Abstract: Provided is a temperature compensating pressure sensor. The sensor includes a silicon substrate having sealed channels on which is deposited a CMOS layer, and a conductive layer and a passivation layer deposited on the CMOS layer, the conductive layer representing a first electrode. The sensor also includes a conductive active membrane spaced from the conductive layer to form an active chamber, and a conductive reference membrane spaced from the conductive layer to form a sealed reference chamber. Also included is a cap which covers the membranes, said cap having a channel to expose the active membrane to an outside fluid pressure, with the membranes representing a second electrode. The active membrane deflects due to differential stresses so that the first and second electrodes develop a capacitance C between them depending on the electrical permittivity of the fluid, with the reference membrane providing a temperature compensating reference capacitance.

Abstract: A system for inducing shock may include a first slap plate attached to a shaker armature of a shaker table system to impart a shock to any object being tested by the system. The shock is amplifiable by use of the first slap plate compared to the object being coupled to the shaker armature without the first slap plate. The system may also include a specific attachment arrangement for attaching the first slap plate to the shaker armature. The specific attachment arrangement and a configuration of the first slap plate may be selected to control a level of shock imparted to the object being tested.

Abstract: A brake cable tension monitoring assembly and method for use with a brake actuator installed in an operative position in a motor vehicle. The tension monitoring assembly for sensing tension applied to at least one brake cable connected to a brake actuator installed in an operative position in a vehicle. The brake actuator including a lever movable in applying and releasing directions and the brake actuator being constructed such that tensioning of the cable forces the lever in the releasing direction. The monitoring assembly including a sensing device including a sensor, the sensing device being removably positioned between the lever and a surface and constructed and arranged to sense the movement of the lever in the releasing direction when the cable is being tensioned while the sensing device directly contacts the lever and the surface.

Abstract: A rotation sensor for outputting a pulse signal, which has a frequency corresponding to a rotation speed of a rotor, to a wire. The rotation sensor includes a modulation unit and an output unit. The modulation unit modulates an information signal representing information other than the rotation speed into a carrier wave having a frequency higher than the frequency of the pulse signal. The output unit superimposes and outputs to the wire the pulse signal and the carrier wave. Accordingly, the rotation sensor performs stable information transmission that is not dependent on the rotation speed of the rotor.

Abstract: A weight part (12) is supported by a beam part (26) in a slim piece shape supported by a frame-shaped support part (10), and the beam part (26) is provided with a piezoresistance element (20) as a transducing element that transduces a mechanical variation to an electrical variation, so that a mechanical variation of the weight part (12) is transmitted to the piezoresistance element (20) via the beam part (26). Then, the beam part (26) is constructed by stacking the silicon nitride film (16) and a resin film (18) such as a polyimide film.

Abstract: An apparatus and method for canceling variations in the beta for a bipolar junction transistor so that the diode equation can be employed to accurately measure the temperature of the transistor based at least in part on a ratio of two target collector currents and two measurements of the base-emitter voltage of the transistor. If the determined collector current of the transistor is relatively equivalent to one of the first and second target collector currents, the transistor's base-emitter voltage is measured and stored. An analog feedback circuit can be employed to change the determined collector current to be relatively equivalent to the first and second target collector currents. The analog feedback circuit can include an optional sample and hold component to further reduce power consumption and reduce noise. A digital circuit can be employed to change the determined collector current to be relatively equivalent to the first and second target collector currents.

Abstract: A capacitive pressure sensor includes a substrate assembly. The substrate assembly includes a conductive layer and defines a plurality of channels terminating in closed ends. A conductive membrane is mounted to the substrate assembly so that a sealed reference chamber including the channels is defined by the conductive membrane and the substrate assembly. A cap is mounted relative to the substrate assembly and defines one or more apertures so that an antechamber is defined by the cap and the conductive membrane. Differential pressure between the reference chamber and antechamber can cause deflection of the conductive membrane which, in turn, varies the capacitance between the conductive membrane and conductive layer.

Abstract: A method and a device for obtaining the three components (u,v,w) of the air speed (TA) of an aircraft along its flight path, the device including an arm (2) provided with two pressure probes disposed at each of its ends, each probe having two pressure intakes.

Abstract: A structure includes a structure surface and a protective cover. The protective cover includes a circuit having a component, a moisture detector, and a radio frequency transmitter. The component is adhesively connected to the structure surface with an adhesive connection. The moisture detector is positioned to provide information about moisture in the protective cover. The circuit is for providing data derived from the component and from the moisture detector to the radio frequency transmitter for external transmission. The component may be a strain sensor. The moisture detector may be a capacitor. A moisture barrier may also be provided.

Abstract: The invention describes apparatuses and methods of monitoring fatigue, structural response, and operational limits in structural components. More particularly, the present invention relates to fatigue, response, and operational monitoring systems on steel catenary risers using optical fiber sensors. The sensors can be pre-installed on new risers, or post-installed sub-sea on existing risers, using a variety of methods.

Abstract: A sheet material information detection device has an external force applicator that applies an external force to a sheet material, a drive unit that drives the external force applicator, and an external force detector that detects through the sheet material the external force applied by the external force applicator. The drive unit produces motion vectors in at least two directions including a direction perpendicular to a surface of the sheet material.

