Entries |
Document | Title | Date |
20080204955 | ARC FAULT CIRCUIT INTERRUPTER AND METHOD OF PARALLEL ARC FAULT DETECTION - An arc fault circuit interrupter includes separable contacts, an operating mechanism, a current sensor sensing current flowing through the contacts and outputting a sensed current, and a processor determining and storing peak values of the sensed current for plural half-cycles. The processor provides arc fault detection, determines whether a first predetermined plurality of half-cycles occur in succession and correspond to non-unity power factor, and responsively inhibits the detection for a first predetermined time, and whether a second predetermined plurality of half-cycles occur in succession, each with smaller peak amplitude than that of an immediately preceding half-cycle of like or differing polarity, and responsively inhibits the detection for a second predetermined time. The processor determines that the detection is not inhibited for the first and second predetermined times, and responsively indicates that any of the half-cycles having a peak amplitude greater than a predetermined amount is a parallel arc. | 08-28-2008 |
20080266737 | Biometric reader protection system and method - A biometric reader protection system comprises a power controller configured to determine an amount of current flow to a biometric reader and interrupt the current flow to the biometric reader if the current flow exceeds a predetermined threshold. | 10-30-2008 |
20080266738 | Over-current protection device for a switched-mode power supply - An over-current protection device for use in a switched mode power supply prevents over-current conditions caused by short-circuits faults. The over-current protection device monitors a current in the switched mode power supply, and in particular, determines a peak current value associated with the monitored current. The monitored current is compared to a reference value to determine whether an over-current condition exists. If an over-current condition is detected, then the over-current protection device modifies the ‘off’ time of the switched mode power supply based on the determined peak current value. | 10-30-2008 |
20080297963 | ADJUSTABLE OVER CURRENT PROTECTION CIRCUIT WITH LOW POWER LOSS - Disclosed is an adjustable over current protection circuit which advances the timing of enabling an over current protection mechanism according to an input voltage, therefore the delay problem resulting from the non-instant response of the over current protection circuit is compensated with a low power loss. The over current protection circuit includes a voltage divider, a voltage-to-current converting circuit, an adjusting circuit and a comparing circuit. The voltage divider divides an input voltage to generate an adjusted input voltage, and the adjusted input voltage is converted into an adjusted input current by the voltage-to-current converting circuit. The adjusting circuit then adjusts a current sensing voltage according to the adjusted input current to generate an adjusted current sensing voltage. Finally, the comparing circuit compares the adjusted current sensing voltage with a predetermined over current protection reference voltage to selectively enable the over current protection mechanism according to a comparison result. | 12-04-2008 |
20080304194 | POWER SUPPLY CONTROL APPARATUS HAVING A FUNCTION SUPPLYING POWER SUPPLY VOLTAGE - A microprocessor commonly receives at an A/D port the potentials of the power supplies output from a plurality of types of power supplies (a power supply for HDMI, a power supply for LSI, a power supply for an audio driver IC, and a power supply for a tuner). The A/D port receives the potential of the voltage on an output line of the power supply for HDMI that is divided. If that the potential of the divided voltage is lower than a set potential is detected, the output line is interrupted to interrupt power supply voltage supplied to external equipment. | 12-11-2008 |
20080316664 | RESETTABLE MEMS MICRO-SWITCH ARRAY BASED ON CURRENT LIMITING APPARATUS - The present invention comprises a method for over-current protection. The method comprising monitoring a load current value of a load current passing through a plurality of micro-electromechanical switching system devices, determining if the monitored load current value varies from a predetermined load current value, and generating a fault signal in the event that the monitored load current value varies from the predetermined load current value. The method also comprises diverting the load current from the plurality of micro-electromechanical switching system, devices in response to the fault signal and determining if the variance in the load current value was due to a true fault trip or a false nuisance trip. | 12-25-2008 |
20090040675 | CONTROLLING OVER-CURRENT FROM A POWER SUPPLY TO A DEVICE - Apparatus ( | 02-12-2009 |
20090046402 | Pole-Mountable Medical Equipment Power Supply Having Low Patient Leakage Current - A medical electrical equipment power supply is configured to satisfy at least one industry standard for patient leakage current. The power supply is provided with a plurality of electrical sockets into which IV pumps, patient monitors and other equipment may be plugged in. In one embodiment, the power supply has a housing configured to be mounted on an IV pole. An isolation transformer within the housing helps reduce the total patient leakage current to a value that satisfies at least one industry standard for patient leakage current. In another embodiment devoid of an isolation transformer, the power supply's electrical circuit detects whether the patient leakage current exceeds a predetermined value based on the industry standard, and disconnects power to one or more sockets so as to maintain the patient leakage current below this predetermined value. | 02-19-2009 |
20090059454 | CURRENT LIMIT PROTECTION APPARATUS AND METHOD FOR CURRENT LIMIT PROTECTION - A current limit protection apparatus and a method for current limit protection are provided. The current limit protection apparatus includes a MOS transistor, a current detecting unit, and a current limit circuit. Two source/drain of the MOS transistor are used for receiving a first-voltage and outputting a second-voltage respectively. A gate of the MOS transistor is used for receiving a gate driving signal to determine a conducting current of the MOS transistor. The current detecting unit is used for detecting the conducting current, so as to generate a detecting result. The current limit circuit has a plurality of current threshold values. The current limit circuit selects one of the current threshold values according to an indicating signal and generates the gate driving signal according to a difference between the selected current threshold value and the detecting result. | 03-05-2009 |
20090097179 | Over current protection method for a power supply and apparatus thereof - An over current protection method for a power supply includes steps as follows. Firstly, an output current value of the power supply is received. Secondly, whether the power supply has an over current status is determined in accordance with the received output current value. Thirdly, if the over current status occurs, the over current status is monitored to check whether the over current status continues for more than a setting period of time. If the over current status continues for more than the setting period of time, the power supply is disabled. On the other hand, if the over current status is eliminated with the setting period of time, a process flow returns to the first step of receiving an output current value of the power supply. | 04-16-2009 |
20090141417 | POWER SUPPLY CONTROL APPARATUS HAVING A FUNCTION SUPPLYING POWER SUPPLY VOLTAGE - A microprocessor commonly receives at an A/D port the potentials of the power supplies output from a plurality of types of power supplies (a power supply for HDMI, a power supply for LSI, a power supply for an audio driver IC, and a power supply for a tuner). The A/D port receives the potential of the voltage on an output line of the power supply for HDMI that is divided. If that the potential of the divided voltage is lower than a set potential is detected, the output line is interrupted to interrupt power supply voltage supplied to external equipment. | 06-04-2009 |
20090154042 | OVER CURRENT PROTECTION METHOD AND DEVICE - An over current protection system, the system includes: a sampling rate unit, adapted to determine a sampling rate of at least one alternating input current in response to an alternating input current cycle duration; and a controller, adapted to receive samples of the at least one alternating input current and to initiate an appliance of an over current protection measure if at least one of the following conditions is fulfilled: an amplitude of an alternating input current exceeds a first threshold before magnitudes of multiple alternating input current samples exceed a second threshold; and magnitudes of multiple alternating input current samples exceed a third threshold, wherein the third threshold exceeds the first and second thresholds. | 06-18-2009 |
20090161277 | METHOD AND DEVICE FOR PREVENTING DAMAGE TO A SEMICONDUCTOR SWITCH CIRCUIT DURING A FAILURE - A device includes at least one semiconductor switching circuit connected to a power source and a load and at least one breaker switch integrated with the at least one semiconductor switching circuit. The breaker circuit may be connected in series with the at least one semiconductor switching circuit and the at least one breaker switch is configured to create an open circuit in less than about twenty microseconds of receipt of a predetermined threshold of semiconductor switch current to thereby prevent damage to the at least one semiconductor switching circuit or housing. A method of preventing damage to a semiconductor switching circuit or device is also presented. | 06-25-2009 |
20090195953 | Power IC with an over-current protection circuit and method thereof - A power IC with an over-current protection receives an input voltage and converts the input voltage into an output voltage to a load. The present invention controls a power transistor to provide an output current to the load, and uses the output control unit to control the power transistor. Furthermore, the over-current protection circuit has a constant current limit threshold and a fold-back current limit threshold for controlling the power transistor. When the output current is larger than the constant current limit threshold, the output current is clamped to a constant current value to descend the output voltage to a rated value. When the output current is larger than the fold-back current limit threshold, the output current is limited to a low current value to descend the output voltage to zero. Thereby, the inner circuit of the power IC and the load are protected. | 08-06-2009 |
