Patents Assigned to MEMX, Inc.
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Patent number: 7055975Abstract: 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: GrantFiled: March 12, 2002Date of Patent: June 6, 2006Assignee: MEMX, Inc.Inventors: Samuel Lee Miller, Murray Steven Rodgers, Stephen Matthew Barnes, Jeffry Joseph Sniegowski, Paul Jackson McWhorter
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Patent number: 6993818Abstract: Multiple cutting blades (56) are fabricated from a wafer (130). This wafer (130) is disposed on a blade handle mounting fixture (224) such that a blade handle (24) maybe mounted on each of the individual blades (56). A cutting edge (80) of each blade (56) is maintained in spaced relation to the fixture (224) as these blade handles (24) are being mounted. Thereafter, the wafer (130) is transferred to a blade separation fixture (300). Each blade 56 is suspended above the fixture (300). An appropriate force is transmitted to the individual blades (56) to separate the same from the wafer (130). Separation preferably occurs before the blade (56) contacts the fixture (300). Thereafter, the blade (56) in effect pivots into an inclined position where its cutting edge (80) projects at least generally upwardly. Preferably, at no time does the cutting edge (80) of any blade (56) contact either the blade handle mounting fixture (224) or the blade separation fixture (300).Type: GrantFiled: March 17, 2003Date of Patent: February 7, 2006Assignee: MEMX, Inc.Inventors: Norman Frank Smith, Samuel Lee Miller, Murray Steven Rodgers
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Patent number: 6989582Abstract: The present invention generally relates to a die perimeter region of a die having a microelectromechanical assembly fabricated thereon. This die perimeter region may be configured to facilitate electrically interconnecting adjacent die on a wafer. Moreover, this die perimeter region may be configured to facilitate separating the die from a wafer.Type: GrantFiled: June 6, 2003Date of Patent: January 24, 2006Assignee: MEMX, Inc.Inventors: Jeffry Joseph Sniegowski, Murray Steven Rodgers
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Patent number: 6954348Abstract: Various embodiments of tunable capacitors are disclosed. One embodiment is in the form of a tunable capacitor (368) having a pair of stationary capacitor electrodes (392) that are fixed to and disposed the same distance above a substrate (388) in the vertical dimension. A tuning element (416) is suspended above the substrate (388) by an elevation system (460) that accommodates movement of the tuning element (416) in the vertical dimension. Changing the capacitance of the tunable capacitor (368) is accomplished by moving the tuning element (416) in the vertical dimension.Type: GrantFiled: August 4, 2004Date of Patent: October 11, 2005Assignee: MEMX, Inc.Inventor: M. Steven Rodgers
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Patent number: 6944365Abstract: 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: GrantFiled: January 3, 2002Date of Patent: September 13, 2005Assignee: MEMX, Inc.Inventors: Samuel Lee Miller, Paul Jackson McWhorter
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Patent number: 6937131Abstract: Self-shadowed microelectromechanical structures such as self-shadowed bond pads, fuses and compliant members and a method of fabricating self-shadowing microelectromechanical structures that anticipate and accommodate blanket metalization process steps are disclosed. In one embodiment, a self-shadowed bond pad (10) configured for shadowing an exposed end (44A) of a shielded interconnect line (44) connected to the bond pad (10) from undesired metalization during a metalization fabrication process step includes electrically connected overlaying first, second and third bond pad areas (42, 72, 92) patterned from respective first, second and third layers (40, 70, 90) of material deposited on a substrate (20). The exposed end (44A) of the interconnect line (44) abuts an edge of the first bond pad area (42).Type: GrantFiled: November 12, 2004Date of Patent: August 30, 2005Assignee: Memx, Inc.Inventors: Murray Steven Rodgers, Samuel Lee Miller
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Patent number: 6919616Abstract: A chip having a microelectromechanical system fabricated thereon is disclosed that has both perimeter off-chip electrical contacts, as well as interior off-chip electrical contacts. The interior off-chip electrical contacts are not used for directing an off-chip signal onto the chip, or for reading out an on-chip a signal to an off-chip location. Instead, these interior off-chip electrical contacts are the result of an efficient way of designing the layout of die on a wafer from which the chip may be diced.Type: GrantFiled: March 16, 2002Date of Patent: July 19, 2005Assignee: MEMX, Inc.Inventor: Samuel Lee Miller
