21st week of 2016 patent applcation highlights part 62 |
Patent application number | Title | Published |
20160149317 | Communication Apparatus With Improved Radiated Spurious Emission And Loss - Examples of a tunable antenna and various implementations thereof are described. The tunable antenna may include a radiator and one or more varactors. The radiator may include at least one feeding port and at least one shorting port. Each of the one or more varactors may be coupled to the radiator and configured to operate in either an isolation state or a connection state when the tunable antenna operates in a radio-frequency (RF) frequency range. | 2016-05-26 |
20160149318 | MATABLE AND DEMATABLE ELECTRICAL CONNECTING STRUCTURE AND CONNECTOR FOR ELECTRICAL CONNECTION WHICH INCLUDES SAME, SEMICONDUCTOR PACKAGE ASSEMBLY, AND ELECTRONIC DEVICE - The present invention discloses a matable and dematable electrical connecting structure characterized by comprising: a female coupling member having a first connecting portion; a male coupling member having a second connecting portion; and a connecting unit coupling the female coupling member and the male coupling member and electrically connecting the first and second connecting portions, wherein the connecting unit includes an inner conductive material which is electrically connected to the first connecting portion and is provided on the inner wall of an insert hole formed in the female connecting member, a column including a conductive material which is electrically connected to the second connecting portion, protruding from the male connecting member, and can be inserted in the insert hole, and one or more elastic pin including a surface of a conductive material which is extending in an outward direction from the column and elastically contacting the inner conductive material. | 2016-05-26 |
20160149319 | ELECTRICAL TERMINAL AND METHOD - A connection terminal for connecting, in an electrically contacting manner, to at least one conductor includes a current bar held on a mount. The current bar connects to the at least one conductor. The connection terminal also includes an actuation lever, a clamping spring, and a slotted guide. The slotted guide has at least one closure slot and a clamping slot that branches off transversely therefrom. The actuation lever is movably guided in the slotted guide by a first pin and a second pin. | 2016-05-26 |
20160149320 | CENTER CONDUCTOR TIP - A tip end conductor for an inner conductor of a coaxial cable, comprising a first portion engaging a first region of the outermost tip to mechanically engage the inner conductor and a second portion, axially inboard of the first portion, engaging a second region of the outermost tip to electrically engage the inner conductor. The first and second portions define first and second diameter dimensions, respectively, wherein the first diameter dimension is less than the second diameter dimension, and wherein the first portion of the tip end conductor includes a mechanically irregular surface for being press fit onto, and producing, a mechanical interlock along a first region of the terminal end of the inner conductor. | 2016-05-26 |
20160149321 | SUBSTRATE TERMINAL - A substrate terminal includes at least one substrate connection portion that is inserted into a hole portion in a substrate from one surface side of the substrate and is soldered together with the hole portion, a terminal connection portion into which an opposite-side terminal is inserted in a direction same as an insertion direction of the substrate connection portion into the hole portion and that is connected to the opposite-side terminal, an intermediate portion that connects the substrate connection portion and the terminal connection portion, and at least one substrate abutting portion that is made to project in a direction orthogonal to the insertion direction and is made to abut against the one surface of the substrate with the substrate connection portion and the hole portion soldered. The substrate abutting portion is formed on a base member by bending processing. | 2016-05-26 |
20160149322 | ELECTRICAL CONNECTOR - An electrical connector for connecting a chip module, includes an insulating body, multiple conducting terminals received in the insulating body, and a fixing member having a base for fixing the chip module. The insulating body has an accommodating cavity that is rectangular and opened upward. A stop wall projects upward from each of four corners of the accommodating cavity. Each conducting terminal has a contact portion extending upward for electrically contacting a conductive connection surface of the chip module. The contact portions are located in the accommodating cavity and do not exceed the stop wall upward. The base is assembled above the insulating body. Four extending portions extend downward from the base and are assembled at an outer side of the stop walls. An inner side of each extending portion is provided with a guiding inclined surface cooperating with the outer side of the stop wall. | 2016-05-26 |
20160149323 | CONNECTOR ASSEMBLY FOR ELECTRICALLY COUPLING A MODULE CARD TO A CIRCUIT BOARD - Connector assembly including a board connector configured to be mounted to a circuit board. The board connector includes a connector housing having a reception slot. The reception slot opens in a vertical direction that is parallel to an elevation axis. The elevation axis is perpendicular to the circuit board when the board connector is mounted thereto. The board connector also includes electrical contacts that are positioned along the reception slot. The electrical contacts are configured to engage corresponding contacts of a module card. The connector assembly also includes a coupling mechanism attached to the board connector. The coupling mechanism includes a support frame that extends away from the board connector along the elevation axis. The coupling mechanism also includes a latch body that is attached to the support frame and faces the reception slot to define a module-receiving space therebetween that is configured to receive the module card. | 2016-05-26 |
20160149324 | CONNECTOR SYSTEM WITH THERMAL SURFACE - A module can be configured to mate with a receptacle. The module includes a body with a thermal surface that is coupled to thermally active circuitry supported by the body. The receptacle is configured to allow air to flow over the thermal surface so as to dissipate thermal energy from the circuitry. | 2016-05-26 |
20160149325 | SUBSTRATE TERMINAL AND SUBSTRATE WITH TERMINAL - A substrate terminal includes at least one substrate abutting portion configured to be made to abut against a substrate, at least one substrate connection portion configured to be inserted into a hole portion in the substrate and be soldered together with the hole portion with the substrate abutting portion and the substrate abutting against each other, a terminal connection portion to which an opposite-side terminal is inserted in a direction same as an insertion direction of the substrate connection portion into the hole portion and connected, and an intermediate portion configured to connect the substrate abutting portion and the substrate connection portion with the terminal connection portion. A slit is provided between the substrate abutting portion and the substrate connection portion adjacent to each other. | 2016-05-26 |
20160149326 | KEY-VALUE DRIVE ULTRATHIN SATA CONNECTOR - A low-profile electrical connector that can be coupled to an electronic device without significantly increasing the effective size of the electronic device. When coupled to a compatible mating connector on the electronic device, the electrical connector does not extend significantly beyond the footprint of the electronic device or increase the thickness of the electronic device. Conductors in the electrical connector that electrically couple to contacts in the mating connector are routed to exit the electrical connector on a different side than the side opposite the mating connector. | 2016-05-26 |
20160149327 | ANGLED INTERPOSER INTERCONNECT SYSTEMS - A method and structures are provided for implementing angled interposer interconnect systems. The angled interposer interconnect systems include an angled interconnect having a selected interconnect angle including a plurality of land grid array (LGA) contacts. The selected interconnect angle is provided in a provided within a predefined range between zero degrees one hundred eighty (180) degrees. Selected connector LGA contacts have substantially matching length for enhanced signal integrity performance. | 2016-05-26 |
20160149328 | ABUTTING TYPE CONNECTOR - A butting surface ( | 2016-05-26 |
20160149329 | FLAT WIRING BODY MODULE - A flat wiring body module includes a flat wiring body, a containing member containing the flat wiring body, and a connector part. The flat wiring body includes a flat wiring body for power including a power circuit and a first flat board, a flat wiring body for non-power including a non-power circuit and a second flat board, and a flat wiring body for ground including a ground and a third flat board. The flat wiring body for power, the flat wiring body for non-power, and the flat wiring body for ground are stacked in a state where the flat wiring body for ground is arranged between the flat wiring body for power and the flat wiring body for non-power. | 2016-05-26 |
