Patent application number | Description | Published |
20100061073 | HOUSING FOR MICRO-MECHANICAL AND MICRO-OPTICAL COMPONENTS USED IN MOBILE APPLICATIONS - The present invention relates to a housing for one or more micromechanical and/or micro-optic components, wherein the housing exhibits a supporting substrate having at least one micromechanical and/or micro-optic component and at least one cap substrate, which is joined to the supporting substrate. The supporting substrate and the at least one cap substrate form at least one cavity, which at least partially encloses the at least one micromechanical and/or micro-optic component, wherein the side of at least one cap substrate facing the at least one micromechanical and/or micro-optic component exhibits at least one optical window and at least one mechanical stop. | 03-11-2010 |
20100085622 | MICRO-MIRROR ACTUATOR HAVING ENCAPSULATION CAPABILITY AND METHOD FOR THE PRODUCTION THEREOF - The present invention relates to a method for producing a micro-mirror actuator and the corresponding actuator. In the method, the actuator is generated from a layered construction made of at least three main layers ( | 04-08-2010 |
20100277782 | Micromechanical Device and Method for Projecting Electromagnetic Radiation - A micromechanical apparatus includes a moving element which comprises a controllable heating apparatus for introduction of a defined amount of heat into the moving element, wherein the apparatus furthermore has a control unit which is designed to control the heating apparatus as a function of an instantaneous temperature and/or of an instantaneous amount of heat that is introduced. The apparatus can be designed to project electromagnetic radiation when the moving element is in the form of a beam deflection unit for deflection of radiation, which originates from a radiation source, onto a projection surface. | 11-04-2010 |
20100296151 | MICROSYSTEM AND METHOD FOR THE PRODUCTION OF A MICROSYSTEM - The invention relates to a microsystem having at least one micromirror ( | 11-25-2010 |
20100330332 | COVER FOR MICROSYSTEMS AND METHOD FOR PRODUCING A COVER - The cover according to the invention serves to encapsulate microsystems, wherein the cover comprises or is made of one or more cover units, and at least one cover unit comprises at least one first recess caused by deformation and bounded at least partially by at least one optical window, the quadratic surface roughness thereof being less than or equal to 25 nm. The invention further relates to a method for producing optical components, wherein the method is particularly also suitable for producing a cover according to the invention allowing encapsulation at the wafer level. | 12-30-2010 |
20120075685 | ELECTROSTATIC COMB-DRIVE MICROMECHANICAL ACTUATOR - The invention relates to a micromechanical actuator, especially a micro-mirror scanner, comprising an actuator unit in an outer frame which unit is suspended in the outer frame via two torsion elements, and electrostatic tilt drives from intermeshing first and second comb-type electrodes which are off-set from each other vertically. The first electrodes are rigidly connected to the outer frame and the second electrodes to the outer frame via an outer connecting element and to the actuator unit via an inner connecting element. The inner connecting element has a spring which extends in parallel to the outer tilting axis, which is connected to the same in a section of the actuator unit close the outer tilting axis, and which is designed and arranged to be rigid in the vertical direction and flexible at a right angle to the vertical direction. The micromechanical actuator according to the invention allows the use in a micro-mirror scanner whose slow axis is non-resonantly driven with excursions of >+/−7°, lateral mirror sizes having dimensions of 1 mm and more and a resonant frequency of >1 kHz and can be integrated even into flat mobile phones. | 03-29-2012 |
20120307211 | DEFLECTION DEVICE FOR A PROJECTION APPARATUS, PROJECTION APPARATUS FOR PROJECTING AN IMAGE AND METHOD FOR CONTROLLING A DEFLECTION APPARATUS FOR A PROJECTION APPARATUS - The invention relates to a deflection device for a projection apparatus for projecting Lissajous figures onto an observation field which is made to deflect a light beam about at least one first and one second deflection axis for generating Lissajous figures having a deflection unit for producing oscillations about the deflection axes and having a control apparatus for producing control signals for the deflection unit having a first and second control frequency which substantially corresponds to the resonant frequencies of the deflection unit, wherein the deflection unit has a quality factor of >3,000 and the control apparatus includes a feedback loop which is configured to regulate the first and/or second control frequencies in dependence on a measured phasing of the oscillations of the deflection unit so that the maximum amplitude of the oscillations remains in the resonant range of the deflection unit. The invention further relates to a projection apparatus having such a deflection device as well as to a method for controlling a corresponding deflection device. | 12-06-2012 |