20090231769 | Negative Sequence Differential Element - A negative sequence differential element may detect a fault in an electrical power system by computing a differential between negative sequence values derived from a first phase-current measurement and a second phase-current measurement. A transformer may be disposed between the first phase-current and second phase-current measurement location. The first phase-current measurement and the second phase-current measurement may be normalized and a negative sequence current may be calculated therefrom. The negative sequence currents may be used to calculate an operating quantity, which may be an absolute value of the sum of the first and second negative sequence currents, and a restraint quantity comprising a maximum of the first and second negative sequence currents. The restraint quantity may be scaled by a slope factor. A fault may be detected if the operating quantity exceeds the scaled restraint quantity and a pickup current threshold. | 09-17-2009 |
20090303647 | Apparatus for Short Circuit Protection - The present invention relates to an apparatus for short circuit protection. The apparatus comprises two supply inputs for connecting the apparatus to a terminal of a power supply and two supply paths being connected together and to the supply inputs, wherein each supply path comprises a disconnection means for disconnecting the supply path. Further the apparatus comprises a determination means for determining a current flowing from one of the supply paths through the other one of the supply paths and a control means for controlling the disconnection means of the supply paths dependent on the current determined by the determination means, wherein the control means is connected with the disconnection means and the determination means. | 12-10-2009 |
20100079922 | SELF POWERED ELECTRONIC OVERLOAD METHOD AND SYSTEM - A sensing and switching device, such as an overload relay, is provided which includes a processor configured to make measurements and control operation (e.g., tripping) of the device. The processor regulates measurement of voltage and/or current, and the supply of power to power supplies. The power supplies store charge to provide operational power for the processor and that can be used for tripping and resetting contacts within the device. The processor opens a burden resistor measurement circuit when charge is being stored in the power supplies, and opens switches in the power supplies while closing the burden resistor switch to permit measurements. By alternatively switching for charging of the power supplies and making of measurements, the processor is able to reliably make measurements, control the device, and store sufficient power for operation of the device despite a demanding power budget. | 04-01-2010 |
20100110597 | DRIVE AMPLIFIER SYSTEM AND OVER-CURRENT DETECTION METHOD FOR THE SAME - A drive amplifier system includes a drive control device, a power supply, and at least one drive amplifier. The power supply includes a power control circuit, a rectifier, and a current sensor. The power control circuit includes an over-current detection circuit, a controller, and a state comparator. The drive amplifier includes a control circuit, a state memory, and an inverting circuit. When a actual current provided for the at least one drive amplifier by the power supply is more than a reference voltage, the over-current detection circuit outputs an over-current detection signal. | 05-06-2010 |
20100134939 | POWER SUPPLY CONTOLLER - A second forcing shutoff operation is performed for a power MOSFET | 06-03-2010 |
20100165529 | PROTECTION CIRCUIT APPARATUS - A protection circuit apparatus comprises a retriggerable fuse having an awakened state and a sleep state. The retriggerable fuse has an input and an output and is arranged, when in the awakened state, to selectively prevent a load current from flowing from the input to the output in response to the load current exceeding a first current threshold. An activation circuit is also provided and is arranged to sense the load current being drawn. The activation circuit causes the retriggerable fuse to enter the awakened state from the sleep state when the sensed load current exceeds a second current threshold. | 07-01-2010 |
20100202092 | Differential Protection Method, System And Device - A differential protection method in a power network for determining type of fault occurring within the power network. The power network includes a protected object having two or more ends, and a current differential protection device and a current transformer are arranged at each end. The method includes the steps obtaining, at a first end of the protected object, measured values from a second end of the protected object; comparing, at the first end, changes in measured values taken at the first end with changes in the measured values obtained from the second end; and determining, upon the step of comparing changes in measured values showing differing results, type of fault occurring within the power network. | 08-12-2010 |
20100246080 | Intelligent fuse-holder - In high-current electrical devices protected by fuses, additional performance data besides whether or not a fuse is blown is useful for diagnostics, repair, and preventing emerging failures from reaching a level that damages the device. An intelligent fuse-holder includes a built-in current sensor. The current sensor signals are passed through an A/D converter and analyzed by a microcontroller. Through an interface, a user can program the fuse-holder to periodically degauss the current sensor coil to improve performance or turn the sensor power off to conserve power. The user may also control various I/O signals carrying information about the fuse, the intelligent electronics, or the host board on which the fuse-holder is mounted. | 09-30-2010 |
20100254055 | OVERCURRENT PROTECTION IN A DIMMER CIRCUIT - Disclosed is an overcurrent protection circuit for use in a dimmer circuit having a switching device for controlling power delivered to a load. The overcurrent protection circuit comprises means for sensing a load current passing through the load and means for comparing the sensed load current with a threshold, wherein the threshold is a dynamic current threshold. Also disclosed is a dimmer circuit comprising the overcurrent protection circuit. | 10-07-2010 |
20100254056 | EFFICIENT METHOD FOR CALCULATING THE DOT PRODUCT IN FAULT DETECTION ALGORITHMS - A method of electrical fault determination using the phase angle information of all the currents entering and leaving a protection zone, to determine whether a fault, if any, is internal or external to the protection zone. | 10-07-2010 |
20100277845 | Circuit Apparatus for Protecting a Pre-Charge Resistance Using an Interlock Switch - The present invention relates to a circuit apparatus for protecting a pre-charge resistance using an inter-lock switch, and more particularly, to a circuit apparatus for protecting a pre-charge resistance by controlling a current flowing to a voltage transformer of an electric vehicle using an inter-lock switch and a polyswitch. The present invention provides a circuit apparatus for protecting a pre-charge resistance using an inter-lock switch, including a pre-charge resistance, a pre-charge relay and a main relay placed between a battery of a hybrid electric vehicle and a voltage transformer, wherein the circuit apparatus includes an inter-lock switch which is operated complementarily with the pre-charge relay and is for preventing continuous flow of an overcurrent to the voltage transformer and the resulting damage of the pre-charge resistance. | 11-04-2010 |
20100296216 | PROTECTIVE DEVICE AND COMBINATION SWITCHING DEVICE - The disclosure relates to a protective device, for example an overload relay, for attaching the same to a switching device, such as a contactor. The housing wall of the protective device has at least one first and one second recess each on a first side facing the switching device, and on a second side facing away from the switching device, and the recesses are connected to each other such that the switching device is accessible through the recesses for the purpose of connecting a terminal lead. | 11-25-2010 |
20100302697 | CURRENT DIFFERENTIAL RELAY - An output unit outputs a trip current based on current amount data obtained by sampling a current amount at a first end of a power line at a predetermined timing and current amount data received from a device at a second end of the power line. A clock generating unit generates a clock to be used as a reference for the predetermined timing. A receiving unit receives a GPS signal and extracts a time synchronization signal from the GPS signal. A correction-signal generating unit generates a correction signal for synchronizing the clock with the time synchronization signal. A correcting unit corrects the clock with the correction signal. | 12-02-2010 |
20110002073 | OUTPUT BUFFER CIRCUIT AND OUTPUT BUFFER SYSTEM - An output buffer circuit of the present invention includes: a first output circuit having a first upper switching element and a first lower switching element, the first upper switching element having main terminals, one of the main terminals being maintained at a first voltage, the first lower switching element having main terminals, one of the main terminals being connected to the other main terminal of the upper switching element, the other main terminal of the first lower switching element being maintained at a second voltage, a portion where the other main terminal of the first upper switching element and one of the main terminals of the first lower switching element are connected to each other constituting an output portion for output to outside; a second output circuit having an output terminal connected to the output portion of the first output circuit; and a short-circuit detecting circuit configured to detect a short circuit of the output portion of the first output circuit. The output buffer circuit of the present invention is configured such that: when starting up the output buffer circuit, the second output circuit and the short-circuit detecting circuit are activated before activating the first output circuit; when the short circuit of the output portion is not detected, the first output circuit is activated; and when the short circuit of the output portion is detected, the first output circuit is not activated. | 01-06-2011 |
20110019321 | LEAKAGE SENSOR AND SWITCH DEVICE FOR DEEP-TRENCH CAPACITOR ARRAY - A high-density deep trench capacitor array with a plurality of leakage sensors and switch devices. Each capacitor array further comprises a plurality of sub-arrays, wherein the leakage in each sub-array is independently controlled by a sensor and switch unit. The leakage sensor comprises a current mirror, a transimpedance amplifier, a voltage comparator, and a timer. If excessive leakage current is detected, the switch unit will automatically disconnect the leaky capacitor module to reduce stand-by power and improve yield. An optional solid-state resistor can be formed on top of the deep trench capacitor array to increase the temperature and speed up the leakage screening process. | 01-27-2011 |
20110063769 | EQUIVALENT ALPHA PLANE FAULT DETERMINATION FOR A MULTI-TERMINAL POWER APPARATUS - Current differential protection is provided for a multi-terminal power apparatus, such as a power transmission line. Currents measured at each of the multiple terminals are used to calculate a differential current and a restraining current, which are then converted into a first equivalent current and a second equivalent current of an equivalent two-terminal power apparatus. In the equivalent two-terminal power apparatus, a differential current derived from the first and second equivalent currents is substantially equal to the differential current of the original multi-terminal power apparatus. Similarly, a restraining current derived from the first and second equivalent currents is substantially equal to the restraining current of the original multi-terminal power apparatus. The first and second equivalent currents may be used in an alpha plane analysis to determine whether or not to trip the multi-terminal power apparatus. | 03-17-2011 |
