Patent application number | Description | Published |
20090032278 | Protective Electrical Wiring Device with a Center Nightlight - The present invention is directed to a electrical wiring device that includes a housing having a plurality of line terminals and a plurality of load terminals, the plurality of load terminals including a plurality of receptacle terminals. A cover assembly is coupled to the housing. The cover assembly includes at least one set of receptacle openings disposed on either side of a central portion of the cover assembly. Each of the at least one set of receptacle openings is in communication with a portion of the plurality of receptacle terminals. A fault detection assembly is coupled to the plurality of line terminals. The fault detection circuit is configured to provide a fault detection output in response to detecting a fault condition. A circuit interrupter is coupled between the plurality of line terminals and the plurality of load terminals. The circuit interrupter includes a first set of contacts configured to provide at least one electrically continuous path between the plurality of line terminals and the plurality of load terminals in a reset state. The first set of contacts is configured to disconnect the at least one electrically continuous path in response to the fault detection output to thereby enter a tripped state. A light assembly is coupled to the plurality of line terminals or the plurality of load terminals. The light assembly has a light transmission region disposed in the central portion and occupying a substantial portion of a width of the cover assembly. The light assembly is selectively driven from a deenergized state to a light emitting state in response to a predetermined stimulus. | 02-05-2009 |
20090033247 | Electrical Wiring Device with a Center Nightlight Having Automatic and Manual Control Features - The present invention is directed to a electrical wiring device that includes a housing having a plurality of line terminals. A cover assembly is coupled to the housing, the cover assembly including at least one set of receptacle openings disposed on either side of a central portion of the cover assembly. A plurality of receptacle terminals are disposed in the housing, each of the plurality of receptacle terminals being coupled to a corresponding one of a plurality of load terminal structures. Each of the plurality of receptacle terminals is in communication with a corresponding one of the at least one set of receptacle openings. A light assembly is disposed in the central portion of the cover assembly and coupled to the plurality of line terminals or the plurality of load terminals. The light assembly has a light transmission region disposed in the central portion. The light transmissive region occupies a substantial portion of a width of the cover assembly. An automatic control mechanism is coupled to the light assembly and configured to selectively drive the light assembly from a deenergized state to a light emitting state in response to a predetermined stimulus. A manual control mechanism is coupled to the light assembly and configured to selectively regulate the amount of light transmitted by the light assembly when in the light emitting state. | 02-05-2009 |
20090035967 | Electrical wiring device with a center nightlight and a plurality of safety features - The present invention is directed to an electrical wiring device that includes a housing having a plurality of line terminals and a plurality of load terminals. A cover assembly is coupled to the housing. The cover assembly includes a first set of receptacle openings and a second set of receptacle openings. A plurality of receptacle terminals are disposed in the housing and coupled to the plurality of load terminals. The plurality of receptacle terminals include a first set of receptacle terminals in communication with the first set of receptacle openings and a second set of receptacle terminals in communication with the second set of receptacle openings. A first protective shutter assembly is disposed in the cover assembly between the first set of receptacle openings and the first set of receptacle terminals and a second protective shutter assembly disposed in the cover assembly between the second set of receptacle openings and the second set of receptacle terminals. Each protective shutter assembly is configured to move from a closed position to an open position in response to engaging a set of plug blades to thereby establish electrical continuity between the corresponding set of receptacle terminals and the set of plug blades. A light assembly is disposed in a central portion of the cover assembly between the first set of receptacle openings and the second set of receptacle openings. The light assembly is coupled to the plurality of line terminals or the plurality of load terminals. The light assembly has a light transmission region occupying a substantial portion of a width of the cover assembly. The light assembly is selectively driven from a deenergized state to a light emitting state in response to a predetermined stimulus. The light assembly directs emitted light into a spatial volume proximate the device via the light transmissive region in the light emitting state. | 02-05-2009 |
