Patents by Inventor Mark O. Freeman
Mark O. Freeman 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: 20110025983Abstract: An integrated photonics module includes at least one light source and a MEMS scanner coupled to and held in alignment by an optical frame configured for mounting to a host system. According to some embodiments, the integrated photonics module may include a plurality of light sources and a beam combiner coupled to the optical frame. According to some embodiments, the integrated photonics module includes a selective fold mirror configured to direct at least a portion of emitted light toward the MEMS scanner in a normal direction and pass scanned light through to a field of view. The selective fold mirror may use beam polarization to select beam passing and reflection. The integrated photonics module may include a beam rotator such as a quarter-wave plate to convert the polarization of the emitted light to a different polarization adapted for passage through the fold mirror. The integrated photonics module may include one or more light detectors.Type: ApplicationFiled: October 1, 2010Publication date: February 3, 2011Applicant: MICROVISION, INC.Inventors: Randall B. Sprague, Joshua O. Miller, Margaret K. Brown, Mark O. Freeman, Maarten Niesten, Bin Xue, Christopher A. Wiklof
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Publication number: 20110025930Abstract: An integrated photonics module includes at least one light source and a MEMS scanner coupled to and held in alignment by an optical frame configured for mounting to a host system. According to some embodiments, the integrated photonics module may include a plurality of light sources and a beam combiner coupled to the optical frame. According to some embodiments, the integrated photonics module includes a selective fold mirror configured to direct at least a portion of emitted light toward the MEMS scanner in a normal direction and pass scanned light through to a field of view. The selective fold mirror may use beam polarization to select beam passing and reflection. The integrated photonics module may include a beam rotator such as a quarter-wave plate to convert the polarization of the emitted light to a different polarization adapted for passage through the fold mirror. The integrated photonics module may include one or more light detectors.Type: ApplicationFiled: October 1, 2010Publication date: February 3, 2011Applicant: MICROVISION, INC.Inventors: Randall B. Sprague, Joshua O. Miller, Margaret K. Brown, Mark O. Freeman, Maarten Niesten, Bin Xue, Christopher A. Wiklof
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Publication number: 20110018986Abstract: An integrated photonics module includes at least one light source and a MEMS scanner coupled to and held in alignment by an optical frame configured for mounting to a host system. According to some embodiments, the integrated photonics module may include a plurality of light sources and a beam combiner coupled to the optical frame. According to some embodiments, the integrated photonics module includes a selective fold mirror configured to direct at least a portion of emitted light toward the MEMS scanner in a normal direction and pass scanned light through to a field of view. The selective fold mirror may use beam polarization to select beam passing and reflection. The integrated photonics module may include a beam rotator such as a quarter-wave plate to convert the polarization of the emitted light to a different polarization adapted for passage through the fold mirror. The integrated photonics module may include one or more light detectors.Type: ApplicationFiled: October 1, 2010Publication date: January 27, 2011Applicant: MICROVISION, INC.Inventors: Randall B. Sprague, Joshua O. Miller, Margaret K. Brown, Mark O. Freeman, Maarten Niesten, Bin Xue, Christopher A. Wiklof
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Publication number: 20110013097Abstract: Briefly, in accordance with one or more embodiments, scanned beam projector may comprise a light source, a scan drive and a scanning platform to project an image onto a projection surface. The scan drive circuit is capable of at least partially correcting distortion in the projected image by varying an amplitude of the scan drive signal to at least partially compensate for the distortion in the projected image.Type: ApplicationFiled: July 17, 2009Publication date: January 20, 2011Applicant: MICROVISION, INC.Inventors: Mark O. Freeman, Karlton D. Powell
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Publication number: 20100315597Abstract: Briefly, in accordance with one or more embodiments, beam position diversity or beam offset diversity in pupil space performs the complement to angular diversity by maintaining angular content of a beam while changing its position and/or polarization properties in pupil space over time.Type: ApplicationFiled: June 11, 2009Publication date: December 16, 2010Applicant: MICROVISION, INC.Inventors: Karlton D. Powell, Mark O. Freeman, Alban N. Lescure
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Patent number: 7839575Abstract: Substrate-guided relays that employ light guiding substrates to relay images from sources to viewers in optical display systems. The substrate-guided relays are comprised of an input coupler, an intermediate substrate, and an output coupler. In some embodiments, the output coupler is formed in a separate substrate that is coupled to the intermediate substrate. The output coupler may be placed in front of or behind the intermediate substrate, and may employ two or more partially reflective surfaces to couple light from the coupler. In some embodiments, the input coupler is coupled to the intermediate substrate in a manner that the optical axis of the input coupler intersects the optical axis of the intermediate substrate at a non-perpendicular angle.Type: GrantFiled: May 21, 2009Date of Patent: November 23, 2010Assignee: Microvision, Inc.Inventors: Christian Dean DeJong, Karlton D. Powell, Mark O. Freeman, Joshua O. Miller
