Abstract: A sensor/transducer for use in reducing leakage current from a patient fluidly connected to a medical device by tubing filled with a conductive fluid (e.g., blood or dialysate (a “fluid line”)) includes a magnetically conductive core with 1) a centrally located support for a coil of fluid line, and 2) coiled electrical conductors located at positions that are spaced from the centrally located support, on opposite sides of the centrally located support. The sensor/transducer can be used to measure leakage current carried by the conductive fluid in the fluid line, or it can be used to induce current in the fluid line in a manner that reduces the leakage current.

Abstract: A water supply and kneading system for green sand, including: a weighing hopper that stores green sand that has been weighed; a kneading machine that kneads the green sand and water; a sand loading means for releasing the green sand in the weighing hopper into the kneading machine, or shutting off the release; a water supply device that supplies water to the green sand in the kneading machine; a moisture sensor that includes a pair of electrodes and measures the moisture content of the green sand stored in the weighing hopper by measuring an electric potential difference between the electrodes; and a kneading control device that controls the amount of water supplied by the water supply device and controls the sand loading means on the basis of the output of the moisture sensor.

Abstract: A printing apparatus is described in which a guide member biases a printing substrate against a plurality of electrodes comprised in an electrode array of the printing apparatus. A layer of wet printing fluid is comprised in the printing substrate. Based on an output of the electrode array when the plurality of electrodes is in electrical contact with the printing substrate, an index of a thickness of the layer of wet printing fluid is determined by processing circuitry of the printing apparatus.

Abstract: A method where the weight of the bale is measured by a scale on the baler, the moisture of the bale is measured by sensors on the baler and this information is sent to a processor. Based on compaction properties of the leaf verses the stem of the alfalfa, the processor calculates a feeding value for the hay including protein, energy and relative feed value on the dry density of the bale. Additional inputs such as the compaction setting of the baler and information about the hay being harvested can also be input into the processor for making adjustment to the feeding value calculation.

Abstract: A method and apparatus are provided for determining the fraction of hay at various moisture levels during an agricultural baling process. A moisture sensor array is provided on an agricultural baler to sense the moisture content of incoming crop material as the baling process progresses. The moisture sensor array is connected to an ECU that is programmed to determine the ratios of incoming crop material that are at or above particular moisture content levels. An indication is given to the operator by way of an operator output device regarding the moisture content ratio.

Abstract: Measurement devices, systems, and methods to measure a high field conductivity of a fluid are provided herein. The measurement device includes a fluid cell, a pair of electrodes, a voltage switch, and a measurement unit. The fluid cell is on an inclined plane to receive the fluid. The pair of electrodes are connected to the fluid cell. The pair of electrodes are spaced apart from one another to receive the fluid therebetween and positioned parallel to one another to pass an electrical current therethrough. The power unit provides a high voltage power supply to one electrode of the pair of electrodes. The measurement unit measures the electrical current that passes between the pair of electrodes through the fluid.

Abstract: An apparatus and method for determining characterizing attributes of an actuator is provided. An actuator may be moved to a maximum capacitance position. At the maximum capacitance position, an initial measurement of the actuator capacitance is made. The actuator is moved a predetermined increment toward a first extreme position, and the actuator capacitance is again measured. If the capacitance changed by a threshold amount, the signal preceding the signal that caused the actuator to move is recorded as an approximate response curve end point, or the first extreme position. The actuator is again moved a predetermined increment toward a second extreme position. After each move, the capacitance is measured. If it is determined the capacitance did change by a threshold amount from the previously measured capacitance, the signal related to the previously measured capacitance is recorded as an approximate response curve end point, or the second extreme position.

