Abstract: A device for measuring current in a line supplied by a voltage with noise includes a shunt mounted in series in the line, a floating shunt signal amplifier, a floating supply to supply the floating amplifier with a voltage that follows the supply voltage of the shunt, and a differential amplifier whose inputs are connected, on the one hand, to an input terminal of the shunt, and, on the other hand, to the output of the floating amplifier.

Abstract: An armature lift assembly for a fuel injector is disclosed. The assembly includes a body having an upstream end, a downstream end, and a longitudinal body channel extending therethrough and an armature/needle assembly which is reciprocably disposed in the body along the longitudinal body channel. The assembly further includes a first tube having an upstream end, a downstream end fixedly connected to the upstream end of the body, and a first tube channel. The assembly also includes a second tube located within the first tube channel and fixedly connected to the first tube. The second tube has an upstream end and a downstream end. The downstream end of the second tube is spaced a distance from the upstream end of the armature/needle assembly approximately equal to a lift distance of the armature/needle assembly. A method of setting armature/needle lift in a fuel injector is also disclosed.

Abstract: A fuel injector for an internal combustion engine is disclosed. The fuel injector includes a housing, a valve seat, a metering orifice, and a needle. The housing has an inlet, an outlet, and a longitudinal axis extending therethrough. The valve seat is disposed proximate the outlet and includes a passage having a sealing surface and an orifice. The metering orifice is located at the outlet and has a plurality of metering openings extending therethrough. The needle is reciprocally located within the housing along the longitudinal axis between a first position wherein the needle is displaced from the valve seat, allowing fuel flow past the needle, and a second position wherein the needle is biased against the valve seat, precluding fuel flow past the needle. A generally annular channel is formed between the valve seat and the metering orifice. The channel tapers outwardly from a large height to a smaller height toward the orifice openings.

Abstract: A valve, system, and method for controlling evaporative emissions of a volatile fuel. The system includes a fuel vapor collection canister, an isolation valve, and a fuel tank. The isolation valve includes a housing defining a chamber, a diaphragm movable with respect to the housing between a first configuration and a second configuration, and a coil spring biasing the diaphragm toward the first configuration. The housing includes an interior partition that defines an aperture and separates the housing into first and second sections, a first port that is in fuel vapor communication with the fuel vapor collection canister, and a second port. In the first configuration, the diaphragm occludes the aperture, divides the chamber into three sub-chambers, and substantially prevents fuel vapor flow between the first and second ports. In the second configuration, the diaphragm divides the chamber into two sub-chambers and permits generally unrestricted fuel vapor flow between the first and second ports.

Abstract: An apparatus for use in components such as servo-valves, regulators and injectors for stabilizing system oscillations. The apparatus includes an armature having at least one groove formed on an exterior surface thereof; a sleeve, the armature being movably disposed in the sleeve; and a spring member disposed in the at least one groove in the armature and in sliding contact with the sleeve wherein the spring member exerts a radially outwardly directed spring force against the sleeve. A method of stabilizing an electromagnetically operated actuator comprises providing an armature having at least one groove formed on an exterior surface thereof; providing a sleeve wherein the armature is movably disposed in the sleeve; and disposing a spring member in the at least one groove in the armature and in sliding contact with the sleeve whereby the spring member exerts a radially outwardly directed spring force against the sleeve.

Abstract: A fuel injector for use with an internal combustion engine. The fuel injector comprises a valve group subassembly and a coil group subassembly. The valve group subassembly includes a tube assembly having a longitudinal axis that extends between a first end and a second end; a seat that is secured at the second end of the tube assembly and that defines an opening; an armature assembly that is disposed within the tube assembly; a member that biases the armature assembly toward the seat; an adjusting tube that is disposed in the tube assembly and that engages the member for adjusting a biasing force of the member; a filter that is located at the first end of the tube assembly and that has an integral retaining portion; an O-ring that circumscribes the first end of the tube assembly and that is maintained by the retaining portion of the filter; and a first attachment portion.

