Patent application number | Description | Published |
20080239592 | ARC FLASH ELIMINATION SYSTEM, APPARATUS, AND METHOD - A method of eliminating arc flash in a motor control center is disclosed. The method includes sensing an arc flash corresponding to the motor control center. In response to sensing the arc flash, and subsequent to a delay, determining whether the arc flash continues, and in response to determining that the arc flash continues, triggering an arc crowbar. | 10-02-2008 |
20080288189 | ARC DETECTOR - A system and method for identifying an arcing event in electrical distribution equipment. The system includes memory for storing an arcing radio frequency characteristic indicative of an arcing event generated in electrical distribution equipment and a noise radio frequency characteristic indicative of background electrical noise and a sensor for detecting radio frequency signals resulting from the arcing event and propagating wirelessly from the electrical distribution equipment. The system also includes a processor for processing the radio frequency signals detected by the sensor to extract radio frequency characteristics from the detected signals and including a comparator for comparing the extracted frequency characteristics to the arcing radio frequency characteristic and the noise radio frequency characteristic stored in memory to identify occurrence of an arcing event. The system also includes an arc alarm generator for generating an arc fault signal indicative of the occurrence of the arcing event. | 11-20-2008 |
20090134128 | ELECTRICAL PULSE CIRCUIT - An electrical pulse circuit is disclosed. The electrical pulse circuit is in connection with a first pair of electrodes defining a first gap between ends thereof and a second pair of electrodes defining a second gap between ends thereof. The second gap is disposed proximate to the first gap. The circuit includes a controller, a first electrical pulse source in power connection with the first pair of electrodes, and a second electrical pulse source in power connection with the second pair of electrodes. The first electrical pulse source is productive of a high voltage low current arc across the first gap in response to the controller and the second electrical pulse source is productive of a low voltage high current arc across the second gap in response to the controller and the high voltage arc. | 05-28-2009 |
20090134129 | ABLATIVE PLASMA GUN APPARATUS AND SYSTEM - An ablative plasma gun subassembly is disclosed. The subassembly includes a body, a first pair and a second pair of gun electrodes having distal ends disposed within an interior of the body, and ablative material disposed proximate the distal ends of at least one of the first pair of gun electrodes and the second pair of gun electrodes. | 05-28-2009 |
20090152207 | PROCESS FOR THE REDUCTION OF BIOFOULING USING ELECTRIC FIELDS - A process to reduce or prevent biofouling, by destroying or deactivating microbiological content of feedwater, or other liquid, prior to its entrance into membranes or process equipment, such as heat transfer equipment. The process comprises the use of electrical discharge and/or electric fields to destroy microbes that result in the biofouling of surfaces. By destroying the microbiological content of the water the microbiology no longer is able to create a restricting biofilm upon or within said process equipment. | 06-18-2009 |
20090161272 | ARC DETECTION SYSTEM AND METHOD - A system for identifying an arcing event in electrical distribution systems is provided. The system comprises a sensor configured to detect ultraviolet light and to generate a signal indicative of the arcing event propagating from the electrical distribution system. A processor coupled to the sensor and configured to analyze an ultraviolet light characteristic from the signal and generate an arc fault signal. A protective device configured to receive the arc fault signal and to mitigate the arcing event in the electrical distribution system. | 06-25-2009 |
20090308845 | ARC CONTAINMENT DEVICE AND METHOD - An arc containment device is presented. The arc containment device includes a shock shield further having a multiple apertures for escape of gas, the shock shield configured to surround an arc source. The device further comprises an inner enclosure having a multiple openings generally aligned with the multiple apertures, the inner enclosure configured to provide an electrical insulation base for the arc source. An outer enclosure disposed is provided around the inner enclosure, the outer enclosure configured to direct the gas to the environment outside the device. | 12-17-2009 |
20100027753 | HIGH FLUX X-RAY TARGET AND ASSEMBLY - An X-ray tube anode assembly and an X-ray tube assembly are disclosed that include an X-ray target and a drive assembly configured to provide an oscillatory motion to the X-ray target. The drive assembly is configured to provide an oscillatory motion to the target assembly. | 02-04-2010 |