20110075308 | System and Method for Short Circuit Protection - In one embodiment, a system for providing short circuit protection is disclosed. The system has a supply circuit and a series switch. The supply circuit has a supply input and a supply output, and is configured to deliver an output current at the supply output, and to disable the supply output if the output current exceeds a first current limit. The series switch coupled between the supply output of the supply circuit and a supply node, and the supply node is configured to be coupled to a load. | 03-31-2011 |
20110075309 | OVERCURRENT PROTECTION APPARATUS FOR LOAD CIRCUIT - To provide an overcurrent protection apparatus for a load circuit which can detect an overcurrent accurately without being influenced by the offset voltage Voff of an amplifier (AMP | 03-31-2011 |
20110080680 | METHOD FOR MANAGING A FAULT EVENT IN A NETWORK FOR DISTRIBUTING ELECTRICAL ENERGY, AND A CORRESPONDING ELECTRONIC PROTECTION UNIT - A method is provided for managing a fault event in a network for distributing low-voltage or high-voltage electrical energy, which comprises at least one voltage source and a load. The method includes performing at least one step of a first procedure for detecting the existence of fault conditions in the load and performing at least one step of a second procedure for determining, on the basis of the evolution in time of the derivative of the instantaneous current in the load, the state of execution of an interruption manoeuvre started by at least one protection device adapted to interrupt locally the passage of current in the load. An electronic protection unit is also provided that is able to execute the aforesaid method. | 04-07-2011 |
20110149454 | BATTERY SYSTEM - Provided is a battery system capable of preventing the voltage that is applied to the voltage detection circuit from exceeding the withstand voltage of the voltage detection circuit when the connection between the cells in the battery module is disconnected, and preventing an overcurrent from flowing in the cell voltage detection circuit and the module. The modules are internally provided with a battery voltage measurement circuit | 06-23-2011 |
20110149455 | ELECTRIC VEHICLE CHARGING CORD SET - An electric vehicle charging cord set includes a housing containing an interrupting device therein and a first cord provided at one end with a plug connectable to an outlet installed on a wall surface of a building and at the other end connected to one of the terminal units of the interrupting device. An electric vehicle charging cord set further includes a second cord provided at one end with a connector connectable to an inlet of an electric vehicle and at the other end connected to the other of the terminal units of the interrupting device. The housing includes a storage unit for extendibly storing the second cord, a stand for placing the housing on a ground surface and a transportation handle. The storage unit includes a drum rotatably attached to the housing. The second cord is wound on the outer circumferential surface of the drum. | 06-23-2011 |
20110222198 | ALTERNATING CURRENT OVERLOAD PROTECTION APPARATUS AND METHOD - A circuit and method protect switching devices from alternating current overload. By protecting the switching devices from AC overload, the reliability of the equipment using the switching devices is improved, cost for repair is decreased and information regarding the cause of the AC overload is available. | 09-15-2011 |
20110228434 | APPARATUS AND METHOD FOR PROTECTING BATTERY BY COMPARISON OF FULL CHARGE CAPACITY - An apparatus protects a battery by comparison of full charge capacity. The apparatus includes a fuse connected on a circuit path along which a charging or discharging current flows, a fuse control switch for selectively opening or closing an operating current applied to the fuse, and a controller for calculating an actual value and a reference value of a full charge capacity of a battery, comparing the actual value with the reference value, and then controlling the fuse control switch according to the comparison result to melt and cut the fuse. Thus, an abnormal state of a battery may be found and controlled at an early stage, so it is possible to prevent any problem such as firing and thus improve the safety of a battery. | 09-22-2011 |
20110242717 | POWER TOOL - A power tool | 10-06-2011 |
20110267728 | OVERCURRENT PROTECTION CIRCUIT, INTEGRATED CIRCUIT, APPARATUS AND COMPUTER PROGRAM PRODUCT - An over-current protection circuit, including a current input for receiving a input current and a current output electrically connectable to a load, for outputting an output current proportional to the input current. A switch connects the current input to the current output. The switch has at least two switch states including an open state in which a current flow from the current input to the current output is interrupted and a closed state in which the current flow is enabled. The switch includes a switch control input for controlling the switch state. The circuit has a sensor for sensing a load current applied to the load and a controller connected to the sensor for controlling the switch to be in the open state when the sensed load current has exceeded a current threshold during a predetermined period of time, the predetermined period of time being dependent on an amount with which said sensed load current exceeds the threshold. | 11-03-2011 |
20110267729 | COMBINED POWER METER AND OUTLET DEVICE - An receptacle device with power-meter is provided. The receptacle device includes a power supply conversion unit configured to convert input power supply so as to measure a current value or a voltage value of the input power supply; an analog-to-digital conversion unit configured to convert an analog output from the power supply conversion unit into a digital signal, a control unit configured to output a control signal to control operation of the receptacle device by comparing the digital signal input from the analog-to-digital conversion unit to a predefined reference value; a switch unit configured to be turned on or off in response to the control signal from the control unit; and a display unit configured to display values of current, voltage, power, zero phase, and power factor of the input power supply, and display a menu that is controllable by a user. | 11-03-2011 |
20110273805 | HDMI CABLE CONNECT APPARATUS AND METHOD - In some embodiments, an HDMI connection interface is provided with a connection detection circuit utilizing power cycling or an otherwise intermittent supply at a pin for an HDMI device for determining if the device is connected to an appliance. | 11-10-2011 |
20110279939 | ELECTRICAL CIRCUIT WITH REDUNDANT TRUNK - An electrical circuit comprising a power supply, a load, first and second trunks disposed therebetween and control means adapted to control the electrical status of the first and second trunks, in which the control means comprises monitoring means adapted to monitor the current and/or voltage of the first and second trunks and to detect current and/or voltage events which are indicative of faults occurring thereon, and isolation means adapted to isolate the first or second trunk when the monitoring means detects a current and/or voltage event which is indicative of a fault occurring thereon, in which the first and second trunks are electrically connected and arranged in parallel such that the power supplied to the load is distributed substantially equally between them, and in which the control means comprises compensation means adapted to prevent the isolation means from isolating one of said first or second trunks when a current and/or voltage event which is indicative of a fault occurs thereon which is caused by a fault occurring on the other of the first or second trunks. | 11-17-2011 |
20110317321 | SHORT CIRCUIT PROTECTION DEVICE AND SWITCHGEAR ASSEMBLY HAVING SUCH PROTECTION DEVICES - A short-circuit protection device for limiting, preferably also deactivating, short-circuit currents in high energy direct current networks, in particular short-circuit currents of battery systems in submarine direct current networks. The device includes an electrical resistor, in particular an ohmic resistor, to conduct and limit the short-circuit current in the case of a short-circuit, a first switch connected in parallel with the resistor for bridging the resistor when the network is free of short-circuit, a monitoring and control arrangement for monitoring the current by the switch and for opening the switch if the current through the switch exceeds a specified threshold value. | 12-29-2011 |
20120039007 | METHOD FOR PROVIDING OVER CURRENT PROTECTION AND CIRCUIT - A method and circuit for protecting against an over current condition. A conduction time of one or more transistors is reduced during the over current condition. The conduction time is reduced in an amount that is an increasing function of the amount of the over current. The conduction time may be reduced proportionally to the excess current. | 02-16-2012 |
20120069480 | METHOD, DEVICE AND SWITCH FOR PROVIDING SHORT-CIRCUIT PROTECTION FOR RESISTIVE AC LOAD - The invention relates to a method for providing short-circuit protection for a resistive AC load, wherein the load is connected with an AC power supply through an active controlled switch controlled by a controller. The method for providing short-circuit protection for the resistive AC load comprises the following steps of: turning on the active controlled switch within a first conduction angle range; obtaining the mean current value of the load through a current detection circuit; and determining whether the mean current value of the load is greater than a default value or not, wherein, if so, the active controlled switch is controlled to be turned off, and if not, the active controlled switch is controlled to be turned on. The invention also relates to a device and a switch for providing short-circuit protection for the resistive AC load. The method, the device and the switch for providing short-circuit protection for the resistive AC load, which are provided by the invention, have the advantages that: when the switch is required to be turned on, the switch is turned on first within the first conduction angle range which cannot cause damage to the switch and the circuit and then whether the switch is continued to be turned on or not is determined by determining whether the resistive AC load is subjected to a short circuit or not through the obtained current value; therefore, the switch and the circuit which are connected with the load can be protected while the resistive AC load in a short-circuit condition can be detected. | 03-22-2012 |
20120087052 | Method and Structure for Detecting an Overcurrent in a Triac - A method comprising: a) during at least part of a conduction phase of the triac, measuring the gate potential of the triac; and b) comparing a value based on said measurement with a reference threshold and deducing the presence or the absence of an overcurrent based on said comparison. | 04-12-2012 |
