Abstract: A heat exchanger includes a housing which maintains a first section that has a first inlet and a first outlet, and a second section that has a second inlet and a second outlet. At least one conductive plate extends between the first section and the second section, wherein the conductive plate transfers heat from a fluid flowing in one of the sections to another fluid flowing in the other of the sections. The sections may be positioned side-by-side such that the fluids' flow is coplanar, or co-curvilinear, and non-intersecting.

Abstract: An emergency oxygen system for aircraft passengers includes a hermetically welded sealed oxygen cylinder of stainless steel, a welded metal diaphragm sealing a discharge port and an extended hermetically sealed capillary tube for charging the cylinder with pressurized oxygen. A hollow piston cutter is driven to pierce the metal diaphragm as part of a first passageway delivering oxygen to the passenger. A second passageway delivers any leaking oxygen to a release port when the piston cutter is in position. A method of filling the cylinder includes welding to the cylinder a member having a metal diaphragm of a predetermined rupturable characteristic and using the open capillary tube to fill oxygen in the cylinder and subsequently crimping a portion of the capillary tube to provide a hermetic seal. A pressure gauge can be hermetically sealed to the bottom of the oxygen cylinder.

Abstract: Magnetostrictive sensing systems and methods are disclosed. One such system comprises a magnetostrictive wire having first and second ends. A magnet is movable along a length of the magnetostrictive wire. An excitation device is operable to apply an electrical excitation signal to the magnetostrictive wire. A torsional motion sensor is operable to detect a torsional motion of the magnetostrictive wire. A reflective termination is configured to reflect the torsional motion of the magnetostrictive wire. A processor is in communication with the excitation device and the torsional motion sensor. The processor is programmed to (i) apply the electrical excitation signal to the magnetostrictive wire with the excitation device, (ii) identify whether the torsional motion detected by the torsional motion sensor has been reflected by the reflection termination, and (iii) calculate a position of the magnet along the magnetostrictive wire based on only the detected torsional motion reflected by the reflection termination.

Abstract: A calibration apparatus for temperature probes comprising an elongate calibration chamber (1) with an opening (2) for receiving an insert (3) that has passages (4) for receiving temperature probes (6), and wherein the chamber (1) has several heat energy elements (-11) that are controlled by temperature probes (12-14). In the insert as such one or more external probes (7) are provided, each of which has one or more temperature sensors to the effect that at least two sensors (19, 20 or 15, 17) are provided at respective dissimilar distances to an end of the insert (3). The latter sensors are connected to electronic regulation (20, 23) and measurement units (21, 24) for regulating the supply of power to the heat energy elements.

Abstract: A sheet of titanium alloy that is less than 0.015? thick has adequate plasticity for subsequent forming into at least a part of a medical device that is MR-Conditional. A method for making the titanium alloy sheet includes cold rolling a titanium alloy to form a sheet having an average thickness less than or equal to 0.015?, cutting the sheet to length, and vacuum annealing the sheet in a final step, wherein the sheet following vacuum annealing has adequate plasticity for subsequent forming into at least a part of a medical device that is MR-Conditional. Neither grinding nor chemical etching is used to reduce the thickness of the titanium alloy when processing the sheet.

Abstract: A temperature calibration device 1, comprising a calibrator block 3 having a cavity 4 and one or more heating elements and at least one temperature sensor being thermally coupled to the calibrator block 3, and where the heating elements and the temperature sensor is connected to a control system being adapted for controlling the temperature of the calibrator block 3, and where the calibrator block 3, at least partly, is surrounded by thermally insulating material 5. A number of channels 9 are arranged in the calibrator block 3 or the insulation material 5, and being connected to a gas supply 6, and where the control system is adapted for activating or deactivating the gas supply.

