Abstract: A circuit arrangement (16) for monitoring electrical isolation in a power supply system (7). Electrical isolation is provided between a high-voltage system (8) and a low-voltage system (9), wherein the high-voltage system (8) and the low-voltage system (9) are connected to ground (14), and wherein the high-voltage system (8) has a first connection (T+) for a first supply voltage potential and a second connection (T?) for a second supply voltage potential of a voltage source (10). In each case, at least one variable resistor (Rm1, Rm2) is connected between the connections (T+, T?) and ground (14), and a voltage measuring device (17) for detecting a potential shift of the ground (14) relative to the supply voltage potentials when at least one of the resistors (Rm1, Rm2) is varied. And an evaluation device, which determines the ability of the electrical isolation to function depending on the detected potential shifts.

Abstract: A battery system includes: a first battery cell; a second battery cell; a power load supplied with current from the first battery cell and the second battery cell; a connection which electrically connects a negative electrode terminal of the first battery cell and a positive electrode terminal of the second battery cell; a connection which electrically connects the first negative electrode terminal and the second positive electrode terminal; a cell balancing circuit which causes electromotive voltages of the first battery cell and the second battery cell to be substantially equal; and a controller, wherein the controller enables the current to be supplied to the power load after causing the electromotive voltages of the first battery cell and the second battery cell to be substantially equal, thereby determining looseness of the connection.

Abstract: A package structure with conformal shielding includes a substrate providing electrically connected inner grounding structures, a chip module mounted on the substrate, a molding compound covering the chip module and one surface of the substrate, and a conductive shielding layer covering the molding compound and the lateral sides of the substrate, and electrically connected with a part of the inner grounding structures. The substrate further provides one or multiple independent conductive structures electrically connected with the conductive shielding layer and exposed to the outside. By measuring the resistance value between one independent conductive structure and the conductive shielding layer or another independent conductive structure or one ground contact and then comparing the measured resistance value with a predetermined reference value, the EMI shielding performance of the package structure is determined.

Abstract: A system and method for observing threshold voltage variations are provided. A ring oscillator circuit comprises a plurality of inverters arranged in a sequential loop, a plurality of test circuits having devices under test, each coupled between a respective one of the inverters and a power supply. Each test circuit has a bypass field effect transistor (FET) having a first channel coupled between the power supply and a respective one of the inverters responsive to an individual enable signal, and a FET device under test having a second channel arranged in parallel to the first channel. A method is described for determining the threshold voltage of the device under test by disabling, for one of the inverters in the ring oscillator, the first FET device such that the device under test is coupled between the power supply and the respective inverter and affects the operating frequency of the ring oscillator.

Abstract: A system and method is provided for correcting alignment of a product on a tool and, more particularly, to a system and method for correcting alignment of a wafer on a chuck of a tool. The system is a tool including at least one contact near a circumference of the tool and a grounded contact proximate to the at least one contact.

Abstract: In a method for evaluating degradation of a potentiometer, a plurality of evaluation items, from minor to major, are established as evaluation items for degradation in performance prior to failure of a potentiometer. The degradation of the potentiometer in performance of the plurality of evaluation items is evaluated in terms of stages, in a specific sequence.

Abstract: According to the present invention, a small impedance detection circuit capable of accurately detecting the impedance of an object to be measured and an adjustment method of an impedance detection circuit can be provided. In the impedance detection circuit according to the present invention, an AC signal generator outputs an AC signal. A detection circuit, which is connected to a circuit to be measured, applies an AC signal to the circuit to be measured. Further, the detection circuit outputs a first signal corresponding to the composite impedance of the impedance of the circuit to be measured and a parasitic impedance. A correction circuit outputs a second signal in synchronization with the first signal. A subtraction circuit outputs a detection signal obtained by subtracting the second signal from the first signal.

Abstract: An amplifying circuit comprises a bias circuit, a reference circuit, a first circuit, and an amplifying sub-circuit. The bias circuit is configured to provide a bias current. The reference circuit is configured to provide a first differential input based on a reference resistive device and a reference current derived from the bias current. The first circuit is configured to provide a second differential input based on a first current and a first resistance. The amplifying sub-circuit is configured to receive the first differential input and the second differential input and to generate a sense amplifying output indicative of a resistance relationship between the first resistance and a resistance of the reference resistive device.