20120099234 | DRIVING CIRCUIT AND SEMICONDUCTOR DEVICE WITH THE DRIVING CIRCUIT - A driving circuit is placed on an IC chip, and which drives a semiconductor switching element. The driving circuit includes: a power supply circuit for receiving a first voltage supplied from a single power supply provided outside the IC chip, generating a second voltage based on the first voltage, and applying the second voltage to a reference terminal of the semiconductor switching element; and a driving part for driving the semiconductor switching element by applying the first voltage or stopping application of the first voltage to a control terminal of the semiconductor switching element in response to an input signal given from outside the IC chip. | 04-26-2012 |
20120106013 | CURRENT SENSE CIRCUIT AND BATTERY OVER-CURRENT PROTECTION CONTROLLER - A battery over-current protection controller includes a current sense circuit, a first pin coupled to one end of the current detection circuit, a second pin, and a third pin. The second pin and the third pin are respectively coupled to a positive end and a negative end of a battery module. The current sense circuit includes a reference voltage generation unit, a voltage dividing unit, and a comparison unit. The reference voltage generation unit is coupled between the second pin and the third pin to generate a reference voltage. The voltage dividing unit has one end coupled to the reference voltage to thereby generate a voltage dividing signal. The comparison unit receives the voltage dividing signal and a current detection signal indicative of a value of a current flowing through the current detection circuit to thereby generate an over-current protection signal when the current is greater than the predetermined current. | 05-03-2012 |
20120113556 | APPARATUS FOR TESTING ELECTRONIC DEVICES - An apparatus is described for burn-in and/or functional testing of microelectronic circuits of unsingulated wafers. A large number of power, ground, and signal connections can be made to a large number of contacts on a wafer. The apparatus has a cartridge that allows for fanning-in of electric paths. A distribution board has a plurality of interfaces that are strategically positioned to provide a dense configuration. The interfaces are connected through flexible attachments to an array of first connector modules. Each one of the first connector modules can be independently connected to a respective one of a plurality of second connector modules, thereby reducing stresses on a frame of the apparatus. Further features include for example a piston that allows for tight control of forces exerted by terminals onto contacts of a wafer. | 05-10-2012 |
20120134062 | DEVICE AND METHOD FOR SECURING AN ELECTRIC LINE WITH A CONTROLLABLE SWITCHING ELEMENT - The present invention relates to a device and a method for reliably securing an electric line with a controllable switching element, wherein the device and the method can be easily adapted to the properties of an electric line. The device comprises a controllable switching element ( | 05-31-2012 |
20120140370 | Protection Circuit and Protection Method - A controller is applied with a protection circuit and a protection method. A controller detects an input signal generated by a current flowing through a detection resistor, thereby turning on or off a switch, for controlling the current. A shielding time generator provides a shielding time. When the switch is turned on and when a current timing without the shielding time, a short-circuit detector compares the input signal with a first reference voltage, thereby asserting a short-circuit detection signal. When the switch is turned off or when the current timing is during the shielding time, the short-circuit detection signal is not asserted. Each time the short-circuit detection signal is asserted, a logic controller turns off the switch, thereby reducing the current. | 06-07-2012 |
20120182657 | RATE OF CHANGE DIFFERENTIAL PROTECTION - A method and algorithm are disclosed that can be used to determine if an electrical fault exists within a protection zone defined as in the area between specific current transformers. (CTs). Currents from CTs are brought into a microprocessor (or other device) that converts the analog currents into digital quantities. The current quantities are summed both vectorially and arithmetically by the microprocessor. The mathematical derivative of the vector and the arithmetic sums are compared in order to determine if an electrical fault exists within the protection zone. An electrical trip signal is generated by the microprocessor if the fault is deemed to be in the protection zone. | 07-19-2012 |
20120212871 | OVERCURRENT DETECTING CIRCUIT AND BATTERY PACK - An overcurrent detecting circuit includes: a voltage detecting unit that detects a terminal voltage of a battery; a variation detecting unit that detects a variation in the terminal voltage within a base time set in advance, based on a terminal voltage detected by the voltage detecting unit; and an overcurrent judging unit that judges that an overcurrent has flowed inside the battery in a case where a variation detected by the variation detecting unit exceeds a reference threshold value set in advance. | 08-23-2012 |
20120236454 | OVERCURRENT PROTECTION CIRCUIT AND MOTHERBOARD HAVING SAME - An overcurrent protection circuit includes an input terminal, an output terminal, a first resistor, a second resistor, a current source and a comparator. The first resistor, the second resistor and the current source are connected in series in that order between the input terminal and ground. A first input pin of the comparator is connected to a first node between the second resistor and the current source. A second input pin of the comparator is connected to the input terminal An output pin of the comparator is connected to the output terminal. When current input through the input terminal is greater than a predetermined value, the overcurrent protection circuit outputs a signal indicative of the current being greater than the predetermined value through the output terminal. | 09-20-2012 |
20120236455 | POWER DISTRIBUTION SYSTEM FOR BUILDING AND PROTECTION METHOD FOR MAIN LINE THEREOF - A power distribution system for a building includes an electric current sensor for detecting a value of a current flowing from a commercial AC power source through a main line in a building and a storage battery installed in the building. When the current value detected by the electric current sensor reaches a predetermined value, a supply of an electric power to the building from the storage battery is initiated. The power distribution system further includes an overcurrent protection unit. The building includes sections individually equipped with electric power supply systems, and the overcurrent protection unit protects the main line of the building from an overcurrent by initiating the supply of the electric power from the storage battery to the building when the current value detected by the electric current sensor becomes equal to or greater than a predetermined current value for the initiation of main line protection. | 09-20-2012 |
20120320478 | OVERCURRENT LIMITING FOR HIGH SIDE SOLENOID SWITCH CONTROLS - An overcurrent protection circuit for a high side solenoid switch includes a primary bias circuit and a secondary bias circuit. The secondary bias circuit is operable to alter a source to gate bias voltage of the high side solenoid switch during an overcurrent. | 12-20-2012 |
20120320479 | PORTABLE DRILLING MACHINE | 12-20-2012 |
20120327543 | ELECTRODE AND METHOD FOR SUPPLYING CURRENT TO A REACTOR - Disclosed is a method for supplying current to a reactor, wherein electrode(s) of an electrical energy network (EEN), which is DC-isolated from ground potential, is/are fed through a reactor wall and connected to an electrically conductive element (ECE) so that an operating voltage is applied to the ECE and electrical current flows through it. A seal of electrically insulating material is provided between the wall and the electrode. The EEN is monitored for insulation faults. A fall below a particular insulation resistance triggers shutdown of the electrical energy supply. The switching threshold is determined by taking into account at least one of the following parameters: seal geometry, seal material, supply voltage and maximum possible electrical energy input into the seal immediately before shutdown, triggered by the maximum theoretically possible leakage current through the seal. A device and an electrode having respective seals are also disclosed. | 12-27-2012 |
20130003240 | Composition of a desired trip curve - A method and apparatus for composing a desirable trip curve, such as an I | 01-03-2013 |
20130033789 | ADAPTIVE POWER MANAGEMENT SYSTEM FOR AIRCRAFT GALLEYS - The adaptive power management system for aircraft galleys includes one or more programmable circuit breakers for corresponding interchangeable aircraft galley inserts. Current rating settings of the programmable circuit breakers can be changed by direct interrogation by a galley network controller, which can also automatically switch selected circuit breakers to open to shut down the power supply to an entire galley complex or individual galley inserts, as needed, or by a passive signal. | 02-07-2013 |
20130033790 | HEAT GENERATION AMOUNT ESTIMATION UNIT FOR BATTERY FOR ELECTRIC POWER TOOL, AND APPARATUS FOR ELECTRIC POWER TOOL - A disclosed heat generation amount estimation unit is used for a battery for an electric power tool, and estimates a heat generation amount of the battery that is a power source of the electric power tool. The heat generation amount estimation unit includes a computation device, and is provided in an apparatus for electric power tool. The computation device periodically reads, either during a discharge from the battery or during a charge to the battery, a detected current from a current detection device, which detects a current corresponding to this point in time from among a discharge current and a charge current flowing through the battery, and adds/subtracts a heat generation amount equivalent value in accordance with a value of the read detected current. The computation device outputs the added/subtracted heat generation amount equivalent value as an estimated value representing the heat generation amount of the battery. | 02-07-2013 |
20130057995 | Temperature Evaluation Circuit - An electronic circuit includes a temperature evaluation circuit. The temperature evaluation circuit includes a first sensor circuit with a first output terminal that is configured to sense a first temperature at a first position of the electronic circuit and to generate at the first output terminal a first output current that is dependent on the first temperature. A second sensor circuit includes a second output terminal and is configured to sense a second temperature at a second position of the electronic circuit and to generate at the second output terminal a second output current that is dependent on the second temperature. An evaluation circuit has an input terminal connected to the first output terminal and the second output terminal and is configured to provide an evaluation signal that is dependent on a current received at the input terminal. | 03-07-2013 |
