Abstract: A printed circuit board assembly adapted for immersion cooling is disclosed. The assembly includes a first circuit board having a first device side with a first portion configured to mount a first plurality of semiconductor devices. A second circuit board having a second device side with a second portion configured to mount a second plurality of semiconductor devices is disposed in confronting parallel relationship to the first circuit board. The assembly further includes a border element interposed between the first and second boards and disposed around the respective first and second portions. The border element cooperates with the first and second boards to form a liquid-tight container. An inlet formed in the border receives an electrically nonconducting liquid that is subsequently discharged through an outlet.

Abstract: A device for measuring the AC voltage drop across a series of connections under load with no direct electrical contact to the conductors. The presence of a substantial resistance at series contacts is indicative of a series arcing fault. The device comprises a capacitive probe for clamping to the outer insulation layer of the wire to sense a first voltage at a first node. The device further comprises a floating high-impedance meter having a ground reference coupled to the source of common-mode voltage at a second node, the floating high-impedance meter being adapted to measure a voltage difference between the two nodes and being further adapted to indicate the presence of the series fault when the measured voltage exceeds a predetermined level.

Abstract: A proximity detector having a housing and issuing an output signal whose state is a function of the position of a target or of the frequency of passage of a target, where the detector parameters can be set by an operator using operator dialog facilities communicating with the detector by dialog signals. The dialog facilities are separated from the detector housing and can be incorporated into a connection block connected to the detector housing by a connecting cable which conveys the dialog signals and the detector output signal.

Abstract: It is an object to obtain a semiconductor device having a circuit for CBCM (Charge Based Capacitance Measurement) which can measure a capacitance value with high precision. An MOS transistor constituting a circuit for CBCM has the following structure. More specifically, source-drain regions (4) and (4?) are selectively formed in a surface of a body region (16), and extension regions (5) and (5?) are extended from tip portions of the source-drain regions (4) and (4?) opposed to each other, respectively. A gate insulating film 7 is formed between the source-drain regions (4) and (4?) including the extension regions (5) and (5?) and a gate electrode (8) is formed on the gate insulating film (7). A region corresponding to a pocket region 6 (6?) in a conventional structure having a higher impurity concentration than that of a channel region is not formed in a tip portion of the extension region 5 (5?) and a peripheral portion of the extension region (5).

Abstract: The invention relates to a method for detecting accidental arcs (arc tracking) on a cable (1), especially on a cable of an aircraft electrical system. According to said method, an alternating current signal (I(t)) that has been detected is sampled time-discretely and a trigonometric function (I(k)) imitating the alternating current characteristic is determined by interpolation of a number of sampling values (y(k)). The current alternating frequency (?) is then derived from this trigonometric function. The result of a comparison of the current alternating current frequency (?) and a set or reference frequency (??) is used to determine the presence of an accidental arc (ISA,IGA) and a warning signal (Sarc) is optionally generated. A device which functions according to this method is advantageously integrated into a circuit-breaker (7) for the aircraft electrical system, so that the latter is equipped to detect and deactivate accidental arcs that occur on the electrical system cable (1).

Abstract: Methods of and systems for balancing the capacitance of a common series capacitive circuit in a semiconductor-based sensor, such as a humidity sensor, are described. Relative humidity sensors can provide measurements via a series capacitive circuit including a humidity-sensitive dielectric separating a common top plate and first and second bottom plates associated with a first and second capacitor, Cx1 and Cx2. For proper operation, the common top plate should be in capacitive balance. Capacitive balance can be achieved by creating voids within and/or along the common top plate of the sensor. A system for creating voids can include a precision cutting instrument, a measuring device for enabling the measurement of capacitance of at least one of the common series capacitive circuit, Cx1 and Cx2, and power provided from a voltage source.