Abstract: Embodiments described herein use capacitive sensing to detect human interaction with living plants. A sensing system may utilize the natural conductive paths found in an organic plant to transmit an electrical signal between the plant and a user interacting with the plant. By directly contacting the plant or coming into proximity of the plant, the user may affect the electrical signal. That is, the electrical properties of the user (e.g., the capacitance of the human body) change a measured impedance curve associated with the electrical signal. Based on this change, the sensing system detects an interaction between the user and the plant and may inform a user interaction device to provide a feedback response to the user. For example, the feedback response may be an audio or video effect that is based on the type of user interaction such as whether the user touched the plant's leaf or stem.

Abstract: A resistance measuring method includes: measuring a resistance value of a first path which is formed from an interface pad through a resistor unit to a ground node; measuring a resistance value of a second path which is formed from the interface pad to the ground node but does not pass through the resistor unit; and calculating a resistance value of the resistor unit by subtracting the resistance value of the second path from the resistance value of the first path.

Abstract: A resistance circuit for monitoring a support structure is provided. The resistance circuit may include a first set of resistors disposed at a belt-side and a second set of resistors disposed at a monitor-side. The first set of resistors may be configured to indicate one or more voltages thereacross corresponding to an effective resistance of the support structure. The first set of resistors may include at least one temperature-dependent resistor. The second set of resistors may be configured to indicate one or more voltages thereacross corresponding to an initial effective resistance of the support structure. The second set of resistors may include at least one switched resistor having an adjustable resistance capable of selectively approximating the initial effective resistance.

Abstract: A seating sensing device embedded in a seat includes: a variable resistance unit generating resistance values corresponding to the circumference of the seat through a plurality of conductive threads installed in the seat; and a signal analysis unit analyzing variable quantities of the resistance values to acquire activity information on one or more of whether a user is seated or not, a seating posture, and a seating posture change.

Abstract: A detection system to detect disconnection of a powered device from a link of a power over Ethernet system is disclosed. The detection system can include closed-loop control configured to supply a predetermined test current to an electrically conductive path that includes at least a portion of the link via which the powered device is connectable for receiving power. A detector is configured to monitor the closed-loop control, the loop detector providing a disconnect signal if the closed-loop control is outside of expected operating parameters, thereby indicating that the powered device has been disconnected from the link.

Abstract: A monitoring system for a support structure is provided. The monitoring system may include a resistance circuit coupled to the support structure, and an interface circuit coupled to the resistance circuit. The resistance circuit may include a first set of resistors and a second set of resistors, wherein the second set of resistors is configured to provide a reference voltage. The interface circuit may include one or more comparators, wherein each comparator is configured to compare a voltage across at least one of the resistors with the reference voltage and generate an output signal corresponding to the comparison. The interface circuit may be configured to continuously monitor an effective resistance of the support structure based on the output signals.

Abstract: A dynamic quantity sensor includes a first substrate, a fixed part arranged in the first substrate, a spiral shaped movable electrode arranged separated from the first substrate, one end of the spiral shaped movable electrode being supported by the fixed part, a fixed electrode positioned on the periphery of the movable electrode and arranged in a detection direction of a dynamic quantity, and a first terminal electrically connected to the fixed part and a second terminal electrically connected to the fixed electrode.

Abstract: The invention provides a method and a circuit arrangement for measurement of the current through an inductive load L wherein the current is fed into the inductive load L with the aid of a full-bridge circuit. By way of example, full-bridge circuits such as these are used to feed a current in a pulse-width-modulated form into a winding of a direct-current, stepping or plunger coil motor. A respective measurement device (Ra, Rb) is provided for each half-bridge. In this case, a respective measurement device (Ra, Rb) is arranged between in each case one series circuit of switching elements and ground (VSS) or the supply voltage (VDD), respectively, at which a respective voltage is tapped off, which is a measure of the current through the respective measurement device.

