Patents by Inventor Philipp H. Schmaelzle
Philipp H. Schmaelzle has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 8884156Abstract: A solar energy harvesting system including a sunlight concentrating member (e.g., a lens array) for focusing direct sunlight at predetermined focal points inside a waveguide containing a stimuli-responsive material (SRM) that is evenly distributed throughout the waveguide material such that the SRM assumes a relatively high transparency state away from the focused sunlight, and small light-scattering portions of the SRM change to a relatively opaque (light scattering) state only in focal zone regions adjacent to the concentrated sunlight. The outer waveguide surfaces are locally parallel (e.g., planar) and formed such that sunlight scattered by the light-scattering SRM portions is transmitted by total internal reflection through the remaining transparent waveguide material, and outcoupled to one or more solar energy receivers (e.g., PV cells) that are disposed outside the waveguide (e.g., along the peripheral edge).Type: GrantFiled: November 29, 2010Date of Patent: November 11, 2014Assignee: Palo Alto Research Center IncorporatedInventors: Philipp H. Schmaelzle, Gregory L. Whiting, Joerg Martini, David K. Fork, Patrick Y. Maeda
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Patent number: 8844515Abstract: A low profile heliostat with elongated louvered mirror segments is provided. Its envelope of revolution has the shape of a flat disc to enable heliostat fields with very high ground coverage ratio. The heliostat's disc-shaped footprint rotates around a substantially vertical axis (akin to a carousel). The short dimension of the mirror segments is drastically shorter than the disc's diameter. Embodiments are described in which the motion relies on two concentric rings, which are individually rotated around a vertical axis. The lower ring acts as a platform providing mainly azimuth tracking, carrying the upper ring. The differential rotation between the upper ring and the lower ring is translated into a rotation of the mirror segments around a second, perpendicular, axis and used for elevation tracking. Disc-shaped heliostat with D-shaped cut-offs are described, to facilitate the required maintenance access even in highly dense heliostat fields.Type: GrantFiled: August 22, 2011Date of Patent: September 30, 2014Assignee: Palo Alto Research Center IncorporatedInventors: Philipp H. Schmaelzle, Patrick Y. Maeda, Patrick C. Cheung
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Publication number: 20140272121Abstract: A replica 3D structure is fabricated inside a multi-layered mold by patterning each mold layer to define a void/opening that matches a corresponding cross section of the structure's peripheral surface, and filling the patterned opening of each layer with a structural material (i.e., before depositing a subsequent layer of mold material). The mold material (e.g., photoresist or another dissolvable sacrificial material) is blanket deposited (e.g., by slot-die, spray coating) and then patterned using a laser or a printed mask. Each layer of modeling material (e.g., polymer, ceramic or metal, or a combination thereof) is electro-plated or otherwise deposited on the previously formed modeling material layer. High vertical resolution is achieved by utilizing relatively thin mold layers. The mold layer deposition, patterning and modeling material deposition is repeated until the replica 3D structure is entirely formed inside the multi-layered mold, and then the mold is dissolved or otherwise removed.Type: ApplicationFiled: March 14, 2013Publication date: September 18, 2014Applicant: Palo Alto Research Center IncorporatedInventors: Tse Nga Ng, JengPing Lu, Eugene M. Chow, Timothy David Stowe, Janos Veres, Philipp H. Schmaelzle
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Publication number: 20140264080Abstract: A system and method for visualization of fluid flow, includes a light emitting arrangement configured to emit a focused light, a fluid channel configured to hold a fluid including a carrier liquid and a stimuli responsive polymer, wherein the fluid flows though the fluid channel, and an image recording arrangement. The light emitting arrangement is positioned to emit the focused light into a selected area of the fluid channel to interact with the flowing stimuli responsive polymer within the selected area. This results in a phase change to a portion of the stimuli responsive polymer. The image recording arrangement is positioned to record an image the portion of the phase changed stimuli responsive polymer made visible by the phase change.Type: ApplicationFiled: March 15, 2013Publication date: September 18, 2014Applicant: PALO ALTO RESEARCH CENTER INCORPORATEDInventors: Kai Melde, Philipp H. Schmaelzle
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Publication number: 20140268077Abstract: A continuous flow projection lithography system to form microstructures using an optical array incorporated in a continuous coating process is provided. A mask is placed at a distance from the array. Each element of the array projects one image of the mask onto a substrate, effectively forming an array thereon. A coating process allows flows that can be used to define functional regions of particles or supporting layers that prevent adhesion of crosslinked polymers to surfaces.Type: ApplicationFiled: March 15, 2013Publication date: September 18, 2014Applicant: PALO ALTO RESEARCH CENTER INCORPORATEDInventors: Kai Melde, Philipp H. Schmaelzle
