Abstract: A compensator added to the hydraulic circuit of an ocean profiler. The compensator stores energy by compression of gas during descent and expansion of the gas during ascent, thereby reducing the work required of the active buoyancy mechanism. The pressure from the external liquid medium in which the vehicle is submerged provides the energy, a portion of which is stored within the compensator.

Abstract: A system and corresponding method for generating electric power from a rotating tire's mechanical energy concerns a power generation device with a piezoelectric structure and a power conditioning module. The piezoelectric structure preferably comprises a plurality of piezoelectric fibers embedded in a generally unidirectional fashion within an epoxy matrix. Such piezoelectric structure additionally comprises interdigital electrode layers on opposing sides of the fiber/epoxy matrix configuration. The piezoelectric structure is preferably mounted within a tire structure such that electric charge is generated therein as the wheel assembly moves along a ground surface. Electrode layers within the piezoelectric structure are coupled to a power conditioning module that rectifies the resultant electric current from the piezoelectric structure and stores it in an energy storage device, preferably an electrolytic capacitor.

Abstract: The method according to the invention allows to determine the yaw angle of a satellite from the reading of two different sensors measuring the roll and/or pitch angles, provided that the reference point of the two sensors are not identical. A description is given basically for geostationary satellites but the method can be applied directly to satellites which are stationary with respect to any star. The method can be employed for circular and non-circular orbits.

Abstract: A method for acquiring a radiographic image of an elongated object, comprising: positioning an elongated object between a source of x-rays and a digital image capture device having an imaging dimension which is less than a like dimension of said elongated object; wherein said image source is stationary and said source projects an x-ray pattern which encompasses said elongated object; moving said digital image capture device in a direction parallel to said known imaging dimension to sequential contiguous stationary positions to acquire a sequence of radiographic images of said elongated object; and moving an assembly of x-ray opaque material which is positioned between said source of x-rays and said elongated object, and which has an opening for allowing passage of x-rays, such that said opening is synchronized with the movement of said digital image capture device to facilitate acquisition of said sequence of radiographic images at said stationary positions.

Abstract: A pressure measuring device includes a housing which retains a pressure responsive element interconnected to an indicating member that moves relative to a dial face when a change of pressure is detected. A peripheral bumper is mounted to the housing exterior, the bumper including an extending portion which creates a discontinuous path for shock or impact loads applied to the bumper relative to a continual movement mechanism. The housing can further include a discontinuous region imposed in an engagement portion of the housing, the engagement portion permitting the housing to be directly attached to an inflatable blood pressure sleeve.

Abstract: A capacitive pressure sensor for measuring a pressure applied to an elastic member includes a capacitive plate disposed adjacent to the elastic member so as to define a gap between a planar conductive surface of the elastic member and a corresponding planar surface of the capacitive plate. The gap, capacitive plate and elastic member together define a capacitor having a characteristic capacitance. The sensor further includes an elongated electrical conductor characterized by an associated inductance value. The conductor is fixedly attached to and electrically coupled with the capacitive plate. The gap between the capacitive plate and the elastic member varies as a predetermined function of the pressure applied to the elastic member so as to vary the characteristic capacitance. The capacitor and the electrical conductor together form an electrical resonator having a characteristic resonant frequency. Varying the capacitance of this tank circuit varies the resonant frequency of the tank circuit.

Abstract: A diaphragm-type semiconductor pressure sensor includes a substantially rectangular (110) semiconductor substrate, which has four sides, an active surface of (110) crystallographic face orientation, and a back surface, which is opposite to the active surface, of (110) crystallographic face orientation. Each of the surfaces is surrounded by the four sides. Each of the four sides is at an angle of substantially 45 degrees with a crystallographic axis of <110> orientation that is substantially parallel to the active surface. The substrate includes a diaphragm in the active surface. The diaphragm has been formed by forming a recess in the back surface. The diaphragm includes a gauge resistor. A pressure is detected on the basis of the variation in the resistance of the gauge resistor.