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Patent number: 7834867Abstract: An integrated photonics module includes at least one light source and a MEMS scanner coupled to and held in alignment by an optical frame configured for mounting to a host system. According to some embodiments, the integrated photonics module may include a plurality of light sources and a beam combiner coupled to the optical frame. According to some embodiments, the integrated photonics module includes a selective fold mirror configured to direct at least a portion of emitted light toward the MEMS scanner in a normal direction and pass scanned light through to a field of view. The selective fold mirror may use beam polarization to select beam passing and reflection. The integrated photonics module may include a beam rotator such as a quarter-wave plate to convert the polarization of the emitted light to a different polarization adapted for passage through the fold mirror. The integrated photonics module may include one or more light detectors.Type: GrantFiled: April 10, 2007Date of Patent: November 16, 2010Assignee: Microvision, Inc.Inventors: Randall B. Sprague, Joshua O. Miller, Margaret K. Brown, Mark O. Freeman, Maarten Niesten, Bin Xue, Christopher A. Wiklof
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Publication number: 20100265467Abstract: An imaging system (200), such as a scanned laser projection system, includes one or more laser sources (201) configured to produce one or more light beams (204), and a light modulator (203) configured to produce images (206) from the light beams (204). A polarization diversity element (221), which can be manufactured from a birefringent material or from a polymerized liquid crystal layer, is disposed within the imaging system (200). The polarization diversity element (221) is configured to alter the polarization of an incident beam to create a transmitted beam comprising diverse polarization patterns, thereby reducing speckle in projected images.Type: ApplicationFiled: October 5, 2009Publication date: October 21, 2010Applicant: MICROVISION, INC.Inventors: Alban N. Lescure, Markus Duelli, Mark O. Freeman, Witold R. Teller
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Publication number: 20100265466Abstract: An imaging system (200), such as a scanned laser projection system, includes one or more laser sources (201) configured to produce one or more light beams (204), and a light modulator (203) configured to produce images (206) from the light beams (204). Optional optical alignment devices (220) can be used to orient the light beams (204) into a combined light beam (205). A birefringent wedge (221) is disposed between at least one of the laser sources (201) and the light modulator (203). The birefringent wedge (221) is configured to receive light from the laser sources (201) and deliver two angularly separated and orthogonally polarized light beams (223) to the light modulator (203) so as to reduce speckle appearing when the images (206) are displayed on a display surface (207). An optional glass wedge (1004) can be used to correct optical path deviation (1001) introduced by the birefringent wedge (221).Type: ApplicationFiled: April 16, 2009Publication date: October 21, 2010Applicant: Microvision, Inc.Inventors: Alban N. Lescure, Markus Duelli, Mark O. Freeman
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Publication number: 20100265420Abstract: An imaging system (200), such as a scanned laser projection system, includes one or more laser sources (201) configured to produce one or more light beams (204), and a light modulator (203) configured to produce images (206) from the light beams (204). Optional optical alignment devices (220) can be used to orient the light beams (204) into a combined light beam (205). A beam separator (221), which can be any of a birefringent wedge, compensated birefringent wedge, or a polymerized liquid crystal layer, is disposed between at least one of the laser sources (201) and the light modulator (203). The beam separator (221) is configured to receive light from the laser sources (201) and deliver two angularly separated and orthogonally polarized light beams (223) to the light modulator (203) so as to reduce speckle appearing when the images (206) are displayed on a display surface (207).Type: ApplicationFiled: September 4, 2009Publication date: October 21, 2010Applicant: MICROVISION, INC.Inventors: Alban N. Lescure, Markus Duelli, Mark O. Freeman
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Publication number: 20100232005Abstract: Briefly, in accordance with one or more embodiments, a scanned beam display comprises one or more light sources to generate one or more light beams, a scanner module to receive the one or more light beams to generate a displayed image via scanning of the light beams onto a projection surface, and a spatial phase modulator disposed between the light source and the scanner module to phase modulate the one or more light beams to provide speckle reduction in the display image projected onto the projection surface.Type: ApplicationFiled: March 12, 2009Publication date: September 16, 2010Applicant: Microvision, Inc.Inventors: Alban N. Lescure, Mark O. Freeman, Christian Dean DeJong, Maarten Niesten, Joshua M. Hudman