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Publication number: 20140200553Abstract: Retention devices and methods are provided for drug delivery. The device may include a housing configured for intraluminal deployment into a human or animal subject and at least one reservoir contained within the housing. The at least one reservoir may have an actuation end and a release end and contain at least one drug formulation. A plug may be contained within the at least one reservoir and be moveable from the actuation end toward the release end. The device may also include an actuation system operably connected to the actuation end of the at least one reservoir and configured to drive the at least one drug formulation from the reservoir. The device may also include at least one retention member affixed to the housing and movable between a non-stressed position, a deployment position, and a retention position for retaining the device in an intraluminal location in the subject.Type: ApplicationFiled: January 15, 2013Publication date: July 17, 2014Applicant: PALO ALTO RESEARCH CENTER INCORPORATEDInventors: David Mathew Johnson, Martin Sheridan, Scott A. Uhland, Ramkumar Abhishek, Eric Peeters, Timothy J. Curley, Felicia Linn, Philipp H. Schmaelzle
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Patent number: 8742250Abstract: A low-cost system for increasing the electricity generation of flat panel photovoltaic (PV) farms in which sunlight redirecting elements are positioned in offset spaces provided between adjacent panel assemblies and serve to redirect otherwise unused sunlight onto solar cells disposed on one of the panel assemblies. The redirecting elements are located in a prismatic volume bounded at its upper end by an inclined upper plane that extends across the offset space separating adjacent PV panel assemblies. The redirecting elements are either mounted to at least one of the PV panel assemblies, or placed on the ground between the assemblies. Each redirecting element includes multiple reflecting and/or refracting surfaces that utilize a disclosed microoptical arrangement (e.g., focus and steer or reorient and scatter) to distribute the redirected sunlight in a substantially homogenous (uniform) distribution on the solar cells.Type: GrantFiled: August 9, 2010Date of Patent: June 3, 2014Assignee: Palo Alto Research Center IncorporatedInventors: Philipp H. Schmaelzle, Matthew D. Eisaman, Patrick Y. Maeda
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Patent number: 8674281Abstract: A solar energy harvesting system including a luminescent solar concentrator for generating light emissions in response to received sunlight, and for redirecting and concentrating the light emissions onto a predetermined target (e.g., a PV cell). The luminescent solar concentrator includes a light-guiding slab containing a luminescent material that generates the light emissions, spaced-apart outcoupling structures that provide a distributed outcoupling of the light emissions through predetermined locations on one of the “broadside” (e.g., upper or lower) surfaces of the light-guiding slab, and optical elements positioned to redirect the outcoupled light emissions such that the light emissions are concentrated onto the predetermined target.Type: GrantFiled: August 9, 2010Date of Patent: March 18, 2014Assignee: Palo Alto Research Center IncorporatedInventors: Philipp H. Schmaelzle, Robert A. Street
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Publication number: 20140041504Abstract: A mechanical method for producing micro-scale and nano-scale textures that facilitates, for example, the cost-effective production of nanostructures on large-scale substrates, e.g., during the large-scale production of thin-film solar cells. A “scratcher” (multi-pointed abrasion mechanism) is maintained in a precise position relative to a target substrate such that micron-level features (protrusions) extending from the scratcher's base structure are precisely positioned to contact a surface material layer of the target substrate with a predetermined amount of force, and then moved relative to the substrate (e.g., by way of a conveying mechanism) while maintaining the pressing force such that the micron-level features define elongated parallel nano-scale grooves and/or form nano-scale ridges in the surface material layer (i.e., by mechanically displacing) portions of the surface material layer to form the nano-scale grooves/ridges).Type: ApplicationFiled: August 7, 2012Publication date: February 13, 2014Applicant: Palo Alto Research Center IncorporatedInventors: David Eric Schwartz, Matthew D. Eisaman, Sourobh Raychaudhuri, Philipp H. Schmaelzle, Robert A. Street, Sean Garner, Baomin Xu, Jiye Lee
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Patent number: 8390917Abstract: Two substantially one-dimensional scan line images are simultaneously generated by modulating a two-dimensional homogenous light field using a spatial light modulator having light modulating elements arranged in a plurality of rows and a plurality of columns. An upper group of modulating elements are configured using a first scan line image data group, and a lower group of modulating elements are configured using a second scan line image data group. The homogenous light source is then pulsed (toggled) to direct the two-dimensional homogenous light field onto the spatial light modulator. The resulting two-dimensional modulated light field is directed through an anamorphic optical system, which images and concentrates the modulated light on an imaging surface such that two parallel one-dimensional scan line images are simultaneously formed on the imaging surface.Type: GrantFiled: August 24, 2011Date of Patent: March 5, 2013Assignee: Palo Alto Research Center IncorporatedInventors: Patrick Y. Maeda, Timothy David Stowe, Philipp H. Schmaelzle, Eric Peeters
