Abstract: A projector having at least one laser diode which is designed to emit light, having a laser control device which is designed to control the at least one laser diode, having a first controllable resonant mirror which is designed to reflect the light that is emitted by the laser diode, and having a control device which is designed to control the orientation of the first controllable resonant mirror. The control device is further designed to reduce the power supply to the laser diode and to the laser control device in a first configuration of a power-saving mode of the projector, and to further control the orientation of the first controllable resonant mirror at a resonant frequency of the first controllable resonant mirror. Moreover, a corresponding method is described.

Abstract: A method for localizing the installation position of wheels in a motor vehicle having at least a first, second and third wheels, includes allocating respective wheel electronics to the wheels for emitting a radio signal with an identifier and allocating at least one vehicle-side rotational angle sensor to at least a first possible installation position. The installation position of the first wheel is determined by output signals of the rotational angle sensor at a first possible installation position. In addition, the installation position of the second and third wheels is determined by measuring the field strength of radio signals with identifiers of the wheel electronics of the second and third wheels by using a vehicle-side receiving device. In this way, precise determination of the location of the wheel electronics can be performed with minimum expenditure on devices, without having to provide a rotational angle sensor on each wheel.

Abstract: A method for reducing a light intensity of a projection device is provided which includes the following steps: projecting information in the form of a visual representation onto a total area; emitting a plurality of electromagnetic signals which are essentially imperceptible to an observer onto the total area, using the projection device; detecting objects situated in the light path between the projection device and the total area with the aid of the electromagnetic signals; and reducing the light intensity of the projection device as long as an object is detected in the light path.

Abstract: It has been found in accordance with the invention that a biomass comprising an oxidation-sensitive material of value may be particularly readily converted into a particulate, flowable composition if a silica, especially a hydrophilic or hydrophobic silica, is added as additive.

Abstract: A method for updating an operating function of a sensor, which has a memory that has a boot memory area for storing a boot function and an operating memory area for storing an operating function. The method has the following steps: execution of the boot function; checking whether an update for the operating function of the sensor needs to be performed; if an update for the operating function of the sensor does need to be performed, performing a plausibility check; if the plausibility check was successful, updating the operating function of the sensor such that data for an up-to-date operating function are received from an external unit and the data are written to the operating memory area. The reception of the data and the writing of the data to the operating memory area take place in parallel.

Abstract: A device for projecting an image includes: a video signal device designed to provide a video signal that has a first image refresh rate; a mirror control device designed to control a micro-mirror device with a second image refresh rate adapted to at least one characteristic of the micro-mirror device and to the first image refresh rate; and a projection device designed to project the video signal provided by the video signal device with the first image refresh rate, using the micro-mirror device moved by the second image refresh rate.

Abstract: A micromirror scanner and a method for controlling a micromirror scanner. The method includes furnishing a shot pattern which has at least information regarding first control application signals as a function of mirror positions of a displaceable micromechanical mirror of the micromirror scanner, which are designated to control a light source of the scanner; determining a mirror position of the mirror; emitting light beams into a solid angle; measuring light beams reflected at an object in the solid angle to determine a distance between the object and the scanner; determining a nature or position of the object with respect to the scanner as a function of the determined distance and the determined current mirror position; and adapting the shot pattern as a function of the position and/or nature of the object.

Abstract: A light source device, in particular for use in a micromirror device, having a first red light source for the emission of light from the red spectral range, a second red light source for the emission of light from the red spectral range, a green light source for the emission of light from the green spectral range, and a blue light source for the emission of light from the blue spectral range, and having superposition element, the superposition element being configured such that the light from the first red light source, the light from the second red light source, the light from the blue light source, and the light from the green light source are superposed in collinear fashion to form a common light beam, the light from the first red light source having a wavelength different from that of the light from the second red light source.

Abstract: A projection screen apparatus has: a display panel having an external panel surface and an internal panel surface; an actuator device by way of which an oscillating motion is impartable to at least a part of the projection screen apparatus; a diffuser screen, disposed adjacently to the internal panel surface, to which the oscillating motion with respect to the display panel is imparted by way of the actuator device; and a gap between the internal panel surface of the display panel and an inner surface of the diffuser screen directed toward the internal panel surface being filled at least in part with at least one viscoelastic filler material.

Abstract: A method is described for aligning a light beam, having the steps of: deflecting the light beam by way of a first mirror element and a second mirror element, the first mirror element being displaced through a first deflection angle around a first rotation axis, and the second mirror element being displaced through a second deflection angle around a second rotation axis inclined with respect to the first rotation axis, and the second mirror element being additionally displaced through a third deflection angle around a third rotation axis that is inclined with respect to the second rotation axis, and the first mirror element being displaced around a first mirror normal line of the first mirror element through a first compensation angle defined for the third deflection angle, and/or the second mirror element being displaced around a second mirror normal line of the second mirror element through a second compensation angle defined for the third deflection angle.