20100052761 | DUAL POWER SOURCE PULSE GENERATOR FOR A TRIGGERING SYSTEM - A dual power source pulse generator in power connection with a pair of electrodes having a first electrode, a second electrode and an air gap therebetween. The dual power source pulse generator includes a first pulse source producing a high voltage low current pulse across the pair of electrodes to allow dielectric breakdown, and a second pulse source electrically connected in parallel with an output of the first pulse source, and producing a low voltage high current pulse to thereby produce a current flow of high-density plasma between the same electrodes of the pair of electrodes in response to the high voltage low current pulse. | 03-04-2010 |
20100072174 | CIRCUIT BREAKER WITH IMPROVED ARC QUENCHING - A circuit breaker having an arc quenching system is provided. The quenching system includes an ablative device positioned within a chamber. On end of the ablative device includes an opening that receives a stationary contact. A movable contact arm travels within a channel between the closed position and an open position. When an abnormal operating condition is detected, the circuit breaker trips causing the contact arm to move. This generates a plasma arc that evaporates material from the ablative device. The evaporated material generates a pressurized gas that cools and quenches the plasma arc to improve the performance of the circuit breaker during undesired operating conditions such as a short circuit. | 03-25-2010 |
20100301021 | ABLATIVE PLASMA GUN - An ablative plasma gun is presented. The ablative plasma gun includes a first gun electrode and a second gun electrode arranged between a dielectric layer to form a longitudinal slot. An opening at a distal end of the longitudinal slot is provided to spread generated plasma. | 12-02-2010 |
20110017494 | INSULATING COMPOSITIONS AND DEVICES INCORPORATING THE SAME - Provided are compositions that include a dielectric matrix material defining multiple voids of substantially uniform respective dimension and configured as a substantially uniform array. The voids may be configured such that charges that accumulate at surfaces of at least some of the voids when the composition is immersed in a uniform external electric field interact with charges that accumulate at surfaces of at least others of the voids to cause movement of the respective charges in a direction having a component transverse to the electric field. Hollow particles may be disposed within respective voids of the array of voids defined by the matrix material, and particles, such as, for example, ceramic, varistor, and/or inorganic dielectric particles, may be incorporated within the matrix material. Associated devices are also provided. | 01-27-2011 |
20110024150 | COOLING SYSTEM AND METHOD FOR CURRENT CARRYING CONDUCTOR - A cooling mechanism for a current carrying conductor is proposed. The mechanism includes a first layer having plurality of micro fluidic channels. The first layer is thermally coupled to the current carrying conductor and configured to exchange thermal energy. A micro-pump is configured to circulate a heat exchange fluid through the micro fluidic channels to exchange thermal energy with the first layer and remove heat from the current carrying conductor. The heat exchange fluid and the current carrying conductor are electrically isolated. | 02-03-2011 |
20110198545 | INSULATING COMPOSITION AND METHOD FOR MAKING THE SAME - A method is provided that includes providing a resin in liquid form. The resin can be partially cured, and subsequent to partially curing the resin, the resin can be mixed with filler particles. The resin and filler particles can be mixed, say, in a planetary mixer, and can be exposed to an ambient pressure less than atmospheric pressure during mixing. Subsequent to mixing the resin and filler particles, the resin can be fully cured. The fully-cured resin can be disposed between first and second conductive components configured to be maintained at different potentials, such as between a phase conductor and a ground conductor. | 08-18-2011 |
20110234099 | PLASMA GENERATION APPARATUS - Provided is an apparatus, such as an arc mitigating device, which can include a first plasma generation device and a second plasma generation device. The second plasma generation device can include a pair of opposing and spaced apart electrodes and a low voltage, high current energy source connected therebetween. A conduit can be configured to direct plasma between the first and second plasma generation devices, such that the second plasma generation device receives plasma generated by the first plasma generation. The plasma from the first plasma generation device can act to reduce the impedance of an area between the pair of opposing electrodes sufficiently to allow an arc to be established therebetween due to the low voltage, high current energy source. | 09-29-2011 |
20110248002 | PLASMA GENERATION APPARATUS - Provided is an apparatus, such as an arc mitigating device, that includes an annular body that defines a lumen and a longitudinal axis, the annular body having a body length along the longitudinal axis. An electrode can be disposed coaxially within the lumen. The electrode may extend into the body by an electrode length that is at least about 50% of the body length, and may have diameter less than or equal to about 50% of an inner diameter of the annular body. An ablative material portion can be disposed between the annular body and the electrode. The annular body and the electrode may be configured such that when an arc exists between the annular body and the electrode, the ablative material portion undergoes ablation and thereby generates a plasma. | 10-13-2011 |
