Class / Patent application number | Description | Number of patent applications / Date published |
361100000 | With semiconductor circuit interrupter (e.g., SCR, Triac, Tunnel Diode, etc.) | 57 |
20080204959 | Method for fault handling in a converter circuit for wiring of three voltage levels - The document specifies a method for fault handling in a converter circuit for switching three voltage levels, in which the converter circuit has a converter subsystem provided for each phase (R,S,T), in which a top fault current path (A) or a bottom fault current path (B) in the converter subsystem is detected, the top fault current path (A) running through the first, second, third and sixth power semiconductor switches in the converter subsystem or through the first and fifth power semiconductor switches (S | 08-28-2008 |
20080225457 | Safety Switching Device for Setting a Safety-Related Device to a Safe State - The invention relates to a safety switching device, with which a safety-related device, preferably an electric drive, can be set into a safe state. The safety switching device ( | 09-18-2008 |
20090116161 | Power Supply Controller and Threshold Adjustment Method Thereof - An inrush current higher than a second anomaly threshold current ILfc passes through a power MOSFET | 05-07-2009 |
20090154047 | Power Node Switching Center - A circuit fault detector and interrupter which consists of parallel current conduction paths, including a path through a mechanical contactor and a path through a power electronics switch. A fault can be detected by a fault detection circuit within 50 microseconds of the occurrence of the fault, causing the mechanical contactor to be opened and the fault current to be commutated via a laminated, low-inductance bus through the power electronics switch. The power electronics switch is thereafter turned off as soon as possible, interrupting the fault current. The fault current can be interrupted within 200 microseconds of the occurrence of the fault, and the device reduces or eliminates arcing when the mechanical contactor is opened. | 06-18-2009 |
20090161279 | OUTPUT CIRCUITS - An output circuit preventing damage by electrostatic discharge current is provided, comprising a voltage source, a power-clamp ESD circuit, a PMOS transistor, an NMOS transistor, and a diode. The voltage source provides a voltage. The power-clamp ESD circuit is coupled to the voltage source and directs the electrostatic current to flow in a current direction. The PMOS transistor is coupled to the voltage source. The NMOS transistor is coupled to the PMOS transistor. The diode is coupled to the voltage source. The output unit is coupled to the diode and the PMOS transistor. | 06-25-2009 |
20090251838 | SAFETY DEVICE FOR A SEMICONDUCTOR SWITCH - A safety device for a semiconductor switch controlling a secondary line provided with a fuse on the input side of the switch device that includes component to create a short circuit in the secondary line, so as to cut off the fuse, and means of activating this component following detection of an overcurrent in the secondary line. | 10-08-2009 |
20090257165 | Overcurrent Switching Apparatus - In order to form an overcurrent switching apparatus for medium-voltage or high-voltage applications with a current detection device for changing over a contact system associated with them from a first state to a second state in the event of a threshold current being exceeded, the switching properties of which overcurrent switching apparatus are precise, an actuating device is disposed downstream of the current detection device, which is in a first current branch, via a coupling device. The actuating device is configured to change over the contact system, which is in a second current branch, from the first to the second state. | 10-15-2009 |
20100067161 | Overcurrent detection circuit - An overcurrent detection circuit in accordance with an exemplary aspect of the present invention includes a detection transistor, a potential difference setting unit, and a first transistor whose current value is controlled by the potential difference setting unit. Further, the potential difference setting unit includes a first depletion type transistor, a power-supply voltage being supplied to the drain of the first depletion type transistor, and the gate and source of the first depletion type transistor being connected to the gate of the first transistor, a second transistor, the drain and gate of the second transistor being connected to the gate of the first transistor, and a second depletion type transistor provided on the current path between the sources of the first transistor and the second transistor, the gate and drain of the second depletion type transistor being connected to the source of the detection transistor. | 03-18-2010 |