20090035989 | COMPACT ELECTRICAL WIRING SYSTEM - The present invention is directed to a electrical wiring system that includes a plug connector having of plug contacts configured to terminate a plurality of wires. The system also includes an electrical wiring device having a cover member, a body member, a ground strap assembly disposed between the cover member and the body member, and a receptacle formed in a rear portion of the body member, the receptacle being configured to accept the plug connector. The ground strap assembly is configured to conform to at least one body member feature such that a distance from the ground strap assembly to a major rear surface of the body member is less than a predetermined distance. The receptacle includes a plurality of receptacle contacts configured to mate with the plurality of plug contacts when the plug connector is inserted into the receptacle. | 02-05-2009 |
20090045817 | ELECTRICAL TESTING DEVICE - The present invention is directed to an electrical testing device for use in an AC electrical power distribution circuit including a plurality of AC electric power transmitting wires coupled between an AC power distribution point and a device box. The device includes a plurality of electrical probes configured for insertion into an outlet receptacle. A plug test connection arrangement is configured to receive a plug connector when inserted therein. The plug connector includes a plurality of plug contacts and a termination arrangement configured to terminate the plurality of AC electric power transmitting wires such that electrical continuity is established between the AC power distribution point and the plurality of plug contacts. The plug test connection arrangement includes a plurality of test contacts configured to mate with the plurality of plug contacts when the plug connector is inserted into the plug test connection arrangement. The termination arrangement being in a detached relationship from the device box after the plurality of AC electric power transmitting wires are terminated. An electrical test circuit is configured to perform at least one electrical test. The electrical test circuit includes a switch mechanism configured to connect the electrical test circuit to the plurality of electrical probes at a first switch setting or connect the electrical test circuit to the plurality of test contacts at a second switch setting. At least one shock mitigation structure is coupled to the plurality of electrical probes or the plug test connection arrangement and is configured to prevent user access to the plurality of electrical probes or the plug test connection arrangement. | 02-19-2009 |
20090184787 | Protective Device Having a Thin Construction - The present invention is directed to a wiring device that includes a front cover assembly. The front cover assembly includes a front cover having at least one plug receptacle opening disposed therein. A ground strap is coupled to the cover assembly. A device assembly includes a plurality of line terminals configured to be connected to an AC power source, a plurality of load terminals configured to be connected to a downstream load, and at least one set of receptacle load terminals in communication with the at least one receptacle opening. The device assembly also includes a fault response circuit coupled to the plurality of line terminals. A back cover is coupled to the front cover assembly to accommodate the device assembly therein. The ground strap element is disposed between the front cover assembly and the back cover. The back cover extending beyond the ground strap a distance substantially less than or equal to one inch. | 07-23-2009 |
20090186500 | SHOCK-PROOF ELECTRICAL WIRING SYSTEM - The present invention is directed to a shock-proof electrical wiring system for use in an AC electrical power distribution circuit including a plurality of AC electric power transmitting wires disposed between an AC power distribution point and a device box, a portion of the plurality of AC electric power transmitting wires being routed into an interior portion of the device box. The system includes a connector device having a connector housing. A plurality of connector contacts are disposed substantially inaccessible to a user within the connector housing. The plurality of connector electrical contacts are connected to a termination arrangement. The termination arrangement is configured to be connected to the portion of the plurality of AC electric power transmitting wires. An electrical wiring device includes a housing assembly that has at least one set of user-accessible receptacle openings disposed in a front major surface thereof in operative alignment with at least one shutter assembly configured to move from a closed position to an open position only in response to engaging a set of plug blades. The at least one shutter assembly is secured within the housing assembly by a plurality of registration elements disposed along at least two orthogonal axes of the shutter assembly such that the at least one shutter assembly is substantially fixed along a first axis of the at least two axes, portions of the at least one shutter assembly being slidably movable between an open position and a closed position along the second axis of the at least two axes, the housing assembly including an AC circuit assembly coupled to at least one set of receptacle contacts disposed in substantial alignment with the at least one shutter assembly, the housing assembly further including a power input arrangement formed in a rear portion thereof, the power input arrangement including a set of power contacts configured to mate with the plurality of connector contacts within the connector housing to thereby establish electrically continuous paths between the plurality of AC electric power transmitting wires and the AC circuit assembly and the at least one set of receptacle contacts, the portion of the AC power transmitting wires being stowed within the interior portion of the device box when the electrical wiring device is mounted to the device box. | 07-23-2009 |