Abstract: A semiconductor pressure sensor is presented. The pressure sensor includes a silicon substrate with a diaphragm that produces a distortion depending on the pressure. Strain gauges are provided on the main surface side of the silicon substrate with the diaphragm and are formed by conductive diffusion resistors different from the substrate. A getter is provided on the main surface side of the silicon substrate including the periphery of the strain gauges adjacent to the strain gauges. The getter includes the PN-junction area to which reverse bias is impressed so that the metal impurities of at least an Fe atom that are contained in the silicon substrate may be captured.

Abstract: The invention concerns a pressure sensor (1), able to operate at high temperature and measure the pressure of a hostile medium, comprising: a sensing element (4) integrating a membrane (8) in monocrystalline silicon carbide, made by micro-machining a substrate in polycrystalline silicon carbide, a first surface of membrane (8) intended to contact said medium, a second surface of membrane (8) comprising membrane deformation detection means (9) connected to electric contacts (10) to connect electric connection means (11), the surfaces of sensing element (4) contacting said medium being chemically inert to this medium; a carrier (5) to support sensing element (4) so that said first surface of membrane (8) may be contacted with said medium and the second surface of membrane (8) may be shielded from said medium, carrier (5) being in polycrystalline silicon carbide; a seal strip (6), in material containing silicon carbide, brazed between carrier (5) and sensing element (4) to protect the second surface of membra

Abstract: A system for monitoring deformations of a tire fitted on a rim associated with a vehicle includes a reflecting element positioned on an inner surface of the tire and a moving station located in a predetermined position on the rim. The reflecting element reflects an optical beam and includes a region having at least one area of high light reflection and at least one area of low light reflection. The moving station sends the optical beam toward the inner surface, receives one or more reflections of the optical beam from the inner surface or the reflecting element, and emits a signal proportional to the deformations of the tire in a longitudinal direction, in a transverse direction, and in a vertical direction.

Abstract: A port fitting is formed with a closed, pedestal end forming a diaphragm on which a strain gauge sensor is mounted. A support member is received on the pedestal end and is formed with a flat end wall having an aperture aligned with the sensor. A portion of a flexible circuit assembly is bonded to the flat end wall with a connector disposed over the support member. A tubular outer housing is fitted over the several components and its bottom portion is welded to the port fitting while its top portion places a selected load on an O-ring received about the connector as well as internal components of the transducer. In one embodiment, a loading washer (72a) is disposed over the O-ring on a first portion (70a) of a two portion connector (70) and retained by a second connector portion (70b). Protrusions (76a1) formed on the tubular housing (76) pass through cut-outs in the second connector portion to place a load on the loading washer.

Abstract: This invention relates to a tire testing device, and in particular to a device for testing the tires of aircraft. The tire testing device includes a pressure sensor and a temperature sensor, allowing the calculation of the effective pressure at a reference temperature, so that the tires can be tested hot or cold. The device also includes an oxygen sensor, so that the oxygen content of the tire can be determined at the same time.

Abstract: An apparatus intended to reduce or eliminate human tissue damage caused by under- or over-inflation of air-filled bodily support cushions by sensing the internal air pressure and alerting the user to that pressure. The apparatus uses a simple, inexpensive, analog or digital gauge connected to the exterior of cushions, such as those cushions used on the seats of wheelchairs. It can also use an audible warning activated by the gauge, indicating cushion pressure outside a pre-set range of values. The apparatus also includes a valve that can be used to release or add pressure to the cushion. Further, the length of the apparatus can be varied so that the outlet valve can be easily accessed and/or the gauge can be easily viewed.

Abstract: The invention relates to a method for determining the response pressure of motor vehicle brakes, according to which the brakes to be inspected are subjected to a test pressure, whereby before and after the creation of the test pressure, a test-pressure indicator signal is generated, which is a linear combination of an acceleration signal and a differential speed signal. If the two test-pressure indicator signals correspond, (considered to be a “non-response of the brakes”), the test-pressure is increased and a new test-pressure indicator signals do not correspond, the prevailing brake pressure is considered to be the response pressure.