Abstract: Provided is an apparatus for detecting the presence of water in a current of liquid hydrocarbons. The apparatus comprises at least one pair of electrodes for detecting the presence of water in a sample zone in the current of liquid hydrocarbons located therebetween; alternating current generating circuitry for generating an alternating current between the electrodes; measuring circuitry for measuring the electrical impedance of the current of liquid hydrocarbons between the electrodes; and a processor for collecting data from the measuring circuitry, processing the data and outputting the data for use in detecting the presence of water in the current of liquid hydrocarbons. A method is provided for detecting the presence of water in a current of liquid hydrocarbons and for quantifying the amount of free water present in a current of liquid hydrocarbons. An apparatus is provided for quantifying the amount of free water present in a current of liquid hydrocarbons.

Abstract: An apparatus for measuring a water content in a multiphase fluid flow stream is provided. The apparatus comprises a measurement section configured to obtain a series of electrical measurements of the multiphase fluid flow stream over a first predetermined time interval, and determine a minimum electrical measurement Fmin_baseline from the series of electrical measurements. The measurement section also is configured to calculate a running average of the frequency (Fmin_gas_pattern) from the series of electrical measurements indicative of a change in a gas flow pattern of the multiphase fluid flow stream over a second predetermined time interval. The measurement section further is configured to calculate a corrected electrical measurement F_calc_WC for determining the water content in the multiphase fluid flow stream by subtracting the minimum electrical measurement Fmin_gas_pattern from the minimum electrical measurement Fmin_baseline.

Abstract: A system, method and structures employing proportional variable resistors suitable for electrically measuring unidirectional misalignment of stitched masks in etched interconnect layers. In an example embodiment, there is a structure (10, 20) that comprises at least one proportional variable resistor (24) suitable for electrically measuring unidirectional misalignment of stitched masks in etched interconnect layers. The structure (10,20) comprises at least a first mask (10) and a second mask (20) that when superimposed comprise at least two test pads (14, 16) and interconnects (12, 22) the resistance between (24) which can be measured.

Abstract: A contactless detection cell (1) for detecting an electrical property of one or more sample compounds in a flow path is described. The contactless detection cell (1) comprises a transmitter electrode (3) adapted for capacitively coupling an AC current into a detection channel (4) of the flow path, and a receiver electrode (5) adapted for receiving the AC current that has been coupled into the detection channel (4). An inner cross-section (IDDET) in at least a section of the detection channel is different than an inner cross-section (IDSEP) of the flow path (2) towards the detection channel (4).

Abstract: A micromechanical device may include one or more piezoresistive elements whose electrical resistance changes in response to externally or internally induced strain. The present invention leverages the piezoresistive properties of such devices to sense the positional state of the device. A sensing circuit may be integrated into the device that senses an electrical resistance of at least a portion of the micromechanical device and provides information regarding the positional state of the micromechanical device. The micromechanical device may be a compliant device that includes relatively flexible members such as mechanical beams or ribbons. The positional states may be continuous positional states (such as the position of an actuator) or discreet positional states (such as the positional state of a bistable memory device). In certain embodiments, the micromechanical device is a threshold detector that latches to a particular stable configuration when an applied force exceeds a selected value.

Abstract: An image forming apparatus has a water content determination apparatus that can precisely determining a water content in a medium regardless of an environment where the image forming apparatus is installed. The water content determination apparatus has a detection device that outputs a first signal while the medium is absent in an electrostatic capacitance region formed in a path where the medium is conveyed and outputs a second signal while the medium is present in the electrostatic capacitance region. The temperature in the image forming apparatus is determined based on the first signal. The water content in the medium is determined based on the second signal and the temperature determined by the temperature determination device.

Abstract: A device for determining the residual liquid content of solids cakes in a centrifuge basket. The device includes two electrodes protruding through a wall of the basket and into the solids cake; a conductivity or capacitance measuring device (13) measuring the conductivity of the solids cake between the electrodes; and evaluation and control units contactlessly receiving data from the measuring device to affect the operation of the centrifuge.

Abstract: Sheetmaking processes such as papermaking making systems employ water weight sensors underneath the moving water permeable wire that supports the wet stock (pulp slurry). A dynamically compensated calibration equation that equates the water weight plus fiber weight plus wire weight (total weight) to the resistance measured by the water weight sensor is developed for controlling the continuous process. Dynamic compensation accounts for changing papermaking machine conditions or states that affect the intrinsic conductivity of the wet stock being measured. The amount of correction to apply is determined by the conductance measured by a reference sensor.