Abstract: A circuit arrangement for detecting the capacitance or capacitance change of a capacitive circuit element or component, in which there is a capacitive noise voltage compensation element, which corresponds to the sensor capacitor, represented as a noise voltage compensation capacitor, and a noise voltage compensation electrode of the noise voltage compensation capacitor, which corresponds to the first electrode of the sensor capacitor, is connected to the second electrode of a storage capacitor. The noise voltage compensation capacitor can be influenced in the same way as the sensor capacitor by the LF noise voltage. In this way, the adulteration of the measurement result by LF noise voltages which otherwise occurs no longer takes place.

Abstract: An AC powered device detecting the presence of a conducting fluid using a source of detecting current through the fluid other than a grounded supply. All paths between the source of current and the fluid include large impedances, termed protecting impendances. The protecting impedances are sufficient to prevent the fluid from posing a shock hazard should the source have or develop a connection to AC. Protection does not rely on the isolation of the source from AC. The source may be either AC or an ungrounded supply generated by the device. Using AC as the source of detecting current eliminates the need to generate an ac signal to limit plating. The sensing circuit may remain isolated by using AC leakage current to drive the sensing means. Fluid detection is possible in devices in which the fluid is in contact with a probe, typically the chassis, whether the probe is grounded as intended or is floating.

Abstract: A distortion measurement method uses alternative measurements to determine the distortion of a DUT, depending on the ratio of the distortion at an output of the DUT to distortion of a source stimulating the DUT. The method includes calibrating the VNA at a distortion frequency, measuring a first gain of the DUT with the source and the receivers of the VNA set to the distortion frequency, and measuring a second gain of the DUT with the source of the VNA set to a fundamental frequency and the receivers of the VNA set to the distortion frequency. When the second gain is less than a predesignated threshold, a match-corrected source signal is acquired and used with the first gain and the second gain to determine the distortion of the DUT. When the second gain is not less than the predesignated threshold, a match-corrected DUT output signal is measured and used with the first gain and the second gain to determine the distortion of the DUT.

Abstract: A capacitance position sensor includes a pair of opposed tabular electrodes, an LC oscillator circuit having a toroidal core winding and whose oscillating frequency varies with change in capacitance between the pair of electrodes, and an arithmetic processing unit for calculating an absolute value of a distance between the electrodes from the oscillating frequency of the oscillator circuit. A position controller includes a stationary member formed with one electrode of the pair of electrodes of the position sensor, a movable member on which the other electrode of the pair of electrodes is formed, and moving device for moving the movable member relative to the stationary member.

Abstract: A fermentation controller correctly controls fermentation and produces a required material by fermentation. The fermentation controller (3) controls fermentation in a material production unit (1) that produces a material by fermentation. The controller (3) includes a capacitance sensor (63) to detect a capacitance change representative of a fermenting state in the material production unit and a memory (77) to store a reference capacitance change representative of a reference fermenting state. The controller compares the detected capacitance change with the reference capacitance change and controls fermentation in the material production unit according to the comparison result.

Abstract: A method and apparatus for measuring quantities of a multi-phase electric line, the apparatus comprising a control unit and a measurement unit in connection with each phase conductor of the electric line, wherein each measurement unit is arranged to measure a first phase quantity of the phase conductor in connection with which it is located and to transfer the measured quantity value to the control unit, the measurement unit located in connection with one phase conductor being further arranged to measure phase angles between the first phase quantity of said phase conductor and first phase quantities of other phase conductors and to transfer the measured phase angle values to the control unit.

Abstract: A method and architecture that uses a ground-fault-circuit-interrupter (“GFCI”) proximate the tap to provide fault protection along a Low Power Network drop cable. The solution is single-ended and effective regardless of the input, impedance and type of termination equipment, such as an NIU, connected thereto. The GFCI may be incorporated into a single enclosure that includes a power passing tap and filter device, such as a low pass filter and a splitter. Application will typically be in a CATV network employing center core powering or Siamese powering. Ground fault protection is provided to personnel that contact an energized conductor of the drop cable who would therefore otherwise become an electrical path between the energized conductor and ground. A device providing this protection is typically mounted along a network cable proximate a tap point reasonably is inaccessible, except to service personnel.