20160149330 | CARD CONNECTOR - A card connector for receiving an inserted card module having electrode pads on one surface is provided. The card connector includes a housing and a plurality of terminals. The housing has a terminal holding portion. Each terminal has a base portion held in the terminal holding portion and a cantilevered arm portion extending from the base portion in a transverse direction relative to an insertion direction of the card module in plan view. The arm portion has a curved portion shaped so as to have a curved surface with a centerline of curvature positioned upwards in side view and a pair of oblique portions inclined relative to an extension direction of the arm portion on both sides of an apex portion positioned on a free end. The terminals contact the electrode pads of the card module. | 2016-05-26 |
20160149331 | SOCKET CONNECTOR - A socket connector has a core. The core has a base located at a first end of the core and has a plurality of orifices opening at a second end of the core. Each socket contact in a plurality of socket connectors includes a socket contact lead. Each of the socket contacts in the plurality of socket connectors is located in an orifice in the plurality of orifices so that the socket contact lead of each socket contact lead extends through the base and outside the socket connector. A core cap is affixed to the core so that the core cap covers the plurality of orifices. | 2016-05-26 |
20160149332 | IMPROVED LOW PROFILE LATCHING CONNECTOR - A small, low-profile plug connector for use with electronic devices provides a latching member with a pair of hooks that engage mating holes in a guide frame, and which can be easily disengaged from the guide frame or opposing connector or housing. The connector includes an elongated actuator interposed between the connector housing and latching member and the actuator terminates in a cylindrical cam member that is captured in a recess on the connector housing such that rearward movement of the actuator imparts a raising action to the latching member. | 2016-05-26 |
20160149333 | CONNECTOR SUPPORT STRUCTURE AND ADAPTOR - A connector support structure includes: a cylindrical connector fitted to a counterpart connector formed in an electric component; a cylindrical connector support portion formed in a wiring board in which an electric wire to be connected to the connector is arranged; and a resin adaptor which holds the connector internally and which is inserted into and supported by the connector support portion. The adaptor includes a plurality of elastic pieces in an outer circumferential surface of the adapter such that the connector is supported on an inner surface of the connector support portion through the elastic pieces. | 2016-05-26 |
20160149334 | CONNECTOR - One aspect of the present disclosure is directed to a connector. The connector includes a top cover, a connecting plate, and a base. The top cover includes a top cover body and a first arc member. A first end of the first arc member is arranged on a side surface of the top cover body. A removable thin plate is arranged inside the first arc member. The connecting plate includes a connection section and a protruding section. The top cover body and the base are engaged and connected to form a cavity. The connection section is arranged inside the cavity. The connection section is connected to the base. A first end of the protruding section is connected to the connection section and a second end of the protruding section protrudes from the base. | 2016-05-26 |
20160149335 | MINERALLY INSULATED CABLE CONNECTOR - An electrical connector assembly for the electrical connection of one or more minerally insulated cables ( | 2016-05-26 |
20160149336 | ELECTRICAL CONNECTING ASSEMBLIES, AND RELATED METHODS - An assembly for electrically connecting at least two wires is provided. The assembly includes a body configured to receive a connector therein for electrically connecting at least two wires, and a retainer configured to releasably couple to the body. The retainer has at least one arm configured to extend into the body, when the retainer is coupled to the body, and inhibit movement of the connector out of the body after the connector is received in the body. Methods of making an electrical connection using an electrical connecting assembly are also disclosed. | 2016-05-26 |
20160149337 | WATERPROOF CONNECTOR AND ELECTRONIC EQUIPMENT - A waterproof connector provided herein is capable of reducing an area taken up by the connector while ensuring waterproof performance, achieving layout design of electronic equipment more freely, and contributing to size reduction of the electronic equipment. This waterproof connector is also capable of increasing the strength and durability of a shell dramatically. A waterproof connector ( | 2016-05-26 |
20160149338 | CABLE CONNECTOR ASSEMBLY AND METHOD OF MANUFACTURING THE CABLE CONNECTOR ASSEMBLY - A cable connector assembly includes a mating member ( | 2016-05-26 |
20160149339 | THIN FILM TYPE MAGNETIC CONNECTOR MODULE - Various disclosed embodiments generally relate to connector modules, and more particularly to magnetic connector modules. The connector module includes a board having a concave section formed at a first side, and the concave section has a base surface having formed thereon a plurality of first electrodes. A plurality of second electrodes are formed at a second side of the board opposite the first side and on a rear surface facing away from the base surface. A plurality of holes are formed through the concave section and have conductors formed therethrough to electrically connect the first electrodes and the second electrodes. The connector module additionally includes a magnet inserted into the concave section and an insulating layer interposed between the magnet and the first electrodes. | 2016-05-26 |
20160149340 | ELECTRONIC DEVICE INCLUDING ELECTRONIC CARD CONNECTOR - An electronic device includes a housing and a connector mounted in the housing. An open portion is defined in the housing. The connector includes a mounting portion coupled to the housing, a rotating member rotatably mounted to the mounting portion and a tray mounted in the open portion. The rotating member includes a magnet arranged to one end of the rotating arm and a resisting portion extending from the other end of the rotating arm. The magnet is adjacent to an inside surface of the housing, and the resisting portion resists against the tray. The magnet rotates the rotating member to partly push the tray out from the open portion. The electronic device has a good sealing ability. | 2016-05-26 |
20160149341 | LOW PROFILE LATCHING CONNECTOR - A low-profile connector for use with electronic devices provides a cantilevered latching arm with a pair of engagement hooks that engage mating holes in a guide frame, and which can be easily unlatched from the guide frame or opposing connector or housing. The hooks lock the plug connector into engagement with the frame or housing, but are readily released by way of a rotating cam lobe mechanism. The lobe mechanism converts horizontal pulling movement of an actuator into vertical, lifting movement of the latching arm such that the hooks are lifted upward and disengaged from the guide frame or housing. | 2016-05-26 |
20160149342 | RATCHETING LEVER ACTUATED CONNECTOR ASSEMBLY - A connector assembly including a first and second connector configured to be connected to the first connector. The first connector has a slide including a cam groove for receiving a latch pin defined by the second connector. The slide is moved by a lever such that the cam groove and the latch pin cooperate to draw the first and second connectors from an uncoupled position to a fully coupled position when moved from an initial to final position. A ratcheting mechanism couples the lever to the slide allowing the lever to return from the final position to the initial position without disconnecting the first and second connectors. The lever is configured to move through more than one stroke from the initial position to the final position to bring the first and second connectors from the uncoupled position to the fully coupled position. | 2016-05-26 |
20160149343 | HIGH FREQUENCY ELECTRICAL CONNECTOR - An improved broadside coupled, open pin field connector. The connector incorporates lossy material to selectively dampen resonance within pairs of conductive members connected to ground when the connector is mounted to a printed circuit board. The material may also decrease crosstalk and mode conversion. The lossy material is selectively positioned to substantially dampen resonances along pairs that may be connected to ground without unacceptably attenuating signals carried by other pairs. The lossy material may be selectively positioned near mating contact portions of the conductive members. Multiple techniques are described for selectively positioning the lossy material, including molding, inserting lossy members into a housing or coating surfaces of the connector housing. The lossy material alternatively may be positioned between broad sides of conductive members of a pair. By using material of relatively low loss, loss when the conductive members are used to carry signals is relatively low, but an appreciable attenuation of resonances is provided on pairs connected to ground. As a result, an overall improvement of signal to noise ratio is achieved. | 2016-05-26 |
