A multi-directional input device includes an operation knob, a plurality of direction setting switches, and a sensation generation unit. The operation knob is configured to be operable in multiple operation directions. The plurality of direction setting switches are configured to be turned on by being pressed when the operation knob is operated. The sensation generation unit is configured to generate different operation sensation from operation sensation generated by the direction setting switches. Sensation is generated by the sensation generation unit after at least one of the plurality of direction setting switches has been turned on in a predetermined operation direction out of the multiple operation directions.

A button assembly adapted for being mounted in a controller includes a pedestal, a pressure sensor module and a key cap. A middle of the pedestal has an accommodating groove penetrating upward through a top surface of the middle of the pedestal. Two opposite sides of the pedestal have two limiting portions oppositely protruded outward. The pressure sensor module is mounted in the accommodating groove of the pedestal. The key cap is covered on the pressure sensor module. A bottom surface of the key cap has a contact portion contacting with the pressure sensor module. Two opposite sides of the key cap have an active portion and a fixing portion protruded outward. The active portion and the fixing portion are mounted to the two limiting portions, respectively. In processes of pressing and releasing the key cap, the active portion move downward and upward with respect to the one limiting portion.

An electronic device including a button assembly is provided. The electronic device includes a housing, a button member which is at least partially exposed to the outside of the housing, a substrate portion disposed in an inner space of the housing, a dome switch module mounted on the substrate portion, a bracket mounted inside the housing, and a block member which is disposed between the dome switch module and the bracket and includes a base portion coupled to one surface of the bracket, a contact portion in contact with the dome switch module, and a support portion disposed on the periphery the contact portion.

Computing devices, input devices, keyboard assemblies, and related systems include a set of conductive traces or leads configured to transfer a capacitive load from an appendage of a user or another capacitive load source from a remote location, such as on a keycap of the keyboard, to a conductive portion or electrode on the keyboard that is positioned near a touch-sensitive interface of a computing device. The capacitive load is thereby transferable through the conductive traces or leads to the touch-sensitive interface without having to directly apply the load, such as by touching a finger to the interface. This can reduce or eliminate the need for on-screen controls or keyboard interface elements in a touch screen device without having to use a more expensive and energy-draining wired or wireless connection between the computing device and a keyboard case or accessory for the computing device.

Embodiments are directed to a sensing membrane that is coupled with electrical terminals of a key switch and a light source. This may allow the membrane to be both configured to transmit a signal in response to actuation of keyboard key cap and illuminate an illuminable symbol of key cap. In one aspect, the membrane includes a set of deformable layers separated by a spacer layer. Terminals of the key switch are connected to distinct ones of the set of deformable layers and positioned within a cavity defined by the spacer layer. A light assembly may be positioned along and configured to move with one of the set of deformable layers. Depression of a key cap toward the set of deformable layers causes the set of terminals to move and initiate a switch event.

Computing devices, input devices, keyboard assemblies, and related systems include a set of conductive traces or leads configured to transfer a capacitive load from an appendage of a user or another capacitive load source from a remote location, such as on a keycap of the keyboard, to a conductive portion or electrode on the keyboard that is positioned near a touch-sensitive interface of a computing device. The capacitive load is thereby transferable through the conductive traces or leads to the touch-sensitive interface without having to directly apply the load, such as by touching a finger to the interface. This can reduce or eliminate the need for on-screen controls or keyboard interface elements in a touch screen device without having to use a more expensive and energy-draining wired or wireless connection between the computing device and a keyboard case or accessory for the computing device.

A device may include a display portion that includes a display housing and a display at least partially within the display housing. The device may also include a base portion pivotally coupled to the display portion and including a bottom case, a top case coupled to the bottom case and defining an array of raised key regions, and a sensing system below the top case and configured to detect an input applied to a raised key region of the array of raised key regions.

A toggle selector switch includes an activator stylus mounted in a housing to be pivotable about at least one axis. The toggle selector switch further includes at least one pushbutton switch positioned axially in the housing to be engaged when the elongate activator stylus is pivoted. The at least one pushbutton switch includes a mounting base including a contact and a first electrically conductive dome coupled to the mounting base. The first electrically conductive dome is positioned above the contact and is adapted and configured to flex under an applied force and to then touch the contact to complete a circuit and to return when the force is withdrawn. The activator stylus and the at least one pushbutton switch are adapted and configured such that the pushbutton switch outputs a signal indicating that the activator stylus has been moved in one of four directions.

A key structure includes a switch circuit layer, a pedestal and a keycap. The pedestal includes a protrusion part and a hollow part. The keycap includes a buffering hook and a locking hook. The pedestal is disposed on the switch circuit layer. The keycap is disposed within the hollow part of the pedestal. The buffering hook and the locking hook of the keycap are aligned with the protrusion part of the pedestal. While the keycap is moved in a direction away from the switch circuit layer, the buffering hook is contacted with the protrusion part and then the locking hook is contacted with the protrusion part.

A movable member includes an elastically deformable portion that curves upward in a protruding manner and includes a movable electrode, and a support portion having a leg portion extending downward from a peripheral edge of the elastically deformable portion, an extension portion extending upward from the leg portion, and a connecting portion connecting the leg portion and the extension portion. The leg portion has an intermediate portion positioned between both end portions in a width direction of the leg portion, the intermediate portion protruding, a boundary between the leg portion and the extension portion has an arc shape in top view, and a lower surface of the connecting portion is a protruding curved surface protruding downward.