20110069423 | PROTECTION CIRCUIT FOR OVER-CURRENT AND SHORT PROTECTION - A protection circuit includes a switch and a transistor. A first end of the switch is connected to a power source. A second end of the switch is connected to an electronic device via a first resistor. A third end of the switch is connected to the power source via a second resistor. A base of the transistor is connected to the second of the transistor via a third resistor, and grounded via a fourth resistor. A collector of the transistor is connected to the power source. An emitter of the transistor is connected to the electronic device. | 03-24-2011 |
20110222200 | HIGH POWER SOLID STATE POWER CONTROLLER (SSPC) SOLUTION FOR PRIMARY POWER DISTRIBUTION APPLICATIONS - High-power power distribution in an aircraft may use solid state power controller (SSPC) technology. A conventional electromechanical contactor may be used, in series, with a solid state switching device (SSSD) to achieve high-power power distribution. Since the electromechanical contactor does not need to be rated for arc handlings during normal SSPC operation, the electromechanical contactor may be simplified, resulting in cost, weight, volume, and failure rate reductions. The power distribution apparatus and methods of the present invention may be applicable for both alternating current (AC) and direct current (DC) applications and can be modified to form a three phase SSPC. | 09-15-2011 |
20120206847 | Electronic circuit breaker of a power supply having dual output ports - An electronic circuit breaker of a power having dual output ports has an input port, two output ports, two field effect transistors, two current detection circuits and two control circuits. The control circuit has a silicon controlled rectifier (SCR) and an activation circuit detecting if a short circuit is present at one of the output ports through one of the current detection circuits, activating the SCR to turn off a corresponding FET after the occurrence of the short circuit, and disconnecting a corresponding output port from the input port. Due to the characteristics of the SCR, the SCR, once activated, stays in an on state between its anode and cathode. After the current of the output returns to its normal state, the FET is still turned off. Accordingly, high-frequency large current arising from alternately switching between the on and off states of the FET can be avoided. | 08-16-2012 |
20130027829 | SYSTEM AND METHOD FOR PROTECTING AN ELECTRICAL GRID AGAINST FAULTS - A system and method are provided for protecting a power grid against electric faults. A first circuit breaker is associated with a first electronic unit and positioned at a first hierarchy level. One or more additional circuit breakers, each including a corresponding second electronic unit, are positioned at one or more additional levels hierarchically lower than the first level and cascaded to each other. The first circuit breaker includes at least one semiconductor electronic breaking device. The first electronic unit is configured to, upon the appearance of an electric fault in a grid area, drive the breaking device to limit the current flowing through it for a predetermined period of time, and send to the circuit breakers on lower hierarchy levels an intervention command to allow intervention, among the circuit breakers that detected the fault, of the closest circuit breaker positioned immediately upstream from the area where the fault occurred. | 01-31-2013 |
20130155565 | OVERCURRENT PROTECTION CIRCUIT - An overcurrent protection circuit includes a universal serial bus (USB) controller having an overcurrent detection pin, and a plurality of USB connectors each electronically connected to a USB device and the overcurrent detection pin. The USB controller communicates with the USB devices respectively via the USB connectors. When the overcurrent detection pin detects an overcurrent occurrence in one of the USB devices, the USB controller stops communicating with all of the USB devices. | 06-20-2013 |
20130286524 | METHOD FOR IMPROVING POWER DISTRIBUTION PROTECTION - A solid state switch module is provided for use in a power distribution network including an input differential protection connection for receiving a measured current value from an upstream module. The solid state switch module also includes an output differential protection connection for sending a measured current value. The solid state switch module includes a trip outlet for sending a trip signal to an upstream solid state switch, and a trip inlet for receiving a trip signal from a downstream solid state switch. The trip inlet is operably coupled to the switch. A current sensor measures the current value of a connected power transmission line across the solid state switch module. A summer adds a current input from a parallel module with the current measures by the current sensor. A comparator determines whether an amount of current lost between the solid state switch module and an upstream module is acceptable. | 10-31-2013 |