Abstract: A method of manufacturing a fuel injector is disclosed. The method includes assembling a power group assembly with a valve group assembly to form the fuel injector. The power group assembly includes an overmold formed over a coil assembly. The valve group assembly includes a tube assembly formed by connecting an inlet tube to a valve body. The valve body includes a seat, a lower guide, and an armature/ball assembly disposed within the valve body. A retention member can be used to retain the power group assembly to the valve group assembly.

Abstract: A method of leak detection in a closed vapor handling system of an automotive vehicle, wherein an engine is shut off, implemented by a system, the method including obtaining a start temperature and start pressure, providing an evaluation temperature, calculating a temperature differential between the start temperature and the evaluation temperature, evaluating whether a pressure switch is closed if the temperature differential is greater than a temperature control value, incrementing a time counter if the pressure switch is not closed and comparing the time counter to a time control value if the pressure switch is not closed.

Abstract: A fuel injector preferably has a body, a closure member, a piezoelectric device, and a hydraulic thermal compensator. The body extends along an axis. The closure member is displaceable with respect to the body between a first configuration and a second configuration. The first configuration prevents fuel flow through the body, and the second configuration permits fuel flow through the body. The piezoelectric device displaces the closure member from the first configuration to the second configuration. The compensator is coupled with the piezoelectric device and includes a first tube, a second tube, a piston, and fluid. The first tube extends along the axis from a first end portion that occludes the first tube. The first end portion contiguously engages a first one of the body, the closure member, and the piezoelectric device. The second tube is telescopically received in the first tube.

Abstract: A fuel injector has a fuel inlet, a fuel outlet, and a fuel passageway extending along an axis between the fuel inlet and the fuel outlet. The fuel injector comprises a body, an armature, a spring, and a spring stop. The body has an inlet portion, an outlet portion, and a passage disposed between the inlet portion and the outlet portion. The armature is disposed within the passage and is displaceable along the axis relative to the body. The spring is disposed within the passage and applies a biasing force to the armature. The spring has a first end disposed proximate the armature and a second end opposite from the first end. The spring stop is disposed within the passage and has a first and second portion. The first portion includes at least one projection engaging the passage. The at least one projection extends obliquely with respect to the axis and in a direction general toward the inlet portion.

Abstract: An armature lift assembly for a fuel injector is disclosed. The assembly includes a body having an upstream end, a downstream end, and a longitudinal body channel extending therethrough and an armature/needle assembly which is reciprocably disposed in the body along the longitudinal body channel. The assembly further includes a first tube having an upstream end, a downstream end fixedly connected to the upstream end of the body, and a first tube channel. The assembly also includes a second tube located within the first tube channel and fixedly connected to the first tube. The second tube has an upstream end and a downstream end. The downstream end of the second tube is spaced a distance from the upstream end of the armature/needle assembly approximately equal to a lift distance of the armature/needle assembly. A method of setting armature/needle lift in a fuel injector is also disclosed.

Abstract: An improved magnetostrictive actuator is provided. The actuator includes combinations of magnetostrictive alloy compositions and prestress values to provide improved temperature response for automotive applications, such as fuel injectors, without the need for complex electronic controls.

Abstract: A fuel injector comprises a body having a longitudinal axis, a length-changing solid state actuator that has first and second ends, a closure member coupled to the first end of the solid state actuator, and a compensator assembly coupled the second end of the solid state actuator. The solid state actuator includes a plurality of solid state elements along the axis between the first and second ends. The closure member is movable between a first configuration permitting fuel injection and a second configuration preventing fuel injection. And the compensator assembly axially positions the solid state actuator with respect to the body in response to temperature variation. The compensator assembly utilizes a configuration of at least one spring disposed between two pistons so as to reduce the use of elastomer seals to thereby reduce a slip stick effect.

Abstract: The present invention provides a flow-through pressure regulator which is self-contained. The flow-through pressure regulator includes a housing having an inlet and an outlet offset along an axis. The housing is separated by a valve assembly into a first chamber and a second chamber. The valve assembly is disposed between the inlet and the outlet along the axis. The valve assembly has a closure member that permits or inhibits flow.