Abstract: Devices and methods for contactless heating of a fluid in a chamber using a high frequency alternating potential are described. At least two electrodes are coupled to the chamber such that the alternating potential is coupled to the fluid inside the chamber and heats the fluid. A control loop derives a signal from the alternating potential and uses the signal to control the alternating potential. The devices and methods described determine temperature and/or conductivity of the fluid using the signal.

Abstract: Devices and methods for contactless heating of a fluid in a chamber using a high frequency alternating potential are described. At least two electrodes are coupled to the chamber such that the alternating potential is coupled to the fluid inside the chamber and heats the fluid. A control loop derives a signal from the alternating potential and uses the signal to control the alternating potential. The devices and methods described determine temperature and/or conductivity of the fluid using the signal.

Abstract: A comparative conductivity detection system includes a sample channel assembly and a reference channel assembly. The sample channel assembly includes a sample-fluid channel, a drive electrode, and a detection electrode. The reference channel assembly includes a reference fluid channel, a drive electrode, and a detection electrode. The channels are formed as trenches in a planar substrate. Each electrode is capacitively coupled to its respective channel through a planar cover over the substrate. The drive electrodes are driven anti-synchronously (180° out of phase), while the signals induced in the detection electrodes are summed. The summed detection signal indicates the comparative conductivity of the sample and reference fluids. The reference fluid can, for example, include non-sample components of the sample fluid so that artifacts due to the non-sample components are cancelled in the comparative conductivity detector output.

Abstract: A method for determining a load in a tumble dryer. Laundry in the tumble dryer is moved in a drum. The electrical conductivity of the laundry is determined by electrodes which touch the laundry at least from time to time resulting in a measurement signal. The electrical conductivity measurement signal exhibits pulses because of the changes in the determined conductivity of the laundry. The changes occurring during the movement of the laundry in the drum. The frequency of the pulses of the measurement signal of the conductivity is determined and serves as a measure of the load in the tumble dryer. As a result, the measure of the load is made available having a high accuracy and in a digital form. The digital form of the load is particularly advantageous for further processing in digital components.

Abstract: A method for determining a load in a tumble dryer. Initially, laundry is moved in a laundry drum and the electrical conductivity of the laundry is determined by electrodes residing in the laundry drum. The method is distinguished by the fact that a range of fluctuation of the electrical conductivity is determined and serves as a measure of the load. As a result, the determination of the load can be carried out without an additional outlay for components and circuitry in the case in which a conductivity measurement is already implemented in the tumble dryer. The method is particularly suitable to be carried out by a microcontroller.

Abstract: A device for sensing moisture in moving hay bales has a pair of star-shaped wheels situated to have points penetrate into the bale and be driven by the bale. The points establish electrode surfaces within the bale between which resistivity or conductivity of an electrical current may be measured and scaled to moisture content of the hay of the bale.

Abstract: The method and structure of a moisture measuring device that creates an electric field and then determines a moisture content of a specimen based on the effect the moisture of the specimen has on the electric field.

Abstract: A measurement apparatus for sensing three properties of materials including a fixed impedance element coupled in series with the sensor array between an input signal and a reference potential (e.g. ground). The sensor array exhibits a variable impedance resulting from changes in physical characteristics of the material. The variable impedance of the sensor array relates to changes in property of the material being sensed which can then be related to changes in other physical characteristics of the material such as weight, chemical composition, and temperature. The reduced size and increased resolution of the sensor array is particularly adaptive to a twin mesh sheetmaking system.