20140071574 | ELECTRICAL APPARATUS FOR THE SHORT-CIRCUIT PROTECTION OF A THREE-PHASE LOAD IN A THREE-PHASE SYSTEM - An apparatus for short-circuit protection of a three-phase load in a three-phase system includes an input for connection of the apparatus to a three-phase network, an output for connection of the three-phase load to the apparatus, a means for producing an auxiliary short circuit in the three-phase network by ignition of the means, a means for identifying a short circuit at the three-phase load, and a means for generating an ignition pulse upon identification of the short circuit. The means for producing the auxiliary short circuit and the means for identifying the short circuit are provided in the current path between the input and the output. The means for producing the auxiliary short circuit is ignitable by the ignition pulse. The means for generating the ignition pulse is formed so that the ignition pulse can be generated by a short-circuit current established by the means for identifying the short circuit. | 03-13-2014 |
20140376140 | HYBRID DC BREAKER - A hybrid DC 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 | 12-25-2014 |
20150022930 | PROTECTION DEVICE FOR ELECTRICITY SUPPLY CIRCUIT - When a power switch is turned off, a protection device for an electricity supply circuit starts keeping time using a timer and turns on a disconnection flag. Then the protection device turns off the disconnection flag when the timer has counted a predetermined time. When the power switch is turned off, the disconnection flag does not subsequently turn off until the predetermined time has passed. Therefore, it is possible to prevent an excessive temperature increase in the power switch and prevent damage to the power switch. | 01-22-2015 |
361101000 | With transistor circuit interrupter | 40 |
20080304199 | Software-implemented overcurrent protection embedded in a battery pack - An overcurrent protection mechanism is provided for a battery pack that removably attaches to a power tool. The mechanism includes: one or more battery cells disposed in a battery pack; a current sensor configured to sense current supplied by the battery; a switch in a circuit path with the battery cells; and a battery control unit implemented as software instructions in a controller embedded in a battery pack. The battery control unit is configured to receive a signal indicative of current from the current sensor and control the switch to interrupt current flow from the battery cells as a function of current and time. | 12-11-2008 |
20090021880 | MULTI-LEVEL ELECTRONIC PROTECTION SYSTEM PROVIDING SAFE FAULT RECOVERY FOR MULTIPLE DIGITAL CONTROL OUTPUTS - A multi-level over-current electronic protection system for protecting a plurality of outputs includes a first solid state reversibly interruptible electronic switch including first output control logic and a plurality of first controlled output channels controlled by the first control logic. The first switching device is coupled to receive power from at least one power supply selected to power a plurality of loads. The first switching device provides power at its plurality of first output channels under normal operating conditions, wherein the first output control logic is operable for reversibly interrupting power at any of the first output channels when current in any of the first output channels exceed limits for the first output channels. At least one second solid state reversibly interruptible electronic switch including second control logic and a plurality of second controlled outputs control by the second control logic is also provided. A power supply input of the second switch is coupled to one of the plurality of first controlled output channels to receive the power, wherein the second controlled outputs are coupled to provide the power to the plurality of loads under normal operating conditions and reversibly interrupting the power for any of the second output channels when current in any of said second output channels exceeds limits for the second output channels. A CPU having associated firmware can be coupled to the second output channels and external inputs of the second switches via an isolation device to provide a supervisory and monitoring function. | 01-22-2009 |
20090231773 | Transient blocking unit using normally-off device to detect current trip threshold - An isolation device having normally off detection is provided. The isolation device having normally off detection includes a transient blocking unit (TBU) having at least one depletion mode device disposed between a pair of sense terminals, and at least one normally off transition element disposed to drive a gate of the depletion mode device in the TBU, where the normally off transition element transitions from a first resistive state to a second resistive state and one depletion mode device is connected to one sense terminal, and the normally off transition element transitions by detection of a current through the TBU. The TBU can be unidirectional or bidirectional. | 09-17-2009 |
