A system for generating a signal includes a touchpad including touch cells and a touch detection device for detecting the location and intensity of a pressure exerted on the touchpad; a first computer generating a first instruction based on the location and intensity of the pressure; an optical detection device for detecting a movement and/or a position, including optics for capturing images; a second computer for determining a motion parameter based on the captured images and for generating a second instruction based on the parameter; and a signal generator for producing a second signal based on the first instruction or on a first signal extracted from the first instruction, to which there is applied a special effect extracted from the second instruction; or on the second instruction or on a first signal extracted from the second instruction, to which there is applied a special effect extracted from the first instruction.

A system for generating a signal includes a touchpad including touch cells and a touch detection device for detecting the location and intensity of a pressure exerted on the touchpad; a first computer generating a first instruction based on the location and intensity of the pressure; an optical detection device for detecting a movement and/or a position, including optics for capturing images; a second computer for determining a motion parameter based on the captured images and for generating a second instruction based on the parameter; and a signal generator for producing a second signal based on the first instruction or on a first signal extracted from the first instruction, to which there is applied a special effect extracted from the second instruction; or on the second instruction or on a first signal extracted from the second instruction, to which there is applied a special effect extracted from the first instruction.

A medical pump for conveying a medical liquid has a pump housing and a front lid hingedly arranged at the pump housing. The medical pump also has a lid housing and an operating element integrated in the lid housing. The operating element features a resistive touch element and a separate display element arranged at a parallel distance to the touch element. The touch element and the display element jointly form a touch screen, and are fastened at respectively opposing sides of the lid housing.

A medical pump for conveying a medical liquid has a pump housing and a front lid hingedly arranged at the pump housing. The medical pump also has a lid housing and an operating element integrated in the lid housing. The operating element features a resistive touch element and a separate display element arranged at a parallel distance to the touch element. The touch element and the display element jointly form a touch screen, and are fastened at respectively opposing sides of the lid housing.

Embodiments of the present invention generally relate to a touch sensible organic light emitting device. The organic light emitting device according to an exemplary embodiment of the present invention comprises: a substrate; a thin film transistor disposed on the substrate; an organic light emitting element connected to the thin film transistor and receiving a data voltage; a plurality of encapsulation thin films disposed on the organic light emitting element, and encapsulating the thin film transistor and the organic light emitting element; a planarization layer disposed on the encapsulation thin film; and a touch sensor disposed on the planarization layer.

Embodiments of the present invention generally relate to a touch sensible organic light emitting device. The organic light emitting device according to an exemplary embodiment of the present invention comprises: a substrate; a thin film transistor disposed on the substrate; an organic light emitting element connected to the thin film transistor and receiving a data voltage; a plurality of encapsulation thin films disposed on the organic light emitting element, and encapsulating the thin film transistor and the organic light emitting element; a planarization layer disposed on the encapsulation thin film; and a touch sensor disposed on the planarization layer.

A touch sensor detector system and method incorporating an interpolated sensor array is disclosed. The system and method utilize a touch sensor array (TSA) configured to detect proximity/contact/pressure (PCP) via a variable impedance array (VIA) electrically coupling interlinked impedance columns (IIC) coupled to an array column driver (ACD), and interlinked impedance rows (IIR) coupled to an array row sensor (ARS). The ACD is configured to select the IIC based on a column switching register (CSR) and electrically drive the IIC using a column driving source (CDS). The VIA conveys current from the driven IIC to the IIC sensed by the ARS. The ARS selects the IIR within the TSA and electrically senses the IIR state based on a row switching register (RSR). Interpolation of ARS sensed current/voltage allows accurate detection of TSA PCP and/or spatial location.

A touch sensor detector system and method incorporating an interpolated sensor array is disclosed. The system and method utilize a touch sensor array (TSA) configured to detect proximity/contact/pressure (PCP) via a variable impedance array (VIA) electrically coupling interlinked impedance columns (IIC) coupled to an array column driver (ACD), and interlinked impedance rows (IIR) coupled to an array row sensor (ARS). The ACD is configured to select the IIC based on a column switching register (CSR) and electrically drive the IIC using a column driving source (CDS). The VIA conveys current from the driven IIC to the IIC sensed by the ARS. The ARS selects the IIR within the TSA and electrically senses the IIR state based on a row switching register (RSR). Interpolation of ARS sensed current/voltage allows accurate detection of TSA PCP and/or spatial location.

A controller apparatus includes a capacitive or resistive touch pad having a touch sensitive surface sized sufficient for operation by two human feet. One or more markers are coupled to the touch pad. The markers are configured for use by a computer system for room mapping.

A controller apparatus includes a capacitive or resistive touch pad having a touch sensitive surface sized sufficient for operation by two human feet. One or more markers are coupled to the touch pad. The markers are configured for use by a computer system for room mapping.