20120320379 | DEFLECTION DEVICE FOR A SCANNER WITH LISSAJOUS SCANNING - A deflection device for a scanner with Lissajous scanning includes a micromirror that oscillates in at least two deflection axes and that includes a frame and a mirror plate that is movably arranged via a suspension mount. The deflection device also includes a control device for generating control signals for a resonant operation of the micromirror in the at least two deflection axes. The suspension mount includes at least one spring connected at one end to the mirror plate and at the other end to the frame. The frequencies of the control signals for the resonant operation of the micromirror are substantially equal in the at least two deflection axes, but differ at least in terms of the predefined scanning repetition rate. The levels of the resonance frequencies of the deflection axes and control signals are determined by a predefined scanning resolution and a predefined scanning repetition rate. | 12-20-2012 |
20140159827 | MICROMECHANICAL RESONATOR ARRANGEMENT - The invention relates to a micromechanical resonator arrangement, in particular micro-mirror scanner with an inner actuator, which comprises an oscillation body capable of oscillation about at least one axis, and with an outer actuator with an oscillating part. The inner and outer actuator form a coupled oscillation system, and the outer actuator is driven by an external drive whose drive frequency is selected in a manner such that the oscillation body of the inner actuator oscillates with one of its eigenmodes or close to this eigenmode. The inner actuator is at least one vacuum-encapsulated micro-actuator chip which is fastened on the oscillating part of the outer actuator. | 06-12-2014 |
20140333980 | MICROACTUATOR ARRANGEMENT FOR DEFLECTING ELECTROMAGNETIC RADIATION - A microactuator arrangement for the deflection of electromagnetic radiation, with a mirror plate which is suspended on a drive frame in a movable manner about a first rotation axis via spring elements, wherein the drive frame is suspended on a chip frame in a movable manner about a second rotation axis via spring elements, wherein the drive frame is not closed and comprises a recess adjacent to the mirror plate and wherein the chip frame at least in the region of the recess of the drive frame is not closed, in a manner such that a deflected and/or incident beam is not inhibited by the drive frame and the chip frame. | 11-13-2014 |
20140339658 | DEVICE COMPRISING A SPRING AND AN ELEMENT SUSPENDED THEREON, AND METHOD FOR MANUFACTURING SAME - The invention relates to an MEMS structure with a stack made of different layers and a spring-and-mass system varying in its thickness which is formed of the stack, and wherein, starting from a back side of the stack and the substrate, at laterally different positions, the substrate while leaving the first semiconductor layer, or the substrate, the first etch-stop layer and the first semiconductor layer are removed, and to a method for manufacturing such a structure. | 11-20-2014 |
20150040368 | METHOD FOR PRODUCING STRUCTURED OPTICAL COMPONENTS - The method according to the invention is used for producing optical components, in particular covers for encapsulating micro-systems, wherein at least one reinforcing element, which is produced before being arranged, is arranged on a first substrate, as a result of which a stack is produced. This stack is heated after being connected to a second substrate, as a result of which the first substrate is deformed such that at least one region, covered by the reinforcing element, of the first substrate is moved and/or is inclined or the first substrate is brought into contact with the reinforcing element. In an alternative method according to the invention, the reinforcing element is arranged on the second substrate, wherein this stack is then connected to the first substrate. The first substrate is subsequently heated and deformed such that a region of the first substrate is brought into contact with the reinforcing element. | 02-12-2015 |
20150049374 | MICROMIRROR SYSTEM AND METHOD OF MANUFACTURING A MICROMIRROR SYSTEM - A micromirror system that includes a chip frame, at least one spring element, and at least one mirror plate oscillatorily suspended in the chip frame via the at least one spring element. The chip frame and the at least one spring element include at least one microchannel which is provided with an inlet opening and an outlet opening for leading through a flowing coolant. | 02-19-2015 |