Patents by Inventor Torbjörn Sandström
Torbjörn Sandström 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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Publication number: 20120307219Abstract: In general, one aspect of the technology described can be embodied in methods that include the action of applying a writing mechanism having non-isotropic writing properties resulting from different degrees of coherence interaction in a sweep direction and a cross-sweep direction, writing an image pattern twice on a work piece using the writing mechanism rotated relative to the image pattern written on the workpiece between first and second writings, whereby writing with the rotated writing mechanism averages the non-isotropic properties. The lesser included angle separating first and second relative directions of movement between a workpiece and writing mechanism may be 20 degrees or greater, or somewhat less, under conditions described herein.Type: ApplicationFiled: December 7, 2011Publication date: December 6, 2012Applicant: Micronic Mydata ABInventor: Torbjörn Sandström
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Patent number: 8312393Abstract: The technology disclosed relates to variable tapers to resolve varying overlaps between adjacent strips that are lithographically printed. Technology disclosed combines an aperture taper function with the variable overlap taper function to transform data and compensate for varying overlaps. The variable taper function varies according to overlap variation, including variation resulting from workpiece distortions, rotor arm position, or which rotor arm printed the last stripe. Particular aspects of the present invention are described in the claims, specification and drawings.Type: GrantFiled: March 5, 2010Date of Patent: November 13, 2012Assignee: Micronic Laser Systems ABInventors: Sten Lindau, Torbjörn Sandström, Anders Osterberg, Lars Ivansen
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Publication number: 20120281271Abstract: The technology disclosed relates to improved acousto-optic deflectors (AODs). In particular, it relates to compensation for subtle effects not previously addressed by AOD designers. A shifting center of gravity is described and addressed using advanced power equalisation strategies. Denser writing brushes are provided by using a two-dimensional array of beams with corrections for factors such as angle of incidence at the AOD interface. The compensation and dense brush features can be used separately or in combination.Type: ApplicationFiled: November 3, 2011Publication date: November 8, 2012Applicant: Micronic MyData ABInventors: Torbjörn Sandström, Hans Martinsson
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Publication number: 20120281195Abstract: The technology disclosed relates to improved acousto-optic deflectors (AODs). In particular, it relates to compensation for subtle effects not previously addressed by AOD designers. A shifting center of gravity is described and addressed using advanced power equalisation strategies. Denser writing brushes are provided by using a two-dimensional array of beams with corrections for factors such as angle of incidence at the AOD interface.Type: ApplicationFiled: November 3, 2011Publication date: November 8, 2012Applicant: Micronic MyData ABInventor: Torbjörn Sandström
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Publication number: 20120218623Abstract: The technology described applies an extended frequency range of over one octave to drive an acousto-optic deflector, thereby defying a design rule of thumb that limited bandwidth to just under one octave. A combination of extended frequency range and well-timed beam blanking reduces the proportion of a so-called chirp signal that is consumed by beam blanking. This increases the working, effective portion of the sweep signal.Type: ApplicationFiled: August 29, 2011Publication date: August 30, 2012Applicant: Micronic MyData ABInventor: Torbjörn Sandström
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Patent number: 8160351Abstract: The invention addresses the lack of comprehensive and quantitative methods for measurements of unwanted visual “mura” effects in displays and image sensors. Mura is generated by errors that are significantly smaller than what is needed for the function of the device, and sometimes smaller than the random variations in the patterns or structures. Capturing essentially all mura defects in a workpiece in a short time requires a daunting combination of sensitivity, statistical data reduction and speed. The invention devices an inspection method, e.g. optical, which maximizes the sensitivity to mura effects and suppresses artifacts from the mura inspection hardware itself and from noise. It does so by scanning the sensor, e.g. a high-resolution camera, creating a region of high internal accuracy across the mura effects. One important example is for mura related to placement errors, where a stage with better than 10 nanometer precision within a 100 mm range is created.Type: GrantFiled: September 8, 2008Date of Patent: April 17, 2012Assignee: Micronic Mydata ABInventors: Torbjörn Sandström, Lars Stiblert
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Patent number: 8144307Abstract: An array of phase-shifting micro-mechanical elements are used in a method and device for patterning a workpiece, for exposing a radiation sensitive layer on a workpiece such as a mask or a device substrate. The phase-shifting micro-mechanical elements are individually driven to modulate the electromagnetic radiation such that a high degree of control and precision in patterning is achieved. In some embodiments, the motion of the workpiece is synchronized with the relayed electromagnetic radiation that is modulated by the phase-shifting micro-mechanical elements in order to further control and increase precision in the patterning of the workpiece.Type: GrantFiled: November 4, 2008Date of Patent: March 27, 2012Assignee: Micronic Mydata ABInventor: Torbjörn Sandström