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Patent number: 7791807Abstract: Briefly, in accordance with one or more embodiments, a birefringent layer may be utilized in conjunction with a head-up display (HUD) for a vehicle or the like, for example where the birefringent layer is disposed in or on the windshield. The birefringent layer may impart a change in the polarization of light emerging from a projector of the head-up display in order to reduce or minimize interference between beams from the display and reflecting off of two or more surfaces that are combined at the viewer's eye, and/or to reduce or minimize the effect of polarizing sunglasses on the viewability of the image projected by the display. In one or more embodiments, the birefringent layer alters the polarization of the light reaching the viewer's eye if the user is wearing polarizing glasses or lenses so that less light from the display is blocked.Type: GrantFiled: February 6, 2008Date of Patent: September 7, 2010Assignee: Microvision, Inc.Inventors: Eugenia Pasca, Mark O. Freeman
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Patent number: 7777960Abstract: A projection system, such as a system suitable for head-up displays in automobiles, includes a laser projection source (101) and a scanner (102). Light from the laser projection source (101) is scanned across a projection surface (104), which can be a car's windshield. The projection surface (104) includes a buried numerical aperture expander (105) capable of reflecting some light and transmitting other light. The system may also include an image projection source (551) capable of presenting high-resolution images on a sub-region (552) of the projection surface (604) that has a optical relay (650) disposed therein.Type: GrantFiled: April 15, 2009Date of Patent: August 17, 2010Assignee: Microvision, Inc.Inventor: Mark O. Freeman
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Publication number: 20100202034Abstract: A display system includes and image-guiding substrate with input and/or output structures configured to improve image quality.Type: ApplicationFiled: April 5, 2010Publication date: August 12, 2010Applicant: MICROVISION, INC.Inventors: Mark O. Freeman, Karlton D. Powell
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Publication number: 20100201953Abstract: A display system includes and image-guiding substrate with input and/or output structures configured to improve image quality.Type: ApplicationFiled: April 5, 2010Publication date: August 12, 2010Applicant: MICROVISION, INC.Inventors: Mark O. Freeman, Karlton D. Powell
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Patent number: 7736006Abstract: An image-guiding substrate including an image output portion including a plurality of mirrors configured to receive propagated rays and launch the propagated rays toward a viewing region, each mirror having a partial reflectivity of substantially (1/Y)*[1/(X+1)], where X is the number of mirrors remaining to be traversed by a portion of a ray not launched by the mirror and 1/Y is an occlusion.Type: GrantFiled: November 21, 2006Date of Patent: June 15, 2010Assignee: Microvision, Inc.Inventors: Mark O. Freeman, Karlton D. Powell
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Patent number: 7715103Abstract: Briefly, in accordance with one or more embodiments, a buried numerical aperture expander may be utilized to provide a head-up or virtual display at a larger field of view without requiring a larger amount of space, larger sized display, or larger sized optics. The buried numerical aperture expander is capable of selectively reflecting light emanating from a display such that the reflected light is expanded into a larger field of view, while simultaneously allowing other light to be transmitted through the buried numerical aperture expander without expansion so that the buried numerical aperture expander may be deployed in conjunction with a windshield or window without adversely affecting the ability to see through buried numerical aperture expander.Type: GrantFiled: September 10, 2007Date of Patent: May 11, 2010Assignee: Microvision, Inc.Inventors: Randall B. Sprague, Mark O. Freeman, Christian Dean DeJong, Jacques P. Lincoln, Karlton D. Powell
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Patent number: 7710655Abstract: A display system includes an angle-mapped display engine operable to launch angle-mapped image-bearing rays through an image-guiding substrate for display.Type: GrantFiled: November 21, 2006Date of Patent: May 4, 2010Assignee: Microvision, Inc.Inventors: Mark O. Freeman, Karlton D. Powell
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Publication number: 20100097534Abstract: An image producing system (1400) delivers images (1414) having reduced speckle by employing one or more drive circuits (1404, 1405, 1406) that deliver both a direct current drive signal (205) and an alternating current drive signal (405) to one or more lasers (1401, 1402, 1403). Specifically, an alternating current drive circuit (403) is used in conjunction with a direct current drive circuit (203) to modulate a drive signal. The modulation can be at a frequency of between 400 MHz and 600 MHz. When lasers, such as the red laser (1401) or the blue laser (1403) of a multi-laser system are modulated in such a fashion, their emitted spectral widths (407) greatly expand, thereby reducing speckle in projected images (1414).Type: ApplicationFiled: October 21, 2008Publication date: April 22, 2010Applicant: MICROVISION, INC.Inventors: Witold R. Teller, Alban N. Lescure, Mark O. Freeman
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Publication number: 20100046075Abstract: Briefly, in accordance with one or more embodiments, an optical relay comprises a partially-reflective-coated Fresnel lens or similar low-profile lens such as a diffractive lens or a holographic lens having a first index of refraction and a filler medium having a second index of refraction and being disposed adjacent to the Fresnel lens. The optical relay enables the optical power of the Fresnel or similar low-profile lens embedded within the two layers to influence a beam that is reflected from the optical relay while allowing transmitted light to experience little or no influence from the embedded lens.Type: ApplicationFiled: August 19, 2008Publication date: February 25, 2010Applicant: MICROVISION, INC.Inventors: Karlton D. Powell, Mark O. Freeman, David Scott Wright