A sensor pad is provided. The sensor pad comprises a first layer and a second layer of padding material, each having an inner face. The inner face of the first layer is provided with a first printed conductive ink track and the inner face of the second layer is provided with a second printed conductive ink track. At least one of the layers is provided on its inner face with a plurality of raised portions between adjacent runs of the printed track to provide a spacer layer across the sensor pad, which improves the ability of the sensor pad to return to a pre-impact configuration following an impact. The plurality of raised portions maintain the two printed tracks apart when the sensor is unstressed but allow localised contact between the first and second printed tracks when pressure is applied to the sensor pad.

A sensor is provided, the sensor comprising a first layer (10) of padding material having an inner face and a second layer (12) of padding material having an inner face. The inner faces of the two layers face one another. The inner face of the first layer (10) is provided with a first printed conductive ink track (13) and the inner face of the second layer (12) is provided with a second printed conductive ink track (15). At least one of the printed tracks (13, 15) passes across the pad in a number of runs at a plurality of spaced locations. The first track (13) on the first layer (10) intersects at a plurality of locations with the second track (15) on the second layer (12). At least one of the layers (10, 12) is provided on its inner surface with a plurality of raised portions (12) arranged over the face of the layer (10, 12) between adjacent runs of the conductive track (13, 15) and facing the inner face of the other layer (12, 10) to maintain the two tracks (13, 15) apart when the sensor pad is unstressed, but which are compressible to deform to allow localised contact between the first and second tracks (13, 15) when pressure is applied to the pad.

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.

A device comprising a laminate (2) comprising at least two layers (3.sub.1, 3.sub.2, 3.sub.3, 3.sub.4, 3.sub.5) and a plurality of electronic components (5, 6, 7, 8) disposed between two layers. At least one of the layers (3.sub.1, 3.sub.4) supports conductive tracks (10, 11) arranged to connect electronic components.

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.