Patent application number | Description | Published |
20090317965 | ELECTRICAL CONTACT FOR TERMINATING A COAXIAL CABLE - An electrical contact is provided for terminating an electrical conductor of a coaxial cable. The electrical contact includes a body having a first element extending between a cable receiving end portion and a contact portion. The first element includes a first surface configured to engage the electrical conductor. A second element extends from the cable receiving end portion of the first element. The second element includes a second surface configured to engage the electrical conductor. The first and second elements are configured to hold a portion of the electrical conductor therebetween such that the coaxial cable extends outwardly from the cable receiving end portion of the first element. | 12-24-2009 |
20090318018 | COAXIAL CABLE CONNECTOR HOUSING - A housing is provided for a coaxial cable connector that terminates a coaxial cable. The housing includes a cable-receiving end portion configured to engage an insulating cover of the coaxial cable, a mating end portion configured to engage another coaxial connector, and a base extending between the cable-receiving end portion and the mating end portion. The base is configured to engage an outer electrical conductor of the coaxial cable. The housing also includes an electrical contact. The electrical contact includes an extension extending outwardly from the electrical contact, wherein the extension is configured to engage the outer electrical conductor of the coaxial cable. | 12-24-2009 |
20090318019 | ELECTRICAL CONNECTOR FOR TERMINATING A COAXIAL CABLE - An electrical connector is provided for terminating a coaxial cable. The electrical connector includes an electrically conductive housing extending a length between a cable-receiving end portion configured to engage an insulating cover of the coaxial cable and a mating end portion configured to engage another electrical connector. The housing includes an outer electrical contact. An insulating member is held by the housing. An inner electrical contact is held by the insulating member. The inner electrical contact includes a slot configured to receive an inner electrical conductor of the coaxial cable. | 12-24-2009 |
20090318020 | ADAPTER FOR A COAXIAL CABLE CONNECTOR - An adapter is provided for mating first and second coaxial cable connectors having first and second receptacle contacts, respectively. The adapter includes an inner electrical contact extending between opposite first and second plug contact end portions. The first plug contact end portion is configured to be received within the first receptacle contact of the first coaxial cable connector. The second plug contact end portion is configured to be received within the second receptacle contact of the second coaxial cable connector. The adapter also includes an outer electrical contact defining a receptacle. The outer electrical contact is configured to hold the inner electrical contact within the receptacle. | 12-24-2009 |
20090318021 | ULTRAMINIATURE COAX CONNECTOR - An ultraminiature coax connector (UMCC) is provided for terminating a coaxial cable. The UMCC includes an electrically conductive housing extending between a cable-receiving end portion and a mating end portion. The cable-receiving end portion being is configured to engage an insulating cover of the coaxial cable. The mating end portion is configured to engage another UMCC. The housing includes an outer electrical contact at the mating end portion. The outer electrical contact includes an outer diameter in the range of approximately one millimeter to approximately four millimeters or an inner diameter in the range of approximately one millimeter to approximately four millimeters. An insulating member is by the housing. An inner electrical contact is held by the insulating member. The inner electrical contact includes a plug contact portion that is configured to be received by a receptacle contact portion of the other UMCC. | 12-24-2009 |
20100099282 | ELECTROSTATIC DISCHARGE CONTACT - An electrical connector assembly includes a dielectric housing having an interface being configured to receive a mating end portion of a mating connector. A plurality of receptacles is held by the housing. Each of the receptacles includes a ground shield and a center contact. Each center contact is configured to engage a corresponding electrical contact of the mating connector. An electrically conductive shell surrounds at least a portion of the housing. An electrostatic discharge (ESD) contact is held by the housing. The ESD contact includes a shell contact member and a plurality of ground contact members. The shell contact member is electrically connected to the shell. Each ground contact member is electrically connected to a corresponding one of the ground shields of the receptacles. | 04-22-2010 |
20100099301 | CONNECTOR HAVING A SHIELD ELECTRICALLY COUPLED TO A CABLE SHIELD - A connector assembly includes a cable, a connector and a resistance weld. The cable includes a conductor and a cable shield. The connector includes a contact and a shield. The shield includes conductive walls and a cradle. The walls extend from a mating interface to the cradle and at least partially surround the contact to shield the contact from electromagnetic interference. The mating interface is configured to receive a mating connector to mate the connector and mating connector. The cradle includes sidewalls interconnected by a coupling wall. The sidewalls and coupling wall extend from a loading interface toward the mating interface and are shaped to receive the cable through the loading interface. The resistance weld is between the cable shield and the cradle to electrically couple the shield to the cable shield. The shield is electrically connected to the electrical ground by the resistance weld and the cable shield. | 04-22-2010 |
