A key structure includes an upper cover, a movable element, an elastic element, a pressure sensing module, a base, and a circuit board. The pressure sensing module is arranged on the base, and the pressure sensing module is electrically connected with the circuit board. The pressure sensing module includes a pressure sensing element and a conducting element, and the pressure sensing element is configured for contacting with the movable element after being pressed, monitoring a pressure on the movable element, and converting the pressure into a pressure signal; the conducting element is configured for conducting the pressure signal to the circuit board.

A system for protecting an input device. The system includes a pressurizing device and a printed circuit board having a false key. The pressurizing device includes a tube for receiving a flexible pressurizing element. A spacer of a predetermined length is disposed at a bottom of the tube.

A system for protecting an input device. The system includes a pressurizing device and a printed circuit board having a false key. The pressurizing device includes a tube for receiving a flexible pressurizing element. A spacer of a predetermined length is disposed at a bottom of the tube.

A keyboard includes a base plate, a pressure sensing layer, plural key structures, a circuit board, a flexible layer and a controlling unit. The pressure sensing layer is disposed on the base plate and located under the circuit board. The flexible layer is disposed on the pressure sensing layer and located under the circuit board. While a key structure is depressed, a part of the key structure is penetrated through the circuit board to press the flexible layer, and a force is transmitted from the flexible layer to the pressure sensing layer. The controlling unit compares the force with a predetermined force value. According to the comparing result, the controlling unit generates a corresponding pressure sensing signal. Consequently, the use of a single key structure can achieve the functions of multiple keys.

A keyboard includes a base plate, a pressure sensing layer, plural key structures, a circuit board, a flexible layer and a controlling unit. The pressure sensing layer is disposed on the base plate and located under the circuit board. The flexible layer is disposed on the pressure sensing layer and located under the circuit board. While a key structure is depressed, a part of the key structure is penetrated through the circuit board to press the flexible layer, and a force is transmitted from the flexible layer to the pressure sensing layer. The controlling unit compares the force with a predetermined force value. According to the comparing result, the controlling unit generates a corresponding pressure sensing signal. Consequently, the use of a single key structure can achieve the functions of multiple keys.

Input device configurations are described. In implementations, an input device includes a sensor substrate having a capacitive sensor to detect proximity of an object that contacts the input device. The input device also includes a flexible contact layer spaced apart from the sensor substrate, where the flexible contact layer is implemented to flex and contact the sensor substrate responsive to pressure applied by the object to initiate an input to a computing device. The flexible contact layer can include a force concentrator pad that is designed to cause pressure to be channeled through the force concentrator pad to cause the flexible contact layer to contact the sensor substrate to initiate the input.

Pressure sensing systems comprising bulk-solidifying amorphous alloys and pressure-sensitive switches containing bulk-solidifying amorphous alloys. The bulk-solidifying amorphous alloys are capable of repeated deformation upon application of pressure, and change their electrical resistivity upon deformation, thereby enabling measurement of the change in resistivity and consequently, measuring the deformation and amount of pressure applied.

A pressure sensitive switch device includes a first membrane, a first conductive wire, a second conductive wire, a second membrane, a pressure sensitive layer, a supporting plate, and an elastic body. The second conductive wire is disposed on the first membrane and separated from the first conductive wire. The pressure sensitive layer is disposed on the second membrane and contact to the first conductive wire and the second conductive wire. The first conductive wire is electrically connected to the second conductive wire by the pressure sensitive layer. The supporting plate is located below the first membrane and has a groove. The elastic body is located over the pressure sensitive layer. The elastic body includes a deformation portion and a protruding portion. The deformation portion is configured to generate deformation to drive the protruding portion to move.

Input device configurations are described. In implementations, an input device includes a sensor substrate having a capacitive sensor to detect proximity of an object that contacts the input device. The input device also includes a flexible contact layer spaced apart from the sensor substrate, where the flexible contact layer is implemented to flex and contact the sensor substrate responsive to pressure applied by the object to initiate an input to a computing device. The flexible contact layer can include a force concentrator pad that is designed to cause pressure to be channeled through the force concentrator pad to cause the flexible contact layer to contact the sensor substrate to initiate the input.