Abstract: A method for determining gestures in the beam region of a projector includes: projecting an image onto a surface with the aid of the projector, using light; measuring a first set of light intensities of light backscattered from the direction of the surface, under the influence of a gesture made in the beam region of the projector; assigning the measured light intensities to, in each instance, a position of the image projected by the projector; at a first time point, generating a first light intensity function over a second set of positions, which are assigned measured light intensities; at a second time point, generating at least one second light intensity function over the second set of positions; and determining the gesture made, based on the result of a comparison between the first and second light intensity functions.

Abstract: A component has at least one MEMS element and at least one cap made of a semiconductor material. The cap, in addition to its mechanical function as a terminus of a cavity and protection of the micromechanical structure, is provided with an electrical functionality. The micromechanical structure of the MEMS element of the component is situated in a cavity between a carrier and the cap, and includes at least one structural element which is deflectable out of the component plane within the cavity. The cap includes at least one section extending over the entire thickness of the cap, which is electrically insulated from the adjoining semiconductor material in such a way that it may be electrically contacted independently from the remaining sections of the cap.

Abstract: A multi-laser projection device includes: a plurality of first assemblies, each including a fixed assemblage of a respective laser diode and an associated first collimator lens; a second assembly that forms a fixed assemblage of a beam combiner and a respective second collimator lens that is fastened on an entry surface of the beam combiner and that appertains to a respective laser diode; and a deflection unit. The plurality of first assemblies, the second assembly, and the deflection unit are mounted in a common housing so as to be adjusted to one another.

Abstract: The invention relates to a method for monitoring a half bridge branch (38) in a half bridge (32), said half bridge branch (38) being connected in series with another half bridge branch (36) in the half bridge (32) via a center tap (30), including the steps of:—applying an electric supply potential (24) opposite the center tap (30) at the other half bridge branch (36) to the center tap (30) according to a predefined time curve (50); and—monitoring the half bridge branch (38) on the basis of a comparison (70) of the predefined time curve (50) and an electrical output potential (52) at the center tap (30).

Abstract: A method for adapting a line frequency of a digital data signal of a projection device includes: providing data about at least one mechanical natural frequency of a mirror device of the projection device and about a storage capacity of a line buffer of an image processing device; detecting a first image resolution of a video signal of a video source device with the aid of the image processing device; and computing a second image resolution having an adapted vertical resolution of the digital data signal based on the detected first image resolution of the video signal as a function of the at least one mechanical natural frequency of the mirror device and the storage capacity of the line buffer with the aid of the image processing device to adapt the line frequency of the digital data signal of the projection device.

Abstract: The invention relates to a multipart chain fixing device for securing at least one conveyor chain on a trough element of especially an underground scraper chain conveyor. The fixing device comprises a bridge part (60), which has a bridge bar (62) that at least partially overlaps the conveyor chain in a positive-locking manner and ends in two lateral side end portions (61). It also comprises two side parts (70), which are fastenable to the trough element pan and to which the side end portions 61 are releasably securable by positive-locking means. For providing a chain fixing device, inclusive of the associated trough element and the individual components, which offer increased safety in underground usage, combined with simple assembly, the side parts (70) are releasably fastenable in a positive-locking manner in cavities in the conveyor floor of the trough element.

Abstract: A method for structuring a layered structure, for example, of a micromechanical component, from two semiconductor layers between which an insulating and/or etch stop layer is situated includes forming a first etching mask on a first side of the first semiconductor layer, carrying out a first etching step, starting from a first outer side, for structuring the first semiconductor layer, forming a second etching mask on a second side of the second semiconductor layer, and carrying out a second etching step, starting from the second outer side, for structuring the second semiconductor layer. After carrying out the first etching step and prior to carrying out the second etching step, at least one etching protection material is deposited on at least one trench wall of at least one first trench, which is etched in the first etching step.

Abstract: A device for projecting an image includes: a video signal device designed to provide a video signal that has a first image refresh rate; a mirror control device designed to control a micro-mirror device with a second image refresh rate adapted to at least one characteristic of the micro-mirror device and to the first image refresh rate; and a projection device designed to project the video signal provided by the video signal device with the first image refresh rate, using the micro-mirror device moved by the second image refresh rate.

Abstract: A manufacturing method for a cap, for a hybrid vertically integrated component having a MEMS component a relatively large cavern volume having a low cavern internal pressure, and a reliable overload protection for the micromechanical structure of the MEMS component. A cap structure is produced in a flat cap substrate in a multistep anisotropic etching, and includes at least one mounting frame having at least one mounting surface and a stop structure, on the cap inner side, having at least one stop surface, the surface of the cap substrate being masked for the multistep anisotropic etching with at least two masking layers made of different materials, and the layouts of the masking layers and the number and duration of the etching steps being selected so that the mounting surface, the stop surface, and the cap inner side are situated at different surface levels of the cap structure.

Abstract: A method for reducing a light intensity of a projection device is provided which includes the following steps: projecting information in the form of a visual representation onto a total area; emitting a plurality of electromagnetic signals which are essentially imperceptible to an observer onto the total area, using the projection device; detecting objects situated in the light path between the projection device and the total area with the aid of the electromagnetic signals; and reducing the light intensity of the projection device as long as an object is detected in the light path.