20090323243 | Voltage triggered transient blocking unit - A transient blocking unit (TBU) is an arrangement of two or more transistors connected to each other in series such that they automatically switch off when a TBU current passing through these transistors exceeds a predetermined threshold. Voltage turnoff capability is provided for a TBU by adding a voltage comparison circuit to the TBU. The voltage comparison circuit provides gate voltages to one or more of the TBU transistors that tend to turn off the TBU transistors, if the voltage at the TBU output (i.e., the protected device output voltage) falls outside a predetermined range. The voltage provided by the voltage comparison circuit adds constructively to the gate voltages provided by normal TBU operation. Accordingly, TBU switch off can be driven by an over-current condition (TBU current out of range) and/or by an over-voltage condition (TBU output voltage out of range). | 12-31-2009 |
20100085675 | ELECTRONIC CIRCUIT - Provided is an electronic circuit including an upper control unit and a lower control unit. The upper control unit performs a logic transition of a gate signal so as to off-latch an upper switch by using the fall edge of a drive signal as a trigger and release the off-latch of the upper switch by using the rise edge of a monitor signal as a trigger. The lower control unit performs a logic transition of the gate signal so as to off-latch a lower switch by using the rise edge of the drive signal as a trigger and release the off-latch of the lower switch by using the rise edge of a monitor signal as a trigger. | 04-08-2010 |
20100097737 | LOAD DRIVING DEVICE - A load driving device including a semiconductor switch arranged in a current path extending from a power supply to a load. A control circuit controls activation and deactivation of the semiconductor switch. The control circuit deactivates the semiconductor switch when it is determined that overcurrent is flowing through the current path. A current detector detects current that is flowing through the current path. The control circuit determines that overcurrent is flowing when the current detector continuously detects current that is greater than a threshold value over a predetermined detection time. The detection time is set to be shorter than the time from when the current in the current path exceeds the threshold value to when an increase in resistance value of the semiconductor switch resulting from heat generated by the current lowers the current to the threshold value. | 04-22-2010 |
20100208404 | Power supply control apparatus including overcurrent detection circuit - 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 Q | 08-19-2010 |
20100208405 | Semiconductor ESD Device and Method of Making Same - A semiconductor device includes an ESD device region disposed within a semiconductor body of a first semiconductor type, an isolation region surrounding the ESD device region, a first doped region of a second conductivity type disposed at a surface of the semiconductor body within the ESD region, and a second doped region of the first conductivity type disposed between the semiconductor body within the ESD region and at least a portion of the first doped region, where the doping concentration of the second doped region is higher than the semiconductor body. A third doped region of the second semiconductor type is disposed on the semiconductor body and a fourth region of the first conductivity type is disposed over the third doped region. A fifth doped region of the second conductivity type is disposed on the semiconductor body. A trigger device and an SCR is formed therefrom. | 08-19-2010 |
20100214710 | SEMICONDUCTOR DEVICE MEASURING VOLTAGE APPLIED TO SEMICONDUCTOR SWITCH ELEMENT - A semiconductor device includes a semiconductor switch element having a first conductive electrode and a second conductive electrode, and a voltage measurement circuit for measuring voltage between the first conductive electrode and the second conductive electrode of the semiconductor switch element. The voltage measurement circuit includes a constant voltage element connected in parallel with the semiconductor switch element for limiting voltage applied in a conducting direction of the semiconductor switch element to a prescribed value, a control switch connected in parallel with the constant voltage element, and a switch control unit turning on the control switch when the semiconductor switch element is off, and turning off the control switch when the semiconductor switch element is on. | 08-26-2010 |
20100277846 | DC SWITCH - The DC switch includes a housing ( | 11-04-2010 |
20100290167 | CONTROL CIRCUIT FOR CONTROLLING A SEMICONDUCTOR SWITCH SYSTEM - A power distribution system and method has a controller and at least one semiconductor switch. The power distribution system additionally has an on status detector which detects the status of the semiconductor switches, and an overcurrent status circuit which checks for overcurrent conditions. | 11-18-2010 |
20100321849 | OVERSTRESS PROTECTION APPARATUS AND METHOD - An overstress protection apparatus includes a switch detector. The switch is arranged in a grounding path of a load system. The detector detects the current, voltage or temperature of the load system to determine a signal for controlling the switch, to thereby protect the load system working in normal conditions. | 12-23-2010 |