Abstract: A method for detecting presence of nucleic acid amplification in a test droplet. A set of detection electrodes are provided in contact with a fluidic channel. The test droplet is provided in vicinity of the detection electrodes through the fluidic channel. An alternate current (AC) power at a first frequency is applied across the set of detection electrodes. A first measurement value that reflects electrical impedance of the test droplet at the first frequency is obtained. This value is compared with a corresponding reference value, wherein the corresponding reference value is obtained by measuring a reference droplet containing known amplified nucleic acid or known unamplified nucleic acid at the first frequency. The presence of amplified nucleic acid in the test droplet is thus determined based on the comparison.

Abstract: A metal plate (14) is buried in a gasket (12) of a case (10) for accommodating an electric device such as an inverter. The metal plate (14) is connected to a control board (400) in the case (10), and the voltage of the metal plate (14) is determined. A reference voltage is applied to the metal plate (14), and the case (10) is grounded. When the metal plate (14) is brought into contact with the case (10) or disconnected due to a crash, the voltage of the metal plate (14) is thereby changed, and the control board (400) detects a crash, based on the change in the voltage.

Abstract: A measurement circuit includes a switch unit with a number of keys selectively pressed to output different resistance regulating signals. A resistance setting circuit receives the resistance regulating signals and connects different resistances to a control circuit. The control circuit obtains a voltage according to the chosen resistance by the resistance setting circuit and compares the voltage with a preset voltage. If the voltage is greater than the preset voltage, the control circuit outputs a high level signal to a control pin of a pulse width modulation (PWM) controller, to control a voltage unit to output a voltage. If the voltage is less than the preset voltage, the control circuit outputs a low level signal to the control pin of the PWM controller, to control the voltage unit to not output a voltage. A display unit displays the chosen resistance.

Abstract: A system for measuring electrical properties of a power line comprising a first wire and a second wire. The system comprises a sensor unit configured for connection to the first wire; and an elongated resistive element comprising a first end configured for connection to the sensor unit and a second end configured for connection to the second wire, the elongated resistive element having a distributed resistance. The first wire may be a hot wire and the second wire may be a hot wire or a neutral wire.

Abstract: Reliable, fast and inexpensive breath gas detector systems for medical diagnostics, including personal, handheld monitoring devices for a variety of diseases and conditions, including, for example, asthma, diabetes, blood cholesterol, and lung cancer. A sensor device (100) for detecting gases includes a sensing element (109) having an electrical resistance that changes in the presence of a target gas; a readout circuit, electrically coupled to the sensing element due to the presence of the target gas and converts the measurement to a digital signal; and a feedback loop (203) from a digital unit (205) to the readout circuit to compensate for variations in a baseline resistance of the sensing element.

Abstract: A system for sensing human activity by monitoring impedance includes a signal generator for generating an alternating current (AC) signal, the AC signal applied to an object, a reactance altering element coupled to the AC signal, an envelope generator for converting a returned AC signal to a time-varying direct current (DC) signal, and an analog-to-digital converter for determining a defined impedance parameter of the time-varying DC signal, where the defined impedance parameter defines an electromagnetic resonant attribute of the object.

Abstract: A test key structure for use in measuring step height includes a substrate, and a pair of test contacts. The substrate includes an isolation region and a diffusion region. The test contact pair includes a first test contact and a second test contact for measuring electrical resistances. The first test contact is disposed on the diffusion region and the second test contact is disposed on the isolation region.

Abstract: A system and method is provided for evaluating performance of a supply circuit for electric vehicle charging. An electrical connection is established between a vehicle circuit and a supply circuit for an external Alternating Current (AC) power supply. The electrical connection includes a hot, neutral, and ground conductor. A control signal is transmitted to activate a switch disposed along the electrical connection for selectively initiating vehicle charging. Input signals are received including: a line current signal indicative of a current along at least one of the hot conductor and the neutral conductor, and at least one of a line voltage signal and a neutral voltage signal. The line voltage signal being indicative of a voltage potential between the hot conductor and the neutral conductor. The neutral voltage signal being indicative of a voltage potential between the neutral conductor and the ground conductor.

Abstract: A resistance determining device configured for determining a resistance for a digital power supply control microchip includes a digital potentiometer and a controller. The digital potentiometer is electrically connected to the digital power supply control microchip. The controller is electrically connected to the digital potentiometer. The controller obtains internal current and load current of the digital power supply control microchip, compares the internal current with the load current, and changes a current resistance of the digital potentiometer to be a resistance according to a difference between the internal current and the load current. The resistance makes the internal current consistent with the load current.