20130063850 | OVERCURRENT PROTECTION CIRCUIT - An overcurrent protection circuit includes a load drive section driving a load, a wire coupled with the load and the load drive section, a current detection section detecting a load current value of an electric current that flows to the load, an addition and subtraction section determining an addition and subtraction value based on the load current value and transmitting an integration result of addition and subtraction, a comparison circuit comparing the integration result with a threshold value, and a control circuit controlling the load drive section based on the comparison result. The addition and subtraction section includes an addition value determination circuit that determines an addition value in the addition and subtraction value based on the load current value and a function expression or information indicating a relationship between the load current value and the addition value. | 03-14-2013 |
20130070379 | POWER REGULATOR WITH OVER CURRENT PROTECTION AND CONTROL CIRCUIT THEREOF AND METHOD OF OVER CURRENT PROTECTION - The present invention discloses a power regulator with over current protection (OCP), a control circuit thereof, and a method of over current protection. The power regulator with OCP includes: a primary circuit, a transformer, and a secondary circuit. The power regulator receives AC power, and generates secondary current which is supplied to a load circuit. The primary circuit includes a control circuit which includes: a switch control circuit, a first comparator circuit, a sample and hold circuit, and a compensation circuit which is coupled to the sample and hold circuit. The compensation circuit adaptively adjusts a threshold level of the OCP according to a current sense signal, or controls a delay time of an over current detection signal to compensate an error of the OCP threshold level, which is caused by the AC power, such that the primary current may have a peak corresponding to a predetermined setting. | 03-21-2013 |
20130094114 | CONTROL APPARATUS FOR SWITCHING DEVICE - A control apparatus for a switching device which suppresses surge voltages at the time of current shutoff of a switching device to protect from overcurrents although the switching device is not in an overcurrent state, including a current sensor, a comparator, a timer latch, a control circuit, and a transistor. The current sensor detects the current of a switching device and outputs a detected voltage. The comparator outputs a signal when the detected voltage is equal to or greater than a reference voltage. When the time duration of the output signal is equal to or greater than a setting time, the timer latch outputs a surge suppression detection signal, based on which the control circuit outputs to the transistor a driving signal to turn off the switching device. The reference voltage is smaller than a reference voltage used when detecting an overcurrent flowing in the switching device. | 04-18-2013 |
20130100566 | POWER SUPPLY DEVICE - Disclosed herein is a power supply device. The power supply device includes a conversion unit converting an applied voltage into a predetermined level, a switching unit performing an opening operation or a closing operation to control a current flowing in the conversion unit, a sensing unit sensing an occurrence of overcurrent when a voltage applied to the switching unit is equal to or larger than a reference voltage set in advance, and a control unit performing a protection operation when the overcurrent is sensed again within a protection time set in advance after a predetermined time is delayed from the time at which the overcurrent is sensed, so that malfunction due to noise is prevented. | 04-25-2013 |
20130107407 | SYSTEM FOR ELECTRIC DISTRIBUTION SYSTEM PROTECTION AND CONTROL AND METHOD OF ASSEMBLING THE SAME | 05-02-2013 |
20130114176 | PROTECTION DEVICE TO BE ASSOCIATED IN AN ELECTRICAL CIRCUIT WITH A CURRENT-BREAKER DEVICE OF INCREASED SERVICE LIFE - A protection device is to be associated in an electrical circuit ( | 05-09-2013 |
20130120889 | Proximity detection circuit having short protection - A proximity detection circuit is contemplated to detect connection of a cordset to a vehicle charging system or connection of another device to some other electrical circuit where it may be desirable to facilitate detection. A short protection circuit may be included as part of the proximity detection circuit to facilitate disconnection in the event of a shorter other condition where undesirable currents and/or voltages may be propagated to other systems of portions of the vehicle charging system. | 05-16-2013 |
20130135780 | Protective Device with Metering and Oscillography - A device, such as an intelligent electronic device (IED), provides a monitoring and protective function for a power system. The protective function uses stimulus acquired from the power system to detect power system conditions and to take one or more protective actions responsive thereto. The device may detect arc flash events in the power system based upon electro-optical and/or current stimulus measurements obtained therefrom. The stimulus measurements may be recorded to use in metering, validation, identifying detector misoperation, and/or event oscillography. | 05-30-2013 |
20130163136 | Overcurrent Detection Circuit and Overcurrent Detection Method - An overcurrent detection circuit for a DC-to-DC power converter is disclosed. The overcurrent detection circuit includes a dynamic reference unit for outputting a dynamic reference signal, a load current measurement unit for measuring a load current of the DC-to-DC power converter to output a measurement signal, and a first comparator including a positive input terminal coupled to the load current measurement unit, a negative input terminal coupled to the dynamic reference unit and an output terminal coupled to an overcurrent protection device for outputting an overcurrent protection signal to activate the overcurrent protection device when the measurement signal is greater than the dynamic reference signal. | 06-27-2013 |
20130215545 | ELECTRIC SWITCH - An electric switch is disclosed, in particular an electric circuit breaker. In at least one embodiment, the switch includes a measuring channel for measuring an electric measured variable and is switched off when the result of a measurement reaches or exceeds a limit value. To test the mode of operation of the measuring channel, the electric measured variable is switched to a reference channel and a reference signal source is switched to the measuring channel and the reference result obtained via the reference channel is compared with a reference setpoint. The switch is also tripped if, to test the mode of operation of the measuring channel, the electric measured variable is switched to the reference channel and the result obtained via the reference channel reaches or exceeds the limit value. | 08-22-2013 |
20130250463 | PROTECTIVE DEVICE FOR LOAD CIRCUIT - A load circuit protective device calculates increasing temperature of wire of a load circuit with a first predetermined sampling period (dt | 09-26-2013 |
20130258537 | METHOD FOR DETECTION OF LEAKAGE OR FAULT CURRENTS FROM EQUIPMENT IN AN ELECTRICAL POWER SYSTEM - A method of digital sampling of a current or group of currents in an electrical system including using in the sampling, sufficient bandwidth to reconstruct the amplitude and phase of a synthesized power frequency and its harmonics and a fundamental carrier frequency of switching electronics and modulation sidebands. | 10-03-2013 |
20130265684 | SWITCHING CIRCUIT - A switching circuit | 10-10-2013 |
20130271886 | METHOD, DEVICE, AND SYSTEM FOR MONITORING CURRENT PROVIDED TO A LOAD - A circuit protection device for monitoring a current flowing from an electrical distribution line through a trip mechanism to a load includes an input conductor configured to receive a current signal from a sensor. At least one resistor is arranged to receive the current signal from the input conductor, and provides a voltage signal proportional to the current signal. The circuit protection device includes a control circuit coupled in parallel with the resistor and a power supply that receives the current signal from the resistor and supplies power to the control circuit based on the current signal. The control circuit is configured to receive the voltage signal and determine an amplitude of the current flowing through the trip mechanism based on the voltage signal. The control circuit is also configured to determine whether a predetermined current threshold is exceeded and to generate a control signal to activate the trip mechanism. | 10-17-2013 |
20130308237 | VEHICLE ELECTRICAL SYSTEM FAULT DETECTION - Methods and systems are provided for sensing electrical faults. The system includes a current sensor disposed between a battery and at least one electrical load. The current sensor is capable of sensing electrical current flowing from the battery to the load at a sensitivity sufficient to detect a current transient. The system also includes a controller in communication with the current sensor. The controller is capable of comparing the sensed current transient to a predetermined current transient for the load and signaling a fault when the sensed current transient and the predetermined current transient vary by a predetermined amount. | 11-21-2013 |
20130314831 | METHOD FOR PROTECTING AN ELECTRICAL ENERGY DISTRIBUTION BOX - A method for protecting an electrical energy distribution box (BODP) equipped with a supply current distribution bar (BDP) intended to be connected between an electrical energy source (G) and loads (Q | 11-28-2013 |
20130314832 | OVERCURRENT PROTECTION DEVICE AND METHOD OF OPERATING A POWER SWITCH - An overcurrent protection device comprises a maximum-allowed-current unit and a power switch having a conductive state and a nonconductive state. The maximum-allowed-current unit determines a time-dependent maximum allowed current according to a supply voltage. The power switch assumes the nonconductive state in response to an indication that a current through the power switch is exceeding the maximum allowed current. A method of operating a power switch is also described. | 11-28-2013 |
20130321966 | OVERCURRENT PROTECTION DEVICE AND METHOD OF OPERATING A POWER SWITCH - An overcurrent protection device comprises a maximum-allowed-current unit and a power switch. The maximum-allowed-current unit determines a maximum allowed current in real-time. The maximum allowed current is determined at least partially on an instantaneous level of a load voltage. The load voltage is a voltage across a load to be powered. The power switch is connectable with a switch input to a voltage supply and with a switch output to the load, for providing power to said load. The power switch has a conductive state and a nonconductive state, and is arranged to assume the nonconductive state in response to an indication that a current through the power switch is exceeding the maximum allowed current. A method of operating a power switch is also described. | 12-05-2013 |
20140009857 | POWER SUPPLY DEVICE - A power supply device comprising: a plurality of battery units each having a protective unit, an output voltage from the plurality of battery units being configured to energize an electric power tool; and a drive-limiting unit provided in a current path of the battery unit of each row, wherein each protective unit stops energization from the battery unit of its row by the drive-limiting unit provided in the current path of the battery unit of its row, when the battery unit of its row has an error. | 01-09-2014 |