Abstract: Total air temperature (TAT) measurement systems, apparatus, and methods for measuring TAT within an airflow are disclosed. A TAT within an airflow may be measured by (1) positioning a probe within an airflow, the probe including an airfoil and a wedge defining a single channel, the single channel including a temperature sensor; (2) receiving a portion of the airflow through the single channel; and (3) determining TAT for the received portion of the airflow using measurements from the temperature sensor.

Abstract: An apparatus and system for measuring levels of two or more materials maintained within a storage tank using a combination of both a capacitance sensor and a time domain reflectometry (“TDR”) waveguide sensor is disclosed. The apparatus includes a combined circuit for the capacitance sensor and TDR sensor that creates a separation between the return signal from the capacitance sensor and the TDR sensor. The need for the return signal separation is due to the generation of false reflection signals from the capacitance circuitry. In a preferred embodiment, the separation in time is created by moving the capacitance false reflections further in time than the true signal returns. An alternative preferred embodiment would delay the true TDR signals passed the capacitance false reflections. Another alternative preferred embodiment would provide a substantially matched impedance of the capacitance circuit to the TDR circuit, to substantially eliminate the false reflections.

Abstract: Adjustable constant force spring systems are disclosed. An adjustable constant-force spring system includes first and second rolled metal strips and a spool. The first strip is rolled around a first axis. The first strip has an inner end adjacent the first axis and an outer end configured for selective attachment to a load. The second strip is rolled around the first axis such that the second strip overlaps the first strip. The second strip has an inner end adjacent the first axis and an outer end configured for selective attachment to the load. The spool is located on a second axis parallel to and spaced from the first axis. The spool is sized to enable the first strip to reroll around the spool.

Abstract: A cable assembly and a connector assembly is disclosed. The cable assembly includes a cable having a connector assembly attached on one end and a plurality of conductor pairs extending through the cable, wherein each conductor in a first conductor pair is equidistant to each conductor in a second conductor pair adjacent to the first conductor pair. The connector assembly includes a housing and a plurality of connector contact pairs extending through the housing, wherein each connector contact is associated with one of the conductors in the cable assembly and each connector contact in a first connector contact pair is equidistant to each connector contact in a second connector contact pair adjacent to the first connector contact pair. The connector assembly may be hermetically sealed.

Abstract: A brushless axial flux electromagnetic resolver comprising a stator carrying output and excitation windings and an inductive rotor having two substantially annular members arranged substantially perpendicular to the axis of rotation of the rotor, wherein each of the annular members has a lobe which is helically skewed along the rotor and wherein the lobes of the annular members are angularly offset from one another to provide a discontinuity in the helical skew between the annular members.

Abstract: An electrocardiography (ECG) electrical cable, that includes a plurality of insulated conductors, a conductive shield surrounding the plurality of insulated conductors and an insulating jacket surrounding the plurality of insulated conductors and the conductive shield. Also, each of the plurality of insulated conductors includes a low noise coating and the insulated conductors are tightly bound together by a semi-conductive wall interposed between the insulated conductors and the shield, thereby reducing rubbing, which can produce triboelectric effects.

Abstract: The invention relates to a temperature calibrating system (1) comprising a thermo siphon, a heat pipe or an equivalent (2) connected between a cooling unit (4) and a temperature calibration unit (3), where the system (1) further comprises an external chamber (8) connected to the heat pipe/thermo siphon or equivalent (2) for controlling the thermal conductivity between the two units and where the temperature of the external chamber (8) is held at a certain temperature, for example ambient temperature or a temperature controlled by external means. The external chamber (8) can be connected to the heat pipe/thermo siphon (2) via a conduit (9) which connection point is placed above liquid level at a evaporating end of the heat pipe/thermo siphon (2) and in that the external chamber (8) is arranged below the connection between the conduit (9) and the heat pipe/thermo siphon (2).