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Publication number: 20130050800Abstract: Two substantially one-dimensional scan line images are simultaneously generated by modulating a two-dimensional homogenous light field using a spatial light modulator having light modulating elements arranged in a plurality of rows and a plurality of columns. An upper group of modulating elements are configured using a first scan line image data group, and a lower group of modulating elements are configured using a second scan line image data group. The homogenous light source is then pulsed (toggled) to direct the two-dimensional homogenous light field onto the spatial light modulator. The resulting two-dimensional modulated light field is directed through an anamorphic optical system, which images and concentrates the modulated light on an imaging surface such that two parallel one-dimensional scan line images are simultaneously formed on the imaging surface.Type: ApplicationFiled: August 24, 2011Publication date: February 28, 2013Applicant: Palo Alto Research Center IncorporatedInventors: Patrick Y. Maeda, Timothy David Stowe, Philipp H. Schmaelzle, Eric Peeters
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Publication number: 20130047609Abstract: A solar tower system including an array of individually controlled carousel-type heliostats, where each heliostat includes a rotatable D-shaped carousel, a mirror array including horizontal, elongated flat mirrors supported in a tiltable (e.g., louvered) arrangement on the carousel, and a mirror positioning system that is disposed next to the carousel and controls the tilt position of each mirror and a rotational position of the carousel to reflect light onto a solar receiver. The heliostats are arranged in a closely-spaced (e.g., square or hexagonal) pattern that both maximizes the effective ground coverage ratio of solar power harvesting system and facilitates the formation of service pathways that allow access to any of the heliostats in the array (e.g., by aligning the straight peripheral wall portions of adjacent carousels in parallel with each other).Type: ApplicationFiled: August 22, 2011Publication date: February 28, 2013Applicant: Palo Alto Research Center IncorporatedInventors: Philipp H. Schmaelzle, Patrick C. Cheung
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Publication number: 20130047977Abstract: A low profile heliostat with elongated louvered mirror segments is provided. Its envelope of revolution has the shape of a flat disc to enable heliostat fields with very high ground coverage ratio. The heliostat's disc-shaped footprint rotates around a substantially vertical axis (akin to a carousel). The short dimension of the mirror segments is drastically shorter than the disc's diameter. Embodiments are described in which the motion relies on two concentric rings, which are individually rotated around a vertical axis. The lower ring acts as a platform providing mainly azimuth tracking, carrying the upper ring. The differential rotation between the upper ring and the lower ring is translated into a rotation of the mirror segments around a second, perpendicular, axis and used for elevation tracking. Disc-shaped heliostat with D-shaped cut-offs are described, to facilitate the required maintenance access even in highly dense heliostat fields.Type: ApplicationFiled: August 22, 2011Publication date: February 28, 2013Applicant: Palo Alto Research Center IncorporatedInventors: Philipp H. Schmaelzle, Patrick Y. Maeda, Patrick C. Cheung
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Patent number: 8354628Abstract: A luminescent solar concentrator including a light-guiding slab containing a luminescent material that generates light emissions in response to received sunlight, spaced-apart outcoupling structures that provide a distributed outcoupling of the light emissions through predetermined locations on one of the “broadside” (e.g., upper or lower) surfaces of the light-guiding slab, and optical elements positioned to redirect the outcoupled light emissions such that the light emissions are concentrated onto a predetermined target (e.g., a PV cell). Each optical element includes a collimating surface portion and optional returner surface.Type: GrantFiled: August 9, 2010Date of Patent: January 15, 2013Assignee: Palo Alto Research Center IncorporatedInventors: Philipp H. Schmaelzle, Robert A. Street
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Patent number: 8223433Abstract: A low-cost sunlight redirecting element including multiple substantially identical redirecting structures uniformly arranged and fixedly disposed on a base, where each redirecting structure includes multiple optical surface regions that are cooperatively formed and arranged such that, when the sunlight redirecting element is operably fixedly oriented relative to a stationary target with sunlight directed along an incident direction onto the redirecting structures, at least some of the sunlight is transmitted between the corresponding optical surface regions of each redirecting structure, and redirected from the corresponding optical surface regions toward the target's surface. The optical surface regions are shaped and arranged to redirect the sunlight toward the fixed target surface even when the sunlight's incident angle direction changes during the course of a year. A stationary sunlight redirecting system (e.g.Type: GrantFiled: August 9, 2010Date of Patent: July 17, 2012Assignee: Palo Alto Research Center IncorporatedInventors: Philipp H. Schmaelzle, Matthew D. Eisaman, Patrick Y. Maeda