20100303415 | CONNECTOR ASSEMBLIES AND SYSTEMS INCLUDING FLEXIBLE CIRCUITS - A connector assembly that includes a base frame extending along a longitudinal axis between a pair of frame ends. The connector assembly also includes a moveable side that is supported by the base frame and extends in a direction along the longitudinal axis. The moveable side includes a mating array of terminals. The connector assembly also includes a flex connection that is communicatively coupled to the mating array. The flex connection and the mating array are configured to transmit data signals. The connector assembly also includes a coupling mechanism that is supported by the base frame and is operatively coupled to the moveable side. The coupling mechanism is configured to be actuated to move the moveable side between retracted and engaged positions along a mating direction. | 12-02-2010 |
20110124231 | ELECTRICAL CONNECTOR ASSEMBLY HAVING A SEPARABLE MATING INTERFACE - An electrical connector assembly includes a connector having a connector housing and contacts held by the connector housing, where the contacts defining a separable mating interface for mating with a mating component. An actuator engages the contacts and is movable between an actuated position and an unactuated position. The contacts are deflected relative to the connector housing when the actuator is moved to the actuated position. An actuation device is configured to move the actuator between the actuated position and the unactuated position. | 05-26-2011 |
20110151685 | CONNECTOR ASSEMBLY FOR COUPLING CIRCUIT BOARDS - A connector assembly includes a housing, a connector interface body, an elongated shaft, and a cam. The housing has an opening extending into the front face and an elongated channel oriented along the longitudinal axis. The cam is within the opening of the housing and includes a passageway through which a shaft of the housing extends. Rotation of the shaft rotates the cam to engage and drive the connector interface body away from the housing. The cam includes a collar protruding from the cam and extending along a periphery of the passageway. The collar has a clearance dimension along a first direction that is smaller than a gap between the retention features of the housing and an interference dimension along a transverse direction that is larger than the gap. The cam is retained in the housing when the collar engages retention features of the housing across the interference dimension. | 06-23-2011 |
20110151687 | INTERCONNECT ASSEMBLY HAVING A SEPARABLE MATING INTERFACE - An interconnect assembly for interconnecting first and second electrical components includes a substrate having opposed first and second surfaces and a first array of contacts on the first surface for engaging corresponding elements on the first electrical component. The first array of contacts defines a compressible interface that mates with the first electrical component. The first array of contacts includes signal contacts transferring data signals across the compressible interface and the first array of contacts includes a combination of power contacts that jointly convey power across the compressible interface. The interconnect assembly also includes a second array of contacts on the second surface for engaging corresponding elements on the second electrical component. The second array of contacts having signal contacts electrically connected to the signal contact of the first array of contacts and power contacts electrically connected to the power contacts of the second array of contacts. | 06-23-2011 |
20110170827 | CONNECTORS AND ASSEMBLIES HAVING A PLURALITY OF MOVEABLE MATING ARRAYS - A connector configured to communicatively couple different components. The connector includes a base frame that extends along a longitudinal axis between a pair of frame ends and first and second moveable mating arrays having mating surfaces with terminals arranged thereon. The connector also includes a coupling mechanism that is supported by the base frame. The coupling mechanism holds the first and second mating arrays so that the mating surfaces of the first and second mating arrays extend along the longitudinal axis. The coupling mechanism moves the first and second mating arrays along different mating directions with respect to select components. The coupling mechanism moves the first and second mating arrays, between retracted and engaged positions, wherein the corresponding mating array is spaced apart from the select component in the retracted position and engaged to the select component in the engaged position. | 07-14-2011 |
20110170828 | CONNECTORS AND ASSEMBLIES HAVING A PLURALITY OF MOVEABLE MATING ARRAYS - A connector configured to communicatively couple different components. The connector includes a base frame that extends along a longitudinal axis between a pair of frame ends and moveable first and second mating arrays comprising respective mating surfaces having terminals arranged thereon. The connector also includes a coupling mechanism supported by the base frame. The coupling mechanism holds the first and second mating arrays and moves the first and second mating arrays between retracted and engaged positions. The first and second mating arrays are spaced apart from a select component when in the corresponding retracted position. The first and second mating arrays are communicatively coupled to the select component when in the corresponding engaged position. The coupling mechanism initiates movement of the first mating array from the retracted position toward the engaged position while the second mating array remains stationary with respect to the base frame. | 07-14-2011 |