20140016236 | SWITCH FOR A TRANSMISSION PATH FOR HIGH-VOLTAGE DIRECT CURRENT - A switch for a high-voltage direct current transmission path includes a vacuum circuit breaker for disconnecting the transmission path and a gas-insulated circuit breaker for disconnecting the transmission path. The gas-insulated circuit breaker is connected in series with the vacuum circuit breaker. A device is provided for building up a counter-current against the current in the transmission path for the purpose of reducing the current across the vacuum circuit breaker. The elements of the switch are actuated by a control device in such a way that the switch is switched off at or close to the zero crossing of the current. | 01-16-2014 |
20140049867 | SEMICONDUCTOR SWITCHING ELEMENT DRIVE CIRCUIT - A semiconductor switching element drive circuit includes a semiconductor that passes main current between first and second terminals when voltage is imposed to a gate terminal, and an over current protection circuit that decreases the main current when the main current is judged to become over current for a certain period when exceeding a predetermined current value when current value or voltage value proportional to an amplitude of the main current exceeds a threshold value. The circuit also includes a short circuit protection circuit that decreases gate voltage imposed to the gate terminal earlier than a fall of the main current produced by the over current protection circuit when the main current becomes larger than the over current in a period shorter than the certain period, and a threshold value change circuit that decreases a threshold value when the short circuit protection circuit decreases the main current. | 02-20-2014 |
20140078631 | POWER DISTRIBUTION SYSTEMS AND METHODS OF OPERATING A POWER DISTRIBUTION SYSTEM - A power distribution system includes a first circuit protection device and a second circuit protection device coupled to the first circuit protection device downstream of the first circuit protection device. The second circuit protection device includes a trip mechanism configured to interrupt a current flowing through the second circuit protection device, and a trip unit operatively coupled to the trip mechanism. The trip mechanism is configured to determine, for the second circuit protection device, a protective threshold and a blocking threshold that is lower than the protective threshold, transmit a forward blocking signal to the first circuit protection device upon a determination that the current exceeds the blocking threshold, and generate a reverse blocking signal upon a determination that the current exceeds the protective threshold. | 03-20-2014 |
20140078632 | BATTERY PACK, CONTROLLING METHOD OF THE SAME, AND ENERGY STORAGE SYSTEM INCLUDING THE BATTERY PACK - A battery protection apparatus is disclosed. In one aspect, the apparatus includes a temperature-dependent resistor electrically connected to at least one battery cell, wherein the temperature-dependent resistor is configured to change internal resistance in a substantially inversely proportional relationship to temperature of one or more of the at least one battery cell. The apparatus further includes a battery protection unit connected between the temperature-dependent resistor and the at least one battery cell, wherein the battery protection unit is configured to block the current flowing through one or more of the at least one battery cell when the current exceeds a first reference value. | 03-20-2014 |
20140104737 | MODULAR POWER DISTRIBUTION SYSTEM AND METHODS - A modular power distribution system comprises a chassis; and a backplane including a power input, and a plurality of module connection locations. A plurality of modules are mounted in the chassis, each module mounted to one of the module connection locations. Each module includes: (i) an OR-ing diode; (ii) a circuit protection device; (iii) a microprocessor controlling the circuit protection device; and (iv) a power output connection location. A circuit option switch is located on each module for setting the current limits for each module. A control module is provided connected to the backplane. | 04-17-2014 |
20140104738 | COORDINATED HIGH-IMPEDANCE FAULT DETECTION SYSTEMS AND METHODS - Systems and methods are presented for detecting high-impedance faults (HIFs) in an electric power delivery system using a plurality of coordinated high-impedance fault detection systems. In certain embodiments, a method for HIFs may include receiving first and second current representations associated with first and second locations of the electric power delivery system respectively. Based on at least one of the first and second current representations, the occurrence of an HIF may be determined. A relative location of the HIF may be determined based on a relative amount of interharmonic content associated with an HIF included in the first and second current representations, and a protective action may be taken based on the determined relative location. | 04-17-2014 |
20140111898 | METHOD AND APPARATUS FOR POWER MANAGEMENT IN ETU WITHIN A CIRCUIT BREAKER WHEN USED AS A HOST CONTROLLER - A method for enabling an ETU to function as a host controller is provided. The ETU includes a power bus port, a current sensor input, and a power distributor coupled to the power bus port and the current sensor input. The method includes determining that a peripheral device is connected to the power bus port. The method further includes determining that sufficient input power is available to the ETU to provide an output power to the peripheral device through the power bus port. Additionally, the method includes providing the output power to the peripheral device through the power bus port. | 04-24-2014 |
20140118872 | PROTECTION CIRCUIT AND GATE DRIVING CIRCUIT FOR SEMICONDUCTOR SWITCHING DEVICE - There are provided a protection circuit and a gate driving circuit for a semiconductor switching device. The protection circuit for a semiconductor switching device includes an overcurrent determining unit operated according to a gate signal to determine whether a load current flowing through the semiconductor switching device controlling the load current is an overcurrent, a load open determining unit determining whether a load is open, on the basis of a detection value from a current detection unit detecting the load current, and an error detection unit generating a fault signal when it is determined that the overcurrent flows and the load is open, while the gate signal is in a turned on level of the semiconductor switching device. | 05-01-2014 |
20140126097 | MEASURING ARRANGEMENT FOR DETERMINING A MEASURED QUANTITY - A measuring arrangement for determining at least one measured quantity with a sensor device and a transmitter device that has a control device, a switch device and a signal output setting device. The control device is connected to the signal output setting device in the case in which the switch device is in the first state. The signal output setting device generates a fault signal as an output signal when the switch device is in the second state and/or that the signal output setting device is free of a connection to the control device. The sensor device keeps the switch device in the first state when the sensor device is supplied with energy above a definable minimum value. The control device reduces the power supply of the sensor device to a definable boundary value when it recognizes the presence of a fault state. | 05-08-2014 |
20140139961 | DEVICE FOR PROVIDING PROTECTION AGAINST ELECTRICAL SHOCK HAZARDS INVOLVING TWO CIRCUIT CONDUCTORS - Disclosed herein is a device that protects against electrical shock hazards involving two circuit conductors. The device continuously evaluates the load characteristics of electrical equipment and automatically provides feedback on status and changes of such equipment. The device has a “learning mode” wherein it stores the load characteristics of loads connected to the device. The device also has an “protection mode” (or “normal mode”) wherein the devices compares connected load characteristics to stored load characteristics, and based on this comparison determines if an electrical fault is present. If the device determines that an electrical fault is present, the device then takes action to protect against electrical shock, such as by disconnecting the system from power. | 05-22-2014 |
20140146430 | Digital Protection Control System and Digital Protection Control Apparatus - Disclosed are a digital protection control system and a digital protection control apparatus, wherein the digital protection control apparatus can easily be made to have more terminals, even when the number of terminals of a power transmission line increases. The digital protection control system has, as terminal stations thereof, a reference station that is to become the reference point for the sampling time at which power grid current information is to be taken in, tail-end stations that take in power grid current information from the power grid system, and intermediate stations that are connected between the reference station and the tail-end stations via transmission paths. The intermediate station is provided with an uplink transmission unit that is connected to a transmission path at the reference station side thereof, and a plurality of downlink transmission units that are connected to transmission paths at the tail-end station side thereof. The intermediate station also has the time thereof to be subordinate to the time of the terminal station connected to the uplink transmission unit thereof, and the time of the terminal stations connected to the downlink transmission units thereof are made to be subordinate to the intermediate station, with the time thereof used as reference time. | 05-29-2014 |
20140168841 | CURRENT DIFFERENTIAL RELAY AND CURRENT DIFFERENTIAL RELAY SYSTEM USING CURRENT DIFFERENTIAL RELAY THEREOF - A current differential relay comprises: an interface section; a quantization section; a communication section; and a difference calculation section. The quantization section quantizes current received by the interface section and converts it to first current data. The communication section, in the case where this relay is a representative current differential relay of a first group, transmits second current data from another current differential relay belonging to the first group and the first current data jointly to a representative current differential relay belonging to the second group, receives third current data from the representative current differential relay, and transmits the third current data to the other current differential relays. A difference calculation section executes a current difference calculation based on the first to third current data. | 06-19-2014 |