20160149344 | CONNECTORS AND SYSTEMS HAVING IMPROVED CROSSTALK PERFORMANCE - Embodiments of the present invention generally relate to the field of electronic communication, and more particularly, to techniques used to compensate for/reduce/or otherwise manipulate crosstalk in communication connectors, and apparatuses and methods which employ such techniques. In an embodiment, the present invention is a communication connector that includes a plurality of signal pairs including at least a first pair and a second pair, a first compensation stage between the first pair and the second pair, and an orthogonal compensation network between the first pair and the second pair. The orthogonal compensation network can be time delayed from the first compensation stage. | 2016-05-26 |
20160149345 | RECEPTACLE STRUCTURE - A receptacle structure, which is specifically referred to a joint assembly of terminal with plural signal pins, a main isolator and a metallic casing, wherein the terminal with plural pins is further separated with an upper row terminator and a lower row terminator, the metallic casing is extended with a fixing part at the back side and is configured with an upper rib and at least a spring on the top surface of fixing part, and both laterals are formed as side curvatures with each side opening. Thus, the present invention provides a better shielding protection against ESD—Electrostatic Discharge and enables a high frequency characteristic control which stabilizes the impedance variation within the error range. | 2016-05-26 |
20160149346 | RECEPTACLE - A receptacle comprises a tongue, a plurality of top contacts, a grounding piece and a conductive shell. The tongue is integrated into a printed circuit board. The top contacts are spaced apart along a top row on the tongue and include a pair of top grounding contacts respectively located at both sides of the top row. The grounding piece sequentially has a tail mounted onto the printed circuit board, a base attached to a rear portion of the tongue, a top shielding pad located behind the top contacts and two arms respectively constituting both sides of the tongue. The grounding contacts are respectively located on top surfaces of the two arms. The conductive shell is coupled to the base and surrounds the tongue and the grounding piece. | 2016-05-26 |
20160149347 | Connector - The present disclosure provides a main connector including a shield housing, an insulated body, a plurality of metal terminals, and a shielding plate. The shield housing has an opening for a butt joint connector to insert. The insulated body is encapsulated inside the shield housing. Each of the metal terminals has a contact portion and a fixing portion. The contact portion is arranged in two rows inside the opening of the shield housing, and the fixing portion is fixed to the insulated body. The shielding plate has at least one elastic arm with bending formation and is disposed between two rows of the metal terminals. | 2016-05-26 |
20160149348 | ELECTRICAL PLUG CONNECTOR WITH SHIELDING AND GROUNDING FEATURES - An electrical plug connector includes a plug metal shell, an insulation housing bracket, a plug grounding contact, and a grounding member. The plug metal shell encloses a tongue portion of the insulation housing bracket. The plug grounding contact is held inside the insulation housing bracket. The grounding member is disposed between the plug metal shell and the plug grounding contact and spaced from the first side of the insulation housing bracket. A connecting portion is selectively disposed on the grounding member or on the plug grounding contact. The connecting portion mechanically contacts to the grounding member and the plug grounding contact such that the grounding member is electrically connected to the plug grounding contact. | 2016-05-26 |
20160149349 | ELECTRICAL RECEPTACLE CONNECTOR - A receptacle connector includes an insulation housing bracket, a first flat grounding contact and a shielding member. The housing base has a first outer surface, and the first flat grounding contact is combined with the insulation housing bracket. The shielding member includes a shielding body and a first connecting portion. The shielding body is installed inside the insulation housing bracket, and the first flat grounding contact is located between the first outer surface and the shielding member. The first connecting portion protrudes from the shielding body and is securely fixed on the first grounding contact in a laser welding manner, such that the shielding body is electrically connected to the first grounding contact. | 2016-05-26 |
20160149350 | ELECTRICAL RECEPTACLE CONNECTOR WITH SHIELDING AND GROUNDING FEATURES - An electrical receptacle connector includes a receptacle shell, an insulation housing bracket, a receptacle grounding contact, and a grounding member. The insulation housing bracket is disposed inside the receptacle shell. The receptacle grounding contact is held inside the housing base. The grounding member is disposed on a first side of the insulation housing bracket and located between the insulation housing bracket and the receptacle shell. A connecting structure is selectively disposed on the grounding member or on the receptacle grounding contact. The connecting structure penetrates through the insulation housing bracket and mechanically or physically connects the grounding member and the receptacle grounding contact such that the grounding member is electrically connected to the receptacle grounding contact. | 2016-05-26 |
20160149351 | FUSIBLE LINK CABLE HARNESS AND SYSTEMS AND METHODS FOR ADDRESSING FUSIBLE LINK CABLE HARNESSES - A fusible link cable harness and systems and methods for addressing fusible link cable harnesses are provided. The fusible link cable harness, for example, may include, but is not limited to, a first connector having a plurality of pins, the plurality of pins comprising a main addressing pin and a plurality of secondary addressing pins, and a fusible link board, the fusible link board including, but not limited to, a bus coupled to the main addressing pin, and a plurality of fusible links, each of the plurality of fusible links coupled between one of the secondary addressing pins and the bus. | 2016-05-26 |
20160149352 | COMMUNICATION CONNECTORS HAVING SWITCHABLE ELECTRICAL PERFORMANCE CHARACTERISTICS - A connector configured to operate in two different electrical performance modes. The connector may include a plurality of connector contacts, a plurality of contact pads, and an insulator having an insulating portion adjacent the plurality of contact pads. The insulator is movable between an insulating position and a non-insulating position. When the insulator is in the insulating position, the insulating portion insulates the plurality of contact pads from the plurality of connector contacts and the connector operates in a first one of the electrical performance modes. When the insulator is in the non-insulating position, the plurality of connector contacts contact the plurality of contact pads and the connector operates in a different second one of the electrical performance modes. The connector may be implemented as a plug or an outlet. | 2016-05-26 |
20160149353 | CABLE CONNECTOR ASSEMBLY WITH IMPROVED INDICATION EFFECT - A cable connector assembly ( | 2016-05-26 |
20160149354 | ELECTRICAL DEVICES WITH LONGITUDINAL ELECTRICAL CONDUCTOR ENTRIES - An electrical wiring device has a longitudinal axis extending between a top surface and a bottom surface. The electrical wiring device includes at least one line phase wiring terminal, at least one neutral wiring terminal, at least one line phase electrical conductor entry extending along the longitudinal axis of the electrical wiring device and extending between the line phase wiring terminal and the top surface or the bottom surface of the electrical wiring device and at least one neutral electrical conductor entry extending along the longitudinal axis of the electrical wiring device and extending between the neutral wiring terminal and the top surface or the bottom surface of the electrical wiring device. | 2016-05-26 |
20160149355 | TERMINAL CONNECTION DEVICE HAVING LIGHT SOURCE MODULE - Provided is a terminal connection device having a light source module that is installed at a front panel terminal for a vehicle and is capable of emitting light around the terminal, the terminal connection device including: a housing having an inner space and an opening part; a terminal part having a printed circuit board located at an inner side of the housing, and a terminal mounted to the printed circuit board; a housing cover sealing the opening part of the housing and protecting the terminal part; an LED light source mounted to the printed circuit board and adopted to radiate light to the housing cover; and a border lighting part located at the housing cover and arranged to face an edge of one end of the terminal, the border light part protruding from one surface of the housing cover. | 2016-05-26 |
