Patents by Inventor David T. Amm
David T. Amm 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).
-
Publication number: 20100066670Abstract: Systems and methods for controlling a navigational object (e.g., a cursor) using an input device are disclosed herein. A system in accordance with one embodiment includes a motion-based input device adapted to move relative to a surface. The input device has one or more force sensors capable of detecting forces acting upon the input device. The system may then move a navigational object displayed on a receiving device in relatively small increments or relatively large increments, depending upon the detected forces acting upon the input device.Type: ApplicationFiled: September 18, 2008Publication date: March 18, 2010Applicant: Apple Inc.Inventors: David T. AMM, Omar S. Leung
-
Publication number: 20100026656Abstract: Devices having one or more sensors located outside a viewing area of a touch screen display are disclosed. The one or more sensors can be located behind an opaque mask area of the device; the opaque mask area extending between the sides of a housing of the device and viewing area of the touch screen display. In addition, the sensors located behind the mask can be separate from a touch sensor panel used to detect objects on or near the touch screen display, and can be used to enhance or provide additional functionality to the device. For example, a device having a sensor located outside the viewing area can be used to detect objects in proximity to a functional component incorporated in the device, such as an ear piece (i.e., speaker for outputting sound). The sensor can also output a signal indicating a level of detection which may be interpreted by a controller of the device as a level of proximity of an object to the functional component.Type: ApplicationFiled: July 31, 2008Publication date: February 4, 2010Applicant: Apple Inc.Inventors: Steve Porter Hotelling, Jeffrey Traer Bernstein, David T. Amm, Omar S. Leung
-
Patent number: 7573631Abstract: One embodiment relates to a hybrid micro electromechanical systems (MEMS) based spatial light modulator (SLM) capable of operating in both analog and digital modes. The hybrid SLM includes a substrate having an upper surface, a number of movable ribbons disposed a predetermined distance above the upper surface of the substrate, the ribbons having light reflective surfaces formed on their upper side facing away from the upper surface of the substrate, and a number of standoffs having a predetermined height positioned between a lower surface of the movable ribbons and the upper surface of the substrate. The standoffs are configured to limit the ribbon deflection of movable ribbons toward the upper surface of the substrate when the SLM is operated in digital mode with snap-down voltages applied between the ribbon and drive electronics in the substrate. Other embodiments are also disclosed.Type: GrantFiled: February 13, 2006Date of Patent: August 11, 2009Assignee: Silicon Light Machines CorporationInventor: David T. Amm
-
Patent number: 7359106Abstract: A light modulator and a method of manufacturing the same are provided having a continuously deformable optical surface. Generally, the modulator includes a substrate, a membrane disposed above and spaced apart from an upper surface of the substrate, the membrane having a continuously deformable light reflective surface formed on its upper side facing away from the upper surface of the substrate, and a means for deflecting the deformable surface relative to the substrate. Light reflected from different points of the deformable surface can interfere to modulate light reflected from the modulator in 0th order applications. In one embodiment, the membrane includes a static reflective surface surrounding the deformable surface. Light reflected from the static surface and the deformable surface can interfere to modulate light reflected from the modulator in non-0th order applications.Type: GrantFiled: September 20, 2005Date of Patent: April 15, 2008Assignee: Silicon Light Machines CorporationInventors: David T. Amm, Alexander P. Payne, James A. Hunter
-
Patent number: 7248278Abstract: The disclosure relates to a printing system having a linear diffractive spatial light modulator (LDSLM) assembly that diffracts light from a laser source according to or under the influence of an applied electric field applied to the LDSLM assembly. In one embodiment, the LDSLM assembly includes a linear array of diffractive MEMS elements. For example, each of the diffractive MEMS elements can include a number of deformable ribbons having a light reflective planar surface. Preferably, the linear array of diffractive MEMS elements including the ribbons and drive electronics are integrally formed on a single substrate. In other embodiments, the LDSM assembly can include two or more linear arrays of diffractive MEMS elements, and the laser source can include an array of multiple lasers or laser emitters.Type: GrantFiled: November 19, 2004Date of Patent: July 24, 2007Assignee: Silicon Light Machines CorporationInventors: Clinton B. Carlisle, Jahja I. Trisnadi, David T. Amm, Anthony A. Abdilla