20110171848 | LINEARLY ACTUATED CONNECTOR MATING INTERFACE - A connector assembly includes a housing, a connector interface, and an actuator. The housing extends from a front end to a back end and includes an elongated channel extending through the housing along an actuation axis disposed between the front and back ends. The connector interface is joined with the front end of the housing and is configured to be electrically joined with a circuit board when the connector interface is moved away from the front end and mates with the circuit board. The actuator is disposed within the channel of the housing and includes a ramp angled toward the front end of the housing. The connector interface mates with the circuit board by moving the actuator along the actuation axis to engage the ramp with the connector interface and move the connector interface toward the circuit board. | 07-14-2011 |
20110250773 | CONNECTOR ASSEMBLY HAVING A FLOATING MATING ARRAY - A connector assembly includes a housing, a mating array, and a self-alignment subassembly. The housing is joined to a first circuit board and includes a header portion that moves in a mating direction toward a second circuit board. The mating array is joined to the header portion and includes a terminal. The mating array is moveable in the mating direction to couple the terminal with a mating terminal of the second circuit board. The self-alignment subassembly is disposed between the header portion and the mating array. The self-alignment subassembly applies a floating force on the mating array that permits alignment of the terminal of the mating array with the mating terminal while the mating array is moved in directions oriented approximately perpendicular to the mating direction. The self-alignment subassembly also applies a loading force on the mating array in the mating direction that couples the terminal of the mating array with the mating terminal. | 10-13-2011 |
20110306251 | CONNECTOR WITH A LATERALLY MOVING CONTACT - A connector includes a housing, a contact, an angled interface, and a resilient member. The contact is disposed in the housing and includes a mating end and an interface end. The angled interface includes a sliding surface that is oriented at an oblique angle with respect to the longitudinal axis. The resilient member is coupled with the contact and the housing and is configured to apply a force to the contact in a direction that is angled with respect to the longitudinal axis. The mating end of the contact engages a conductive element of a mating connector and the interface end of the contact slides along the sliding surface of the angled interface when the contact is moved in a mating direction toward the conductive element. The angled interface translates movement of the contact in the mating direction into lateral movement across the conductive element. | 12-15-2011 |
20120114286 | CONNECTOR ASSEMBLIES HAVING MATING SIDES MOVED BY FLUIDIC COUPLING MECHANISMS - A connector assembly having a connector body that includes a support structure and a mating side and has an adjustable cavity therebetween. The mating side has a mating array of terminals thereon that is configured to face a communication component. The mating side is moveable relative to the support structure. The connector assembly also includes an elastic container having a reservoir that holds a working fluid. The elastic container is positioned within the adjustable cavity between the support structure and the mating side. The elastic container changes between first and second shapes to move the mating side toward and away from the communication component. | 05-10-2012 |
20120115345 | CONNECTOR ASSEMBLIES HAVING MOVEABLE MATING ARRAYS AND POWER CONNECTORS - A connector assembly that includes a base frame that extends along a longitudinal axis between a pair of frame ends. The connector assembly also includes a moveable mating side that is supported by the base frame and extends in a longitudinal direction along the longitudinal axis. The mating side has a mating array of terminals configured to communicate data signals. The connector assembly also includes a power connector that is configured to establish an electrical connection. The power connector is coupled to the mating side. Also, the connector assembly includes a coupling mechanism that is supported by the base frame and is operatively coupled to the mating side. The coupling mechanism is configured to be actuated to move the mating side between retracted and engaged positions in a mating direction with respect to the longitudinal axis. | 05-10-2012 |
20120120607 | FLEXIBLE CIRCUIT ASSEMBLIES WITH STACKED FLEX INTERCONNECTS AND CONNECTOR ASSEMBLIES HAVING THE SAME - A flexible circuit assembly including a pair of mating panels. Each of the mating panels has an engagement face and a power contact. The circuit assembly also includes adjacent first and second flex interconnects that mechanically and electrically couple the mating panels. The first and second flex interconnects extend alongside each other and have respective interior surfaces. The first and second flex interconnects are stacked with respect to each other such that the interior surfaces face each other and define a heat-dissipating interspace therebetween. The circuit assembly also includes a plurality of power conductors that extend through the first and second flex interconnects between the mating panels. The power conductors are electrically parallel to one another between the power contacts. At least one of the power conductors extends proximate to the interior surface of one of the first and second flex interconnects. | 05-17-2012 |
