Abstract: A surge protector includes a thermal separating device and an error display, and at least two first protection elements, particularly disk-shaped varistors (7), and at least one second protection element, particularly a gas arrester (9), wherein the first and the at least one second protection elements are switched in a Y arrangement. The surge protector further includes a device housing for accommodating the protection elements, and structure, such as a spring (11), for the mechanical biasing of the thermal separating device, wherein the thermal separating device has a low-melting solder, and the first protection elements (7) are disposed in the device housing such that a connection arm of a protection element (7) is positioned opposite the connection arm of the further protection element (7) at a distance, and the thermal separating device is predominantly positioned in the distance space (13) formed in such a manner.

Abstract: A system in one embodiment includes a cable having a plurality of cable leads, and a multi-diode chip having a pad-side not facing the cable. The multi-diode chip includes a plurality of sets of contact pads on the pad-side of the multi-diode chip, and a plurality of crossed diode sets, wherein each set of crossed diodes is coupled between a first contact pad and a second contact pad of one set of contact pads, wherein at least two of the plurality of cable leads are coupled via wire-bonding to one of the plurality of sets of contact pads of the multi-diode chip for providing electrostatic discharge (ESD) protection for at least one element of the electronic device coupled to the at least two cable leads.

Abstract: Disclosed herein are embodiments of electrostatic discharge (ESD) protection circuits. In certain embodiments an ESD protection circuit may include two series resistor-capacitor (RC) circuits. One series RC circuit may have a short time constant and may selectively activate a current shunt between two power rails in response to an ESD event. Accordingly, the ESD circuit may be able to respond to fast ramping ESD events. The other series RC circuit has a longer time constant, and maintains the current shunt in an active state for a sufficient amount of time to allow the ESD event to be completely discharged.

Abstract: An overvoltage protection circuit prevents a voltage higher than an allowable voltage value from being supplied to a predetermined to-be-protected circuit. A voltage is applied from outside to an input end 11. A cathode terminal of a zener diode 13 is connected to the input end 11. A first resistance element 14 is connected between an anode terminal of the zener diode 13 and a ground terminal. A voltage detection integrated circuit 15 detects a voltage between both ends of the zener diode 13, and outputs a detection signal that indicates whether or not the detected voltage is higher than the allowable voltage value. When the detection signal indicates that the detected voltage is no higher than the allowable voltage value, a MOSFET 16 supplies the to-be-protected circuit with the voltage applied to the input end 11.

Abstract: A functional element is prevented from breakdown and deterioration because of mounting and demounting of the functional element immediately after cut-off of driving power from a constant-current power supply or during supply of the driving power. An electric circuit is configured to electrically connect a constant-current power supply 1 having a capacitance between an output terminal and a reference potential terminal and a detachable functional element 2 to each other. The electric circuit has an element breakdown prevention circuit 10 having a first circuit terminal connected to an output terminal of the constant-current power supply 1 through the functional element 2, and a second circuit terminal connected to the reference potential terminal of the constant-current power supply 1 through the functional element 2.

Abstract: An exemplary aspect of the present invention is a current limiting circuit including: an output transistor that controls a current flowing to a load from a power supply; a current sense transistor through which a current dependent on a current flowing through the output transistor flows; a sense resistor connected in series with the current sense transistor; a potential difference detection unit that detects a potential difference generated between both ends of the sense resistor; a constant current generation unit that supplies a constant current to the potential difference detection unit; and a control unit that controls a conduction state of the output transistor based on a control voltage generated based on the potential difference and the constant current, in which the sense resistor is disposed so as to surround the potential difference detection unit.

Abstract: A device for protecting a radio frequency transmission line from transient voltages includes an inner conductor for transmitting communication signals of a desired frequency band and a grounded, coaxial outer conductor electrically insulated from the inner conductor by a pair of annular insulators. As one feature of the invention, a tap conductor for discharging transient voltages carried by the inner conductor that fall outside the desired frequency band is coupled at one end to the inner conductor through a press-fit connection. As another feature of the invention, a pair of high-quality contacts are mounted onto opposite ends of the outer conductor and serve, together with the inner conductor, as the only electrical contact surfaces for the protective device that transmit the desired communication signals. As another feature of the invention, each insulator has a constant outer diameter along the entirety of its length and a variable inner diameter.

Abstract: A device is provided for the prevention of damage due to the continued supply of a utility to an appliance, the device comprising: 1) a detector which detects circumstances of present or impending emergency and responds by sending a detector signal to 2) a receiver which receives a signal from the detector and in response emits a receiver signal; 3) a transmitter which receives the receiver signal and in response signals a 4) restrictor to attenuate or quench a utility supply to an appliance.

Abstract: The present invention relates to an electrostatic discharge (ESD) protection circuit, and more particularly to a band-pass structure electrostatic discharge protection circuit. An ESD protection circuit is disposed at the input of a radio frequency (RF) core circuit. The ESD protection circuit comprises a plurality of diodes and inductors constructing a plurality of discharging paths, wherein the diodes and inductors forms a band-pass filter structure. Such that, the RF core circuit with the ESD protection circuit of the present invention feature much higher ESD robustness and better RF performance than the conventional design.

Abstract: A hybrid switch circuit includes a hybrid switch that couples an input conductor connected to an AC power supply to an output conductor connected to a load. The hybrid switch includes a power semiconductor in parallel with an electromagnetic relay. A control circuit turns on the hybrid switch by turning on the power semiconductor at a zero-voltage crossing of the AC voltage to provide a conductive path and then closing the relay to provide a conductive bypass path that bypasses the power semiconductor. The control circuit turns off the hybrid switch by opening the relay and subsequently turning off the power semiconductor at a zero crossing of the load current. The control circuit operates in response to a hybrid switch control signal that indicates whether an operating fault condition exists.