Abstract: A circuit for detecting variation of a resistance value of a resistor with respect to a reference value includes a first resistor; a second resistor; a first current source circuit for supplying current to the first resistor; a second current source circuit for supplying current to the second resistor; a voltage comparator circuit for comparing a voltage across the first resistor and a voltage across the second resistor; and a control circuit for digitally adjusting the supply current of at least one of the first or second current source circuit. A ratio of resistance values of the first and second resistors can be obtained from an adjustment value from the control circuit and result of comparison from the voltage comparator circuit.

Abstract: A circuit for determination of a resistance of an array of capacitive elements includes a reference ring oscillator circuit, the reference ring oscillator circuit being loaded with low-loss capacitive elements; an array test ring oscillator circuit, the array test ring oscillator circuit being loaded with the array of capacitive elements; and a resistance determination module, the resistance determination module configured to determine the resistance of the array of capacitive elements based on data from the reference ring oscillator circuit and the array test ring oscillator circuit.

Abstract: A sealing sheet is configured to restrain at least one of leakage of liquid in and out. The sealing sheet includes: a film member which is impermeable to the liquid and configured to cover a region that needs to be sealed; and electrical wires which are arranged on the film member. An electrical signal corresponding to change in electrical resistance due to contact with the liquid is obtainable from the electrical wires.

Abstract: Semiconductor device with a patterned pad metal layer and a patterned under-bump metallization layer being mutually electrically connected in a common contact area 22. The semiconductor device includes a first test structure 11 for determining a contact resistance between the patterned metallization layer and the patterned pad metal layer in the common contact areas 22. The first test structure includes a pad metal layer portion 24 and a metallization layer portion 18 being in electrical communication with the pad metal layer portion 24 through the common contact area 22. The first test structure 11 further includes connection areas 14, 16 that are electrically connected with each other substantially via the common contact area 22. Upon application of a current between the connection areas 14, 16 a voltage drop occurs that is representative for a voltage drop over the common contact area 22.

Abstract: A method and an arrangement are provided for determining values of impedance parameters related to a transformer configuration including three single pole voltage transformers each respectively having at least a primary winding, a secondary winding and a tertiary winding. The primary windings are connected to phases of a three phase electric system. The arrangement is configured to conduct an earth fault in the three phase electric system, measure a primary voltage from the faulted phase, measure secondary voltages from the secondary windings, and determine values of one or more impedance parameters related to the transformer configuration on the basis of the measured primary voltage, the measured secondary voltages and an equation relating the primary voltage to the secondary voltages and the one or more impedance parameters.

Abstract: An occupant detection system includes a controller, a sensing electrode, and a shield electrode, the electrodes disposed in a vehicle seat. The controller is electrically coupled to the sensing electrode and shield electrode by a sensing circuit. The controller is configured to send an input signal to the sensing electrode, the shield electrode, or both and measures current, impedance, or capacitance values to determine the presence of an object on the seat, to classify the object, or both.

Abstract: This document discusses, among other things, a detection system configured to identify a type of a pole of a four-pole audio jack using first and second comparators. The detection system can include a bias circuit configured to bias a detection input coupled to the pole, and first and second comparators configured to compare the detection input to respective first and second thresholds to provide an indication of the type of the pole.

Abstract: A detection membrane is joined to a first surface of an electrolyte membrane. After the detection membrane is hydrogenated, oxygen is supplied to a space facing a second surface of the electrolyte membrane. If the electrolyte membrane has a defect, oxygen leaks to the first surface, resulting in a change in resistance of the detection membrane owing to dehydrogenation of the detection membrane. The defect is recognized by this change. An air electrode is joined to the second surface, and an electric circuit is connected between the detection membrane and the air electrode. After hydrogenating the detection membrane and ionizing oxygen supplied to a space facing the air electrode, oxygen ions permeate through the electrolyte membrane and dehydrogenate the detection membrane. Uniformity of the oxygen ion conductivity is examined by measuring resistance of the detection membrane, which varies depending on the amount of oxygen ions, for each region.