20160149356 | System of Plug Connectors Fixed on Mounting Rails - The invention relates to a latching device for a first system of plug connectors, which are fastened to a first mounting rail, and a second system of plug connectors, which are fastened to a second mounting rail, wherein the latching device comprises a passive latching part and an active latching part, and wherein when the active latching part is latched to the passive latching part, the first mounting rail and the second mounting rail are connected to each other and the plug connectors located on the first mounting rail and the second mounting rail are brought into contact with each other. | 2016-05-26 |
20160149357 | MOTOR POWER FEED WIRING ROUTING STRUCTURE FOR IN-WHEEL MOTOR DRIVEN WHEEL - A motor power feed wire routing structure for an in-wheel motor driven wheel includes an electrical connection that electrically connects a motor side feed wire extending from the motor and a vehicle body-side feed wire extending from a vehicle mounted power source such that the vehicle body-side feed wire is rotatably connected relative to the motor side feed wire. The electrical connection mechanism is disposed on the knuckle outside of a space of a wheel recess of the wheel. The configuration allows reduction of whirling of the vehicle body-side wire during steering operation. | 2016-05-26 |
20160149358 | AN IMPROVED SUPPORT FOR VARIOUS TYPES OF ITEMS - A system for managing electric devices, including a first panel having at least one hole and having a first conductive surface, a second panel integral and substantially parallel to the first panel and having a second conductive surface. The first panel is overlapped to the second panel. The system is configured in such a way that the second conductive surface has at least one portion not covered by the first panel and accessible through the, or each, hole. The first conductive surface and the second conductive surface are connected to an electric circuit in such a way that the first conductive surface has a first predetermined polarity, and the second conductive surface has a second predetermined polarity, opposite to the first predetermined polarity. | 2016-05-26 |
20160149359 | Free-standing power strip accessory - A free-standing apparatus comprising of: three legs of equal length for maintaining balance of the structure; two vertical poles in which one pole (telescopes) slides in and out of the other pole being set at any height within the devices' limits; a silicone or rubber-like coupler which allows the device to remain at a preferred height; an accordion tube (plicate styled) which contorts various directions during use of the device; a securable housing component for which a power outlet strip can be retained; and two elastic bands which provide a secure front to the securable housing component. There is an opening which the power strips' electrical cord can pass through located in the upper portion of the pole which slides in and out of the base pole of the apparatus. The accordion (plicate) component remains bent and unseen until ready for use which it's then contorted upwards for use. | 2016-05-26 |
20160149360 | ELECTRICAL CONNECTOR HAVING AN IMPROVED INSULATIVE BASE - An electrical connector includes an insulative housing defining a receiving room and a tongue portion in the receiving room, a first contact module defining a first embedded portion and a second contact module defining a second embedded portion both received in the insulative housing, and a shielding shell enclosing the insulative housing. The tongue portion defines a recess at a front end thereof and a first through hole, the recess engaging with a forehead of the first and second contact modules, the first through hole receiving the first and second contact modules while exposing the exposed upper surface of the first embedded portion and the exposed lower surface of the second embedded portion. | 2016-05-26 |
20160149361 | HIGH DATA RATE PRINTED CIRCUIT BOARD BASED COMMUNICATIONS PLUGS AND PATCH CORDS INCLUDING SUCH PLUGS - Patch cords include a communications cable that has a first conductor and a second conductor that form a first differential pair, and a third conductor and a fourth conductor that form a second differential pair and a plug that is attached to the communications cable. The plug includes a housing that receives the communications cable, first through fourth plug contacts that are within the housing, and a printed circuit board. The printed circuit board includes first through fourth conductive paths that connect the respective first through fourth conductors to respective ones of the first through fourth plug contacts. The plug further includes a first conductive shield that extends above a top surface of the printed circuit board that is disposed between the first differential pair and the second differential pair. | 2016-05-26 |
20160149362 | CONNECTOR BRICK FOR CABLE COMMUNICATION SYSTEM - A connector brick for a cable communication system includes a header frame including end spacers and side spacers defining a header opening. The header frame is configured for mating with a circuit card. A plurality of cable connectors are received in the header opening and connected to the header frame. Each cable connector has cables extending therefrom. Each cable connector has a header holding signal contacts at a mating end of the header and configured for mating with a corresponding card connector of the circuit card. Float mechanisms extend from the header frame. The float mechanisms allow limited movement in at least two directions of the header frame. The float mechanisms allow alignment of the header frame with the circuit card. The cable connectors float with the header frame as a unit for mating with the corresponding card connectors. | 2016-05-26 |
20160149363 | POWER CONNECTOR - A power module of an electrical connector is provided which has a dielectric housing and a pair of blade terminals. The housing has a forward face and a support arm projecting forwardly from the face. The support arm has opposing first and second sides. The housing has a cavity. The face has a pair of slots extending therethrough which are in communication with the cavity and which are provided adjacent the sides of the support arm. Each of the blade terminals has a body portion and a blade portion. The body portions are housed in the cavity and the blade portions extend through the slots and are positioned alongside the sides of the support arm. The electrical connector may also have a signal module interconnected to the power module. The electrical connector may also be configured to mate with another electrical connector as part of a connector assembly. | 2016-05-26 |
20160149364 | LOW PROFILE FACEPLATE HAVING MANAGED CONNECTIVITY - A faceplate assembly includes a faceplate member; at least one jack module mounted in an opening of the faceplate member; and a printed circuit board assembly. The printed circuit board assembly includes a printed circuit board; a first set of secondary contacts that are electrically connected to the printed circuit board; and a network connector that is electrically connected to the secondary contacts of the first set via the printed circuit board. The secondary contacts extend into the jack module. The secondary contacts are isolated from primary contacts of the jack module. | 2016-05-26 |
20160149365 | Light Bulb Socket Adapter - A light bulb socket adapter for allowing a light bulb with a small diameter base to be utilized in a conventional light fixture. The light bulb socket adapter includes a body with an open upper end having internal threading, wherein the upper end can receive a light bulb with a small diameter base. The interior of the open upper end includes an electrical contact plate adapted to contact the electrical foot contact of the light bulb inserted therein. The body includes a closed lower end with external threading that is adapted to engage a conventional light fixture. The lower end of the adapter includes an electrical foot contact that is electrically connected to the electrical contact plate of the interior of the open upper end of the light bulb socket adapter. In this way, electricity is provided through the light bulb socket adapter to the light bulb held therein. | 2016-05-26 |
20160149366 | METHOD FOR MANUFACTURING ELECTRICALLY CONDUCTIVE ADHESIVE FILM, ELECTRICALLY CONDUCTIVE ADHESIVE FILM, AND METHOD FOR MANUFACTURING CONNECTOR - An anisotropic conductive film is capable of preventing a short circuit between terminals even though narrowing of the interval between connecting terminals advances. An electrically conductive support plate supports a base film having one surface with an adhesive layer. An array plate is disposed to face the adhesive layer and has through holes arranged in a pattern corresponding to the array pattern of electrically conductive particles. A spray sprays the electrically conductive particles together with a liquid while applying a voltage to the electrically conductive particles, in which the electrically conductive particles which are charged with an electrical charge are sprayed together with a liquid from the spray while applying a voltage between the spray and the support plate and the electrically conductive particles which have passed through the through holes of the array plate are arranged on the adhesive layer in the array pattern of the through holes. | 2016-05-26 |