-
Patent number: 7218336Abstract: A method of providing drive signals to an illuminator module having a plurality of channels in a printing application. Binary image data including image bits is provided from a data source to the illuminator module. Each image bit is converted to a multi-bit amplitude value within the illuminator module, wherein the conversion of each image bit to the multi-bit amplitude value depends at least on a value of the image bit and which channel is associated with the image bit. Pulse width modulation (PWM) may be applied to the drive signals using programmable transition delays. Apparatus for performing the aforementioned method are also disclosed.Type: GrantFiled: September 17, 2004Date of Patent: May 15, 2007Assignee: Silicon Light Machines CorporationInventors: David T. Amm, Douglas A. Webb, Gregory A. Myatt
-
Patent number: 7202988Abstract: In one embodiment disclosed, a light modulator can be configured to have a substantially flat optically active modulator element portion while deflected. The modulator can include a plurality of modulator elements arranged substantially in parallel, with each modulator element including an optically active portion and a support portion on either side of the optically active portion. Further, the optically active portion can have a narrower width than the support portion. In another embodiment disclosed, a movable membrane for light modulation includes a substantially circular optically active portion and a released membrane portion surrounding the circular optically active portion. The substantially circular optically active portion can also include a plurality of gaps configured to expose a lower surface. Further, the substantially circular optically active portion can be essentially flat while in a deflected state.Type: GrantFiled: March 25, 2004Date of Patent: April 10, 2007Assignee: Silicon Light Machines CorporationInventors: Alexander P. Payne, Michael J. Dueweke, Wilhelmus De Groot, David T. Amm, Omar S. Leung, James A. Hunter, Brent D. Lunceford, Gregory Beach
-
Patent number: 7123399Abstract: A MEM device in accordance with the invention comprises one or more movable micro-structures which are preferably ribbon structures or cantilever structures. The ribbon structures or cantilever structures are preferably coupled to a substrate structure through one or more support regions comprising a plurality of anchor support features and a plurality of post support features. The MEM device is preferably an optical MEM device with a plurality of movable ribbon structures each being supported by opposing ends through support regions each comprising a plurality of anchor support features and a plurality of post support features. In accordance with the method of the embodiments, the positions of the anchor and post support features, the number of anchor and support features and the spacings between the support features can selected during fabrication of the device to determine an operating condition of the MEM device.Type: GrantFiled: February 9, 2005Date of Patent: October 17, 2006Assignee: Silicon Light Machines CorporationInventors: Christopher Gudeman, James Hunter, Richard Yeh, David T. Amm
-
Patent number: 7106417Abstract: In one embodiment, a pixel arrangement may be configured for a maskless lithography application using at least two array tiles, where each array tile includes a two-dimensional array with substantially equally-spaced pixels. A preferred embodiment includes two 500×1000 pixel array tiles separated by a displacement in a first direction and by another displacement in a second direction. In this embodiment, the scanning direction is between the first and second directions so as to form a continuous swath. Additionally, embodiments of this invention can be applied to applications where array tiles of optical modulators are used to modulate electron beams which can subsequently expose electron beam sensitive media.Type: GrantFiled: March 19, 2004Date of Patent: September 12, 2006Assignee: Silicon Light Machines CorporationInventor: David T. Amm
-