Abstract: Methods and devices for determining device usability, e.g., for point of care assay devices. In one embodiment, the invention is to a method of determining device usability in a sensing device, including the steps of: providing a device comprising a first electrical pad; a second electrical pad; and a first polymer layer contacting at least a portion of the first and the second electrical pads and a second polymer layer contacting the first polymer layer and not the first and second electrical pads; applying a potential across the first and the second electrical pads; measuring an electrical property associated with the first and the second polymer layers; and determining whether the measured electrical property associated with the first and the second polymer layers has exceeded a threshold level associated with the device usability.

Abstract: A diagnostic method and system is described for diagnosing an operating condition of a conductive particulate matter sensor. The sensor has a substrate with electrical resistance that varies with temperature and two electrodes on the substrate adapted to collect particulate matter between the electrodes, thereby establishing an electrically conductive path through collected particulate matter between the electrodes that can be detected by measuring electrical resistance between the electrodes, Relect. The diagnosis is performed by heating the substrate in the area between the electrodes and using the resistance between the electrodes to determine detecting whether contamination is present on the surface of the sensor. Heat may be maintained on the sensor to attempt to burn off a detected contaminant, and a subsequent resistance reading may be used to determine if the contaminant was successfully burned off.

Abstract: A detection circuit can be configured to receive a digital value from an identification register and to determine a resistance at a conducting terminal of an audio or video jack plug using the digital value. The detection circuit can include a current source that outputs a current according to the digital value from the identification register and a comparator that compares a reference voltage to a voltage created by the current source across the resistance at the conducting terminal of the audio or video jack plug. A control logic circuit can be configured to store the digital value in the identification register, generate an interrupt signal to cause a processor to read the digital value, and identify a function of an accessory device including the audio or video jack plug, when the detection circuit determines the resistance at the conducting terminal of the audio or video jack plug.

Abstract: A sensor system for a steering wheel of a vehicle includes a first sensor disposed within a first portion of the steering wheel to detect contact with a front left surface of the steering wheel. The sensor system includes a second sensor disposed within a second portion of the steering wheel separate from the first portion to detect contact with a front right surface of the steering wheel. The sensor system also includes a third sensor disposed within the steering wheel to detect contact with a rear surface of the steering wheel. The first, second and third sensors are configured to respectively detect touching of the front left surface, the front right, and the rear surface of the steering wheel by a hand or a non-hand part of an operator of the vehicle. The first, second and third sensors can be complex impedance sensors.

Abstract: The invention relates to a power supply cord with at least two conductors N, L for transferring a supply voltage with two protective earths insulated from one another, which at the first end are conductively connected with each other and at the second end there is a measurement device provided for measurement of the resistance of a measuring circuit comprising the PE and measurement conductor P, and wherein in case of exceeding the resistance, a warning signal is output.

Abstract: A gear position sensor employs a sliding electrical connection between arcuate conductors and flexible wiper arms held on opposite surfaces that rotate relative to each other with the movement of a gear selector shaft. The traces may have multiple segments joined by resistors to provide flexible change in resistance value and resistance range for different applications.

Abstract: A switch identification system for a vehicle is provided, which is configured to identify each switch mounted in a slot regardless of which slot the switch is mounted in, such that a plurality of switches can be freely arranged in desired positions, thus more effectively managing the respective switches. In particular, an identification terminal mounted in the switch and connected to a corresponding terminal in the slot when the switch is inserted into the slot is provide along with a resistor connected to the identification terminal of the switch and having a different resistance value predetermined for each switch. The switches are identified by a control module which receives a signal based on the resistance value of the resistor in the switch through an input circuit connected to the corresponding terminal in the slot.

Abstract: Disclosed is a sensor that can accurately detect displacement and prevents the phenomenon of a contact section between a shaft member and a sliding element receiver being shifted. The sensor comprising: a case having a through hole; a resistance substrate fixed at an inside of said case; a shaft member having a first end portion which is one end of the shaft member placed within said case and a second end portion which is other end of the shaft member exposed to an outside of said case from said through hole, said shaft member being placed at said through hole in a movable manner in an axial direction; and a sliding element receiver having a bearing end contacting with said second end portion of said shaft member, and attached with a brush sliding together with said resistance substrate, said sliding element receiver being capable of moving relatively against said resistance substrate with said shaft member. A hemispherical end face is formed at said first end portion.

