Patents Represented by Attorney Michael L. Sheldon
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Patent number: 5220838Abstract: An overpressure-protected, differential pressure sensor (37) is formed by depositing diaphragm material (24) over a cavity (23) formed and filled with sacrificial material (22) into a front surface of a substrate. The sacrificial material (22) is then removed to create a free diaphragm. The floor of the cavity (23) defines a first pressure stop to limit the deflection of the diaphragm in response to pressure applied to the top of the diaphragm. A port (33) is created to allow pressure to be applied to the bottom side of the diaphragm (24). An optional second pressure stop, which limits the deflection of the diaphragm in response to pressure applied to the bottom side of the diaphragm, is formed by bonding a cap (35) to standoffs (34) placed around the top of the diaphragm. The standoffs are spaced to allow pressure to be applied to the top of the diaphragm.Type: GrantFiled: March 28, 1991Date of Patent: June 22, 1993Assignee: The Foxboro CompanyInventors: Clifford D. Fung, Kevin H.-L. Chau, P. Rowe Harris, John G. Panagou, Gary A. Dahrooge
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Patent number: 5040997Abstract: A flex circuit connector assembly of the present invention includes folding one end of a flex circuit having contact pads to form a male contact portion. The male contact portion is then inserted into a female socket of an edge connector for electrically interconnecting the contact pads of the flex circuit to mating contacts disposed in the female socket of the edge connector. The edge connector includes pins for mounting it to a receptacle of a wired circuit.Type: GrantFiled: June 8, 1990Date of Patent: August 20, 1991Assignee: The Foxboro CompanyInventor: Ronald N. Garner
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Patent number: 5003827Abstract: A vortex sensor 14 for measuring a flow rate of a fluid flowing through a flow passage. The flow rate is measured by detecting alternating pressure variations 26a and 28a generated by a shredding body 16 placed in the flow passage. The vortex sensor 14 includes a sensor housing 32 having two cavities 44 and 46 interconnected by a channel 42. An Axle 52 of a spool member 34 is slideably disposed in the channel 42 and allows each of two flange members 54 and 56, connected proximate each end of the axle 52, to shuttle back and forth with respect to the sensor housing 32. A piezoelectric sensing element 62, 64 and a biasing mechanism 58, 60 are disposed between the flange members 54 and 56 and the sensor housing 32. The alternating pressure variations are applied to each flange member 54, 56 causing the spool member 34 to shuttle back and forth. When the spool 34 moves, mechanical forces are coupled to each sensing element 62 and 64 by biasing mechanisms 58 and 60.Type: GrantFiled: December 22, 1989Date of Patent: April 2, 1991Assignee: The Foxboro CompanyInventors: Richard W. Kalinoski, Gordon W. Chitty, James H. Vignos
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Patent number: 4993265Abstract: A solid state measurand sensor is described in which the pressure sensor element is protected from the measurand by a combination of a pressure transfer medium and a thin covering membrane. A method is described for forming the diaphragm in situ. The diaphragm material is selected from a group of materials which includes fluorosilicone, so as to substantially avoid entrapment of air or formation of voids in the pressure transfer medium such as would degrade the performance of the sensor. The pressure transfer medium is gel-like material such as dimethyl silicone and equivalents. Alternatively, the gel may be fluorosilicone and the diaphragm may be dimethyl silicone. The membrane material is chosen to be substantially impermeable to the ambients or process media being measured and also flexible, is to be poured and cured in place on the assembly during fabrication.Type: GrantFiled: June 5, 1989Date of Patent: February 19, 1991Assignee: The Foxboro CompanyInventors: Edward F. Koen, Richard Tasker
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Patent number: 4959515Abstract: A micromechanical electric shunt is fabricated by micromachining according to recent IC fabrication procedures. A plurality of such shunts is incorporated on a single substrate to form novel process station or post identification or signature encoding apparatus for use on a telecommunications bus or the equivalent. Such identification of signature encoding apparatus may be configured for conventional binary coding. Both frequency and current derivative mode apparatus are disclosed.Type: GrantFiled: February 6, 1987Date of Patent: September 25, 1990Assignee: The Foxboro CompanyInventors: Paul M. Zavracky, Richard H. Morrison, Jr.
