A button deck assembly includes a button deck having at least one mechanical pushbutton, the pushbutton includes a lens cap, a liquid-crystal display (LCD) panel, and an optical block configured to transmit images from the LCD panel for display through the lens cap, a bottom surface of the optical block is positioned on the LCD panel, an air gap is defined between a top surface of the optical block and the lens cap. The assembly also includes a printed circuit board (PCB) assembly defining a PCB aperture, the PCB aperture is sized to receive the optical block, and an elastomeric membrane defining a membrane aperture sized to receive the optical block, the optical block extends from the LCD panel through the PCB and membrane apertures, the membrane channels fluid flow to outer edges of the membrane and around the PCB assembly and the LCD panel.

An indicator system for an electronic miniature circuit breaker that has tripped and therefore has no power to provide its own trip indication comprises a breaker in a tripping state and an adjacent breaker in a nontripping state, both with aligned indicator light tubes and data transmission lines or light pipes. The tripped, or tripping, breaker sends a Notice of Trip Data signal before its contacts open and its power goes out, or does so on reserve power. A neighboring breaker's transceiver receives the Notice of Trip Data signal, encodes it, and then repeats it back via an LED and indicator light tube to the tripped breaker. The trip occurrence has opened a shutter on the tripped breaker which allows it to display the repeated Notice of Trip Data signal as a visible light indication through an indicator window in its top wall.

A control device may include a removable faceplate, a planar printed circuit board (PCB), a structure located between the faceplate and the PCB, one or more LEDs (e.g., side firing LEDs) mounted to the PCB, and a light-guiding component. The structure may include an antenna configured to transmit or receive radio frequency signals. The faceplate may be configured to be mounted to the control device, and may include a light-conductive body and an opaque material provided on a front surface of the faceplate. At least one indicia may be engraved in the opaque material. The light-guiding component may include a planar portion and a curved portion. The planar portion may be located between the faceplate and the structure. The curved portion may extend between the LEDs on the printed circuit board and the planar portion to transmit light generated by the LEDs to the faceplate to illuminate the indicia.

An indicator system for an electronic miniature circuit breaker that has tripped and therefore has no power to provide its own trip indication comprises a breaker in a tripping state and an adjacent breaker in a nontripping state, both with aligned indicator light tubes and data transmission lines or light pipes. The tripped, or tripping, breaker sends a Notice of Trip Data signal before its contacts open and its power goes out, or does so on reserve power. A neighboring breaker's transceiver receives the Notice of Trip Data signal, encodes it, and then repeats it back via an LED and indicator light tube to the tripped breaker. The trip occurrence has opened a shutter on the tripped breaker which allows it to display the repeated Notice of Trip Data signal as a visible light indication through an indicator window in its top wall.

A haptic switch includes: (a) a force sensor responding a mechanical stimulus by providing a sensing signal; (b) a processing circuit receiving the sensing signal and providing a control signal; and (c) an electromechanical polymer (EMP) actuator receiving the response control signal and providing a haptic response. The force sensor and the EMP actuator may each be provided on a flexible circuit covered by a protective layer overlying the flexible circuit. The haptic switch may include a graphic layer on which is provided a symbol representing a key. In that haptic switch, the symbol, the light source, the EMP actuator and the force sensor are aligned such that the light source illuminates the symbol and such that, when a user pushes on the symbol, the user's push applies a pressure on the force sensor and the EMP actuator's haptic response is provided in the vicinity of the force sensor.

Information handling system keyboard illumination is provided with micro LEDs disposed below keyboard keys to direct illumination at each key individually. The micro LEDs may be integrated at a bottom surface of a support plate below a keyboard membrane, on top of the support plate within an opening of the membrane or in a spacer layer of the membrane between circuit layers. A diffuser disposed between the micro LED helps to diffuse illumination directed at the key for a more even icon illumination. The diffuser may be integrated with the membrane at an upper circuit layer or over a structure disposed over the micro LED.

A keyboard may comprising plurality of keys, each key of the plurality of keys comprising a circuit assembly comprising and a keycap. The circuit assembly may include a substrate, a first metal layer patterned into a circuit and formed on the substrate, and a membrane comprising a second metal layer interfaced between a first electrically-insulative layer and a second electrically-insulative layer, and assembled to the first metal layer such that the first electrically-insulative layer is interfaced between the first metal layer and the second metal layer. The keycap may be mechanically coupled to the circuit assembly via a mechanical member having a spring force biased to separate the keycap from the circuit assembly by a predetermined distance, such that when a force is applied to the keycap to overcome the spring force, the first metal layer comes in physical contact with the second metal layer.