20110235227 | Remote Power Controller with Parallel FETS - A remote power controller (RPC) includes a line connection; a load connection; a first field effect transistor (FET) and a second FET arranged in parallel between the line connection and the load connection, wherein the first FET has a lower safe operating area (SOA) than a SOA of the second FET, and wherein the first FET has a lower resistance at saturation (RDS(on)) than the second FET; and a voltage offset element connected between the first FET and the second FET, such that in the event that a current in the RPC is above a current limiting setpoint, the voltage offset element is configured to cause the first FET to turn off. | 09-29-2011 |
20110304942 | SSPC With Dual Fault Detectors - A solid state power controller (SSPC) for a direct current (DC) electrical system includes a high bandwidth fault detector, the high bandwidth fault detector configured to detect a possible fault and place a power switch of the SSPC in saturation at a predetermined current limit; and a low bandwidth fault detector, the low bandwidth fault detector configured to determine whether the possible fault is a confirmed fault, and in the event the possible fault is determined to be the confirmed fault, turning off the power switch, or in the event the possible fault is determined not to be the confirmed fault, turning on the power switch at a minimum on-resistance. | 12-15-2011 |
20120099236 | DC BRANCH CIRCUIT PROTECTING DEVICE - A DC distribution board comprises, therein as internal devices, a circuit breaker | 04-26-2012 |
20120287545 | METHOD AND SYSTEM FOR SHOOT-THROUGH PROTECTION - A switching apparatus includes a first transistor, a second transistor, a first circuit module, a first current sensor and a control circuit. The first transistor includes first, second and third terminals. The first terminal of the first transistor is coupled to a first power terminal. The third terminal of the first transistor includes a gate or base of the first transistor. The second transistor includes first, second and third terminals. The first terminal of the second transistor is coupled to a second power terminal. The second terminal of the second transistor is coupled to the second terminal of the first transistor. The third terminal of the second transistor includes a gate or base of the second transistor. The first circuit module includes an inductor in parallel with a diode. The first circuit module is connected between the first terminal of the second transistor and the second power terminal. | 11-15-2012 |
20130194709 | INPUT/OUTPUT INTERFACE CIRCUIT WITH OVERPOWER PROTECTION - An interface circuit configurable in input and output modes comprises a current source; an input/output node; a diode to prevent current from flowing from the input/output node to the current source; a first switch to short-circuit the diode when closed; and a second switch to form a ground path from the input/output node when closed. In input mode, the first switch is closed and the state of a connected sensor circuit may be measured. In the output mode, the first switch is open, and the second switch may be closed to activate an output circuit. In the output mode, power dissipation may be monitored, and the diode may protect the current source and measurement node from current flowing through the output circuit. In the input mode, closing the first switch may prevent the diode from introducing measurement errors due to non-linear attenuation of perturbative AC signals. | 08-01-2013 |
20130222960 | OVER CURRENT PROTECTION APPARATUS - Provided is an over-current protection apparatus including a current sensor configured to transform input current into a voltage signal, and output the voltage signal; an over-current sensing unit driven according to the voltage signal output from the current sensor; and an over-current determination unit configured to generate a switching unit driving signal, the logic level of which is determined according to a duration of an output signal of the over-current sensing unit. | 08-29-2013 |
20130242447 | Method and Apparatus To Detect A Broken Wire Condition in an Integrated Circuit - An integrated circuit includes circuitry to sense the occurrence of a break in a ground connection and/or supply connection and to indicate same to an exterior environment. In at least one implementation, the break may be indicated by providing a signal on an output terminal of the device that is not associated with a normal output of the device. | 09-19-2013 |
