Methods, systems, apparatuses, and computer program products are provided for a user input device, such as a game controller, that includes a finger-pressable (tactile) switch. The switch is adjustable to change the amount of force used to actuate the switch. In an example implementation, a tactile switch comprises a housing, a button interposer, a dome switch, and an adjustment mechanism. A user or other entity may press the button interposer. The dome switch is contained in the housing, and is actuated by the button interposer being pressed. The adjustment mechanism is contained at least partially in the housing, and is configured to enable an amount of force used to press the button interposer to actuate the dome switch to be adjusted.

A pressure compensating button can include a depressible interface. The depressible interface can define an external surface of the electronic device. The button can include a tactile switch. The button can include a first pressure accumulator, such as a first piston or plunger. The first pressure accumulator can be associated with the depressible interface. The first pressure accumulator can be configured to receive a first hydrostatic pressure. The button can include a second pressure accumulator, such as a second piston or plunger. The second pressure accumulator can be configured to receive a second hydrostatic pressure. The second pressure accumulator can counteract the first pressure accumulator, such as via a mechanical linkage, to limit an actuation of the tactile switch via the first hydrostatic pressure. Additional systems and methods are also disclosed.

A keyboard equipped with multipoint press positions comprises at least a baseboard, a keycap assembly and a command trigger assembly. The keycap assembly includes a support frame to hold a plurality of keycaps. The command trigger assembly includes a command circuit board and a plurality of elastic switches. The command circuit board includes a plurality of trigger portions corresponding to the keycaps and triggered by the keycaps, and at least one primary command circuit electrically connected to each trigger portion. The elastic switches are corresponding to and depressible by the keycaps to trigger the trigger portions. Each elastic switch includes a base and a primary movement portion, a first secondary movement portion and a second secondary movement portion that are respectively corresponding to a primary trigger switch and at least two secondary trigger switches of the trigger portions. The keyboard thus formed can provide higher press sensitivity.

A slide switch with an elastomer web for eliminating slide backlash and rattle. The elastomer web is disposed in the motion path of a mechanical slider and biases the slider to contact a switch nub. The biased slider eliminates a loose translational motion of the mechanical slider and therefore a user's perception of loose motion or backlash when actuating the switch. The elastomer web improves the user's perception of the mechanical slider's quality. Additionally, the elastomer web allows for larger assembly tolerances between the mechanical slider and the switch nub. An increased assembly tolerance improves yield for mechanical parts and reduces the cost of manufacturing.