Abstract: A method for micro-fabricating a device on a substrate (20), comprising the steps of providing a cavity (31) having a temporary aperture (35) communicating with the outside; providing a sealing structure (45) adjacent to a perimeter of the temporary aperture (35); applying heat to the sealing structure (45), whereby the sealing structure melts and seals the temporary aperture (35).

Abstract: Sensor system comprising a frame supporting a force-sensing tip arranged to generate a signal based upon a force applied by said force-sensing tip to a material to be tested, the system further comprising: an input drum mounted in said frame such that it can rotate about an input axis of rotation; an output lever supported by said frame by means of an output revolute joint defining an output axis of rotation; wherein said force-sensing tip is mounted on said output lever such that said force-sensing tip is arranged to be brought into contact with a material to be tested; and wherein said sensor system comprises a mechanical transmission arranged to kinematically link said input drum to said output lever such that a rotation of said input drum about said input axis of rotation causes said output lever to pivot in an oscillatory manner about said output axis of rotation.

Abstract: A method for micro-fabricating a device on a substrate (20), comprising the steps of providing a cavity (31) having a temporary aperture (35) communicating with the outside; providing a sealing structure (45) adjacent to a perimeter of the temporary aperture (35); applying heat to the sealing structure (45), whereby the sealing structure melts and seals the temporary aperture (35).

Abstract: Sensor system comprising a frame supporting a force-sensing tip arranged to generate a signal based upon a force applied by said force-sensing tip to a material to be tested, the system further comprising: an input drum mounted in said frame such that it can rotate about an input axis of rotation; an output lever supported by said frame by means of an output revolute joint defining an output axis of rotation; wherein said force-sensing tip is mounted on said output lever such that said force-sensing tip is arranged to be brought into contact with a material to be tested; and wherein said sensor system comprises a mechanical transmission arranged to kinematically link said input drum to said output lever such that a rotation of said input drum about said input axis of rotation causes said output lever to pivot in an oscillatory manner about said output axis of rotation.

Abstract: An input device and a method for entering data in an electronic terminal. The aspects of the invention relates in particular to a method of using joystick movement sequences or the like to enter data and to a mobile communication terminal incorporating such a method.

Abstract: A portable electronic apparatus has light sources that can be controlled to produce decorative or informational effects. Each light source is controlled by the combination of an enable signal from a 1-bit port of a controller and a PWM signal from a PWM signal from the controller. Each PWM signal is used to control a plurality of light sources in parallel whereas each 1-bit enabled signal controls, generally, only one. The light sources are preferably arranged to shine through soft structures on the apparatus.

Abstract: A portable electronic apparatus has light sources that can be controlled to produce decorative or informational effects. Each light source is controlled by the combination of an enable signal from a 1-bit port of a controller and a PWM signal from a PWM signal from the controller. Each PWM signal is used to control a plurality of light sources in parallel whereas each 1-bit enabled signal controls, generally, only one. The light sources are preferably arranged to shine through soft structures on the apparatus.

Abstract: The invention provides an arrangement and method for detecting shorts between solder pads 31-34 in the production testing of circuit boards. The invention is particularly suitable for circuits driven by a constant current source or sink 6. By providing a conductor 101-103 between the solder pads, connected by a resistive path 11 to a source of potential 12, an additional current will flow through the resistive path to the solder pads if a short circuit exists in the region wherein the conductor is positioned. The additional current can be detected by applying a test probe in a circuit including the solder pads. The invention also provides an arrangement and method for detecting whether a polarity sensitive component 1 has been correctly connected to terminals 4, 5 on the circuit board. The component 1 can be a capacitor having one relatively wide positive terminal 2 and one relatively narrow negative terminal 3.