20130258540 | OVERCURRENT PROTECTION CIRCUIT AND POWER SUPPLY DEVICE - According to one embodiment, an overcurrent protection circuit for controlling an output transistor connected between a power source and an output terminal is provided. The overcurrent protection circuit has an overcurrent limiting circuit, a current-voltage control circuit, and a first control circuit. The current-voltage control circuit configured to control a gate voltage of the output transistor so that an output current is proportional to an output voltage of the output terminal Tout. The first control circuit is configured to allow the current-voltage control circuit to control the output transistor so that the output current is proportional to the output voltage when the output voltage is equal to or lower than a predetermined threshold voltage. The first control circuit is configured to allow the current-voltage control circuit to stop controlling the output transistor when the output voltage exceeds the threshold voltage. | 10-03-2013 |
20130286525 | Systems and Methods Providing Current Protection to an Electronic System - A computing device including a power connector to interface with a power source, logic and power components on a current path from the power connector; the power connector providing electrical power to the logic and power components, and an inrush protection circuit on the current path between the power connector and the logic and power components, the inrush protection circuit including: a first power dissipation device and a second power dissipation device arranged in parallel on the current path, a feedback loop to detect an amount of current in the current path and to control the first power dissipation device to operate in a manner to dissipate detected inrush current, and a first time delay network in communication with the second power dissipation device and causing a delay for the second power dissipation device to transition to an on state, wherein during steady state. | 10-31-2013 |
20140049870 | SEMICONDUCTOR MODULE - A semiconductor module in accordance with one embodiment comprises a plurality of semiconductor switching devices; a plurality of control circuits provided for the respective semiconductor switching devices and adapted to control switching of the semiconductor switching devices corresponding thereto and perform protection actions to stop switching the semiconductor switching devices corresponding thereto falling into a control stop state; and a signal path connecting the plurality of control circuits to each other and transmitting among the plurality of control circuits a protection action signal indicating whether or not there is the protection action for each of the semiconductor switching devices corresponding to the plurality of control circuits. Any of the plurality of control circuits receiving the protection action signal indicating that another control circuit is in the protection action through the signal path stops switching the semiconductor switching device corresponding thereto. | 02-20-2014 |
20140268465 | SYSTEM AND METHOD FOR PROVIDING OPTICALLY TRIGGERED CIRCUIT BREAKER - A system/method for providing an optically triggered circuit breaker is provided. The system comprises a junction field-effect transistor (JFET) and gate drive coupled to the JFET's gate. The gate drive applies voltage bias (V | 09-18-2014 |
20140362488 | SHORT-CIRCUIT PROTECTION STRUCTURE - A short-circuit protection structure comprises first and second high-voltage transistors, a control circuit, a first current sampling resistor for the first transistor and a second current sampling resistor for the second transistor. The control circuit controls switching period and duty cycle of the first transistor and the second transistor, a drain terminal of the first transistor is connected to a drain terminal of the second transistor, a source terminal of the first transistor is connected to the first current sampling resistor, and a source terminal of the second transistor is connected to the second current sampling resistor; a gate terminal of the first transistor and a gate terminal of the second transistor are connected to a driver stage of the control circuit. The size of the second transistor is smaller than the first transistor, and the current of the first transistor is sampled by the second transistor. | 12-11-2014 |
20140376141 | OVERCURRENT PROTECTION METHOD, CIRCUIT AND INTEGRATED CIRCUIT - Disclosed is an overcurrent protection method and circuit and an integrated circuit. The overcurrent protection circuit includes an output circuit, an overcurrent sampling circuit and an overcurrent protection loop circuit. The overcurrent sampling circuit is configured to perform overcurrent sampling on the output circuit, and to pass the sampled current to the overcurrent protection loop circuit, and the overcurrent protection loop circuit is configured to perform direct current level shifting on the sampled current to result in a control current, and to provide a negative feedback to the output current of the output circuit based on the control current. | 12-25-2014 |