Abstract: A fuel assembly is provided. The fuel assembly includes a fuel supply conduit, an air intake manifold, a fuel injector, and a spacer. The air intake manifold is disposed a predetermined distance from the fuel supply conduit. The fuel injector has a first end disposed in the fuel supply conduit and a second end disposed in the air intake manifold. The fuel injector has a length greater than the predetermined distance. The spacer is disposed about a portion of the fuel injector such that the spacer retains the first end of the fuel injector in the fuel supply conduit and the second end of the fuel injector in the air intake manifold. Methods of installing and removing the fuel injector into and from the fuel supply conduit and the air intake manifold are also provided.

Abstract: A connection and a method of providing a connection includes a fluid tight communication between a valve and a tube. The valve includes a first surface, a second surface, a cavity, and an aperture extending through the valve between the first and second surfaces. The tube includes a first portion, a second portion and a third portion between the first and second portions. The first portion penetrates the first surface and extends through the aperture into the cavity. The third portion is deformed so as to engage the second surface.

Abstract: A fuel injector for an internal combustion engine is disclosed. The fuel injector includes a housing, a valve seat, a metering orifice disc, and a needle. The housing has an inlet, an outlet, and a longitudinal axis extending therethrough. The valve seat is disposed proximate the outlet and includes a passage having a sealing surface and an orifice. The metering orifice disc is located at the outlet and has a plurality of metering openings extending therethrough. The needle is reciprocally located within the housing along the longitudinal axis between a first position wherein the needle is displaced from the valve seat, allowing fuel flow past the needle, and a second position wherein the needle is biased against the valve seat, precluding fuel flow past the needle. A generally annular channel is formed between the valve seat and the metering orifice disc. The channel tapers outwardly from a large height to a smaller height toward the orifice openings.

Abstract: A fuel injector comprises a body having a longitudinal axis, a length-changing actuator that has first and second ends, a closure member coupled to the first end of the length-changing actuator, and a compensator assembly coupled the second end of the actuator. The length-changing actuator includes first and second ends. The closure member is movable between a first configuration permitting fuel injection and a second configuration preventing fuel injection. And the compensator assembly axially positions the actuator with respect to the body in response to temperature variation. The compensator assembly utilizes a configuration of at least one spring disposed between two pistons so as to reduce the-use of elastomer seals to thereby reduce a slip stick effect. Also, a method of compensating for thermal expansion or contraction of the fuel injector comprises providing fuel from a fuel supply to the fuel injector; and adjusting the actuator with respect to the body in response to temperature variation.

Abstract: A fuel injector for an internal combustion engine is disclosed. The fuel injector includes a housing, a valve seat, a metering orifice, and a needle. The housing has an inlet, an outlet, and a longitudinal axis extending therethrough. The valve seat is disposed proximate the outlet and includes a passage having a sealing surface and an orifice. The metering orifice is located at the outlet and has a plurality of metering openings extending therethrough. The needle is reciprocally located within the housing along the longitudinal axis between a first position wherein the needle is displaced from the valve seat, allowing fuel flow past the needle, and a second position wherein the needle is biased against the valve seat, precluding fuel flow past the needle. A generally annular channel is formed between the valve seat and the metering orifice. The channel tapers outwardly from a large height to a smaller height toward the orifice openings.

Abstract: An air mass flow controller valve for fuel cells that includes an inlet, a plurality of first and second passages and at least two air mass sensors, seat positions, closure members and actuators. The inlet is disposed along a first axis and coupled to a housing, which has first and second banks of outlets disposed along second and third axes. The first and second banks of outlets are in communication with the inlet and are coupled to the plurality of first and second passages. One of the at least two air mass sensors is disposed proximate the plurality of first passages and the other one is disposed proximate the plurality of second passages. One of the at least two seat portions is disposed between the plurality of first passages and the other one is disposed between the plurality of second passages. One of the at least two closure members is disposed proximate the plurality of first passages and the other one is disposed proximate the plurality of second passages.