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Publication number: 20120132255Abstract: A solar energy harvesting system including a sunlight concentrating member (e.g., a lens array) for focusing direct sunlight at predetermined focal points inside a waveguide containing a stimuli-responsive material (SRM) that is evenly distributed throughout the waveguide material such that the SRM assumes a relatively high transparency state away from the focused sunlight, and small light-scattering portions of the SRM change to a relatively opaque (light scattering) state only in focal zone regions adjacent to the concentrated sunlight. The outer waveguide surfaces are locally parallel (e.g., planar) and formed such that sunlight scattered by the light-scattering SRM portions is transmitted by total internal reflection through the remaining transparent waveguide material, and outcoupled to one or more solar energy receivers (e.g., PV cells) that are disposed outside the waveguide (e.g., along the peripheral edge).Type: ApplicationFiled: November 29, 2010Publication date: May 31, 2012Applicant: Palo Alto Research Center IncorporatedInventors: Philipp H. Schmaelzle, Gregory L. Whiting, Joerg Martini, David K. Fork, Patrick Y. Maeda
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Publication number: 20120031463Abstract: A low-cost system for increasing the electricity generation of flat panel photovoltaic (PV) farms in which sunlight redirecting elements are positioned in offset spaces provided between adjacent panel assemblies and serve to redirect otherwise unused sunlight onto solar cells disposed on one of the panel assemblies. The redirecting elements are located in a prismatic volume bounded at its upper end by an inclined upper plane that extends across the offset space separating adjacent PV panel assemblies. The redirecting elements are either mounted to at least one of the PV panel assemblies, or placed on the ground between the assemblies. Each redirecting element includes multiple reflecting and/or refracting surfaces that utilize a disclosed microoptical arrangement (e.g., focus and steer or reorient and scatter) to distribute the redirected sunlight in a substantially homogenous (uniform) distribution on the solar cells.Type: ApplicationFiled: August 9, 2010Publication date: February 9, 2012Applicant: Palo Alto Research Center IncorporatedInventors: Philipp H. Schmaelzle, Matthew D. Eisaman, Patrick Y. Maeda
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Publication number: 20120031396Abstract: A luminescent solar concentrator including a light-guiding slab containing a luminescent material that generates light emissions in response to received sunlight, spaced-apart outcoupling structures that provide a distributed outcoupling of the light emissions through predetermined locations on one of the “broadside” (e.g., upper or lower) surfaces of the light-guiding slab, and optical elements positioned to redirect the outcoupled light emissions such that the light emissions are concentrated onto a predetermined target (e.g., a PV cell). Each optical element includes a collimating surface portion and optional returner surface.Type: ApplicationFiled: August 9, 2010Publication date: February 9, 2012Applicant: Palo Alto Research Center IncorporatedInventors: Philipp H. Schmaelzle, Robert A. Street
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Publication number: 20120033301Abstract: A low-cost sunlight redirecting element including multiple substantially identical redirecting structures uniformly arranged and fixedly disposed on a base, where each redirecting structure includes multiple optical surface regions that are cooperatively formed and arranged such that, when the sunlight redirecting element is operably fixedly oriented relative to a stationary target with sunlight directed along an incident direction onto the redirecting structures, at least some of the sunlight is transmitted between the corresponding optical surface regions of each redirecting structure, and redirected from the corresponding optical surface regions toward the target's surface. The optical surface regions are shaped and arranged to redirect the sunlight toward the fixed target surface even when the sunlight's incident angle direction changes during the course of a year. A stationary sunlight redirecting system (e.g.Type: ApplicationFiled: August 9, 2010Publication date: February 9, 2012Applicant: Palo Alto Research Center IncorporatedInventors: Philipp H. Schmaelzle, Matthew D. Eisaman, Patrick Y. Maeda
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Publication number: 20120031467Abstract: A solar energy harvesting system including a luminescent solar concentrator for generating light emissions in response to received sunlight, and for redirecting and concentrating the light emissions onto a predetermined target (e.g., a PV cell). The luminescent solar concentrator includes a light-guiding slab containing a luminescent material that generates the light emissions, spaced-apart outcoupling structures that provide a distributed outcoupling of the light emissions through predetermined locations on one of the “broadside” (e.g., upper or lower) surfaces of the light-guiding slab, and optical elements positioned to redirect the outcoupled light emissions such that the light emissions are concentrated onto the predetermined target.Type: ApplicationFiled: August 9, 2010Publication date: February 9, 2012Applicant: Palo Alto Research Center IncorporatedInventors: Philipp H. Schmaelzle, Robert A. Street