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Patent number: 8122846Abstract: Devices and methods for manufacturing displays, solar panels and other devices using larger size workpieces are provided. The workpiece is rolled into a cylinder, thereby reducing the physical size by a factor of 3 in one dimension. The stages on which the workpieces are rolled have a cylindrical shape, which allows a more robust and/or compact movement of the glass, reduced machine weight. The workpieces are relatively thin, more flexible, and are rolled onto a cylinder with a diameter of about 1 meter.Type: GrantFiled: February 28, 2007Date of Patent: February 28, 2012Assignee: Micronic Mydata ABInventors: Lars Stiblert, Torbjörn Sandström, Jarek Luberek, Tomas Lock
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Patent number: 8102410Abstract: Patterns are written on workpieces, such as, glass sheets and/or plastic sheets used in, for example, electronic display devices such as LCDs. The workpiece may be larger than about 1500 mm may be used. An optical writing head with a plurality of writing units may be used. The workpiece and the writing head may be moved relative to one another to provide oblique writing.Type: GrantFiled: October 26, 2006Date of Patent: January 24, 2012Assignee: Micronic Mydata ABInventor: Torbjörn Sandström
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Patent number: 8067134Abstract: The field of this disclosure is making three-dimensional topographic structures by means of graduated exposure in a photosensitive material, such as a photoresist, photosensitive polymide, or similar. Such patterns may be written either to be used directly as optical, mechanical, fluidic, etc. components, e.g. diffusors, non-reflecting surfaces, Fresnel lenses and Fresnel prisms, computer-generated holograms, lenslet arrays, etc, or to be used as masters for the fabrication of such components by replication. Replication can be done by molding, pressing, embossing, electroplating, etching, as known in the art. This disclosure includes descriptions of using passive absorbing components in thin resist, using high gamma thick resists with high resolution pattern generators, using multiple focal planes including at least one focal plane in the bottom half of the resist, and iterative simulation of patterning and adjustment of an exposure map.Type: GrantFiled: October 22, 2009Date of Patent: November 29, 2011Assignee: Micronic MyData ABInventors: Torbjörn Sandström, Mikael Wahlsten, Mats Ekberg, Anders Svensson
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Patent number: 8057971Abstract: The field of this disclosure is making three-dimensional topographic structures by means of graduated exposure in a photosensitive material, such as a photoresist, photosensitive polymide, or similar. Such patterns may be written either to be used directly as optical, mechanical, fluidic, etc. components, e.g. diffusors, non-reflecting surfaces, Fresnel lenses and Fresnel prisms, computer-generated holograms, lenslet arrays, etc, or to be used as masters for the fabrication of such components by replication. Replication can be done by molding, pressing, embossing, electroplating, etching, as known in the art. This disclosure includes descriptions of using passive absorbing components in thin resist, using high gamma thick resists with high resolution pattern generators, using multiple focal planes including at least one focal plane in the bottom half of the resist, and iterative simulation of patterning and adjustment of an exposure map.Type: GrantFiled: October 22, 2009Date of Patent: November 15, 2011Assignee: Micronic MyData ABInventors: Torbjörn Sandström, Mikael Wahlsten, Mats Ekberg, Anders Svensson
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Publication number: 20110242514Abstract: This invention relates to an improved micro lithographic writer that sweeps a modulated pattern across the surface of a workpiece. The SLM disclosed works in a diffractive mode with a continuous or quasi-continuous radiation source. It uses a long and narrow SLM and takes advantage of diffractive effects along the narrow axis of the SLM to improve writing characteristics along that axis.Type: ApplicationFiled: March 2, 2011Publication date: October 6, 2011Applicant: Micronic MyData Systems ABInventor: Torbjörn Sandström
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Publication number: 20110240611Abstract: The present invention relates to laser ablation microlithography. In particular, we disclose a new SLM design and patterning method that uses multiple mirrors per pixel to concentrate energy to an energy density that facilitates laser ablation, while keeping the energy density on the SLM mirror surface at a level that does not damage the mirrors. Multiple micro-mirrors can be reset at a very high frequency, far beyond current DMD devices.Type: ApplicationFiled: March 2, 2011Publication date: October 6, 2011Applicant: Micronic MyData Systems ABInventor: Torbjörn Sandström
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Patent number: 7934172Abstract: Previously disclosed methods and devices are extended in this application by two-dimensional analysis of optical proximity interactions and by fashioning a computationally efficient kernel for rapid calculation of adjustments to be made. The computations can be made in realtime, whereby the use of OPC assist features can be reduced, with substantial savings in file size and computational requirements. Further aspects of the invention are disclosed in the descriptions, figures, claims and documents incorporated by reference.Type: GrantFiled: February 26, 2007Date of Patent: April 26, 2011Assignee: Micronic Laser Systems ABInventors: Igor Ivonin, Torbjörn Sandström