Abstract: A screwdriver is disclosed comprising a base, a carriage moveably coupled to the base, an actuator operable to move the carriage relative to the base, and a slider comprising an attached screw bit, wherein the slider is coupled to the base through the carriage and the slider is moveably coupled to the carriage such that the slider and attached screw bit move together relative to the carriage. The screwdriver further comprises a position detector operable to detect a position of the slider relative to the carriage. In one embodiment, the carriage is moved relative to the base to move the screw towards the work surface. After the screw contacts the work surface, the carriage is moved further relative to the base causing the slider to move relative to the carriage, and the movement of the slider relative to the carriage is detected using the position detector.

Abstract: The present invention relates to a printer which includes a print unit, a supply unit for the supply of substrate, said supply unit containing a first holder for rotatably receiving a first web of a first substrate wound into a roll, and a second holder for rotatably receiving a second web of a second substrate wound into a roll, a first motor for driving the first roll and a second motor for driving the second roll, an actuating unit for actuating the motors and a switch for connecting the actuating unit to the first or second motor, and a control unit, by means of which the switch connects the actuating unit to the first motor when the printer is configured for printing a first substrate, and the switch connects the actuating unit to the second motor when the printer is configured for printing the second substrate.

Abstract: A multi-axis sensor chip provided by the invention includes a semiconductor substrate having an action part having an external force action area part and non-deforming area parts, a support part supporting the action part, and connecting parts connecting the action part to the support part. The sensor chip also has strain resistance devices provided on deforming parts of the connecting parts and has temperature-compensating resistance devices provided on the non-deforming area parts. Temperature compensation is carried out exactly by means of the temperature-compensating resistance devices when an external force or a load acts on the action part, and highly accurate stress detection can be carried out.

Abstract: A magnetostrictive load sensor includes an upper casing, a lower casing, a coil, and a bobbin. The upper casing having an approximate bell shape has an upper end that is provided with an opening and a lower end that is provided with a notch. The lower casing includes a disk-shaped member and a bar-shaped member that are integral with each other. The coil is formed by winding a conducting wire around the bobbin. A predetermined position of the bobbin is provided with a lead wire outlet for taking out the conducting wire of the coil. A method of manufacturing the magnetostrictive load sensor includes inserting the bar-shaped member into the axial center of the bobbin, and covering the lower casing with the upper casing. In this way, the notch of the upper casing and the lead wire outlet of the bobbin are fitted with each other. An upper end of the bar-shaped member projects through the opening of the upper casing.

Abstract: A method of determining the degree of calibration of an RTP chamber (1) includes providing a test wafer having a deposited sichrome layer (22) of sheet resistance Rsi on an oxide layer (21) formed on a silicon substrate (20). The test wafer is annealed in the RTP chamber for a selected duration at a selected anneal temperature which is measured by the a permanent thermocouple or pyrometer (8). The sheet resistance of the annealed sichrome is measured, and a sheet resistance change ?Rs=Rsi?Rsf is computed. The “actual” value of the anneal temperature is determined from predetermined characterizing information relating ?Rs to a range of values of anneal temperature. The RTP chamber is re-calibrated if in accordance with the value of ?Rs if the difference between the “actual” value of the anneal temperature and the value measured by the permanent thermocouple or pyrometer exceeds an acceptable error.

Abstract: An apparatus and a method are provided for determining a position of a patient during medical examinations. The apparatus comprises a tabletop operable to support the patient, at least one elongatable strain gauge which is integrated into the tabletop, and tabletop sensors operable to detect a sagging of the tabletop as a function of a change in length of the at least one elongatable strain gauge due to the sagging.

Abstract: There is provided a differential scanning calorimeter possessing an accommodation chamber accommodating a sample to be measured and a reference material, a heater heating the accommodation chamber, a differential heat flow detector outputting a temperature difference between the sample to be measured and the reference material as a heat flow difference signal, a cooling block cooling-controlled to a predetermined temperature, a heat resistor which mechanically connects the cooling block and the accommodation chamber and forms a heat flow path between both, a first fixation means which fixes the heat resistor to the cooling block by pressing the former while being biased by a constant elastic force, and a second fixation means which fixes the accommodation chamber to the heat resistor by pressing the former while being biased by a constant elastic force.

Abstract: A pressure monitoring system provides a pressure sensor and a body that has a first coefficient of thermal expansion and includes at least one opening for accessing a process fluid. At least one isolation diaphragm is coupled to the body and positioned in the at least one opening. The at least one isolation diaphragm has a first surface in communication with the process fluid. At least one passageway is located in the body and configured to contain a fill fluid in communication with a second surface of the first isolation diaphragm. The at least one passageway is positioned between the first isolation diaphragm and the pressure sensor. At least one expansion chamber is coupled to the first passageway and includes an insert having a second coefficient of thermal expansion. The first coefficient of thermal expansion of the body is greater than the second coefficient of thermal expansion of the insert.

Abstract: By bringing a golf ball into collision with a collisional plate and measuring a coefficient of dynamic friction at this collision, contact force at the time of collision between an actual golf club and the golf ball is analyzed and spin rate of the golf ball is estimated. This invention provides a method for measuring a coefficient of dynamic friction between a golf ball and a collisional plate when the golf ball collides with the collisional plate disposed aslant at a predetermined angle with respect to a flying direction of the golf ball. The method includes concurrently obtaining a time function Fn(t) of contact force in the direction perpendicular to the collisional plate, and a time function Ft(t) of contact force in the direction parallel with the collisional plate; and determining as a coefficient of dynamic friction, a maximum value of a time function M(t) of ratio between Fn(t) and Ft(t) represented by M(t)=Ft(t)/Fn(t).