20090197461 | Plug Tail Lighting Switch and Control System - The present invention is directed to an electrical wiring system for use in an AC electrical power distribution circuit including at least one first AC power conductor disposed between an upstream AC power element and a device box and at least one second AC power conductor disposed between the device box and a downstream AC power element. The at least one first AC power conductor and the at least one second AC power conductor are routed into an interior portion of the device box and accessible via a front open face of the device box. The system includes a connector device including a connector housing having a plurality of connector contacts disposed therein. | 08-06-2009 |
20090262472 | Protective Device with an Auxiliary Switch - The present invention is directed to a protective device that includes a housing having a plurality of line terminals, a plurality of load terminals, and a plurality of user-accessible terminals accessible via apertures disposed in a front major surface of the housing. A fault detection assembly is coupled to the plurality of line terminals, the fault detection circuit being configured to provide a fault detection output in response to detecting a fault condition. A circuit interrupter is coupled to the fault detection assembly. The circuit interrupter includes a first set of interrupting contacts configured to provide electrical continuity between the plurality of line terminals, the plurality of load terminals, and the plurality of user-accessible terminals in a reset state. The first set of interrupting contacts are decoupled in response to the fault detection output to enter a tripped state such that the plurality of line terminals are decoupled from the plurality of load terminals and the plurality of user-accessible terminals. An auxiliary switch is coupled to the fault detection assembly. The auxiliary switch includes a second set of contacts configured to decouple at least a portion of the fault detection assembly from a source of electrical power in the tripped state. The second set of contacts being self-biased toward a predetermined switch position when no force is applied thereto. A latch block assembly is coupled to the circuit interrupter. The latch block assembly includes a first latch block portion and a second latch block portion. The first latch block portion is configured to drive the first set of contacts to close when transitioning from the tripped state to the reset state. The second latch block portion is configured to overcome the self bias of the second set of contacts to thereby drive the second set of contacts open when transitioning from the reset state to the tripped state. | 10-22-2009 |
20100123982 | PROTECTIVE DEVICE HAVING A THIN CONSTRUCTION - The present invention is directed to an electrical wiring device that includes a front cover member having a front major surface and a back cover member having a back major surface substantially in parallel with the front major surface. The housing further includes an electrically isolating member disposed between the front cover member and the back cover member such that a front interior region is formed between the front cover member and the electrically isolating member and a rear interior region is formed between the back cover member and the electrically isolating member. The user accessible reset button assembly establishes a plane normal to the major front surface and subdividing the rear interior region into a first rear interior region portion and a second rear interior region portion. The interrupting contact assembly is configured to provide electrical continuity between the plurality of line terminals, the plurality of load terminals and the plurality of receptacle terminals in a reset state. The plurality of line terminals, the plurality of load terminals and the plurality of receptacle terminals are decoupled in a tripped state. A protective electrical assembly includes a sensor assembly coupled to the plurality of line terminals and a solenoid assembly coupled to the interrupting contact assembly. The sensor assembly and the solenoid assembly are substantially disposed in the first rear interior region portion. The sensor assembly includes at least one toroidal transformer having a toroidal axis and the solenoid assembly including a solenoid coil having a solenoid coil axis. The toroidal axis and the solenoid coil axis are substantially parallel to one another. | 05-20-2010 |
20110115511 | ELECTRICAL DEVICE WITH MISWIRE PROTECTION AND AUTOMATED TESTING - The present invention is directed to an electrical wiring device that includes an actuator assembly that is responsive to the fault detection signal. The actuator assembly includes a breaker coil configured to generate an actuation force in response to being energized. A circuit interrupter includes four sets of movable contacts configured to be driven into a reset state in response to a reset stimulus, the four sets of movable contacts being configured to be driven into a tripped state in response to the actuation force. A self-test circuit is coupled to the plurality of line terminals or the at least one sensor. The self-test circuit is configured to automatically generate a test signal from time to time during a predetermined portion of an AC power line cycle. The self-test circuit is configured such that the test signal is sensed by the at least one sensor when the at least one sensor is operational, the sensor output signal being a function of the test signal. A monitor circuit is configured to monitor the fault detection circuit or the actuator assembly; the mechanical actuation force is substantially inhibited when the fault detection circuit or at least a portion of the actuator assembly properly respond to the test signal. The monitor circuit generates an end-of-life response if the fault detection circuit or the actuator assembly do not respond to the test signal within a predetermined period of time. | 05-19-2011 |