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Patent number: 7923182Abstract: The field of this disclosure is making three-dimensional topographic structures by means of graduated exposure in a photosensitive material, such as a photoresist, photosensitive polymide, or similar. Such patterns may be written either to be used directly as optical, mechanical, fluidic, etc. components, e.g. diffusors, non-reflecting surfaces, Fresnel lenses and Fresnel prisms, computer-generated holograms, lenslet arrays, etc, or to be used as masters for the fabrication of such components by replication. Replication can be done by molding, pressing, embossing, electroplating, etching, as known in the art. This disclosure includes descriptions of using passive absorbing components in thin resist, using high gamma thick resists with high resolution pattern generators, using multiple focal planes including at least one focal plane in the bottom half of the resist, and iterative simulation of patterning and adjustment of an exposure map.Type: GrantFiled: October 22, 2009Date of Patent: April 12, 2011Assignee: Micronic Laser Systems ABInventors: Torbjörn Sandström, Mikael Wahlsten, Mats Ekberg, Anders Svensson
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Publication number: 20100308024Abstract: Patterns are written on workpieces, such as, glass sheets and/or plastic sheets used in, for example, electronic display devices such as LCDs. The workpiece may be larger than about 1500 mm may be used. An optical writing head with a plurality of writing units may be used. The workpiece and the writing head may be moved relative to one another to provide oblique writing.Type: ApplicationFiled: August 16, 2010Publication date: December 9, 2010Inventors: Lars Stiblert, Torbjörn Sandström, Jarek Luberek, Tomas Lock
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Patent number: 7842926Abstract: The invention relates to production and precision patterning of work pieces, including manufacture of photomask for photolithography and direct writing on other substrates, such as semiconductor substrates. In particular, it relates to applying corrections to pattern data, such as corrections for distortions in the field of an SLM exposure stamp. It may be used to produce a device on a substrate. Alternatively, the present invention may be practiced as a device practicing disclosed methods or as an article of manufacture, particularly a memory, either volatile or non-volatile memory, including a program adapted to carry out the disclosed methods.Type: GrantFiled: February 5, 2008Date of Patent: November 30, 2010Assignee: Micronic Laser Systems ABInventors: Martin Olsson, Torbjörn Sandström, Mats Rosling
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Publication number: 20100225992Abstract: The present invention relates to a reconfigurable micro-mechanical light modulator including a two-dimensional array of modulating elements with redundant rows of modulating elements. In particular, it relates to extending the life of the modulator by shifting the set of elements used, without physically replacing the micro-mechanical light modulator. The modulating elements are adapted to modulate light impinging on the micro-mechanical light modulator. The array of modulating elements comprises a first and a second set of modulating elements. The second set is a redundant set of modulating elements that can be selected to substitute for the first set of modulating elements in modulating light impinging on the micro-mechanical light modulator, without physically replacing the micro-mechanical light modulator. Devices and methods are described.Type: ApplicationFiled: February 16, 2010Publication date: September 9, 2010Applicant: Micronic Laser Systems ABInventors: Per Askebjer, Torbjörn Sandström
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Publication number: 20100225943Abstract: The technology disclosed relates to translating between a Cartesian grid and a curved scanning path that produces varying exposure doses as the scanning head traces the curved scanning path. It can be applied to writing to or reading from a workpiece. In particular, we teach use of varying exposure dose that compensates for the time it takes for the curved scan path to transit a straight axis. This simplifies either modulation of a modulator, from which data is projected onto the workpiece, or analysis of data collected by a detector, onto which partial images of the workpiece are projected.Type: ApplicationFiled: March 5, 2010Publication date: September 9, 2010Applicant: Micronic Laser Systems ABInventors: Torbjörn Sandström, Per Askebjer
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Publication number: 20100225974Abstract: The technology disclosed relates to methods and devices that compensate for displacements in a pattern or deformations of a workpiece. In particular, this relates to using timing to compensate for displacements along a first axis along the scanning direction while using resampling, interpolation or a similar method to compensate for displacements along a second axis that is substantially orthogonal to the first axis. The scanning direction may be an actual direction of movement of the scanning head or it may be a direction perpendicular to an orientation of an image projected onto a workpiece.Type: ApplicationFiled: March 5, 2010Publication date: September 9, 2010Applicant: Micronic Laser Systems ABInventor: Torbjörn Sandström