Abstract: A motor-fan unit includes an end plate assembly, a motor assembly supported by the end plate assembly, and a shaft rotated by the motor assembly and extending through the end plate assembly. The fan assembly further includes a discharge shell, a tapered stationary fan which has a concave underside, and a rotating fan secured to the rotatable shaft and disposed between the discharge shell and the stationary fan. The tapered stationary fan includes a fan side which is substantially parallel and aligned with the frusto-conical shape of the fan disc of the rotating fan. A tapered fan shell is supported by the discharge shell and held in place by the stationary fan. A fan shroud secures the stationary fan and the fan shell to the discharge shell to prevent damage to a rotating fan secured to the shaft and positioned between the fan shroud and the stationary fan.

Abstract: A motor-fan unit includes an end plate assembly, a motor assembly supported by the end plate assembly, and a shaft rotated by the motor assembly and extending through the end plate assembly. The fan assembly further includes a fan secured to the rotatable shaft which is supported by the end plate assembly. The fan includes a fan disc having a substantially frusto-conical shape, a fan ring having a substantially frusto-conical shape, and a plurality of vanes connecting the fan disc to the fan ring such that the frusto-conical shapes are substantially parallel to one another. A diffuser with a tapered fan side is also provided between the fan and the end plate assembly, wherein the tapered fan side is substantially parallel with the fan disc.

Abstract: A labyrinth seal for a bypass discharge-type motor-fan unit includes a motor unit from which extends a rotating shaft that passes through an aperture in an end plate to drive a fan unit. Disposed within the aperture is a labyrinth seal configured to prevent liquid entrained in a working airflow from entering the motor unit. The rotating shaft also includes a vacuum bore, such that the negative pressure generated by the operation of the fan unit draws any liquid out of an evacuation zone maintained between the motor unit and the end plate. As such, the components of the motor unit are protected from being exposed to the liquid, thereby extending the operating life motor-fan unit.

Abstract: The system contains a voltage reference input positioned to be compared to an initial generator output voltage of an engine generator control unit by a subtractor circuit. A resistive voltage divider has at least one input series resistor, a subtractor input, at least two secondary resistors, and a ground. The input series resistor is disposed between the voltage reference input and the subtractor input. The secondary resistors are disposed between the subtractor input and the ground. At least two transistor switches connected between the secondary resistors and the ground. The reduced generator output voltages are from the input series resistor and the secondary resistors.

Abstract: A mixed flow fan assembly includes an electric motor, an impeller having a hub enclosing the motor, and a plurality of fan blades spaced circumferentially around the hub. The fan assembly also includes an axis of rotation extending through the hub, an annular venturi radially surrounding the impeller, and a mounting plate with an opening to allow for axial airflow positioned on one open end of the venturi. The venturi has at least one elongated slot to allow for radial airflow from the fan assembly, the slot being oriented substantially perpendicular to the axis of rotation and having a generally rectangular shape. Rotation of the hub and the fan blades caused by the electric motor generates both axial and radial airflow through the fan assembly.

Abstract: A temperature calibration device 1, comprising a calibrator block 3 having a cavity 4 and one or more heating elements and at least one temperature sensor being thermally coupled to the calibrator block 3, and where the heating elements and the temperature sensor is connected to a control system being adapted for controlling the temperature of the calibrator block 3, and where the calibrator block 3, at least partly, is surrounded by thermally insulating material 5. A number of channels 9 are arranged in the calibrator block 3 or the insulation material 5, and being connected to a gas supply 6, and where the control system is adapted for activating or deactivating the gas supply.

Abstract: A Modbus data protocol register formatting system and method are disclosed. The system and method provide for the Modbus communications protocol request and recall of data stored in a register in the data base native format, and the conversion of the data into a different requested format. The system and method similarly provide for the writing of data into a device register from a known variable format into the data base native format. The ability to convert the data by a format converter after recalling the data, or before storing the data, obviates the need to store or write data in different or multiple formats. The inventive method uses a modified register mapping that comprises defined mapping elements identifying the data address location, the requested data format, along with the data variable. The register mapping is fully variable to provide for a wide range of data formats and data address formats.