20110156920 | PROTECTIVE ELECTRICAL WIRING DEVICE WITH A CENTER NIGHTLIGHT - The present invention is directed to an electrical wiring device that includes a cover assembly is coupled to the housing. The cover assembly includes at least one set of receptacle openings disposed on either side of a central portion of the cover assembly in communication with a portion of the plurality of receptacle terminals. A fault detection circuit is configured to provide a fault detection output in response to detecting a fault condition. A circuit interrupter is coupled between the plurality of line terminals and the plurality of load terminals. A light assembly is coupled to the plurality of line terminals or the plurality of load terminals. The light assembly has a light transmission region disposed in the central portion and occupying a substantial portion of a width of the cover assembly. The light assembly is selectively driven from a deenergized state to a light emitting state in response to a predetermined stimulus. | 06-30-2011 |
20110242711 | PROTECTIVE DEVICE WITH IMPROVED SURGE PROTECTION - The present invention is directed to an electrical wiring protection device that includes a housing assembly having a plurality of line terminals and a plurality of load terminals. A fault detection circuit is coupled to at least one of the plurality of line terminals and configured to generate a fault detection signal in response to detecting at least one fault condition in the electrical distribution system. A circuit interrupter assembly is coupled to the fault detection circuit. The circuit interrupter assembly is configured to couple the plurality of line terminals to the plurality of load terminals to form a conductive electrical path in a reset state, and decouple the plurality of line terminals from the plurality of load terminals in response to a fault detection signal in a tripped state. A voltage transient suppression circuit is connected between the plurality of line terminals, the voltage transient suppression circuit including a movistor differentially coupled relative to the at least one sensor circuit such that one lead of the movistor is coupled to a first line conductor disposed on a line side of the at least one sensor circuit and another lead of the movistor is coupled to a second line conductor disposed on a load side of the at least one sensor circuit. A movistor protection circuit is coupled in series to the movistor, the movistor protection circuit being configured to limit an amount of electrical energy applied to the movistor as a function of at least one electrical parameter. | 10-06-2011 |
20120068623 | ELECTRICAL WIRING DEVICE - The present invention is directed to an electrical wiring device that includes a lighting assembly module disposed in the housing assembly and coupled to a set of line terminals, the lighting assembly includes at least one light emitting device. An ambient light sensor is disposed in the housing assembly and substantially optically decoupled from the lighting assembly, the ambient light sensor provides an electrical sensor signal corresponding to an ambient light level at or proximate to the ambient light sensor. A rechargeable electrical storage device is coupled to the set of line terminals, the rechargeable electrical storage device being charged by the source of AC power to a predetermined voltage threshold. A control circuit is coupled to the set of line terminals, the lighting assembly module and the ambient light sensor. The control circuit is configured to provide a modulated lighting control signal to the lighting assembly module when AC power is being provided by the source of AC power, the modulated lighting control signal being a function of the AC power and the electrical sensor signal, the modulated lighting control signal being configured to adjust an intensity of the light emitted by the at least one light emitting device such that the intensity is a function of the ambient light level. The control circuit is further configured to provide a second lighting control signal configured to turn the lighting assembly ON at a predetermined intensity for a predetermined period of time when AC power is not being provided by the source of AC power, the second lighting control signal being provided by the rechargeable electrical storage device. | 03-22-2012 |
20130057990 | ELECTRICAL DEVICE WITH MISWIRE PROTECTION AND AUTOMATED TESTING - The present invention is directed to an electrical wiring device that includes a plurality of line terminals configured to be coupled to a source of AC power, a plurality of feed-through load terminals, and at least one set of receptacle load terminals configured to provide the AC power to a user load via an AC power plug. A circuit interrupter assembly includes a plurality of movable interconnection members. Each movable interconnection member includes a first interconnecting contact disposed on a first side thereof and a second interconnecting contact disposed on a second side thereof. The first interconnecting contact and the second interconnecting contact are offset from one another in a direction substantially orthogonal to a direction of movement. The movable interconnection members are movable in the direction of movement between a reset position wherein the plurality of line terminals, the plurality of feed-through load terminals and the at least one set of receptacle load terminals are electrically connected, and a tripped position wherein the plurality of line terminals, the plurality of feed-through load terminals and the at least one set of receptacle load terminals are electrically disconnected. | 03-07-2013 |