Abstract: A method of measuring resistance in each of a plurality of resistors in a resistor matrix is provided. Each resistor is located at a different intersection between a column conductor and a row conductor. The, the method includes determining an offset error row current of each row conductor, scanning each row conductor to identify if that row conductor is connected to a column conductor by one of the plurality of resistors, if that row conductor is connected to a column conductor by one of the plurality of resistors, scanning each resistor connected to that row conductor to determining if that resistor is connecting a column conductor to that row conductor, and if that resistor is connecting a column conductor to that row conductor, outputting an offset compensated resistance of that resistor calculated from the row current measured for that resistor less the offset error row current for that row conductor.

Abstract: A rechargeable power cell having no voltage across its positive and negative power terminals unless the power cell is inserted into a device configured to accept the power cell is described. The power cell includes a battery management processor and battery insertion detection circuitry that cooperate to determine when the power cell is inserted into the device and then drive an electronic switch to provide for conduction of current from the power cell to the positive terminal of the cell.

Abstract: A resistance determining system is used to determine an offsetting resistance of a mainboard to establish a predetermined offset voltage. The system includes an input equipment, a single-chip, and a resistor. The input equipment sets a predetermined standard voltage of the mainboard. The resistor supplies the mainboard with various resistances, to adjust real output voltage of the mainboard. The single-chip monitors the real output voltage of the mainboard, and adjusts the resistance of the resistor until the difference between the real output voltage and the predetermined standard voltage is equal to a predetermined offset voltage.

Abstract: A circuit and method for monitoring current flow to an integrated circuit (IC), alone or mounted on a substrate, in a temperature-compensated manner. In accordance with a preferred embodiment, a plurality of resistances having substantially equal temperature coefficients establishes a ratio of an output voltage and an internally measured voltage, with the output voltage corresponding to a voltage drop across an inherent resistance within the IC or on the substrate.

Abstract: A test structure, a method of employing the test structure, and a method of manufacturing the test structure are provided for measuring a contact resistance between a silicide and a semiconductor. The test structure includes a set of silicide layers separated from one another and upon which electrodes from a set of electrodes are placed. One pair of electrodes is employed to force a constant current through the silicide layers and a diffusion layer of a semiconductor substrate of the test structure. Another pair of electrodes determines a potential drop between the silicide layers and the diffusion layer. Based upon the constant current and the potential drop determined, a contact resistance is extracted.

Abstract: A dynamic quantity sensor includes a first substrate, a fixed part arranged in the first substrate, a spiral shaped movable electrode arranged separated from the first substrate, one end of the spiral shaped movable electrode being supported by the fixed part, a fixed electrode positioned on the periphery of the movable electrode and arranged in a detection direction of a dynamic quantity, and a first terminal electrically connected to the fixed part and a second terminal electrically connected to the fixed electrode.

Abstract: A sensor is disclosed. In one aspect, the sensor includes at least one resistive switching sensing element which has a resistive switching layer that can be switched from a high resistance state to a low resistance state by creating a first electric field over the resistive switching layer and that can be switched from the low resistance state to the high resistance state by creating a second electric field over the resistive switching layer.

Abstract: An apparatus comprises a connector configured to receive an electrical contact of an accessory device that is electrically coupled to a resistor of the accessory device, a current source configured to apply a specified current to the resistor to generate a resulting voltage, a comparator configured to receive and compare the resulting voltage to a reference voltage, and a controller configured to store an outcome of the comparison as a bit in a register, to adjust the applied current using the outcome of the comparison, and to determine a resistance value for the resistor using the bit stored in the register.

Abstract: A minute impedance variation detection device includes a differential amplifier, first and second impedances, a sensing electrode and a signal source. The differential amplifier has first and second input ends and an output end. The first impedance is connected to the first input end. The second impedance is connected to the second input end. The sensing electrode is connected to the second input end for sensing a touch and thus receiving a touch signal. The signal source is connected to the first impedance and the second impedance for providing an input signal inputted to the first impedance and the second impedance. The first impedance has an impedance value close to that of the second impedance. The differential amplifier is based on the input signal and the touch signal to differentially amplify the touch signal.