Patent number: 7085059Abstract: A light modulator and a method of manufacturing the same are provided having a substrate with reflectivity enhancing layers formed thereon. The layers include at least a top surface for receiving incident light, a first layer overlying the substrate, and a second layer between the top surface and the first layer, the second layer overlying and abutting the first layer. The second layer has a predetermined thickness selected in relation to an index of refraction of the second layer and to a wavelength of the incident light such that the light reflecting off an interface between the first and second layers constructively interferes with light reflected from the top surface. Preferably, the first layer also has a predetermined thickness selected such that the light reflecting off an interface between the first layer and the substrate constructively interferes with light reflected from the top surface.Type: GrantFiled: March 23, 2005Date of Patent: August 1, 2006Assignee: Silicon Light Machines CorporationInventors: Alexander P. Payne, James A. Hunter, David T. Amm
-
Patent number: 7053930Abstract: One embodiment disclosed relates to a method for bi-directional progressive scanning in a display system. The method includes receiving image data for an image to be displayed, forward scanning the image data in a first direction using a linear array of controllable light elements, and reverse scanning the image data in a second direction opposite to the first direction using the linear array. Another embodiment disclosed relates to an apparatus for bi-directional progressive scanning. The apparatus includes a linear array of controllable light elements, and a scanner driver that drives a scanner apparatus using a drive signal that is applied to drive both forward and reverse optical scanning of an image by the linear array.Type: GrantFiled: June 27, 2002Date of Patent: May 30, 2006Assignee: Silicon Light Machines CorporationInventors: Douglas A. Webb, David T. Amm, Paul A. Alioshin, David A. LeHoty, Mark A. Koenig
-
Patent number: 6967758Abstract: In one embodiment, a delay circuit is configured to delay pixel information from an image source, such as a frame buffer. The delay circuit may be configured to delay the pixel information by an amount of time that would move a pixel projected on a surface by a distance less than a dimension of the pixel. A light modulator may modulate a light beam onto a surface, such as a display screen, based on the delayed pixel information. This advantageously allows for sub-pixel electronic alignment.Type: GrantFiled: January 30, 2004Date of Patent: November 22, 2005Assignee: Silicon Light Machines CorporationInventors: David T. Amm, Douglas A. Webb
-
Patent number: 6947199Abstract: In one embodiment, an imaging apparatus includes a light modulator array having modulators arranged in a loosely-packed configuration. For example, the modulators may be arranged in columns at a first pitch, and the columns may be spaced at a second pitch. The optically active areas of the modulators may form a repeating pattern including a hexagonal pattern, a rectangular pattern, or a diamond pattern. In one embodiment, the modulators are diffractive light modulators.Type: GrantFiled: March 24, 2004Date of Patent: September 20, 2005Assignee: Silicon Light Machines CorporationInventors: Charles B. Roxlo, David T. Amm
-
Patent number: 6908201Abstract: A MEM device in accordance with the invention comprises one or more movable micro-structures which are preferably ribbon structures or cantilever structures. The ribbon structures or cantilever structures are preferably coupled to a substrate structure through one or more support regions comprising a plurality of anchor support features and a plurality of post support features. The MEM device is preferably an optical MEM device with a plurality of movable ribbon structures each being supported by opposing ends through support regions each comprising a plurality of anchor support features and a plurality of post support features. In accordance with the method of the embodiments, the positions of the anchor and post support features, the number of anchor and support features and the spacings between the support features can selected during fabrication of the device to determine an operating condition of the MEM device.Type: GrantFiled: June 28, 2002Date of Patent: June 21, 2005Assignee: Silicon Light Machines CorporationInventors: Christopher Gudeman, James Hunter, Richard Yeh, David T. Amm
-