20140177115 | RECHARGEABLE BATTERY - One embodiment of the invention is directed to a rechargeable battery pack configured to provide power to a device that also accepts at least one standard non-rechargeable battery. The rechargeable battery pack comprises a housing for housing at least one battery cell and recharging circuitry. The at least one battery cell and the recharging circuitry is be housed substantially within the housing. The recharging circuitry is coupled with the at least one battery cell. The recharging circuitry is configured to charge the at least one battery cell when the battery pack is inserted into the device that also accepts at least one non-rechargeable battery. The rechargeable battery back further comprises a protection circuit coupled with the recharging circuitry. | 06-26-2014 |
20140211352 | PROTECTION APPARATUS AND CONTROL METHOD FOR THE SAME - In a protection apparatus capable of protecting a equipment from an electromagnetic pulse and a control method thereof, the apparatus includes a switching unit configured to electrically connect or disconnect a power line to or from the equipment, a sensing unit configured to detect a current flowing on the power line at a reference time interval, and a controller configured to control the switching unit according to a pulse width of the detected current. | 07-31-2014 |
20140218832 | BIDIRECTIONAL HYBRID BREAKER - A bidirectional hybrid breaker comprises a main current circuit, a transfer current circuit, an over-voltage limiting circuit and a control system, wherein the main current circuit, the transfer current circuit and the over-voltage limiting circuit are connected in parallel. The transfer current circuit consists of circuits | 08-07-2014 |
20140240882 | SYSTEM FOR PROTECTING AND MONITORING A CIRCUIT FOR DISTRIBUTING DIRECT-CURRENT POWER - The invention relates to a system for protecting and monitoring a circuit for distributing direct current power, including at least one control cut-off element ( | 08-28-2014 |
20140268459 | METHODS AND APPARATUS FOR DYNAMICALLY ADJUSTING AN OVER-CURRENT PROTECTION THRESHOLD - Methods and apparatus for dynamically adjusting an over-current protection threshold ( | 09-18-2014 |
20140268460 | METHODS AND APPARATUS FOR PROTECTION IN A MULTI-PHASE MACHINE - In some embodiments, a system includes multiple coils of a multi-phase machine in which the coils are each associated with a different phase. Associated with each coil is a protective element such that each protective element is associated with a different coil. When its associated protective element is in a first configuration, a coil is part of an electrical circuit, and its associated protective element allows a first amount of current to flow through the coil. Its associated protective element allows a second amount of current to flow through the coil when its associated protective element is in a second configuration. When in the second configuration, the coil's associated protective element does not obstruct current flow through other coils that are not associated with the protective element. | 09-18-2014 |
20140268461 | CONTROL CIRCUIT FOR ELECTRIC POWER CIRCUIT SWITCH - A control circuit for an electric power circuit switch includes: a sampling/hold circuit section configured to sample a period of a detection signal of a current of an electric power system and provide a sampled signal; a discrete Fourier transforming (abbreviated as DFT) circuit section perform DFT on the one-period sampled signal to provide a magnitude and a phase of a frequency component of the current of the electric power system; a differentiator configured to differentiate the detection signal to provide a rate of change of the current over time; and a controller to determine whether to perform trip controlling according to the magnitude of the frequency component of the current from the DFT circuit section or the rate of change from the differentiator on the basis of the rate of change of the current and the reference rate of change. | 09-18-2014 |
20140340801 | Circuit breaker arrangement and power distribution unit - A circuit breaker arrangement in supply of electric power has advantageous applications especially in power distribution units which supply DC power to electrical devices. Electromechanical circuit breakers are commonly used for circuit protection. They have a disadvantage of fixed tripping conditions, which can only be changed by changing the circuit breaker component. This is solved by providing a circuit breaker arrangement which has an electromechanical circuit breaker with a first, fixed tripping condition, and an additional circuit, which monitors the output current and mechanically trips the circuit breaker if the current exceeds a second tripping condition. This way, it is possible to use the first tripping condition of the electromechanical circuit breaker and/or a second, controllable tripping condition. | 11-20-2014 |
20140347774 | OVERCURRENT PROTECTION CIRCUIT, AND ELECTRONIC CONTROL UNIT - An overcurrent protection circuit that protects a load from an overcurrent includes: a load current cutoff condition defining unit configured to set two or more load current cutoff conditions in each of which passage of a load current larger than or equal to a specified current for a specified time or longer is set as a condition for cutting off the load current; a detection unit configured to detect passage of the load current larger than or equal to the specified current for the specified time or longer in at least one of the two or more load current cutoff conditions; and a load current cutoff unit configured to cut off the load current when the detection unit detects that at least one of the load current cutoff conditions is satisfied. | 11-27-2014 |
20140362486 | LOW FAULT CURRENT ISOLATOR SYSTEM - A low fault current isolation arrangement senses a loss of voltage and automatically isolates and de-energizes a down live primary wire if overcurrent protection devices have not cleared the high impedance fault in an electric power distribution network. Incorporating an operator selectable time delay response, the low fault current isolation arrangement permits overcurrent protection devices to attempt to detect and shut down the affected conductor, and then isolates and shuts down the low current fault if the overcurrent devices are not successful. The isolation arrangement continuously monitors AC voltage as remotely provided by smart meters even after a fault location is de-energized, and serves as a back up, and not as a replacement, for existing overcurrent protection schemes. A host computer operates in conjunction with plural smart meters each coupled to an associated customer distribution transformer in conjunction with the fault isolator to detect and shut down high impedance faults. | 12-11-2014 |
20140368959 | OVER-CURRENT REGULATING SYSTEM - An over-current regulating system includes a protecting resistor, an amplifying circuit, and a comparing circuit. The protecting resistor is configured to be electrically coupled to a power supply unit. The amplifying circuit is electrically coupled to the protecting resistor and the comparing circuit and configured to amplify a voltage of the protecting resistor, and output the amplified voltage value to the comparing circuit. The comparing circuit is configured to determine whether the amplified voltage is greater than a first predetermined value when the comparing circuit is coupled to the power supply unit. When the voltage is greater than the first predetermined value, the comparing circuit outputs a controlling signal to reduce a work frequency of a load. | 12-18-2014 |
20150009599 | GATE DRIVING CIRCUIT AND ARRAY SUBSTRATE - Disclosed are a gate driving circuit and an array substrate relating to the field of display technique and capable of ensuring that, when there is a malfunction such as a short-circuit and the like among input paths of clock signals for a certain gate driving unit, other gate driving units can operate properly. The gate driving circuit includes a plurality of sets of gate driving units, each set of gate driving units includes m gate driving units, and m is an integer greater than 1; each set of gate driving units outputs a gate driving signal to a gate line; when one gate driving unit in a set of gate driving units malfunctions, said gate driving unit in malfunction is terminated in operation and other gate driving units in the set of gate driving units maintain an operation of the set of gate driving units. | 01-08-2015 |
20150016002 | POWER BATTERY ASSEMBLY AND ELECTRIC VEHICLE COMPRISING THE SAME - A power battery assembly may include a battery circuit and a circuit protecting unit. The circuit protecting unit may be connected in series with the battery circuit. The circuit protecting unit may include a relay and a current sensing unit connected in series with the battery circuit. A switching unit is connected with the relay for controlling the switching of the relay, and a controller is connected with the switching unit and to the current sensing unit to control switching on or switching off the switching unit based on comparison of the current value detected by the current sensing unit, and sent to the controller with a first predetermined current value. | 01-15-2015 |
20150029627 | Semiconductor Device Including a Control Circuit - A semiconductor device includes a semiconductor portion with a main FET and a control circuit. The main FET includes a gate electrode to control a current flow through a body zone between a source zone and a drift zone. The control circuit receives a local drift zone potential of the main FET cell and outputs an output signal indicating when the local drift zone potential exceeds a preset threshold. The control circuit may turn down or switch off the main FET and/or may output an overcurrent indication signal when the local drift zone potential exceeds the preset threshold. | 01-29-2015 |
20150029628 | Low Current Protection Circuit - A low current protection circuit is configured to detect a lowering of a load current flowing a load to perform a low current protection operation and includes: a load current detection configured to detect a load current; a low current detection configured to detect a lowering of the load current by comparing the load current detected by the load current detection unit and a preset reference value; a protection unit configured to perform the low current protection operation when the lowering of the load current is detected by the low current detection unit; and a masking unit configured to mask the low current protection operation of the protection unit from when the lowering of the load current is detected by the low current detection unit to when a masking time period depending on a duty ratio of the external pulse signal elapses. | 01-29-2015 |
20150098161 | INTEGRATED CORONA FAULT DETECTION - A power distribution cabinet includes a housing having walls that define an interior space for housing electric components. A capacitive sensor is located on an interior surface of one or more of the walls. The capacitive sensor includes a first conductive layer located proximate to the interior surface of the wall, a second conductive layer located distal from the interior surface of the wall, and a dielectric layer located between the first and second conductive layers. First and second output terminals are connected to the first and second conductive layers of the capacitive sensor to provide an output representative of displacement current within the power distribution cabinet. | 04-09-2015 |