20160149367 | Pulse Picking Laser - A mode locked laser supplies a high repetition seed pulse train along a seed beam path to a pulse picker having at least one polarizer. A Faraday rotator in optical communication with the seed beam rotates the polarization of the seed beam by about 45°. A double pass acousto optical modulator (AOM) receives the seed beam propagating through the Faraday rotator and diffracts the seed beam into a first order first pass beam and a zero order first pass beam. A reflector returns the first pass first order beam into the acousto optical modulator for a second pass. The modulator diffract the beam into a zero order second pass beam and a first order second pass diffracted beam, the first order second pass beam propagating on the substantially same path as the incoming seed beam but in the opposite direction. | 2016-05-26 |
20160149368 | PULSE WIDTH STRETCHER AND CHIRPED PULSE AMPLIFIER INCLUDING THE SAME - Provided are a pulse width stretcher and a chirped pulse amplifier including the same. The pulse width stretcher includes first and second multiple reflection mirrors, and a pulse group-delay dispersion block disposed between the first and second multiple reflection mirrors and configured to refract a pulse laser beam to stretch a pulse width of the pulse laser beam. | 2016-05-26 |
20160149369 | SYSTEMS AND METHODS FOR SUPPLYING POWER TO AND COOLING DENTAL LASER SYSTEMS - A dental laser system is configured to provide high peak laser power, low duty cycle laser pulses, yielding a low average laser power and thus a reduced need for cooling. The laser power system may be configured to provide the electrical power required to produce the low average laser power and not the high peak laser power, and may include a capacitor bank section configured to provide the electrical power needed to produce the high peak power laser pulses. The cooling system may be configured to provide laser cooling for the low average power level and thus may not require a refrigeration unit. | 2016-05-26 |
20160149370 | LASER SYSTEM AND METHOD FOR CONTROLLING THE LASER PULSE SHAPE - A laser system for medical treatment is disclosed which comprises a pump, wherein the laser system is adapted to be operated in pulsed operation so that at least one laser pulse of a temporally limited pulse duration (T | 2016-05-26 |
20160149371 | APPARATUS AND METHOD FOR TUNABLE GENERATION OF COHERENT RADIATION - A method and apparatus is disclosed for generating tunable attosecond-scale radiation pulses, with a frequency in range of ultraviolet to soft-X-ray, from a solid-state medium. The invention utilizes an intense laser pulse to drive a high harmonic generation (HHG) process in a solid state medium and a weak secondary field to control the HHG process. The weak secondary field has a frequency equal to the second harmonic of the intense laser pulse. The spatial, temporal and spectral properties of the HHG process and the emitted harmonic beam are tuned by adjusting the relative delay between the two fields and the intensity of the weak secondary field. | 2016-05-26 |
20160149372 | LASER SYSTEM FOR TISSUE ABLATION - A Laser system is disclosed which comprises a pump, wherein the laser system is adapted to be operated in pulsed operation so that at least one individual pulse of a temporally limited pulse duration (T | 2016-05-26 |
20160149373 | LASER STABILIZATION WITH AN ACTIVELY CONTROLLED FABRY-PEROT RESONANCE CAVITY - Tuning of an optical resonator, e.g., a Fabry-Perot resonant etalon, is carried out. The length of the resonator is actively controlled through the frequency of an identical length microwave resonant cavity. The length is tunable over a several micron range with the precision and stability of the microwave source frequency. | 2016-05-26 |
20160149374 | WAVELENGTH BEAM COMBINING LASER SYSTEMS UTILIZING ETALONS - In various embodiments, wavelength beam combining laser systems incorporate etalons to establish external lasing cavities and/or to combine multiple input beams into a single output beam. | 2016-05-26 |
20160149375 | SURFACE-EMITTING LASER MODULE, OPTICAL SCANNER DEVICE, AND IMAGE FORMING APPARATUS - A disclosed surface-emitting laser module includes a surface-emitting laser formed on a substrate to emit light perpendicular to its surface, a package including a recess portion in which the substrate having the surface-emitting laser is arranged, and a transparent substrate arranged to cover the recess portion of the package and the substrate having the surface-emitting laser such that the transparent substrate and the package are connected on a light emitting side of the surface-emitting laser. In the surface-emitting laser module, a high reflectance region and a low reflectance region are formed within a region enclosed by an electrode on an upper part of a mesa of the surface-emitting laser, and the transparent substrate is slanted to the surface of the substrate having the surface-emitting laser in a polarization direction of the light emitted from the surface-emitting laser determined by the high reflectance region and the low reflectance region. | 2016-05-26 |
20160149376 | CURRENT DRIVER FOR DIODE LASER SYSTEM - An architecture for current driver circuitry for diode laser systems is contemplated whereby the circuitry is both modular and minimally complex with respect to the number of components and connections. | 2016-05-26 |
20160149377 | OPTOELECTRONIC OSCILLATOR - An optoelectronic oscillator for generating an optical and/or electric pulse comb, comprising a monolithically integrated passively mode-coupled semiconductor laser and an optical feedback loop which guides a part of the optical radiation of the semiconductor laser and feeds said part back into the semiconductor laser as feedback pulses. Without the influence of the feedback pulses, the semiconductor laser would emit comb-like optical pulses, hereafter referred to as primary pulses, and in the event of an influence, emits comb-like output pulses which have been influenced by the feedback pulses, said output pulses having a lower temporal jitter or less phase noise than the primary pulses. The feedback loop is damped between 27.5 and 37.5 dB, and the time lag of the feedback loop is selected such that each feedback pulse is incident within the temporal half-value width of each subsequent primary pulse. | 2016-05-26 |
20160149378 | OPTICAL AMPLIFICATION DEVICE - An optical amplification device includes: a semiconductor optical amplifier; a first detector that detects an input optical power of the semiconductor optical amplifier; a second detector that detects an output optical power of the semiconductor optical amplifier; and a controller that controls a driving current of the semiconductor optical amplifier, wherein the controller supplies a predetermined driving current to the semiconductor optical amplifier when an optical signal is not input to the semiconductor optical amplifier, the second detector detects an optical power of Amplified Spontaneous Emission (ASE) output from the semiconductor optical amplifier when the predetermined driving current is supplied to the semiconductor optical amplifier, and the controller controls the driving current of the semiconductor optical amplifier based on the input optical power of the semiconductor optical amplifier detected by the first detector, and the optical power of the ASE. | 2016-05-26 |
20160149379 | SEMICONDUCTOR LASER AND OPTICAL INTEGRATED LIGHT SOURCE INCLUDING THE SAME - A semiconductor laser according to the present invention includes an active layer, a guide layer laminated on the active layer, a diffraction grating formed along a light emission direction in the guide layer, an upper electrode provided above the guide layer, and a lower electrode provided below the active layer. The diffraction grating includes a current-injection diffraction grating and current-non-injection diffraction gratings provided both in front of and in back of the current-injection diffraction grating. Phase shifters are individually provided at a central portion of the current-injection diffraction grating and at boundaries between the current-injection diffraction grating and the current-non-injection diffraction gratings. The upper electrode is provided above the current-injection diffraction grating and is not provided above the current-non-injection diffraction gratings. | 2016-05-26 |
