Patents by Inventor Paul Jackson McWhorter

Paul Jackson McWhorter 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: 20030174421
    Abstract: A microelectromechanical system is disclosed that constrains the direction of a force acting on a first load, where the force originates from the interaction of the first load and a second load. In particular, the direction of a force acting on the first load is caused to be substantially parallel with a motion of the first load. This force direction constraint is achieved by a force isolator microstructure that contains no rubbing or contacting surfaces. Various embodiments of structures/methods to achieve this force direction constraint using a force isolator microstructure are disclosed.
    Type: Application
    Filed: March 12, 2002
    Publication date: September 18, 2003
    Inventors: Murray Steven Rodgers, Samuel Lee Miller, Stephen Matthew Barnes, Jeffry Joseph Sniegowski, Paul Jackson McWhorter
  • Publication number: 20030174935
    Abstract: A novel optical channel processing unit is disclosed that is useful for multiplexing, demultiplexing and switching optical signals in a WDM network. In one embodiment, the optical channel processing unit is implemented as an optical switch (700) for interfacing any of various multichannel input ports (702) with any of various multichannel output ports (704). The illustrated switch (700) includes a two-dimensional array of input ports (702) and a two-dimensional array of output ports (704). An input signal (705) is transmitted via a spectral device (706) to an input movable mirror array (708). A signal transmitted by an output port (704) is transmitted via a spectral device (712) to mirrors (714) of an output mirror movable mirror array (716). Each mirror of each array (708 and 716) is movable to target any selected mirror of the opposing array (708 or 716). The arrays (708 and 716) thereby support full multichannel switching functionality for more than two channels.
    Type: Application
    Filed: March 14, 2002
    Publication date: September 18, 2003
    Inventors: Samuel Lee Miller, Michael Hodges, Paul Jackson McWhorter
  • Publication number: 20030123788
    Abstract: The present invention is directed to off axis optical signal redirection architectures that employ positionable reflective microstructures (e.g. microelectromechanical (MEM) mirrors) fabricated on one or more substrates. In one embodiment, an optical signal redirection system (10) includes a reflective microstructure array (12) formed on a substrate (30). The reflective microstructure array (12) includes one or more reflective microstructures (14). Each of the reflective microstructures (14) includes an optically reflective surface (20) and is positionable with respect to the substrate (30) in order to orient its reflective surface (20) for redirecting optical signals (24) incoming from one or more originating locations (16) to one or more target locations (18).
    Type: Application
    Filed: January 3, 2002
    Publication date: July 3, 2003
    Inventors: Samuel Lee Miller, Paul Jackson McWhorter
  • Patent number: 6545385
    Abstract: A microelectromechanical (MEM) apparatus is disclosed which has a platform that can be elevated above a substrate and tilted at an arbitrary angle using a plurality of flexible members which support the platform and control its movement. Each flexible member is further controlled by one or more MEM actuators which act to bend the flexible member. The MEM actuators can be electrostatic comb actuators or vertical zip actuators, or a combination thereof. The MEM apparatus can include a mirror coating to form a programmable mirror for redirecting or switching one or more light beams for use in a projection display. The MEM apparatus with the mirror coating also has applications for switching light beams between optical fibers for use in a local area fiber optic network, or for use in fiber optic telecommunications or data communications systems.
    Type: Grant
    Filed: April 5, 2001
    Date of Patent: April 8, 2003
    Assignee: Sandia Corporation
    Inventors: Samuel Lee Miller, Paul Jackson McWhorter, Murray Steven Rodgers, Jeffry J. Sniegowski, Stephen M. Barnes
  • Publication number: 20030059153
    Abstract: The present invention provides a free space optical cross connect for switching optical signals between a plurality of optical signal ports to/from the switch interface. In one embodiment, a single chip 2N OXC (10) for switching optical signals (12) between any one of N input optical fibers (14) and any one of N output optical fibers (16) within a compact free space switch interface (18) includes N reflective microstructures (20) built/assembled on a substrate (30) and N positioning systems (40) associated with the reflective microstructures (20) that are also built/assembled on the substrate (30).