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Patent number: 6894420Abstract: The present invention is generally directed to a method and assembly for supporting an actuation apparatus (e.g. a movable electrostatic comb) of a microelectromechanical (MEM) system. A suspension assembly of the present invention generally resists actuation forces inherent to electrostatically controlled MEM systems by utilizing an opposingly-directed non-linear tensile force. This can be accomplished by utilizing a suspension assembly of the invention including a longitudinal center beam and a plurality of first and second lateral beams extending out from lateral sides of the center beam. When the center beam of the suspension assembly is drawn in a first direction due to the actuation force(s), either or both of the plurality of first lateral beams and the plurality of second lateral beams are stretched to exert a non-linear tensile force having a force vector component generally oriented in a second direction generally opposite the first direction.Type: GrantFiled: March 14, 2002Date of Patent: May 17, 2005Assignee: Memx, Inc.Inventor: Murray Steven Rodgers
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Patent number: 6875257Abstract: A particle filter for microelectromechanical systems is provided that includes a particle trap formed on a substrate material. The particle trap includes an array of multidimensional geometric structures in an adjacent relationship. The geometric structures further define a plurality of multidimensional voids therebetween for trapping particles therein. The individual multidimensional geometric structures are formed by a plurality of vertically interconnected geometric shapes to define different configurations of voids between the adjacent geometric structures. In one embodiment of the filter system, an electrical bias is applied to the array of multidimensional geometric structures to facilitate attracting and trapping of particles in the filter.Type: GrantFiled: August 20, 2002Date of Patent: April 5, 2005Assignee: MEMX, Inc.Inventor: Murray Steven Rodgers
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Patent number: 6864618Abstract: A microelectromechanical system is disclosed that uses a stiff tether between an actuator assembly and a lever that is interconnected with an appropriate substrate such that a first end of the lever may move relative to the substrate, depending upon the direction of motion of the actuator assembly. Any appropriate load may be interconnected with the lever, including a mirror for any optical application.Type: GrantFiled: October 17, 2003Date of Patent: March 8, 2005Assignee: Memx, Inc.Inventors: Samuel Lee Miller, Stephen Matthew Barnes, Murray Steven Rodgers
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Patent number: 6847152Abstract: 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: GrantFiled: October 30, 2003Date of Patent: January 25, 2005Assignee: MEMX, Inc.Inventors: Samuel Lee Miller, Murray Steven Rodgers, Stephen Matthew Barnes, Jeffry Joseph Sniegowski, Paul Jackson McWhorter
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Patent number: 6844657Abstract: A microelectromechanical system is disclosed that provides amplified movement without requiring the use of a displacement multiplier. Generally, a lever or the like is interconnected with a substrate on which the system is fabricated at a first location, while a free end of the lever is able to move relative to the substrate, typically at least generally about the first location. One or more actuators are movably interconnected with the substrate, and in turn are interconnected with the lever at a location that is somewhere between the free end and the first location. The lever may be configured to move at least generally away from the substrate upon movement of the actuator in one direction, at least generally toward the substrate upon movement of the actuator in another direction, or in any direction and in any manner. The movement of the “free” end of the lever may be used to perform any function, including lifting/pivoting a mirror away from/relative to the substrate.Type: GrantFiled: March 14, 2002Date of Patent: January 18, 2005Assignee: MEMX, Inc.Inventors: Samuel Lee Miller, Stephen Matthew Barnes, Murray Steven Rodgers
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Patent number: 6841464Abstract: A multi-level shielded multi-conductor interconnect bus for use in interconnecting MEM devices with control signal sources and a method of fabricating a multi-level shielded multi-conductor interconnect bus are disclosed. In one embodiment, a multi-level shielded interconnect bus (410A) formed on a substrate (20) includes first and second level electrically conductive lines (42, 92) arranged in sets of one, two or more conductive lines between first and second level electrically conductive shield walls (46, 66, 96). The first and second level electrically conductive lines (42, 92) are surrounded by various layers of dielectric material (30, 50, 80, 100). A first level electrically conductive shield (78) overlies the first level electrically conductive lines (42) and shield walls (46, 66). A second level electrically conductive shield (112) overlies the second level electrically conductive lines (92) and shield walls (96).Type: GrantFiled: April 30, 2003Date of Patent: January 11, 2005Assignee: MEMX, Inc.Inventors: Stephen Matthew Barnes, Samuel Lee Miller, Murray Steven Rodgers