20150326000 | POWER SUPPLY CONTROL APPARATUS OF ELECTRIC LOAD - Disclosed is a power supply control apparatus of an electric load that includes an upstream side switching element and a downstream side switching element and detects various abnormality states of a load wiring by a small number of detection signals. The power supply control apparatus includes a control circuit unit that gives a power supply command signal to the upstream switching element connected in series with the electric load and gives a conduction command signal to the downstream switching element, open-circuits the upstream and downstream switching elements by a synthetic overcurrent determination storage circuit that is operated in response to an overcurrent detecting circuit, monitors a value of one variable divided voltage generated by the voltage monitoring circuit for the electric load, and identifies and stores a wiring abnormality such as a negative line supply fault, a positive line ground fault, and a load short circuit abnormality. | 11-12-2015 |
20150326002 | PROTECTIVE CIRCUIT - A protective circuit includes an input, an output, a p-type field-effect transistor whose drain terminal is connected to the input and whose source terminal is connected to the output, a capacitor between the gate terminal of the field-effect transistor and ground, a Zener diode whose cathode is connected to the output, a resistor between the anode of the Zener diode and ground, and a diode whose anode is connected to the anode of the Zener diode and whose cathode is connected to the gate terminal of the field-effect transistor. | 11-12-2015 |
20150333496 | Device for switching a direct current in a pole of a DC voltage network - A device for switching a direct current in a pole of a direct current network includes two connecting terminals to be connected in series with the pole, an operating current path extending between the connecting terminals, at least one mechanical switch in the operating current path, a disconnection branch including a power switching unit for shutting down high short-circuit currents having power semiconductor switches that can be switched on and off, and a commutation device for commutating a current from the operating current path to the disconnection branch. In order to provide such a device which is economical, generates fewer losses and at the same time is able to switch high short-circuit currents quickly, the commutation device is provided with at least one inductive component. | 11-19-2015 |
20150333548 | BATTERY PROTECTION MODULE PACKAGE - Disclosed is a battery protection module package (PMP). The battery PMP according to an embodiment of the present invention includes a lead frame provided with a plurality of external terminals thereon, a printed circuit board stacked on the lead frame, and a plurality of internal terminals, a protection integrated chip (IC), a field effect transistor (FET), resistors, and capacitors disposed on the printed circuit board and electrically connected to each other, wherein the resistors and the capacitors are mounted on a pattern of the printed circuit board using surface mount technology (SMT), and wherein the plurality of internal terminals are electrically connected to the plurality of external terminals. | 11-19-2015 |
20150372474 | CIRCUIT INTERRUPTION DEVICE - A circuit interruption device includes a main branch; a secondary branch having an electrical on-resistance which is higher than an electrical on-resistance of the main branch; and first and second terminals for connection to an electrical network, the main and secondary branches extending between the first and second terminals. The main branch includes a switching apparatus which is switchable to selectively allow current to flow in the main branch in a normal mode of operation or commutate current from the main branch to the secondary branch in a fault mode of operation. The secondary branch includes a switching device, the switching device including a normally-on switching element. The secondary branch further includes a control unit in communication with the normally-on switching element. The secondary branch further includes a power extraction circuit which is electrically coupled with the control unit. During the normal mode of operation the normally-on switching element is in an on-state to permit the secondary branch to conduct current, and during the fault mode of operation the control unit controls the switching of the or each normally-on switching element to an off-state to inhibit current flow in the secondary branch. | 12-24-2015 |
20160013788 | MULTI-STAGE GATE TURN-OFF WITH DYNAMIC TIMING | 01-14-2016 |
20160028219 | DRIVING DEVICE FOR SEMICONDUCTOR ELEMENTS, AND SEMICONDUCTOR DEVICE - The device for driving the semiconductor element is provided with a drive circuit section, a charging circuit section and a shutting circuit section. The charging circuit section is electrically connected to an external circuit provided with a diode and a capacitive element. The semiconductor element has a first electrode, a second electrode and a control terminal. The cathode of the diode is connected to the first electrode. One of two terminals of the capacitive element is connected to the cathode of the diode, and the other terminal is connected to the second electrode. The charging circuit section enables the capacitive element to be charged at a higher rate after a timed point at which the voltage on the capacitive element becomes equal to a saturation voltage in a case where the input signal is an on-signal. | 01-28-2016 |
