keycap. Keycap 902 comprises extended width pass-through regions 308, 310 in comparison to the pass-through regions of keycaps 100 based on the extended width of the keycap. In some embodiments, pass-through regions 308, 310 may comprise a width and/or length smaller than the keycap as long as the letter and/or symbol receives sufficient illumination to be illuminated.
In some embodiments, a single pass-through region 308 may be used to enable transmission of illumination from second light source 302 through first light source 304 to bottom of keycaps 100. In some embodiments, first light source 302 and/or second light source 304 may comprise smaller individual light source panels arranged below keycaps 100.
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