Abstract: The present invention relates to a process and a system for reducing leakage of LO to the RF-port (LLO) in a real system that converts the frequency of a first signal, i.e. the LO signal, by mixing the first signal with a second supplied signal SI to a third signal SO of a frequency that is different from the frequency of the first and second signal. More specifically the invention relates to a process and a system that are applied to suppress LLO in real image reject balanced passive mode transistor mixers. Further, the invention also relates to a balanced passive mode transistor mixer and an image reject balanced mixer to be used in said process and system.
Abstract: The biodegradable acting material is made from starch with various additives such as nucleators and plasticizer. The blowing agent used for foaming of the starch material may be alcohol or water. The material is made by mixing a charge of starch, nucleator and plasticizer to form a flowable mass which is then injected on the fly with the blowing agent, i.e. alcohol and/or water. Thereafter, the flowable mass is extruded through a dye and is either cooled to form a latent-foaming material or is allowed to expand into a foamed state. The starch which is used may be a corn starch, potato starch or the like.
Type:
Grant
Filed:
June 2, 1997
Date of Patent:
April 20, 2004
Inventors:
Harry Bussey, Jr., Buddy Harry Bussey, III
Abstract: The over-the-needle catheter is provided with a septum seal within the hub of the catheter. The introducer needle passes through the septum seal and into the catheter. Upon removal of the introducer needle, the septum seal reseals so that blood is prevented from flowing from the patient out of the hub. A male luer adaptor is used to form a connection, for example, to an IV bag by pushing the seal onto a tube secured within the hub and communicating with the catheter or, in another embodiment, by pushing a piercing ring through a slit in the septum seal to form a permanent lumen.
Abstract: An elongated channel protector has an end wall that precludes axial displacement of the protector along an elongated rail car plug door operating handle in one direction. Angle shaped members extend from the protector laterally for engaging a cover appurtenance on the door for precluding axial displacement of the protector in the opposite direction. A pair of legs depend from the protector side walls and have aligned holes for receiving a bolt seal. Tubular elements surround the holes to protect the seal head and locking body. The seal is seated beneath the handle which is covered by the protector locking the protector to the handle.
Type:
Grant
Filed:
June 11, 2001
Date of Patent:
March 2, 2004
Assignee:
Transguard Industries, Inc.
Inventors:
Terrence N. Brammall, Craig B. Hamilton, Stanley Gilbert
Abstract: A description is given of a method for operating a measuring instrument (10) fitted onto the surface (16) of a fluid carrying body (18), in particular a hollow body such as a pipe, which transports multiphase fluid flows, especially fluids containing solid particles, wherein acoustic data related to fractions and amounts of the different phases in the fluid flow are registered.
Abstract: The seat belt module is electronically controlled using magneto-rheological fluid. A CPU delivers a signal to an electromagnetic coil within the module at the beginning of a crash to cause the viscosity of the magneto-rheological fluid to increase sufficient to lock the spool on which the seat belt is wound against rotation. Thereafter, a subsequent signal is delivered by the CPU to the coil to reduce the magnetic field and the viscosity of the magneto-rheological fluid allowing the spool to be unwound in a programmed manner so as to reduce the forces imposed on an occupant by the seat belt. The CPU may be pre-programmed in response to signals from sensors throughout the vehicle that deliver signals corresponding to the characteristics of the occupant and may be programmed in response to signals from these sensors and from an air bag to respond in real time.
Abstract: A polishing bar is provided with a plurality of backings that are carried via blocks of impact absorbent material on a bar of greater stiffness. Each backing is shaped with two surfaces at an angle to each other. A polishing tape is disposed over the angled surfaces of each backing. The portion of the polishing tape over the forward surface of the backing is employed to polish the angled edge of the top wafer of a rotating bonded wafer pair.
Abstract: The wafer edge processing unit may be a stand alone unit or may be incorporated in existing grinding machines. The processing unit employs a plurality of tapes which are coated with differing grades of grit to sequentially polish the edge of a rotating wafer or to remove an edge bead from a processed wafer or the other substrate. The tapes are mounted on a backing block which is rotated to move the tapes from a line contact with the top bevel of the wafer to a line contact with the bottom bevel of the wafer. Fresh surfaces of the tapes are presented to successive wafers by rotating the spools on which the tapes are mounted. The wafer may be moved in small increments along a Y-axis and/or an X-axis relative to a tape during polishing to improve the polishing operation.
Abstract: A davit device (20) is arranged suspended over an associated boat (123) onboard a ship (25) or similar vessel. Horizontally, telescopically displaceable davit arms (121, 121) can move the boat (123) from a parking position to a launching position, and vice versa, while a hoisting device (122) can move the boat (23, 123) vertically. In that the hoisting device (122) is secure to the radially innermost, axially extendable telescope part (121a, 121a) of the davit arms (121,121), the vertical and horizontal movements can be carried out independently, in a controlled way.
Abstract: The bagging machine has a rotary table with openings to receive a series of bags. Each bag is staked onto four pins two of which are stationary and two of which are laterally movable. After filling, the bag is heat sealed using a pair of heat seal bars and then severed by a fly knife above the heat seal. The bag is then removed manually or automatically.
Type:
Grant
Filed:
November 30, 2001
Date of Patent:
August 12, 2003
Inventors:
Harry Bussey, Jr., Harry (Buddy) Bussey, III.
Abstract: The bag filling and forming machine employs a chute for conveying a flow of loose fill material, a form for enveloping a sheet of plastic film about the chute, a heat-seal roller for sealing the overlapped edges of the film to form a tube and heat-seal bars for sealing the tube at spaced apart positions to form the top and bottom of bags. A pair of conveyors are provided for continuously moving the formed tube relative to the chute and fingers are provided for spreading the tube into a flattened configuration for heat-sealing purposes. A hot wire or cutting knife is provided for cutting off a filled bag after heat-sealing.
Type:
Grant
Filed:
November 29, 2001
Date of Patent:
July 8, 2003
Inventors:
Harry Bussey, Jr., Buddy Harry Bussey, III
Abstract: The method of compacting agglomerated powder comprises the steps of receiving a mass of agglomerated powder of random sizes; separating the mass into at least three distinct range of sizes including a fine range, a medium range and a coarse range; and thereafter compacting the agglomerated powder of each of the ranges into green briquettes, each of which is characterized in having a self-supporting structure to permit handling for a subsequent sintering operation to form a bonded compacted mass.
Abstract: The method and an apparatus provide for the automatic provision and transfer of a reserve lap (WR) from a reserve position (RP) to a working position (AP) in a machine (K1 to K3) for processing wound laps and for the automatic discharge of an empty tube (H) from the working position (AP). The conveying system (K, 4) is provided to convey wound laps (W) or empty tubes (H) individually or in groups between a lap-processing (K1 to K3) and a lap-forming machine (KV). The control unit (8) of the conveying system (K, 4) is connected with a central control unit (ST) which is connected with the control unit (21, 22, 23) of the respective lap-processing machine (K1 to K3), with a conveyor (T) in the lap-forming machine (Ky), as well as with the control unit (20) of the lap-forming machine (Ky), and a transfer device (58, 60, 61, 63) which can be controlled via the control unit (21,22,23) of the respective lap-processing machine (K1 to K3).