20160149380 | POWER CONTROL ASSEMBLY WITH VERTICALLY MOUNTED POWER DEVICES - A power control system includes a circuit board, a bus bar, and a distribution bar. The bus bar is connected to the circuit board and configured to receive input power from an external power source. The distribution bar is connected to receive the input power from the bus bar. The distribution bar includes a first section connectable to the bus bar to receive the input power, a second section configured to carry the input power from the first section, a third section connectable to the circuit board, and a power switch connected to the second section and configured to selectively distribute the input power as output power to at least one load. The first section and the third section extend away from the second section. | 2016-05-26 |
20160149381 | METHOD FOR INTEGRATING A DETACHABLE INTERCONNECTION MODULE IN A CABINET, CABINET THUS FITTED, AND AIRCRAFT COMPRISING A BAY CONSISTING OF SUCH CABINETS - The invention relates to optimize the use of electronic cabinets in connector technology, using simplified internal connector technology and flexibility in adapting the external connector technology to the connectors of the cabling assemblies—electronic and/or optical connector technologies—and on the structurally. To this end, according to an embodiment, an overall box-shaped electronic cabinet ( | 2016-05-26 |
20160149382 | A BENDABLE FLAT CABLE - The invention is a flat cable comprised of stable flat plates connected together to form a long chain. The plates are made from a rigid material and have channels for electric conductors on their undersides. The channels are created as recesses in the bottom of the plates such that they do not run parallel to the side edges of the long chain of plates but at angles to the side edge in a zigzag or wave-like pattern. | 2016-05-26 |
20160149383 | Wiring Harness - A wiring harness with a number of electrical wires, each constructed and arranged to carry electrical signals, and each having a length. There is also a security cable that is not constructed and arranged to carry electrical signals. The security cable has a length that is less than the length of any of the electrical wires, and has a greater tensile strength than that of any of the electrical wires. The electrical wires and the security cable are bonded together over only a portion of their respective lengths into a reinforced multi-wire cable assembly, while over another portion of their respective lengths the electrical wires and the security cable are separate from one another. | 2016-05-26 |
20160149384 | CABLE DRAG CHAIN AND CABLE DRAG CHAIN ASSEMBLY - A cable drag chain includes a number of first coupling members, a number of second coupling members engaging with the first coupling members, a number of latching members each including at least one mounting portion, a first fixing member and a second fixing member engaged with opposite ends of the first and second coupling members, and a sliding member slidably coupled to the first fixing member and including a latching portion. When the sliding member slides from the first fixing member to the second fixing member, the latching portion urges against the at least one mounting portion of each latching member to engage each latching member with corresponding first and second coupling members for holding a cable. | 2016-05-26 |
20160149385 | ELECTRIC WIRE PROTECTION MEMBER - An electric wire protection member includes: a cylindrical electric wire protection tube which has flexibility; a cylindrical coating member which is molded on an outer circumference surface of the electric wire protection tube; and a locking fixture which is integrally molded with the cylindrical coating member and locked to an attachment hole of a vehicle body panel. At least one rib is formed in a side surface of the cylindrical coating member to protrude from the side surface and to extend continuously in a direction along an axis of the cylindrical coating member. | 2016-05-26 |
20160149386 | Cable Mounting Bracket Apparatus And System - A bracket and a cable mounting system which includes a bracket with a center panel or channel and with magnetic pads located on the distal ends of the center panel or channel so that the bracket may be attached to a structure by magnetic attraction. The cable mounting system may also consist of two brackets set a distance apart and a support rail placed in between and coupled to the brackets. | 2016-05-26 |
20160149387 | High Capacity Power Distribution Panel for a Modular Data Center - A power distribution network includes a first busway, a second busway situated between the first busway and a load, a first bus plug, and a second bus plug. The first and second bus plugs are configured to span across the first busway and the second busway. The first bus plug is further configured to provide power from the first busway to the load via an exit from the first bus plug that is adjacent to the load. The second bus plug is further configured to provide power from the second busway to the load via an exit from the second bus plug that is adjacent to the first load. | 2016-05-26 |
20160149388 | BUSBAR KIT - A busbar kit is provided. The busbar kit electrically connects a circuit breaker and a main busbar, and comprises an insulating case having an inner space, a branch busbar disposed in the insulating case such that the branch busbar is spaced apart from the main busbar and crosses over the main busbar, and a busbar connector for electrically connecting the main busbar and the branch busbar. | 2016-05-26 |
20160149389 | ADAPTIVE ARC FAULT DETECTION TRIP DECISION BUFFER - An autonomous adaptive arc fault detection device includes a memory for storing data of arc fault tripping events detected on a circuit over a period of time. The device also includes a processor, in communication with the memory, for determining whether a newly detected arc fault tripping event is an unwanted tripping event based on a number of times a same type of tripping event, as the newly detected arc fault tripping event, has occurred, and inhibiting interruption of the circuit if the newly detected arc fault tripping event is determined to be an unwanted tripping event. The memory can store data, such as sensed or calculated electrical characteristic parameters defining a signature of a detected arc fault tripping event as well as a number of times a stored tripping event has occurred over a period of time. | 2016-05-26 |
20160149390 | SECURE AND DEPENDABLE DIFFERENTIAL PROTECTION FOR ELECTRIC POWER GENERATORS - Secure and dependable differential protection for electric power generators is described herein. An internal fault is declared if the operating current exceeds a function of the restraining current, and the operating current exceeds and adjusted pickup value. The adjusted pickup value is selected as a minimum of a compensated first pickup value and a second pickup value. The compensated first pickup value may be calculated by adding the absolute value of a compensation addend with a first pickup value. The compensation addend may be calculated by filtering, compensating, and summing current values from the neutral side and the power system side of the electrical generator. The absolute value of the compensation addend may be further adjusted using a security compensation factor. | 2016-05-26 |
20160149391 | OVER-VOLTAGE PROTECTION CIRCUIT - An over-voltage protection circuit suitable for use at a front-end of an on-chip analog module such as an analog-to-digital converter (ADC) includes an input potential divider that can be disconnected from the module when the module is idle (or working on any other input such as the ADC sampling another channel causing the current channel to be idle) while still providing protection for front-end devices. A first NMOS transistor pair connects or disconnects the potential divider to or from ground in response to a control signal, and a second transistor pair including a NMOS transistor and a PMOS transistor ensures that the output does not rise above the supply voltage. | 2016-05-26 |
20160149392 | PROTECTION CIRCUIT - A protection circuit includes a first and a second input terminal, an output terminal, a first and a second switch circuit. The first switch circuit includes a first, a second, and a third coupling terminal. The second switch circuit includes a fourth coupling terminal, a fifth coupling terminal, and a sixth coupling terminal. The first coupling terminal and the fourth coupling terminal connect to the first input terminal. The second coupling terminal connects to the second input terminal. The third coupling terminal connects to the fifth coupling terminal. The sixth coupling terminal connects to the output terminal. When the first input terminal receives a high level signal and the second input terminal is not coupled, the first switch circuit is switched on, the fifth coupling terminal receives a low level signal, the second switch circuit is switched off, and the output terminal outputs the low level signal. | 2016-05-26 |
