Abstract: A method of detecting the presence of an unsafe line condition at a power metering device is disclosed. The method comprises the steps of determining if a disconnect switch is in the open position, and measuring a first voltage at a first load contact. The method measures a second voltage at a second load contact and determines if the first voltage is greater than a first voltage threshold or less than a second voltage threshold. The method further determines if the second voltage is greater than the first voltage threshold or less than the second voltage threshold. The method indicates that an unsafe condition exists if either the first voltage is greater than the first voltage threshold, or first voltage is less than the second voltage threshold or the second voltage is greater than the first voltage threshold or the second voltage is less than the second voltage threshold, when the disconnect switch is in the open position.

Abstract: Self-triggered Multi-finger SCRs used in ESD protection circuitry capable of turning on all SCR fingers of the multi-finger SCRs include a first source, a second source, N SCR units, (N?1) diodes, and N resistors. Each of the N SCR units includes a first node, a second node coupled to the second source, and a trigger node. An nth diode of the (N?1) diodes is coupled between a first node of an nth SCR unit and a trigger node of an (n+1)th SCR unit. An nth resistor is coupled between the first node of the nth SCR unit and the first source, wherein n and N are integers. The (N?1) diodes can be replaced by directly coupled the first node of the nth SCR unit to the trigger node of the (n+1)th SCR unit when a trigger pulse is applied at the trigger node of a first SCR unit.

Abstract: An exemplary method is disclosed for disturbance current compensation for an electrical system by a disturbance current compensation device, which electrical system has a voltage source and a series circuit which is connected via a conductor in parallel with the voltage source. The series circuit has an inductance and a capacitance, with the inductance being connected in series with the capacitance via a conductor. To compensate for disturbance currents, the conductor for the connection of the voltage source to the series circuit of the inductance with the capacitance, and/or the conductor of the series circuit between the inductance and the capacitance, can be surrounded by a ring (e.g., a portion of the conductor can be substantially surrounded by the ring) which can be magnetized. The ring includes an air gap of the disturbance current compensation device. A compensation voltage can be applied by magnetization of the ring.

Abstract: A current control device is disclosed. The current control device includes control circuitry integrally arranged with a current path and at least one micro electromechanical system (MEMS) switch disposed in the current path. The current control device further includes a hybrid arcless limiting technology (HALT) circuit connected in parallel with the at least one MEMS switch facilitating arcless opening of the at least one MEMS switch, and a pulse assisted turn on (PATO) circuit connected in parallel with the at least one MEMS switch facilitating arcless closing of the at least one MEMS switch.

Abstract: Certain exemplary embodiments can comprise an apparatus comprising: a current transformer adapted to provide a signal correlated to an amperage of an alternating current of a first phase of an electric circuit, the alternating current flowing through a circuit breaker; and a microprocessor adapted to receive the signal from said current transformer, and to cause the circuit breaker to trip responsive to the signal exceeding a predetermined threshold.

Abstract: A circuitry of an IC is provided, including a pad, an internal circuit, and an ESD protection circuit. The pad transmits or receives a signal and is coupled to a first node. The internal circuit is coupled to the first node for processing the signal. The ESD protection circuit includes an ESD clamping circuit, a first current limiting and shunting unit and a second current limiting and shunting unit. The ESD clamping circuit is coupled to the first node, for clamping an ESD current flowing through the first node. The first current limiting and shunting unit is through the first node coupled to the pad, for limiting the ESD current and shunting part of the ESD current to a first voltage path. The second current limiting and shunting unit is coupled to the first current limiting and shunting unit, for limiting the ESD current and shunting part of the ESD current to a second voltage path.

Abstract: A bipolar ionization apparatus includes a positive high voltage power supply having an output with at least one positive ion emitting electrode connected thereto and configured to generate positive ions. A negative high voltage power supply has an output with at least one negative ion emitting electrode connected thereto and is configured to generate negative ions. A controller for an ionizer outputs a positive high voltage ionization waveform and a negative high voltage ionization waveform. The controller simultaneously adjusts an amplitude and a duty cycle of each of the waveforms.

Abstract: A design structure for an on-chip high frequency electro-static discharge device is described. In one embodiment, the electro-static discharge structure comprises a first dielectric layer with more than one electrode formed therein. A second dielectric layer with more than one electrode formed therein is located above the first dielectric layer. At least one via connects the more than one electrode in the first dielectric layer with the more than one electrode in the second dielectric layer. A gap is formed through the first dielectric layer and the second dielectric layer, wherein the gap extends between two adjacent electrodes in both the first dielectric layer and the second dielectric layer. A third dielectric layer is disposed over the second dielectric layer, wherein the third dielectric layer hermetically seals the gap to provide electro-static discharge protection on the integrated circuit.

Abstract: A protection circuit equipped magnetic energy recovery switch including a magnetic energy recovery switch having at least two reverse-conductive type semiconductor switches and two capacitors employs a protection circuit and control method for protecting the capacitors against an overvoltage or short-circuited discharge, and protecting the reverse-conductive type semiconductor switches and a load against an overvoltage or overcurrent, and can be used as a controller or a current limiter.