Patent number: 6896822Abstract: A light modulator includes elongated elements arranged parallel to each other. In a first diffraction mode, the light modulator operates to diffract an incident light into at least two diffraction orders. In a second diffraction mode, the light modulator operates to diffract the incident light into a single diffraction order. Each of the elongated elements comprises a blaze profile, which preferably comprises a reflective stepped profile across a width of each of the elongated elements and which produces an effective blaze at a blaze angle. Alternatively, the blaze profile comprises a reflective surface angled at the blaze angle. Each of selected ones of the elongated elements comprise a first conductive element. The elongated elements produce the first diffraction when a first electrical bias is applied between the first conductive elements and a substrate.Type: GrantFiled: December 16, 2002Date of Patent: May 24, 2005Assignee: Silicon Light Machines CorporationInventors: David T. Amm, Jahja Trisnadi, James Hunter, Christopher Gudeman, Dinesh Maheshwari
-
Patent number: 6829092Abstract: A light modulator includes elongated elements arranged parallel to each other. In a first diffraction mode, the light modulator operates to diffract an incident light into at least two diffraction orders. In a second diffraction mode, the light modulator operates to diffract the incident light into a single diffraction order. Each of the elongated elements comprises a blaze profile, which preferably comprises a reflective stepped profile across a width of each of the elongated elements and which produces an effective blaze at a blaze angle. Alternatively, the blaze profile comprises a reflective surface angled at the blaze angle. Each of selected ones of the elongated elements comprise a first conductive element. The elongated elements produce the first diffraction when a first electrical bias is applied between the first conductive elements and a substrate.Type: GrantFiled: August 15, 2001Date of Patent: December 7, 2004Assignee: Silicon Light Machines, Inc.Inventors: David T. Amm, Jahja Trisnadi, James Hunter, Christopher Gudeman, Dinesh Maheshwari
-
Publication number: 20040196526Abstract: In one embodiment, an imaging apparatus includes a light modulator array having modulators arranged in a loosely-packed configuration. For example, the modulators may be arranged in columns at a first pitch, and the columns may be spaced at a second pitch. The optically active areas of the modulators may form a repeating pattern including a hexagonal pattern, a rectangular pattern, or a diamond pattern. In one embodiment, the modulators are diffractive light modulators.Type: ApplicationFiled: March 24, 2004Publication date: October 7, 2004Inventors: Charles B. Roxlo, David T. Amm
-
Publication number: 20040183882Abstract: In one embodiment, a delay circuit is configured to delay pixel information from an image source, such as a frame buffer. The delay circuit may be configured to delay the pixel information by an amount of time that would move a pixel projected on a surface by a distance less than a dimension of the pixel. A light modulator may modulate a light beam onto a surface, such as a display screen, based on the delayed pixel information. This advantageously allows for sub-pixel electronic alignment.Type: ApplicationFiled: January 30, 2004Publication date: September 23, 2004Inventors: David T. Amm, Douglas A. Webb
-
Publication number: 20040165069Abstract: One embodiment disclosed relates to a method for bi-directional progressive scanning in a display system. The method includes receiving image data for an image to be displayed, forward scanning the image data in a first direction using a linear array of controllable light elements, and reverse scanning the image data in a second direction opposite to the first direction using the linear array. Another embodiment disclosed relates to an apparatus for bi-directional progressive scanning. The apparatus includes a linear array of controllable light elements, and a scanner driver that drives a scanner apparatus using a drive signal that is applied to drive both forward and reverse optical scanning of an image by the linear array.Type: ApplicationFiled: June 27, 2002Publication date: August 26, 2004Inventors: Douglas A. Webb, David T. Amm, Paul A. Alioshin, David A. LeHoty, Mark A. Koenig
-
Patent number: 6781739Abstract: One embodiment disclosed relates to a method for driving a micro electromechanical (MEM) device. The method includes generating a high-frequency AC drive signal that is substantially greater in frequency than a resonance frequency of a movable feature in the MEM device, and modulating the amplitude of the high-frequency AC drive signal. A DC-like displacement of the movable feature in the MEM device is achieved by driving the movable feature using the amplitude modulated high-frequency AC drive signal.Type: GrantFiled: February 14, 2003Date of Patent: August 24, 2004Assignee: Silicon Light Machines, Inc.Inventors: David T. Amm, Douglas A. Webb