20160149393 | POWER DISTRIBUTION SYSTEMS AND METHODS OF OPERATING POWER DISTRIBUTION SYSTEMS WITH PARTIAL DIFFERENTIAL PROTECTION - An example method of operating a power distribution system including a plurality of source and tie circuit protection devices coupled between at least one source and a protection zone is disclosed. The protection zone includes a distribution bus and a plurality of feeder circuit protection devices coupled between the distribution bus and a plurality of loads. The method includes determining an electric current flowing through each source and tie circuit protection device, determining whether any of the feeder circuit protection devices is outputting a ZSI blocking signal, and controlling operation of the plurality of source and tie circuit protection devices according to an enhanced partial differential protection scheme based on a combination of the determined currents through the source and tie circuit protection devices and the determination of whether any of the feeder circuit protection devices is outputting a ZSI blocking signal. | 2016-05-26 |
20160149394 | APPARATUSES AND METHODS FOR CONTROLLING POWER TO ELECTRONIC DEVICES - Methods and apparatuses for detecting when an electronic device has been exposed to moisture that could damage the electronic device, and inhibiting the flow of electrical power to the electronic device when the moisture level is too high are disclosed. Embodiments sample air within the electronic device, measure the moisture in the sampled air, inhibit the connection of electrical power to the electronic device if the moisture exceeds a threshold, and permit the connection of electrical power to the electronic device if the moisture level is below a threshold. Some embodiments measure the moisture in the ambient air to improve effectiveness. Other embodiments allow resetting of a tripped condition. Other embodiments include constant sampling of air from within the electronic device to assist drying, and inhibiting application of power to the electronic device until the electronic device is sufficiently dry. Still other embodiments interrupt power from the electronic device's battery. | 2016-05-26 |
20160149395 | LIQUID LEVEL CONTROL SWITCH DEVICE AND THE CONTROL CIRCUIT THEREOF - A liquid level control switch device includes a liquid level sensor and a contactor, in which the liquid level sensor includes a liquid level electrode, a casing, a control circuit board and a power supply lead wire, in which the liquid level electrode and the control circuit board are electrically connected and the control circuit board transmits measurement pulse signals, in accordance with the sampling frequency, to the liquid level electrode and collects the liquid level signals sensed by the liquid level electrode; and the contactor is arranged in the casing, and a coil of the contactor is electrically connected with the control circuit board, which controls the closing and opening operations of the contactor, according to the collected liquid level signals. | 2016-05-26 |
20160149396 | System For Protection Of Dry Type Transformers - A system for transient over voltage protection of a three-phase transformer. Two surge arresters are series connected across each winding of the transformer and the center point connection of the two surge arresters is electrically connected to a middle location of the winding. Three additional surge arresters are electrically connected from each phase to ground in the case of either a delta or Y connected transformer; and/or connected from a neutral point to ground in the case of a Y connected transformer. The system allows for all of the surge arresters to be packaged as an integrated surge arrester system to minimize induced transient over voltages and high stresses on the transformer winding due to internal resonances. | 2016-05-26 |
20160149397 | ELECTRIC SHOCK PROTECTION DEVICE AND PORTABLE ELECTRONIC DEVICE INCLUDING THE SAME - Provided is an electric shock protection device disposed between a human body contactable conductor and an internal circuit unit of an electronic device. The electric shock protection device includes: a sintered body where a plurality of sheet layers stacked; an electric shock protection unit including at least one pair of inner electrodes disposed spaced a predetermined interval apart from each other inside the sintered body and a pore disposed between the inner electrodes; and at least one capacitor layer configured to pass communication signals flowing from the conductor. | 2016-05-26 |
20160149398 | ELECTRIC SHOCK DEVICE AND PORTABLE ELECTRONIC DEVICE INCLUDING THE SAME - Provided is an electric shock protection device disposed between a human body contactable conductor and an internal circuit unit of an electronic device, wherein in order to pass static electricity without causing dielectric breakdown when the static electricity flows from the conductor, block a leakage current of an external power source flowing from a ground of the circuit unit, and pass communication signals flowing from the conductor, the following equation is satisfied: | 2016-05-26 |
20160149399 | ELECTRIC SHOCK PROTECTION DEVICE AND MOBILE ELECTRONIC APPARATUS INCLUDING THE SAME - Provided are an electric shock protection device and a mobile electronic apparatus including the same. The electric shock protection device is disposed between a human contactable conductor and an internal circuit unit of an electronic device, in order to pass static electricity without causing dielectric breakdown when the static electricity is introduced from the conductor, and block a leakage electric current of an external power source introduced from a ground of the circuit unit, the following formula is satisfied: Vbr>Vin where Vbr is a breakdown voltage of the electric shock protection device, and Vin is a rated voltage of an external power source of the electronic device. | 2016-05-26 |
20160149400 | BALANCING PARALLEL SOLID-STATE POWER CONTROLLER CHANNEL CURRENTS SYSTEMS AND METHODS - According to various embodiments, a solid-state power controller system is provided with channel protection features. The solid-state power controller system is configured to provide the ability to have sharing control over an individual SSPC channel that is operating in parallel with other SSPC channels. This can assist with the operation of secondary protection, protect the channel from exceeding its own trip curve, as well as assisting with thermal balance between the power dissipation of the channels in the group. | 2016-05-26 |
20160149401 | TOUCH CONTROL DEVICE WITH ENHANCED ESD PROTECTION EFFECT - A touch control device with enhanced ESD protection effect comprises a sensing circuit module; a plurality of signal lines electrically connected with the sensing circuit module; an ESD protection ring disposed on periphery of the sensing circuit module and the signal lines; and an ESD shield ring interposed between the signal lines and the ESD protection ring. A touch on the sensing circuit module induces a sensation signal. While the signal lines transmit the sensation signal, the electrostatic charges generated thereby is drained off by the ESD protection ring. The ESD shield ring can drain off the residual electrostatic charges that the ESD protection ring does not drain off. Therefore, the present invention can exempt the touch control device from ESD interference, guarantee the accuracy of signal transmission, and protect the electronic elements of the touch control device. | 2016-05-26 |
20160149402 | USB ESD PROTECTION CIRCUIT - A circuit for USB protecting against electrostatic discharge includes a diode array, a zener diode, and a voltage protection circuit. The positive pole of the zener diode is grounded and coupled to a first terminal of the diode array. The negative pole of the zener diode is coupled to a second terminal and a first port of the voltage protection circuit. Two nodes of the diode array are coupled to a pair of data ports of a USB connector. A second port of the voltage protection circuit is coupled to a power port. When the power port has a low level of voltage and the first or second data port has a high level of voltage, the circuit switches off the connection between the diode array and the power port, preventing the low level of voltage from being changed to high level of voltage. | 2016-05-26 |
20160149403 | ELECTROSTATIC PROTECTION CIRCUIT AND SEMICONDUCTOR INTEGRATED CIRCUIT APPARATUS - This electrostatic protection circuit makes it possible for a discharge operation to be started only in the case where a rise in an applied voltage is steep, and for static electricity to be sufficiently released. This electrostatic protection circuit includes a discharge circuit that is connected between a first node and a second node and discharges charge produced by static electricity, a latch circuit that is connected between the first node and the second node and outputs a signal that controls operation of the discharge circuit to the discharge circuit, a switch circuit that is connected to the latch circuit and changes the signal that controls operation of the discharge circuit, and a control circuit that is connected between the first node and the second node and outputs a signal that controls operation of the switch circuit to the switch circuit. | 2016-05-26 |