20120202370 | CONNECTOR ASSEMBLIES HAVING FLEXIBLE CIRCUITS CONFIGURED TO DISSIPATE THERMAL ENERGY THEREFROM - A connector assembly that includes a communication connector comprising a base frame and a moveable side that is supported by the base frame. The moveable side has a mating array of terminals thereon and is configured to move with respect to the base frame between retracted and engaged positions to engage a communication component. The connector assembly also includes a flexible circuit including a flex interconnect that has opposite exterior surfaces. The flexible circuit is coupled to the moveable side. The connector assembly also includes a plurality of heat-dissipation elements that are attached to the flex interconnect and project away from one of the exterior surfaces. The heat-dissipation elements are configured to conduct thermal energy from the flex interconnect and transfer the thermal energy to an ambient environment. | 08-09-2012 |
20130102185 | ELECTRICAL CONNECTOR FOR TERMINATING A CABLE - An electrical connector is provided for terminating a cable. The electrical connector includes an electrical contact configured to be terminated to a wire of the cable, and a housing extending between a mating end and a cable end. The housing is configured to mate with a mating connector at the mating end. The electrical contact is held by the housing. A back shell is mounted to the cable end of the housing. The back shell includes an opening configured to hold an end of the cable such that the back shell supports the end of the cable. The back shell includes an accessory socket. An accessory is held within the accessory socket of the back shell such that the accessory extends outwardly from the back shell. The accessory is configured to engage the cable. | 04-25-2013 |
20130330052 | UNIVERSAL FAN-OUT DEVICE - A universal fan-out device comprising a housing having first and second openings, the housing comprising first and second housing components, each of the first and second housing components having a first end and a second end, a channel running between the first and second ends, and sides along each side of the channel, a resilient material disposed in the channel to restrict movement of fibers within the channel, and an engagement mechanism operatively connected to the housing to inter-engage the first and second housing components together. | 12-12-2013 |
20140059911 | POWERED RAIL SYSTEM FOR A WEAPON - A powered rail system is provided for a weapon that includes a barrel. The powered rail system includes a base having a longitudinal opening. The base is configured to be mounted to the weapon such that the barrel is received within the longitudinal opening and the base extends around at least a segment of a length of the barrel. A rail extends from the base. An electrical component is mounted to the rail. An electrical power source is held by the base. The electrical power source is electrically connected to the electrical component for supplying the electrical component with electrical power. | 03-06-2014 |
20140076135 | WEAPON WITH THERMAL MANAGEMENT COMPONENTS - A weapon includes a cover system that extends a length. The cover system includes an opening that extends through the length of the cover system. The weapon includes a barrel that extends through the opening of the cover system. The cover system includes a composite material that is configured to provide thermal insulation relative to heat emitted from the barrel. | 03-20-2014 |
20140130392 | COMMUNICATION CONNECTOR SYSTEM FOR A WEAPON - A communication connector system is provided for a weapon. The system includes an upper connector configured to be mounted directly to an exterior side surface of an upper receiver of the weapon. The upper connector is configured to be communicatively connected to electronics associated with the upper receiver. The upper connector has a mating interface. The system includes a lower connector configured to be communicatively connected to electronics in a base of the weapon. The lower connector is configured to be mounted directly to an exterior side surface of a lower receiver of the weapon. The lower connector has a mating interface that is mated with the mating interface of the upper connector when the upper receiver is in a closed position. The mating interfaces are physically separable from one another such that the upper receiver is configured to be moved to an open position from the closed position. | 05-15-2014 |
20140213119 | CONNECTOR SYSTEM - A connector system includes a pass-through connector that includes a housing with a front and a rear opposite the front. The front of the housing has a front opening, and the rear of the housing has a rear opening. The housing also has a cavity between the front opening and the rear opening. The pass-through connector also includes conductors which are held by the housing in the cavity. The system also includes a plug that is received in the cavity through the front opening. The plug has a contact holder that holds plug conductors. The contact holder has a head that is received in the cavity, and the head is configured to push contaminants from the cavity through the rear opening as the plug is loaded into the cavity. | 07-31-2014 |
20140308009 | CONNECTOR WITH LOCKING RING - A connector is provided for mating with a mating connector. The connector includes a housing having an internal compartment and a locking segment. A contact is held within the internal compartment of the housing. A locking ring extends around the housing. The locking ring has a latch that is configured to cooperate with a latch member of the mating connector to lock the connector and the mating connector together. The connector includes a first actuator configured to compress the locking ring radially inward or expand the locking ring radially outward to release the latch of the locking ring from the latch member of the mating connector. The locking segment of the housing includes a second actuator that is configured to compress the locking ring radially inward or expand the locking ring radially outward to release the latch of the locking ring from the latch member of the mating connector. | 10-16-2014 |