A peripheral device for a computing system comprises an electrical switch and a user depressible button. An electrostatic brake is attached to the user depressible button and controls a force profile of the keystroke of the user depressible button. The button is coupled to and is configured to actuate the electrical switch at the end of the keystroke. A movable electrode is coupled to the depressible button and a stationary electrode is positioned parallel to and proximate the movable electrode. A dielectric material is positioned between the movable electrode and the stationary electrode forming an electrostatic brake. An electrical circuit is coupled to the first and the second electrodes and is configured to apply a voltage potential between the first and the second electrodes to apply a resistive force to the depressible button.

A method for producing a foil-based pressure sensor includes the steps of: providing a bottom element with a bottom foil and at least one bottom electrode disposed on the bottom foil; providing a plurality of top elements, each top element having a top foil with at least one top electrode disposed under the top foil, a combined area of the top elements being smaller than an area of the bottom element; and individually positioning and at least indirectly connecting the top elements to the bottom element so that at least one top electrode of each top element is disposed over at least one bottom electrode of the bottom element to form a sensor cell that is adapted to be activated when a pressure on the sensor cell exceeds a turn-on point. The turn-on point is adjusted by selecting a position of a top element from a plurality of positions.

A method for producing a foil-based pressure sensor includes the steps of: providing a bottom element with a bottom foil and at least one bottom electrode disposed on the bottom foil; providing a plurality of top elements, each top element having a top foil with at least one top electrode disposed under the top foil, a combined area of the top elements being smaller than an area of the bottom element; and individually positioning and at least indirectly connecting the top elements to the bottom element so that at least one top electrode of each top element is disposed over at least one bottom electrode of the bottom element to form a sensor cell that is adapted to be activated when a pressure on the sensor cell exceeds a turn-on point. The turn-on point is adjusted by selecting a position of a top element from a plurality of positions.

A dynamic keyboard able to change and adapt the functionality of the keyboard depending on the scenario in which it is being implemented. Each key can have one or more modes assigned to it that is able to change depending on the use. Groups of keys can have more than one mode assigned to it. Different groups of keys can have different modes assigned to them.

A dynamic keyboard able to change and adapt the functionality of the keyboard depending on the scenario in which it is being implemented. Each key can have one or more modes assigned to it that is able to change depending on the use. Groups of keys can have more than one mode assigned to it. Different groups of keys can have different modes assigned to them.

A keyboard with light-emitting and touch functions includes a keyswitch, a backlight module having a light source and a light guide plate, a membrane, a capacitive touch sensing sheet disposed on the membrane and the light guide plate, and a board. The keyswitch includes a cap and a support mechanism movably connected to the cap. Light of the light source is incident into the light guide plate and is emitted toward the cap. The membrane has a switch and is selectively disposed on or under the backlight module. The board is disposed under the backlight module and the membrane and has first and second connection members. The first and second connection members pass through the membrane, the light guide plate and the capacitive touch sensing sheet to be movably connected to the support mechanism, so as to make the cap movable downward relative to the board for triggering the switch.

A keyboard with light-emitting and touch functions includes a keyswitch, a backlight module having a light source and a light guide plate, a membrane, a capacitive touch sensing sheet disposed on the membrane and the light guide plate, and a board. The keyswitch includes a cap and a support mechanism movably connected to the cap. Light of the light source is incident into the light guide plate and is emitted toward the cap. The membrane has a switch and is selectively disposed on or under the backlight module. The board is disposed under the backlight module and the membrane and has first and second connection members. The first and second connection members pass through the membrane, the light guide plate and the capacitive touch sensing sheet to be movably connected to the support mechanism, so as to make the cap movable downward relative to the board for triggering the switch.

A peripheral device for a computing system comprises an electrical switch and a user depressible button. An electrostatic brake is attached to the user depressible button and controls a force profile of the keystroke of the user depressible button. The button is coupled to and is configured to actuate the electrical switch at the end of the keystroke. A movable electrode is coupled to the depressible button and a stationary electrode is positioned parallel to and proximate the movable electrode. A dielectric material is positioned between the movable electrode and the stationary electrode forming an electrostatic brake. An electrical circuit is coupled to the first and the second electrodes and is configured to apply a voltage potential between the first and the second electrodes to apply a resistive force to the depressible button.

A peripheral device for a computing system comprises an electrical switch and a user depressible button. An electrostatic brake is attached to the user depressible button and controls a force profile of the keystroke of the user depressible button. The button is coupled to and is configured to actuate the electrical switch at the end of the keystroke. A movable electrode is coupled to the depressible button and a stationary electrode is positioned parallel to and proximate the movable electrode. A dielectric material is positioned between the movable electrode and the stationary electrode forming an electrostatic brake. An electrical circuit is coupled to the first and the second electrodes and is configured to apply a voltage potential between the first and the second electrodes to apply a resistive force to the depressible button.

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.