20130106287 | Electrical Wiring Device for Lighting Control | 05-02-2013 |
20130141822 | Protective Electrical Wiring Device With Tamper Resistant Shutters - The present invention is directed to an electrical wiring device that includes a frameless shutter assembly that is disposed in the front cover portion or in the at least one separator member between the plurality of receptacle openings and the plurality of receptacle terminals. The at least one frameless shutter assembly comprises a first shutter member and a second shutter member configured to move from a closed position to an open position when the hot and neutral blades of a plug blade set are simultaneously inserted into the receptacle openings to engage a set of receptacle terminals and remain closed otherwise. The front cover member and/or the at least one separator includes a first stop member disposed proximate the first shutter member and a second stop member being disposed proximate the second shutter member. The first stop member and the second stop member are configured to prevent a foreign object from accessing one of the plurality of receptacle terminals after being inserted into a corresponding one of the receptacle openings. | 06-06-2013 |
20140138235 | QUIET ELECTROMECHANICAL SWITCH DEVICE - The present invention is directed to a switch device that includes a first switch portion that is configured to rotate a first angular amount in a first direction about a first fixed axis of rotation and has a first pivot arm length. The first and second switch are coupled to the interface portion. The second switch portion rotates a second angular amount in a second direction and has a second pivot arm length. The second angular amount is greater than the first angular amount and a function of the first pivot arm length and the second pivot arm length. A set of switch contacts includes at least one fixed contact and a movable contact separated by a predetermined minimum distance that is a function of the first pivot arm length and the second pivot arm length. | 05-22-2014 |
20140139047 | Electronic Switching Device and System - The present invention is directed to an electronic switch device that includes a front cover assembly having a user interface, a back body assembly, and a plurality of terminals configured to be coupled to an AC power source and the load. A circuit assembly is coupled to the plurality of terminals. The circuit assembly includes a relay switch having a commutator and a set of contacts. The relay switch is characterized by a predetermined commutator period, the predetermined commutator period being substantially the commutator travel time between the set of contacts during a relay switch actuation. The circuit assembly further includes an actuation circuit configured to provide a constant current actuation signal that energizes the relay switch in response to an input stimulus via the user interface such that an end of the predetermined commutator period substantially coincides with a predetermined point in an AC power cycle. | 05-22-2014 |
20140153143 | PLUG TAIL SYSTEMS - The present invention is directed to a protective wiring device that includes a rear cover member having a portion substantially defining a line terminal interface region. An electric circuit assembly includes a sensor assembly coupled to a fault detection circuit. A plurality of line terminal interface contacts are disposed in the line terminal interface region, each line terminal interface contact being connected to a termination structure coupled to the rear body member. A conductive pathway is configured to interconnect the termination structure and a corresponding one of the first set of contacts via the sensor assembly. The conductive pathway includes a conductive structure disposed in the rear cover member and mounted to the at least one PCB. The line terminal interface contacts are configured to mate with a removably attachable electrical adapter connected to the plurality of AC power transmitting wires to provide AC power to the electric circuit assembly. | 06-05-2014 |
20140217898 | ELECTRICAL WIRING DEVICE - The present invention is directed to an electrical wiring device that includes at least one circuit configured to provide an output signal in response to at least one external input signal. The device further comprises a light emission and detection assembly that includes: a lamp sub-assembly coupled to the at least one circuit, the lamp subassembly including at least one light emitting element configured to emit light in response to the output signal; and an ambient light sensor sub-assembly coupled to the at least one circuit and including an ambient light sensor and a sensor housing assembly, the ambient light sensor being configured to generate the at least one external input signal in response to sensing an ambient light level in the space, the sensor housing assembly being configured to substantially isolate the ambient light sensor from the light emitted by the lamp sub-assembly. | 08-07-2014 |