Rauker
Goran Rauker, Longmont, CO US
Patent application number | Description | Published |
---|---|---|
20130122247 | Spacer Wafer For Wafer-Level Camera And Method For Manufacturing Same - A spacer wafer for a wafer-level camera, a wafer-level camera including the spacer wafer and a method of manufacturing a spacer wafer include a layer of photoresist being formed over a substrate, the layer of photoresist being exposed to radiation through a mask that defines a spacer geometry for at least one wafer-level camera element. The layer photoresist is developed, such that the layer of photoresist is the spacer wafer for the wafer-level camera. | 05-16-2013 |
20130122261 | Spacer Wafer For Wafer-Level Camera And Method Of Manufacturing Same - A spacer wafer for a wafer-level camera and a method of manufacturing the spacer wafer include positioning a substrate in an additive manufacturing device and forming the spacer wafer over the substrate. The spacer wafer is formed by an additive manufacturing process. | 05-16-2013 |
20140054807 | Methods For Forming A Lens Plate For An Integrated Camera Using UV-Transparent Molds And Methods For Forming UV-Transparent Molds - Suspended lenses in a spacer wafer and lens-in-a-pocket structures are replicated from UV-transparent molds. The fabrication of UV-transparent molds can include providing a substrate with pedestals, fabricating a lens on each pedestal using a step-and-repeat process, replicating an intermediate mold from the substrate with pedestals having lenses on the pedestals, and replicating a UV-transparent mold from the intermediate mold. The fabrication of UV-transparent molds can also include providing a substrate with holes, fabricating a lens in each hole and replicating a UV-transparent mold from the substrate with the holes having the lenses. | 02-27-2014 |
Goran M. Rauker, Longmont, CO US
Patent application number | Description | Published |
---|---|---|
20090143874 | System And Method For Optimizing Optical And Digital System Designs - A software product includes instructions stored on computer-readable media, that when executed by a computer, perform steps for optimizing an optical system design and a digital system design. The instructions are for simulating an optical model of the optical system design, simulating a digital model of the digital system design, analyzing simulated output of the optical model and simulated output of the digital model, to produce a score, modifying the optical model and the digital model, based upon the score, controlling re-execution of the instructions for simulating the optical model, the instructions for simulating the digital model, the instructions for analyzing and the instructions for modifying to produce an optimized optical model and an optimized digital model, and outputting predicted performance of the optimized optical and digital models. | 06-04-2009 |
20100165134 | Arrayed Imaging Systems And Associated Methods - Arrayed imaging systems include an array of detectors formed with a common base and a first array of layered optical elements, each one of the layered optical elements being optically connected with a detector in the array of detectors. | 07-01-2010 |
20110310254 | Optical Alignment Structures And Associated Methods - A method of mutually aligning first and second imaging system fixturing components forms a first alignment structure on the first imaging system fixturing component, a second alignment structure on the second imaging system fixturing component, and engages the first and second alignment structures to align, with optical accuracy, the first and second imaging system fixturing components. | 12-22-2011 |
20120299138 | Wafer Level Optical Packaging System, And Associated Method Of Aligning Optical Wafers - An optical system has a first relief-type diffraction grating fiducial, or alignment mark, on a transparent surface of a first optical wafer or plate, the grating arranged to deflect light away from an optical path and appear black. The first wafer may have lenses. The first fiducial is aligned to another fiducial on a second wafer having further optical devices as part of system assembly; or the fiducials are aligned to alignment marks or fiducials on an underlying photosensor. Once the optical devices are aligned and the wafers bonded, they are diced to provide aligned optical structures for a completed camera system. Alternatively, an optical wafer is made by aligning a second relief-type diffraction grating fiducial on a first master to a first relief-type diffraction grating fiducial on an optical wafer preform, pressing the first master into a blob to form optical shapes and adhere the blob to the optical wafer preform. | 11-29-2012 |
20130294815 | Optical Alignment Structures And Associated Methods - A method of mutually aligning first and second imaging system fixturing components forms a first alignment structure on the first imaging system fixturing component, a second alignment structure on the second imaging system fixturing component, and engages the first and second alignment structures to align, with optical accuracy, the first and second imaging system fixturing components. | 11-07-2013 |
20140220713 | ARRAYED IMAGING SYSTEMS HAVING IMPROVED ALIGNMENT AND ASSOCIATED METHODS - Arrayed imaging systems include an array of detectors formed with a common base and a first array of layered optical elements, each one of the layered optical elements being optically connected with a detector in the array of detectors. | 08-07-2014 |
Robert Rauker, Chester Springs, PA US
Patent application number | Description | Published |
---|---|---|
20100145392 | APPARATUS AND METHODS FOR VERTEBRAL AUGMENTATION USING LINKED EXPANDABLE BODIES - Implants and methods for osteopathic augmentation and repositioning of vertebrae may comprise a chain having one or more beads or bodies configured for insertion into a vertebral body. The one or more bodies may be expandable. As the chain is inserted into the vertebral body, it may fill a central portion thereof and can push against the inner sides of the endplates of the vertebral body, thereby providing structural support and tending to restore the vertebral body to its original height. The one or more bodies may have a first configuration dimensioned to pass through a catheter or other introducer, and may expand to a second, larger configuration after insertion into the bone in order to secure the chain within the bone. | 06-10-2010 |
20120310355 | APPARATUS AND METHODS FOR VERTEBRAL AUGMENTATION USING LINKED EXPANDABLE BODIES - Implants and methods for osteopathic augmentation and repositioning of vertebrae may comprise a chain having one or more beads or bodies configured for insertion into a vertebral body. The one or more bodies may be expandable. As the chain is inserted into the vertebral body, it may fill a central portion thereof and can push against the inner sides of the endplates of the vertebral body, thereby providing structural support and tending to restore the vertebral body to its original height. The one or more bodies may have a first configuration dimensioned to pass through a catheter or other introducer, and may expand to a second, larger configuration after insertion into the bone in order to secure the chain within the bone. | 12-06-2012 |
Robert M. Rauker, Chester Springs, PA US
Patent application number | Description | Published |
---|---|---|
20100087781 | MINIMALLY INVASIVE METHODS FOR THERMAL TREATMENT - An embodiment of the invention includes inserting into a gastrointestinal lumen, a catheter having a first balloon and a second balloon spaced from the first balloon. The first balloon and the second balloon are inflated to sealingly engage the lumen. A liquid is introduced into a volume bounded by the first balloon, the second balloon and the lumen so that the liquid contacts at least a portion of the lumen. | 04-08-2010 |