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Patent number: 6831390Abstract: A microelectromechanical system is disclosed that uses a stiff tether between an actuator assembly and a lever that is interconnected with an appropriate substrate such that a first end of the lever may move relative to the substrate, depending upon the direction of motion of the actuator assembly. Any appropriate load may be interconnected with the lever, including a mirror for any optical application.Type: GrantFiled: March 14, 2002Date of Patent: December 14, 2004Assignee: MEMX, Inc.Inventors: Samuel Lee Miller, Stephen Matthew Barnes, Murray Steven Rodgers
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Patent number: 6831391Abstract: 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: GrantFiled: October 30, 2003Date of Patent: December 14, 2004Assignee: MEMX, Inc.Inventors: Samuel Lee Miller, Murray Steven Rodgers, Stephen Matthew Barnes, Jeffry Joseph Sniegowski, Paul Jackson McWhorter
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Patent number: 6824278Abstract: Self-shadowed microelectromechanical structures such as self-shadowed bond pads, fuses and compliant members and a method of fabricating self-shadowing microelectromechanical structures that anticipate and accommodate blanket metalization process steps are disclosed. In one embodiment, a self-shadowed bond pad (10) configured for shadowing an exposed end (44A) of a shielded interconnect line (44) connected to the bond pad (10) from undesired metalization during a metalization fabrication process step includes electrically connected overlaying first, second and third bond pad areas (42, 72, 92) patterned from respective first, second and third layers (40, 70, 90) of material deposited on a substrate (20). The exposed end (44A) of the interconnect line (44) abuts an edge of the first bond pad area (42).Type: GrantFiled: March 15, 2002Date of Patent: November 30, 2004Assignee: MEMX, Inc.Inventors: Murray Steven Rodgers, Samuel Lee Miller
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Patent number: 6813057Abstract: The invention is directed to improved optical crossconnnect switch configurations and implementations. In one embodiment, a beam directing unit (600) includes an input port array (601), input fixed mirrors (604), an input movable mirror array (606), an output movable mirror array (608), output fixed mirrors (610) and an output port array (611). The pitch of the input mirror array (606) is one-half the pitch of the input port array (601) and the pitch of the output mirror array (601) and the pitch of the output mirror array (608) is one-half the pitch of the output port array (611). In addition, in a reference orientation, each of the mirrors of array (606) directs beams to a common centerpoint of output array (608), and each of the mirrors (608) directs beams to a common centerpoint of array (606).Type: GrantFiled: September 27, 2001Date of Patent: November 2, 2004Assignee: Memx, Inc.Inventor: Samuel Miller
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Patent number: 6808275Abstract: The present invention is generally directed to a method and assembly for elevating and supporting a microstructure of a MEM system generally by engaging a positioning system of the MEM system with a first elevator lifter. The MEM system generally includes a first microstructure (such as a mirror) disposed in vertically spaced relation to a substrate. The positioning system generally includes an actuator assembly movably interconnected with the substrate, an elevator pivotally interconnected with the substrate and further interconnected with the microstructure, and a tether interconnecting the actuator assembly and the elevator. The first elevator lifter is provided to engage the elevator to lift/elevate the microstructure away from the substrate generally after fabrication of the MEM system and prior to utilizing the microstructure in operation of the MEM system.Type: GrantFiled: October 9, 2003Date of Patent: October 26, 2004Assignee: MEMX, Inc.Inventor: Murray Steven Rodgers
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Publication number: 20040204726Abstract: A blade separation fixture (300) is disclosed. A wafer (130) is positioned on the fixture (300). This wafer (130) includes a plurality of cutting blades (56) that are initially spaced above the fixture (300). Blade handles (24) will typically already have been mounted on each of the various cutting blades (56) at this time. In any case, each of the various cutting blades (56) are separated from the wafer (130) by applying an appropriate downwardly directed force. Separated blades (56) in effect pivot into an inclined position against the fixture (300) without having their corresponding cutting edges (80) contact the fixture (300).Type: ApplicationFiled: March 17, 2003Publication date: October 14, 2004Applicant: MEMX, INC.Inventors: Samuel Lee Miller, Norman Frank Smith, Stephen Matthew Barnes, Jeffry Joseph Sniegowski
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Patent number: 6794793Abstract: 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: GrantFiled: September 27, 2001Date of Patent: September 21, 2004Assignee: Memx, Inc.Inventors: Samuel Lee Miller, Murray Steven Rodgers, Stephen Matthew Barnes, Jeffry Joseph Sniegowski, Paul Jackson McWhorter