20160043537 | FUSE PROTECTION FOR A LINE - A device and method for fuse protection of a line includes at least two sensors for sensing a corresponding electric variable in a first location and a second location along a conductor line, and for outputting a corresponding first value and second value of the electric variable at the first and second locations, respectively. An evaluation unit evaluates the generated first and second values in order to generate an evaluation result. The evaluation unit controls, based on the evaluation result, an isolating element to cause the isolating element to interrupt a current flow in the conductor line. | 02-11-2016 |
20160064916 | DETECTION CIRCUIT AND SEMICONDUCTOR DEVICE - Provided is a semiconductor device including a detection circuit in which, even when a load short-circuit detection circuit and a load open-circuit detection circuit perform false detection due to a fluctuation in power supply voltage and the like, an output of a false detection result can be prevented. The detection circuit includes the load short-circuit detection circuit configured to detect a short circuit of a load, the load open-circuit detection circuit configured to detect an open circuit of the load, and a logic circuit configured to output output signals of the load short-circuit detection circuit and the load open-circuit detection circuit to an output terminal of the logic circuit, in which the logic circuit outputs a signal of a non-detection logic to the output terminal when the outputs of the load open-circuit detection circuit and the load short-circuit detection circuit are detection logics. | 03-03-2016 |
20160087418 | Failure Detection for Switch Devices - A device and a method for temporarily closing a switch are disclosed. In an embodiment the device includes a first switch configured to be coupled to a load and a control circuit configured to temporarily close the first switch in response to a detection of a failure event in the first switch. | 03-24-2016 |
20160111867 | METHODS OF POST-PROCESS DISPENSATION OF PLASMA INDUCED DAMAGE PROTECTION COMPONENT - At least one method, apparatus and system disclosed herein involves providing an integrated circuit device comprising a protection circuit. And integrated circuit device is formed. A protection component is formed in parallel to the integrated circuit device. The protection component is configured for protecting the integrated circuit device from a portion of a charge. A circuit break device in series to the protection component, wherein the protection component and the circuit break device are in parallel to the integrated circuit device. The circuit break device is configured to break an electrical path of the protection component for electrically terminating the protection component based upon a current signal. | 04-21-2016 |
20160118784 | NON-ISOLATED POWER SUPPLY OUTPUT CHASSIS GROUND FAULT DETECTION AND PROTECTION SYSTEM - A non-isolated power supply is configured to receive an input voltage and supply an output voltage, and includes a supply line, a return line, a first semiconductor switch coupled in series in the supply line, and a second semiconductor switch coupled in series in the return line. The first and second semiconductor switches are each configured to operate in an ON state and an OFF state. The differential current sensor is configured to sense differential current between the supply line and the return line. The fault detection logic is coupled to the differential current sensor, the first semiconductor switch, and the second semiconductor switch, and is configured to detect when the differential current exceeds a predetermined current magnitude, and command the first and second semiconductor switches to operate in the OFF state upon detecting that the differential current exceeds the predetermined current magnitude. | 04-28-2016 |
20160126718 | SEMICONDUCTOR DEVICE - In a semiconductor device, an IGBT and an SJMOSFET connected in parallel have respective gate terminals controlled independently of each other. When a high voltage occurs and a high current flows caused by short-circuit in an external circuit under a condition of ON state of the IGBT and SJMOSFET, an operational amplifier in the control IC detects the overcurrent through the IGBT and controls the gate signal to restrict the current through the IGBT. After that, the operational amplifier throttles the current through the IGBT according to a reference voltage of a capacitor decreasing by the discharge through a constant current source, thus conducting soft-OFF operation of the IGBT. | 05-05-2016 |
20160204593 | POWER SWITCH DEVICE | 07-14-2016 |
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