20160149404 | Stable Electrical Power System with Regulated Transformer Rectifier Unit - A method and apparatus for providing power stably for direct current loads. A regulated transformer rectifier unit is controlled to provide regulated direct current power for the direct current loads at an output of the regulated transformer rectifier unit from alternating current power provided by an alternating current power source to an input of the regulated transformer rectifier unit. The direct current loads comprise passive direct current loads and active direct current loads comprising active switching power supplies. The direct current loads have at least one of constant power characteristics, resistive power characteristics, inductive power characteristics, and capacitive power characteristics. A source impedance at the output of the regulated transformer rectifier unit is determined based on an aggregate load impedance of the direct current loads and stability criterion. | 2016-05-26 |
20160149405 | DRILLING RIG SYSTEM HAVING IMPROVED ELECTRICAL SUBSYSTEM - In embodiments a drilling rig system includes a rig unit having rig equipment and a rig electrical subsystem configured for electrical communication with the rig equipment and including a rig electrical subsystem input transformer, an electrical system including a primary power supply subsystem remote from the rig unit, and an intermediate electrical subsystem. | 2016-05-26 |
20160149406 | IMPROVEMENTS IN OR RELATING TO ELECTRICAL SOCKETS - The present invention relates to a socket box. The socket box includes a base, a socket insert, a facia insert and an internal electrically conductive substrate. The socket insert comprises a body having an upper surface and a lower surface, wherein the upper surface is provided with a plurality of apertures which are sized and spaced so as to receive the pins of an electrical plug, and wherein further the lower surface is provided with a plurality of sprung electrical contacts. The socket insert and electrically conductive substrate are supported and held in spaced relationship to one another by the facia insert such that the sprung electrical contacts are compressed against the electrically conductive substrate, and wherein further the facia insert in turn is supported by the base. | 2016-05-26 |
20160149407 | PROBABILISTIC MODEL-BASED VIRTUAL DISTRIBUTED RESOURCE MANAGEMENT SYSTEM AND METHOD THEREOF - A probabilistic model-based virtual distributed resource management system includes: a resource collecting unit collecting distributed resource state information from a plurality of distributed resources; and a virtual distributed resource management server monitoring the plurality of distributed resources by using the distributed resource state information collected by the resource collecting unit and changing the distributed resources by calculating availabilities and driving probabilities of the plurality of respective distributed resources. | 2016-05-26 |
20160149408 | SYSTEMS, METHODS AND APPARATUS FOR IMPROVED MANAGEMENT AND CONTROL OF ENERGY DELIVERY SYSTEMS - Embodiments provide systems, methods and apparatus for controlling an energy delivery system including providing an energy management system (EMS) having an automatic generation control (AGC) system including a load frequency control (LFC) module; executing two or more performance standard functions implemented within the LFC module using input data regarding the energy delivery system, wherein at least one of the performance standard functions is defined to be dependent upon another of the performance standard functions; and implementing corrections to the operation of the energy delivery system based upon solution results of executing the performance standard functions. Numerous other aspects are provided. | 2016-05-26 |
20160149409 | SYSTEMS, METHODS AND APPARATUS FOR IMPROVED REGULATION OF ENERGY DELIVERY SYSTEMS - Embodiments provide systems, methods and apparatus for controlling an energy delivery system including providing an energy management system (EMS) having an automatic generation control (AGC) system including a load frequency control (LFC) module and an economic dispatch (ED) module; determining a regulation requirement based upon a predefined set of nested system control zones and a current area control error (ACE); determining regulation allocation based on a pre-defined set of gain factors associated with the nested system control zones; and implementing corrections to the operation of the energy delivery system based upon solution results of the determined regulation allocation. Numerous other aspects are provided. | 2016-05-26 |
20160149410 | DEVICE FOR CONTROLLING A POWER LOAD IN AN ELECTRICAL NETWORK, AND ASSOCIATED METHOD AND SYSTEM | 2016-05-26 |
20160149411 | NETWORK ACCESS COORDINATION OF LOAD CONTROL DEVICES - An apparatus may control the power delivered from an AC power source to an electrical load, and may comprise a controllably conductive device. The apparatus may also comprise a controller that may be operatively coupled to a control input of the controllably conductive device. The apparatus may also include a first wireless communication circuit operable to communicate via a first protocol and to join a first wireless communication network operable to communicate via the first protocol. The first wireless communication circuit may be in communication with the controller. The controller may be operative to determine a first condition for communicating via the first protocol. The controller may also be operable to control the first wireless communication circuit to join the first wireless communication network upon the first condition being satisfied. | 2016-05-26 |
20160149412 | VOLTAGE MONITORING CONTROL DEVICE AND VOLTAGE CONTROL DEVICE - A voltage monitoring control device includes: a transceiver unit communicating with local voltage control devices adjusting a control amount of voltage control apparatuses that control a voltage on a power distribution line in a high-voltage system every second cycle based on a command value updated every first cycle; an indicatable-range updating unit determining an indicatable range, which is a range of reactive power indicatable to the local voltage control device, based on a control result received via the transceiver unit from the local voltage control device that controls a reactive-power-modified voltage control apparatus, the control result being a limit-value time or a limit-value-time ratio; and a reactive-power determination unit determining a reactive-power command value, which is a command value updated every first cycle based on the indicatable range and transmitted, via the transceiver unit, to the local voltage control device that controls the reactive-power-modified voltage control apparatus. | 2016-05-26 |
20160149413 | DISTRIBUTED POWER SOURCE SYSTEM WITH STORAGE BATTERY - The present system | 2016-05-26 |
20160149414 | SOLAR SYNCHRONIZED LOADS FOR PHOTOVOLTAIC SYSTEMS - An electrical power supply arrangement includes a solar power device that converts sunlight into DC electrical power. A DC load runs on the DC current electrical power. The DC load may be controlled or adjusted to consume a maximum amount of the electrical output of the solar power device. A DC-to-AC converter converts the DC electrical power into AC electrical power. A controller enables the DC-to-AC converter to receive a portion of the DC current electrical power from the solar power device only if all of the DC current electrical power cannot be consumed by the DC load. | 2016-05-26 |
20160149415 | CONTROL DEVICE AND CONTROL METHOD OF MICROGRID - Control device of a microgrid including at least one heat engine power generator is connected to a load via a distribution line and operates a heat engine to generate electric-power; a natural energy power generation device is connected to the distribution line and generates electric-power using natural energy; an electric-storage device including a battery and electric-power converter, the electric-storage device causing the electric-power converter to charge the battery with electric-power fed via the distribution line and discharge the battery to feed the electric-power to the distribution line, the control device controlling at least one heat engine power generator to perform or stop power generation and control the electric-storage device to charge or discharge the battery, to compensate for surplus or deficient electric-power of the electric-power generated in the natural energy power generation device with respect to a load electric-power demand and to maintain the battery in chargeable or dischargeable state. | 2016-05-26 |
20160149416 | SIGNAL RECEIVING AND TRANSMITTING CIRCUIT AND ELECTRONIC DEVICE INCLUDING THE SAME - A signal transmission and reception circuit is provided. The signal transmission and reception circuit includes a coil configured to receive power wirelessly supplied from the outside or output a specific signal wirelessly, a transmission and reception control module including a signal conversion switching circuit that is connected to the coil to rectify the wirelessly supplied power or convert a signal to be output and a driver that controls a switching state of the signal conversion switching circuit, and a filter configured to convert, the signal to be output, into a specific signal. | 2016-05-26 |