Abstract: An anechoic test chamber for testing an electromagnetic loss characteristic of a material specimen has first and second opposed and tapered conical sections. The chamber has an anechoic material covering its inside surface. Feed and receive antennas are disposed on the ends of the conical sections. An aperture plate is disposed between the first and second sections. The aperture plate electromagnetically isolates the first and second conical sections except for the aperture itself. A method of determining an electromagnetic loss characteristic of a material specimen utilizes a dual tapered conical chamber for processing S-parameter measurements to determine impedance, complex permittivity, or complex permeability of the specimen.

Abstract: A voltage probe includes a first signal lead configured to receive a first signal from a device under test, a first probe-tip network that is coupled to the first signal lead and that has a frequency response that includes a first transmission zero, a first compensation network that is coupled to the first probe-tip network and that has a frequency response that includes a first transmission pole, a second signal lead configured to receive a second signal from the device under test, a second probe-tip network that is coupled to the second signal lead and that has a frequency response that includes a second transmission zero, a second compensation network that is coupled to the second probe-tip network and that has a frequency response that includes a second transmission pole, and a differential amplifier circuit that is coupled to the first compensation network and to the second compensation network, and that is configured to provide a third signal that is responsive to the first signal and to the second sign

Abstract: A method for electrical cable testing by Pulse-Arrested Spark Discharge (PASD) uses the cable response to a short-duration high-voltage incident pulse to determine the location of an electrical breakdown that occurs at a defect site in the cable. The apparatus for cable testing by PASD includes a pulser for generating the short-duration high-voltage incident pulse, at least one diagnostic sensor to detect the incident pulse and the breakdown-induced reflected and/or transmitted pulses propagating from the electrical breakdown at the defect site, and a transient recorder to record the cable response. The method and apparatus are particularly useful to determine the location of defect sites in critical but inaccessible electrical cabling systems in aging aircraft, ships, nuclear power plants, and industrial complexes.

Abstract: A sensor for detecting changes in the dielectric constant of a liquid is described. The sensor has two electrodes immersed in the liquid with dielectric surfaces substantially parallel with each other, and a ramp disposed on a support between the electrodes. The ramp intersects the surfaces at obtuse and acute angles respectively and provides a surface disposed at an angle relative to an electric field extending between the two electrodes, thereby reducing parasitic effects of the sensed dielectric content of the liquid. Slots in the electrode adjacent the lower end of the ramp reduce the strength of the field proximate to the ramp and thereby further reduce the parasitic effects.

Abstract: The output current value of a direct-current power source obtained by low-frequency, minute modulation of the input voltage of a switching converter is detected in a circuit having an amplification factor switching function that switches the amplification factor between definite magnitudes synchronizing with the modulation, and by using a signal obtained by demodulating in a discriminator circuit the output of this circuit synchronizing with the modulation to control the switching converter, the power point of the switching converter can be tracked to the maximum power point by following the change in state of the direct current power source.

Abstract: A capacitance monitoring system includes a capacitance gauge head for monitoring the capacitance between a measuring electrode and an electric cable travelling along a path parallel to the measuring electrode. The output from the capacitor gauge head is fed to a Fast Fourier Transform device (40) to produce, to indicate discrete cyclical faults in the cable and the frequencies to which they would be relevant. A cable speed detector (44) feeds a reference table device which stores different correction factors to correct the amplitude of the cyclical faults detected due to the attenuation imposed on the measured signal because of the specific length of the electrode. A multiplier (46) multiplies the cyclical fault signals detected by the relevant factors from the reference table device (42).

Abstract: A sensing device is featured that electrochemically measures methanol concentration. The sensing device has a flexible composite of layered materials wrapped about a flexible tube having aperture contact with a methanol flow stream. The layered materials sequentially wrapped on the tube are: a polytetrafluoroethylene insulation sheet; an electrically conducting mesh representing the anode current collector; a carbon-based material representing an anode diffusion medium; a catalyst-coated membrane with both sides coated by catalysts such as Pt/Ru and Pt; a carbon-based material serving as the cathode diffusion medium; and an electrically conducting mesh representing the cathode current collector.