Abstract: A differential pressure transmitter for sensing a physical variable related to a process fluid of an industrial system having a main body and a secondary body. The main body comprises a containment enclosure and a base that is associated with the containment enclosure. The secondary body comprises a first connection element that comprises a first coupling surface at which the secondary body is associated with the base of the main body. The secondary body comprises at least one second connection element that comprises a second coupling surface at which the second connection element is associated with the first connection element. The second connection element is rigidly connected to the first connection element to reduce edge effects on a separation membrane and to constitute a single mechanical structure together with said first connection element that is not separable into constituent parts of the first connection element and the second connection element.

Abstract: The invention relates to a method for capping an electric lamp which has a lamp cap with at least one thermoplastic synthetic cap part (21). In particular, the invention relates to a method for cementless capping of a compact fluorescent lamp. According to the invention, the lamp vessel (1) is sealed with the aid of the thermoplastic synthetic cap part (21) by heating sections (101, 102) of the lamp vessel (1) above the softening point and preferably above the melting point of the thermoplastic, and introducing them into constricted cutouts (210) in the thermoplastic synthetic cap part (21). The heated lamp vessel sections (101, 102) soften or melt and displace the synthetic material in the region of the constricted cutouts (210). The lamp vessel (1) is embedded in the set synthetic in a self-closed fashion after the polymer melt has been allowed to set.

Abstract: A cathode for a miniature X-ray device includes an insulating shell, a cathode and an anode. The cathode includes a focusing cup formed into an end. The focusing cup can include a thin metal layer that conforms to an inner surface of the cathode. An emitting material having a low work function, such as diamond, is deposited directly onto the internal surface of the focusing cup. The anode has a flat receiving surface for collecting electrons emitted from the anode. An interior coating is applied as a circumferential belt on the interior surface of the insulating shell. The interior coating, formed of a negative secondary emission yield material, extends lengthwise in the region of the cathode to an anode gap, covering the region of the insulating shell most likely to be subject to stray electrons emitted from the cathode.

Abstract: A port fitting is formed with a closed, pedestal end forming a diaphragm on which a strain gauge sensor is mounted. A support member is received on the pedestal end and is formed with a flat end wall having an aperture aligned with the sensor. A portion of a flexible circuit assembly is bonded to the flat end wall with a connector disposed over the support member. A tubular outer housing is fitted over the several components and its bottom portion is welded to the port fitting while its top portion places a selected load on an O-ring received about the connector as well as internal components of the transducer. In one embodiment, a loading washer (72a) is disposed over the O-ring on a first portion (70a) of a two portion connector (70) and retained by a second connector portion (70b). Protrusions (76a1) formed on the tubular housing (76) pass through cut-outs in the second connector portion to place a load on the loading washer.

Abstract: Device for tubeless tire bead engagement and inflation, generally for tire removal machines (1) having a unit for supporting and locking a wheel (wheel rim+tire) (5-15) in a bedded position, comprises a movable implement to be associated with the structure of the tire removal machine, and generally shaped as a handlebar the handles (9) of which are lowerly provided with at least one compressed air delivery nozzle (11), said handlebar being able to move between a rest position in which it is spaced from said bedded wheel, and a working position in which said nozzles, retained thereat by the operator, extend beyond the upper bead retention flange (55) of the wheel rim (5) to blow air below it at the command of said operator.

Abstract: A non-contaminating pressure transducer module having an isolation member is disclosed. The isolation member isolates a pressure sensor within the transducer module from exposure to ultra high purity fluids flowing through a conduit in the module without significantly affecting the accuracy of the pressure measurement. The transducer module may be positioned within a fluid flow circuit carrying corrosive materials, wherein the pressure transducer module produces a control signal proportional to either a gauge pressure or an absolute pressure of the fluid flow circuit. The pressure transducer module of the present invention also avoids the introduction of particulate, unwanted ions, or vapors into the flow circuit.