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Patent number: 4878315Abstract: A guide for the grinding of a surface of an object having a region to be exposed, including at least two conductive leads and a conductive control track. Each conductive lead is associated with a different face of the object, and the control track interconnects the leads and extends across the surface to be ground which lies between the faces. At least a portion of the rear edge of the track is precisely located with respect to a predetermined grinding depth of the region so that a break in the track occurs with the grinding of the surface to that grinding depth.Type: GrantFiled: December 29, 1986Date of Patent: November 7, 1989Assignee: The Charles Stark Draper Laboratory, Inc.Inventors: Thomas F. Dawson, Paul C. Ewing
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Patent number: 4876897Abstract: It has been discovered that vortex flowmeters can be suitably adapted for the measurement of two-phase fluid flows, and particularly for the measurement of steam quality, when disposed in a particular manner in horizontal flowpipes carrying such fluids. More specifically, the invention disclosed includes the disposition of a substantially linear vortex flowmeter horizontally and transversely in a horizontal flowpipe to measure two-phase fluid flows, for example, wet steam quality. When the mass flow rate is not determinable through knowledge of the feedstock, other sensors enable measurement of the vapor phase volumetric area and velocity to permit calculation of the flow measurand.Type: GrantFiled: December 10, 1987Date of Patent: October 31, 1989Assignee: The Foxboro CompanyInventors: Joseph P. DeCarlo, Thomas M. Kegal
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Patent number: 4859999Abstract: A system for rapidly generating an image of a pattern in successive lines each being formed of a plurality of pixels, the system storing the previously generated line, producing one or more replacement pixels, and providing successively generated lines of the image by selectively delivering stored pixels or replacement pixels in accordance with commands defining the boundaries of the pattern. The pixels of the previously generated line are updated with the replacement pixels.Type: GrantFiled: July 21, 1986Date of Patent: August 22, 1989Assignee: Gerber Scientific Instrument Company, Inc.Inventor: Dusan A. Koso
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Patent number: 4827418Abstract: A expert system form of artificial intelligence for control of air traffic which may also be utilized for air traffic controller training. The expert system receives input data representing the altitude and heading of all aircraft in the control area. The aircraft data is compared with the data of the other aircraft. Sequencing and local flow control is optimized and if a potential conflict arises between two aircraft, clearances are transmitted to the aircraft to resolve the conflict. The aircraft data is also compared with a knowledge base of air traffic control rules for the particular airport involved. An inference engine written in LISP (or another AI language) allows real time access to the knowledge base. The position and heading of each aircraft is monitored and controlled until turned over to the tower for final approach. The expert system may also be used for air traffic controller training and be used as a intelligent tutor.Type: GrantFiled: November 18, 1986Date of Patent: May 2, 1989Assignee: UFA IncorporationInventor: Arthur Gerstenfeld
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Patent number: 4815824Abstract: A liquid crystal analog display device that displays along a predetermined path defined by a path outline. It includes a backplane defining the path outline; a plurality of display segments disposed along the path; a display segment backplane; a plurality of outline segments associated with the display segments for further defining the path outline; means for applying an electric potential to the display and outline segments; means for applying an electric potential to the path outline backplane so that there is an a.c. field across the path outline segment and the path outline backplane sufficient to maintain the path outline image; and means for selectively applying an electric field across the display segments and the display segment backplane for establishing an analog image display. There is also disclosed means for applying an electric potential to the backplane defining picket outlines so that there is an a.c.Type: GrantFiled: February 23, 1988Date of Patent: March 28, 1989Inventor: Kenneth R. Sharples
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Patent number: 4801810Abstract: An elliptical reflector illumination system for inspection of printed wiring boards including an elliptical reflector element for mounting above the board to be inspected with a region of the board generally at a first elliptical focus of the reflector element. There is a light source mounted generally at a second elliptical focus of the elliptical reflector element for illuminating substantially all facets of the region of the board at the first focus. One or more detectors are provided for sensing light reflected from the illuminated facets of at least a portion of the illuminated region of the board at the first focus.Type: GrantFiled: July 13, 1987Date of Patent: January 31, 1989Assignee: Gerber Scientific, Inc.Inventor: Dusan A. Koso