Abstract: A conductive-pattern recognition apparatus is provided, which makes it sure to recognize a conductive pattern accurately. This apparatus is comprised of (a) a main electrode roller formed by circular main electrodes and circular insulators arranged alternately along a straight line and coupled together, (b) a pressure-sensitive rubber layer fixed onto an outer surface of the main electrode roller and contacted with the main electrodes and the insulators, (c) a moving mechanism for moving a specimen with a conductive pattern in a direction perpendicular to a rotation axis of the main electrode roller so that the specimen applies a pressure to the pressure-sensitive rubber layer, (d) a conduction detector for detecting electric conduction among at least two ones of the main electrodes of the main electrode roller through the pressure-sensitive rubber layer, and (e) a rotation detector for detecting a rotation amount of the main electrode roller.

Abstract: The fluid conductivity sensor disclosed herein is adapted for the non-contacting measurement of fluid conductivity and utilizes first and second insulating tubes, each of which is provided with both the driving transformer and the sensing transformer. The sensor is immersed in the fluid to be tested so that the tubes fill with the fluid. The driving transformer's are oppositely poled so that the current induced in one tube tends to return through the other tube. Shrouds are provided which link the corresponding ends of the tubes and operate to obstruct in-fluid current flow not linking both of the tubes. Accordingly the influence of objects nearby in the fluid is substantially eliminated.

Abstract: A method and apparatus for determining specific material characteristics of plastic materials in which the plastic material is disposed between electrodes of a capacitive sensor and the impedance is measured and compared to a reference value, preferably stored in a computer.

Abstract: A sensor for the measurement of moisture in a flow of material, especially loose material such as meal material, grains, granulates and similar materials which are to be pressed to form feed pills in presses. The sensor comprises a tube piece of an electrically conductive material with circular cross-section, and an elongated pole which is of circular cross-section and is disposed with its longitudinal axis concentrically and electrically insulated in the tube piece, and which consists of an electrically conductive material. When the moist material flows between the inside surface of the tube piece and the outer side of the pole, the sensor works with the moist material's conductivity as a condenser for the capacitive detection of the moistness, which can be determined on the basis of the detection.

Abstract: Apparatus for measuring moisture content and bulk flow rate of cotton and other bulk materials, such as wool or wood chips, while they are being transported on a belt conveyor. The apparatus comprises resistance-sensing electrode fingers pendulously mounted over the conveyor, the movement of the resistance-sensing fingers being halted in their downward arcuate path by the sensed material. The weight of the electrode assembly presses the fingers against the material with uniform pressure. The angular displacement of the fingers about an axis of suspension is used as a measure of bulk flow rate.

Abstract: Apparatus for measuring a characteristic of a body of material having first and second substantially parallel coaxial lines with distal extremities in relatively close proximity to each other and adpapted to be disposed in close proximity to the body of material. A transmitter is coupled to the first coaxial line for introducing electrical energy in the high frequency to a microwave range into the first coaxial line to cause an electromagnetic field to be established at the distal extremity of the first coaxial line and to extend into the body of material. A receiver is coupled to the second coaxial line for detecting any of the electromagnetic field coupled into it from the first coaxial line. A measurement device is coupled to the receiver means for ascertaining when any change occurs in the coupling of the electromagnetic field from the first coaxial line to the second coaxial line to determine said characteristic of the body of material.

Abstract: A system for analyzing the moisture content of bulk cotton or other non-homogeneous flowable solid substrates comprising: an electrical sensor consisting of multiple electrically independent measuring electrodes, each of which independently measures the moisture content of different portions of the sample; a means of pressing the mass against the surface of the sensor to form a face of uniform substrate density on that part of the mass which is pressed against the sensor; means for analyzing such face for moisture content; and a means for releasing the pressure on the halted mass to allow it to resume movement.

Abstract: An iron comprises a heating element (97) and heating-control means (96) for the heating element. It has a humidity detector (60) which measures the degree of humidity of the fabric and which influences the electric power dissipated in the heating element. In order to measure the degree of humidity a circuit (99) measures the resistivity of the fabric between two contact electrodes (62a, 62b) and subsequently averages the electric signal resulting from the movement of the iron on the fabric. A circuit (89) may be added which measures the rhythm of the variations of said electric signal and which thus detects whether the iron is in use or not in use.