Abstract: A method, system, and apparatus of a vibration based user input for mobile devices are disclosed. In one embodiment, a method of controlling an electronic device includes receiving an impact signal, (e.g., a vibration generated by a user controlled impact with a surface mechanically coupled to a housing of the electronic device). The method further includes identifying a user command to the electronic device based on the impact signal, and performing a predesignated action (e.g., a mute, a power on, a power off, a volume increase, a volume decrease, a music track change, a call redirect, a call directed to voicemail, etc.) based on the user command. The user command may be identified using a number of user controlled impacts and an interval between a prior user controlled impact and a later user controlled impact.

Abstract: A method and a device for supervising the sensitivity of a protection function in an electrical power system including a metering device for measuring values of a feature, said protection function being configured to initialize an action based on a test value and a threshold value for the feature, wherein said test value is either a measured value or derived from the said measured values, the device includes a computing unit configured to receive the test values and, repeatedly during the operation of the protection function, to calculate a mean value and a deviation of the test values, to determine the probability of a false action based on the calculated mean value, the threshold value and the calculated deviation, and to indicate that the sensitivity is too high when the probability of a false action exceeds a first limit value for the probability of a false action.

Abstract: An electrical receptacle includes at least one motion sensor for detecting movement of a blade of an electrical plug in the receptacle, an extraction detector operatively connected to the motion sensor for generating a signal in response to movement of the blade at a predetermined rate, a position detector operatively connected to the motion sensor for determining the position of the blade in the receptacle, a switch operatively connected to the extraction detector and the position detector for de-energizing the receptacle when the extraction detector detects extraction of the blade from the receptacle at a rate equal to or greater than the predetermined rate and wherein the extraction detector and switch are operative to de-energize the receptacle in less than six milliseconds when the extraction detector detects extraction of the blade from the receptacle at a rate equal to or greater than the predetermined rate.

Abstract: An apparatus for protecting equipment connected to a high voltage direct current line comprises a current valve having at least one semiconductor device and a rectifying member connected in anti-parallel therewith. A surge arrester is configured to connect said current valve to said line, and a control unit is configured to control the current valve to conduct for draining current from the line to ground.

Abstract: Provided is a power supply control apparatus including an overcurrent detection circuit having an overcurrent detection accuracy improved. The power supply control apparatus according to the present invention includes: a transistor Q2 which produces a detection current dependent on a current flowing through an output transistor; a transistor 9 which produces the current Iref1 based on a bias signal BS1; a transistor 10 which produces the current Iref2 based on a bias signal BS2 different from the bias signal BS1; a current mirror circuit which outputs an overcurrent detection signal based on the current Iref1, the current Iref2 and the detection current; and a reference voltage production circuit 18 which produces the bias signal BS1 and the bias signal BS2. The reference voltage production circuit 18 includes: a resistor 21 arranged between a terminal for outputting the bias signal BS1 and a terminal for outputting the bias signal BS2; and a zener diode 37 connected in parallel with the resistor 21.

Abstract: In accordance with the disclosed subject matter herein, an apparatus for suppressing in a split-phase power system, effects of line-to-ground transient voltage spikes, balancing phase voltage with respect to ground, filtering phase voltage harmonics, cleaning up electrical noise in a split-phase power system, redirecting energy and absorbing electrical noise, protecting or replacing typical TVSS (transient voltage surge suppressor) units. The apparatus of the present invention can not be damaged by electrical noise. It uses virtually no energy in monitor mode and cannot draw over 3 amps. The apparatus of the present invention can be applied to single-phase lines from center tapped delta power transformers. In some embodiments of the disclosed subject matter, an apparatus for use with a power supply bus having at least a first power line and a second power line.

Abstract: An electrostatic discharge (ESD) protected device includes a device (6) to be protected and an ESD protection circuit (4). It is determined that if an ESD pulse is applied to pad (2) a leakage current flows on path (14) through the device (6). This leakage current of the device to be protected (6) is used as a precursor trigger signal to trigger the ESD device (4).

Abstract: Generally described, the disclosed subject matter is directed to improving the collection of GDT meter readings. In accordance with one embodiment, a method is provided for prioritizing the transmission and process of GDT meter readings in an AMR system. In particular, the method includes capturing a GDT meter reading that quantifies the consumption of a utility service at a utility meter. Then, during a reporting window, one or more packets of the GDT meter reading having a data item that identifies the enhanced priority level of the data is transmitted from the utility meter. When a collector receives the transmission, the elevated priority allocated to the transmission is identified. As a result, the collector causes the GDT meter reading to be forwarded to a host computer prior to the processing and transmission of other meter readings.

Abstract: An overvoltage protection circuit includes a PMOS transistor Q1 that is disposed between an input circuit 21, from which an input voltage VIN is supplied, and a system 22 and functions as a switch. A comparator 110 compares the input voltage VIN with a predetermined reference voltage to determine the occurrence of an overvoltage. Further, the comparator 110 outputs a High level as an operation signal when no overvoltage is detected. A soft switching control circuit 130 starts up by using the High level output from the comparator 110 as an enable signal, and gradually turns on the PMOS transistor Q1. A sudden change of the load exerted on the circuit on the input side is suppressed by the soft start function.

Abstract: A switching power supply includes: a first switch provided between a positive terminal of a DC power supply and a positive terminal of a load; a second switch connected in parallel with the first switch; a first capacitor provided between the second switch and a node of the first switch on a DC power supply side; a first inductor provided between the first capacitor and the positive terminal of the DC power supply; and a control circuit that turns off the second switch after the first switch is turned off and when or before a voltage across the first capacitor becomes zero.