20150109707 | VEHICLE HIGH VOLTAGE WIRING PROTECTION USING CONTACTOR CONTROL - A vehicle high voltage system may include contactors/relays, wires, a traction battery, electrical components, and at least one controller. The at least one controller may open the contactors to interrupt current flow to the components if anyone of a plurality of amp▪hour measurement associated with the traction battery exceeds a corresponding predetermined threshold value. | 04-23-2015 |
20150131188 | CURRENT SENSING CIRCUIT - A current sensing circuit comprises a first input terminal and a second input terminal for introducing a subject current from a device coupled between the first and second input terminals; a first amplifier having a first input node coupled to the first input terminal via a protection resistor, a second input node coupled to the second input terminal, and a first output node coupled to the first input node via a capacitor, wherein the first amplifier has a current sensing path for sensing the subject current and converting the subject current into an output voltage that changes with the subject current; and a protection circuit coupled between the first and second input nodes of the first amplifier, wherein the protection circuit is configured to draw a protection current from the first input terminal through the protection resistor to at least partially offset the subject current. | 05-14-2015 |
20150138680 | SEMICONDUCTOR DEVICE - A first overcurrent detection unit detects whether a drain-source voltage of an output transistor is greater than or equal to a first reference value and outputs a first detection signal. A second overcurrent detection unit detects whether an output current passing through the output transistor is greater than or equal to a second reference value and outputs a second detection signal. When receiving the first detection signal indicating that the drain-source voltage is greater than or equal to the first reference value, a latch circuit latches the second detection signal; when receiving the first detection signal indicating that the drain-source voltage is smaller than the first reference value, the latch circuit outputs the second detection signal without latching it. Based on the output of the latch circuit, the drive circuit controls the output transistor to either turn it off or turn it on and off alternately. | 05-21-2015 |
20150318688 | CURRENT LIMITING DEVICE, CURRENT LIMITER AND CURRENT LIMITING SYSTEM FOR POWER GRID - A current limiting device for a power grid includes a first current limiting reactor; a first smart fast switch connected with the first current limiting reactor in parallel; a current transformer sleeved on a bus bar located on one side of a circuit resulting from the parallel connection of the first current limiting reactor with the first smart fast switch to monitor the current in the bus bar in real time; and a controller connected with the current transformer to control the switch-off of the first smart fast switch when the current in the bus bar is higher than a first preset value and the switch-on of the first smart fast switch when the current in the bus bar is smaller than a second preset value, wherein the first preset value is higher than the second preset value. The current limiting device improves the operational reliability of a power grid. | 11-05-2015 |
20150318692 | ACTIVE GUARD RING STRUCTURE TO IMPROVE LATCH-UP IMMUNITY - An active guard ring structure is provided, which is applicable to improving latch-up immunity during the latch-up current test (I-test). The proposed active guard ring structure comprises an I/O circuit and an active protection circuit, wherein the I/O circuit receives a trigger current via an input pad and generates a corresponding bulk current since being triggered. The active protection circuit, connected between the I/O circuit and a core circuit, detects whether the trigger current is a positive or negative current pulse. When an intensity of the trigger current is larger than a threshold value, the active protection circuit controls the I/O circuit to provide a sink or compensation current so as to neutralize the bulk current and to reduce the net current flowing into or sourced from the core circuit, thereby increasing the latch-up resistance and immunity of the core circuit. | 11-05-2015 |
20150326008 | FAULT PROTECTION CIRCUIT - A fault detection circuit for use with a power converter includes an initiate fault check circuit coupled to generate an enable signal in response to a first sense signal coupled to be received from an output socket. A threshold detection circuit is coupled to generate a threshold detection output signal in response to a second sense signal coupled to be received from the power converter and a second reference signal. A logic circuit is coupled to generate a fault signal that is coupled to be received by the power converter in response to the threshold detection output signal and the enable signal. | 11-12-2015 |
20150340855 | ELECTRIC-WIRE PROTECTION DEVICE - An electric-wire protection device protects at least one electric wire among an electric-wire bundle that bundles a plurality of electric wires that are used to supply power to a plurality of loads from a power source Ba. Calculation circuit calculates an increased temperature of the electric wire from an initial temperature at the time that the estimate begins, based on a load current Is that has been detected and a thermal characteristic of the electric wire, and estimates the temperature of the electric wire by adding the increased temperature to the initial temperature. Current flow information supply portion supplies to the calculation circuit current flow information related to current flow to a load other than a subject load. Calculation circuit corrects the initial temperature by a correction value that corresponds to the current flow information that exists at the time the estimate begins. | 11-26-2015 |
20150377930 | NEUTRAL POLE CURRENT TRANSFORMER MODULE FOR CIRCUIT BREAKER AND NEUTRAL POLE CURRENT DETECTING APPARATUS FOR CIRCUIT BREAKER - There is provided a neutral pole transformer module for a circuit breaker capable of minimizing an influence of external noise, detecting a neutral pole current at low manufacturing cost, and detecting a neutral pole current without modifying a configuration of an existing overcurrent relay or without installing an additional component in the existing overcurrent relay. The neutral pole transformer module for a circuit breaker comprises a ZCT configured to allow a transmission line of a neutral pole detection current output from the current transformer to pass therethrough and to provide a secondary output current signal obtained by reducing the neutral pole detection current in a predetermined ratio; a printed circuit board configured to convert the secondary output current signal into a voltage signal, and to differentiate the converted voltage signal and output the same; and an enclosure formed of an electrical insulator and enclosing the ZCT and the PCB. | 12-31-2015 |
20160028220 | Step-down Circuit - A step-down circuit has a switch connected in series between a direct current power supply and a load. A switch control circuit is configured to turn the switch off when the voltage across the load is higher than a predetermined first threshold and turn the switch on when the voltage across the load is lower than the first threshold. An energy storage unit is charged by the power supply when the switch is on and supply power to the load when the switch is off An overcurrent protection circuit turns the switch off when the input current of the switch is higher than a predetermined second threshold. | 01-28-2016 |
20160033566 | ABNORMAL CONNECTION DETECTION METHOD - An abnormal connection detection method is used between a power supplier and a power receiver. The power supplier and the power receiver are connected through a cable. The cable includes positive and negative power transmission lines. The abnormal connection detection method includes: providing an output voltage from the power supplier, wherein the output voltage is lower than a predetermined voltage threshold; detecting, according to the output voltage, whether an output current generated by the power supplier is higher than a predetermined current threshold; and when the output current is higher than the predetermined current threshold, determining that an abnormal connection occurs between the power supplier and the power receiver. | 02-04-2016 |
20160087421 | PROTECTION OF A POWER SUPPLY INCLUDING A PLURALITY OF BATTERIES IN PARALLEL AGAINST AN EXTERNAL SHORT CIRCUIT - An electrical installation includes a circuit-breaker having a breaking capacity PdC and a tripping current Is, an ammeter measuring the current, and a DC voltage source comprising batteries connected in parallel and connected in series with the circuit-breaker. The sum of the short-circuit currents of the batteries connected in parallel is higher than the breaking capacity PdC of the circuit-breaker. A plurality of the batteries each includes a respective switch capable of opening a connection between the battery of the same and the circuit-breaker. The electrical installation also includes a control circuit to detect that the current passing through the circuit-breaker is higher than the tripping current Is and to control the opening of a plurality of the switches in order to apply, through the circuit-breaker, a current higher than the tripping current Is of the same and lower than the breaking capacity PdC of the same. | 03-24-2016 |
20160164279 | CIRCUIT AND METHOD FOR MEASURING A CURRENT - Circuits, switches with over-current protection and methods for measuring a current are described herein. A circuit configured to provide a current from a supply voltage to a load includes a first transistor, a second transistor, and a detecting circuit. The first transistor has a larger active area than the second transistor. The detecting circuit is configured to detect a current through the second transistor. A same voltage is applied between a control terminal of the first transistor and a first controlled terminal of the first transistor and is applied between a control terminal of the second transistor and a first controlled terminal of the second transistor. The detecting circuit is coupled to the second controlled terminal of the second transistor and is coupled to the supply voltage. | 06-09-2016 |
20160181782 | CIRCUIT INTERRUPTION APPARATUS PROVIDING AUTOMATIC REDUCED ARC MODE AND METHODS OF OPERATING THE SAME | 06-23-2016 |
20160181783 | RESIDUAL CURRENT DEVICES | 06-23-2016 |
20160190792 | Temperature-Compensated Current Monitoring - Systems, methods and media for current monitoring are provided herein. An exemplary method may include: receiving a temperature of a power MOSFET, the temperature being sensed by a temperature sensor; determining a resistance of the power MOSFET using the received temperature; receiving a voltage across the power MOSFET, the voltage being measured by a differential amplifier; calculating a current provided to an electrical load by the power MOSFET using the determined resistance of the power MOSFET and the received voltage; comparing the calculated current to a predetermined threshold; and switching the power MOSFET to an off state in response to the calculated current exceeding the predetermined threshold. | 06-30-2016 |
20170237250 | ELECTRONIC CIRCUIT FOR SINGLE-EVENT LATCH-UP DETECTION AND PROTECTION | 08-17-2017 |