    Type: Application
    Filed: September 27, 2001
    Publication date: March 27, 2003
    Inventors: Samuel Lee Miller, Paul Jackson McWhorter, Murray Steven Rodgers, Stephen Matthew Barnes, Jeffry Joseph Sniegowski
  • Publication number: 20030057350
    Abstract: The present invention provides a MEM system (10) having a platform (14) that is both elevatable from the substrate (12) on which it is fabricated and tiltable with one, two or more degrees of freedom with respect to the substrate (12). In one embodiment, the MEM system (10) includes the platform (14), a pair of A-frame structures (40), and two pairs of actuators (30) formed on the substrate (12). Ends (46A) of rigid members (46) extending from apexes (40A) of the A-frame structures (40) are attached to the platform (14) by compliant members (48A, 48B). The platform (14) is also attached to the substrate (12) by a compliant member (48C). The A-frame structures (40) are separately pivotable about bases (40B) thereof. Each pair of actuators (30) is coupled through a yoke (32) and displacement multiplier (34) to one of the A-frame structures (40) and is separately operable to effect pivoting of the A-frame structures (40) with respect to the substrate (12) by equal or unequal angular amounts.
    Type: Application
    Filed: September 27, 2001
    Publication date: March 27, 2003
    Inventors: Samuel Lee Miller, Murray Steven Rodgers, Stephen Matthew Barnes, Jeffry Joseph Sniegowski, Paul Jackson McWhorter
  • Publication number: 20020171327
    Abstract: A microelectromechanical (MEM) apparatus is disclosed which has a platform that can be elevated above a substrate and tilted at an arbitrary angle using a plurality of flexible members which support the platform and control its movement. Each flexible member is further controlled by one or more MEM actuators which act to bend the flexible member. The MEM actuators can be electrostatic comb actuators or vertical zip actuators, or a combination thereof. The MEM apparatus can include a mirror coating to form a programmable mirror for redirecting or switching one or more light beams for use in a projection display. The MEM apparatus with-the mirror coating also has applications for switching light beams between optical fibers for use in a local area fiber optic network, or for use in fiber optic telecommunications or data communications systems.
    Type: Application
    Filed: July 9, 2002
    Publication date: November 21, 2002
    Inventors: Samuel Lee Miller, Paul Jackson McWhorter, Murray Steven Rodgers, Jeffry J. Sniegowski, Stephen M. Barnes
  • Publication number: 20010048265
    Abstract: A microelectromechanical (MEM) apparatus is disclosed which has a platform that can be elevated above a substrate and tilted at an arbitrary angle using a plurality of flexible members which support the platform and control its movement. Each flexible member is further controlled by one or more MEM actuators which act to bend the flexible member. The MEM actuators can be electrostatic comb actuators or vertical zip actuators, or a combination thereof. The MEM apparatus can include a mirror coating to form a programmable mirror for redirecting or switching one or more light beams for use in a projection display. The MEM apparatus with the mirror coating also has applications for switching light beams between optical fibers for use in a local area fiber optic network, or for use in fiber optic telecommunications or data communications systems.
    Type: Application
    Filed: April 5, 2001
    Publication date: December 6, 2001
    Inventors: Samuel Lee Miller, Paul Jackson McWhorter, Murray Steven Rodgers, Jeffry J. Sniegowski, Stephen M. Barnes
  • Patent number: 5680462
    Abstract: The present invention discloses a chaotic system-based information encoder and decoder that operates according to a relationship defining a chaotic system. Encoder input signals modify the dynamics of the chaotic system comprising the encoder. The modifications result in chaotic, encoder output signals that contain the encoder input signals encoded within them. The encoder output signals are then capable of secure transmissions using conventional transmission techniques. A decoder receives the encoder output signals (i.e., decoder input signals) and inverts the dynamics of the encoding system to directly reconstruct the original encoder input signals.
    Type: Grant
    Filed: August 7, 1995
    Date of Patent: October 21, 1997
    Assignee: Sandia Corporation
    Inventors: Samuel Lee Miller, William Michael Miller, Paul Jackson McWhorter