Abstract: A device that has failure recovery capabilities and a method for power recovery. The method includes: detecting a potential power failure in response to a decrement rate of a supply voltage, and applying at least one failure recovery measure in response to a detected potential power failure. The device includes: a power source, an energy reservoir, at least one component, and a power failure circuit, adapted to detect a potential power failure in response to a decrement rate of a supply voltage.

Abstract: A semiconductor switch control device includes a current detecting unit that detects a current that flows in a semiconductor switch, a voltage detecting unit that detects a voltage, and a temperature detecting unit that detects a temperature. A transient thermal resistance value providing unit provides a transient thermal resistance value Zth in accordance with an elapsed time from reception of an excess voltage signal to a computing unit. A temperature detecting unit detects an initial temperature TJ0 when an excess voltage is produced. The computing unit calculates a temperature of the semiconductor switch by a following expression when a detected current value is represented by Ids, and a detected voltage value is represented by Vds: (expression): temperature of the semiconductor switch TJ=Ids×Vds×Zth+TJ0.

Abstract: An ESD protection circuit is provided having a first field-effect transistor, which has a first drain terminal, a first source terminal and a first control terminal, and having an input network which, in the event that a first voltage present between the first drain terminal and the first source terminal crosses a threshold value, alters a second voltage that appears between the first control terminal and the first source terminal. The input network contains a second field-effect transistor, complementary to the first field-effect transistor, having a second drain terminal, a second source terminal and a second control terminal, wherein the first drain terminal is connected to the second source terminal and, through a first resistance, to the second control terminal, and the second drain terminal is connected to the first control terminal and, through a second resistance, to the first source terminal.

Abstract: A method for clamping a workpiece involves placing the workpiece on a clamping surface of an electrostatic clamp. A clamping voltage is applied to the electrostatic clamp at a first frequency, therein providing a first clamping force between the workpiece and the electrostatic clamp. The application of clamping voltage at the first frequency is halted and another clamping voltage at a second frequency is applied to the electrostatic clamp, therein providing a second clamping force between the workpiece and the electrostatic clamp. The second frequency is greater than the first frequency, wherein the second clamping force is less than the first clamping force. The application of the clamping voltage at the second frequency is then halted, and the workpiece is removed from the electrostatic clamp. The clamping voltage can be controlled based on a set of performance criteria, such as a desired minimum clamping force and a maximum de-clamp time.

Abstract: A power converter uses a PWM controller to provide a driver output to modulate the duty of the power converter. A protection apparatus and method compare a current sense input of the PWM controller with a reference voltage to assert a signal representing failure, count the number of cycles where the signal representing failure is asserted, and reset an enable signal to inhibit the driver output if the signal representing failure is asserted in several cycles.

Abstract: A method of and system for controlling the inrush current generated in a MOSFET of an inrush current control system, wherein the MOSFET includes a source, gate and drain. The dV/dt at the drain of the MOSFET is controlled so as to set the inrush current level as a function of dV/dt, independent of current limit without requiring a separate capacitor connected between the gate and drain of the MOSFET so that the MOSFET can turn on and off more quickly.

Abstract: A method of circuit breaker control includes determining if a trip event for a circuit breaker has occurred, determining a set of redundancy parameters for the circuit breaker, and transmitting a trip signal and a shunt trip signal to the circuit breaker based on the set of redundancy parameters.

Abstract: A power supply apparatus includes: a plurality of batteries; a changeover portion switching the connection between the plurality of batteries; a short-circuit battery detection portion, if an internal short-circuit is produced in any of the plurality of batteries, detecting this internal short-circuit battery; and a changeover control portion, if the short-circuit battery detection portion detects the internal short-circuit battery, allowing the changeover portion to switch the connection between the plurality of batteries in such a way that this internal short-circuit battery and at least one of the other batteries are connected in series to thereby form a closed circuit.

Abstract: An ionizer includes positive and negative wire electrodes each formed of a conductive wire with a circular cross section. The wire electrodes are arranged in parallel with each other, each having circumferential surfaces serving as a discharge surface on which a corona discharge occurs upon application of positive and negative high voltages for discharging positive and negative ions.

Abstract: A power supply system is provided with devices of generating an electric power, controlling an amount of power generation, charging an electric power having been generated, converting an electric power having been generated, charging an electric power having been converted, operating an electric load by an electric power having been converted, and detecting a short-circuit fault of input/output of a DC converter. In the case of detecting an input/output short-circuit fault of the DC converter, from the input/output short-circuit detector to the generator controller, an instruction is given such that the generator is switched to make a power generation at a predetermined constant voltage determined based on a voltage of the circuit arrangement.

Abstract: An overvoltage protection device, including: an input configured to be connected to a power supply mains; an output configured to be connected to an electronic system to be protected; two bidirectional field-effect semiconductor transistors of normally-on type, connected in series between the input and the output, fabricated in a wide-bandgap material and configured to operate in current-limiting mode; and a resistor connected in parallel with the two transistors.