20110254455 | DUAL POWER SOURCE PULSE GENERATOR FOR A TRIGGERING SYSTEM - An ablative plasma gun having a dual power source pulse generator is configured to generate a high voltage low current pulse and a low voltage high current pulse. A pair of electrodes are disposed and configured to receive the high voltage low current pulse, and to receive the low voltage high current pulse in response to the high voltage low current pulse. | 10-20-2011 |
20120068602 | ELECTRODE AND PLASMA GUN CONFIGURATION FOR USE WITH A CIRCUIT PROTECTION DEVICE - A circuit protection device includes a plasma gun configured to emit an ablative plasma along an axis, and a plurality of electrodes, wherein each electrode is electrically coupled to a respective conductor of a circuit and is arranged substantially along a plane that is substantially perpendicular to the axis such that each electrode is positioned substantially equidistant from the axis. | 03-22-2012 |
20120181253 | APPARATUS FOR INTERRUPTING CURRENT - In one aspect, an apparatus, such as an electrical system, is provided. The electrical system can include a pair of conductors across which an arc is sporadically supported, the arc including load current from a load circuit. The electrical system can also include an energy source that is separate from the load circuit and configured to selectively charge an electrode assembly. The conductors and electrode assembly can be configured such that the arc, when present, will be lengthened or constricted due to the charge on the electrode assembly. | 07-19-2012 |
20130043071 | THERMAL ENERGY MANAGEMENT COMPONENT AND SYSTEM INCORPORATING THE SAME - An apparatus is provided that includes a heat pipe and a heat sink that includes a foam (e.g., a metal foam, a carbon foam, and/or a graphite foam) and is configured to exchange thermal energy with the heat pipe. For example, the heat pipe can include a thermal energy receiving portion and a thermal energy rejecting portion. The heat sink can be configured to receive thermal energy from a busbar and the thermal energy receiving portion can be configured to receive thermal energy from said heat sink. Alternatively, the thermal energy receiving portion can be configured to receive thermal energy from a busbar, and the heat sink can be configured to receive thermal energy from the thermal energy rejecting portion. | 02-21-2013 |
20130096853 | SYSTEMS AND METHODS FOR MONITORING ELECTRICAL CONTACTS - Systems and methods for monitoring electrical contacts are provided. One method includes calculating an impedance of an electrical contact based on an electrical signal applied to the electrical contact and a measured electrical signal after passing through the electrical contact. The method also includes determining a condition of the electrical contact using the calculated impedance. | 04-18-2013 |
20130194702 | ARC CONTROL IN A FUSE PROTECTED SYSTEM - An arc control assembly is disclosed. In accordance with embodiments of the present invention, a controller is provided that detects the presence of a fault condition on a secondary side of a transformer. Upon detecting such a fault condition, the controller causes a discharge or short condition to be generated on a primary side of the transformer. | 08-01-2013 |
20130228551 | ARC CHUTELESS DC CURRENT INTERRUPTOR - A system comprising a circuit interrupter configured to interrupt flow of current through a circuit during an over current condition, wherein the circuit interrupter comprises two contacts configured to remain in contact when a current flowing through the two contacts is less than a threshold value, a tripping mechanism configured to separate the two contacts when the current equals or exceeds the threshold value, and at least one of either a permanent magnet or an electrode configured to extinguish an electric arc formed between the two contacts of the circuit interrupter when the two contacts are separated, wherein the circuit interrupter does not include an arc chute. | 09-05-2013 |
20150048054 | ELECTRICAL CONTACT SYSTEM - A system including a contact tip that includes an arcing surface, a base surface, and a graded structure is presented. The graded structure includes a first region comprising a first surface proximate to the arcing surface, a second region comprising a second surface proximate to the base surface, and an intermediate region disposed between the first region and the second region. A concentration of silver in the graded structure decreases from the first surface to the second surface. A method of forming a contact tip includes preparing starting materials for a first region, an intermediate region, and a second region of the contact tip. The starting materials of the first, intermediate, and second regions are sequentially added to a container to form a graded blend of starting materials. The graded blend of starting materials are compacted and heat-treated to form a contact tip having a graded structure. | 02-19-2015 |