A reconfigurable optical add and drop multiplexer (ROADM) system is provided. The ROADM system may include a switching system which includes at least one first WSS optically coupled to a tapping coupler and configured to receive an input optical signal from a first circulator, transmit a drop optical signal to a demultiplexer to drop one or more first wavelength channels, and output a through optical signal. The switching system may also include at least one second WSS optically coupled to the at least one first WSS and a multiplexer and configured to receive an add optical signal to add one or more second wavelength channels, receive the through optical signal, and output an output optical signal to a second circulator, and at least one OCM configured to monitor the input optical signal and the output optical signal.
Exemplary embodiments are disclosed of methods and devices (e.g., circuit, compensator, repeater, booster, signal amplifier device, etc.) for selectively amplifying multiple carriers in different frequency bands (e.g., 5G, 4G, etc.). In an exemplary embodiment, a circuit includes a detector configured for detecting carriers in different frequency bands, multiple signal paths respectively configured for amplifying multiple carriers in different frequency bands, and a control unit configured for controlling the detector and the multiple signal paths. The control unit is further configured to: select the carrier(s) to be compensated based on one or more first specified conditions and allow transmission of the selected carrier(s) along the corresponding signal path(s) for amplification; and lock the signal path(s) associated with the frequency band(s) of the unselected carrier(s) to prevent transmission of the unselected carrier(s) along the locked signal path(s) until one or more second specified conditions are satisfied.
H04B 1/68 - TRANSMISSION - Details of transmission systems not characterised by the medium used for transmission for wholly or partially suppressing the carrier or one side band
3.
TIME DIVISION DUPLEXING (TDD) SYNCHRONIZED COMPENSATION
Disclosed are exemplary methods and devices (e.g., circuits, compensators, low-gain signal boosters, repeaters, signal amplifier devices, etc.) for providing time division duplexing synchronized compensation between a terminal device (e.g., mobile phone, user equipment within a vehicle, a coupling antenna on a wireless charger, etc.) and an antenna (e.g., a vehicle roof antenna, etc.) or antenna connection, etc. In an exemplary embodiment, a circuit includes at least one detector, at least one control unit, at least one uplink path including at least one transmission amplifier, and at least one downlink path including at least one reception amplifier. The uplink and downlink paths are configured to be operable for respectively amplifying uplink and downlink signals having a same frequency according to time division duplexing. The control unit is configured to be operable for activating the uplink path and deactivating the downlink path before an uplink signal is transmitted by a terminal device.
An embodiment discloses a battery connection module which is adapted to connect a plurality of batteries, the battery connection module includes a plurality of busbars which are electrically conductive, a circuit board and a plurality of bridging members which are electrically conductive. The plurality of busbars are used to be connected to the plurality of the batteries; each bridging member is connected between the corresponding the busbar and the circuit board; each bridging member has one busbar connecting portion, two circuit board connecting portions which are separated from each other and two buffering arms which are separated from each other; the busbar connecting portion of each bridging member is connected to the corresponding busbar, first ends of the two buffering arms are connected to the one busbar connecting portion and second ends of the two buffering arms are respectively connected with the two circuit board connecting portions, the two circuit board connecting portions of each bridging member are separately connected to two different traces of the circuit board.
H01M 50/519 - Interconnectors for connecting terminals of adjacent batteries; Interconnectors for connecting cells outside a battery casing comprising printed circuit boards [PCB]
H01M 50/516 - Methods for interconnecting adjacent batteries or cells by welding, soldering or brazing
H01M 50/569 - Constructional details of current conducting connections for detecting conditions inside cells or batteries, e.g. details of voltage sensing terminals
The housing of the connector has insertion paths into which flat cables can be inserted. The connector also has a plurality of partition portions, which are formed of an elastic material. The partition portions are arranged along the insertion paths. When the flat cables are inserted into the insertion paths, the partition portions are positioned between the two adjacent conductor lines.
H01R 13/52 - Dustproof, splashproof, drip-proof, waterproof, or flameproof cases
H01R 12/78 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures connecting to other flexible printed circuits, flat or ribbon cables or like structures
6.
ELECTRICAL CONNECTOR AND ELECTRICAL CONNECTOR ASSEMBLY
An electrical connector and an electrical connector assembly include an insulative fixing seat, an insulative floating seat, a floating terminal and a conductive shell, the insulative fixing seat has a terminal receiving groove, a bottom portion of the terminal receiving groove has a terminal fixing groove which extends horizontally, the insulative floating seat is floatingly mounted above the insulative fixing seat, the insulative floating seat has an insertion hole which penetrates up and down, an outer wall of the insulative floating seat is provided with an annular groove, the floating terminal is fixed in the insulative fixing seat, the floating terminal includes a soldering tail portion, a horizontal fixing portion which is connected with the soldering tail portion, a mating portion and a float connecting portion which is elastically connected between the mating portion and the horizontal fixing portion, the float connecting portion is capable of being floatingly received in the terminal receiving groove, the mating portion extends into the insertion hole of the insulative floating seat, the conductive shell sheathes the insulative fixing seat, the conductive shell has a plurality of elastic mating pieces which extend upwardly, a tip of the elastic mating piece extends into the annular groove. The electrical connector may be better adapted to assembling tolerance and maintain normal operation under a vibrating circumstance.
H01R 13/631 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure for engagement only
H01R 24/38 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts
A connector assembly includes a guiding shield cage, at least two receptacle modules, at least two partitioning brackets and at least two extending brackets. The receptacle modules are provided to a rear segment of an interior of the guiding shield cage. The partitioning brackets include a first partitioning bracket and a second partitioning bracket, the partitioning brackets are arranged side by side and are provided in the guiding shield cage, a rear end of each partitioning bracket is positioned in front of a front end of corresponding one of the receptacle modules. The extending brackets includes a first extending bracket which is assembled to the first partitioning bracket and a second extending bracket which is assembled to the second partitioning bracket, the extending brackets are arranged side by side and are respectively assembled to rear ends of the partitioning brackets, each extending bracket is capable of moving relative to the partitioning bracket assembled therewith between a front position where each extending bracket is positioned in front of a front end of the corresponding receptacle module and a rear position where each extending bracket at least partially extends into the corresponding receptacle module.
High-speed data connectors are configured to create thermal transfer paths to transfer thermal energy away from internal connector components and plug-ins transporting high speed data signals. Heat pipes are configured to transfer thermal energy generated by a connector cage assembly and the connected components during operation of the assembly. Heat pipes may be thermally coupled to plug-in modules.
An electrical connector according to a disclosed embodiment includes a housing having a terminal receiving opening, and a TPA member mounted outside the terminal receiving opening to fix a position of a terminal. The TPA member includes first and second side cantilever arms which are extended from both ends of the TPA member, respectively, and are positioned outside a sidewall of the housing, the housing is not in contact with the TPA member in a preliminary mounting position, and the housing is latch-coupled with the first and second side cantilever arms in a final mounting position.
A connector is provided with a half body part, each of which including a connector main body and a plurality of terminals arranged at a predetermined pitch and integrated with the connector main body by insert molding, a main body end part formed at both ends of the connector main body by coupling the connector main bodies of the half body parts arranged in parallel, and a reinforcing metal fitting integrated with the main body end part.
H01R 13/631 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure for engagement only
H01R 13/639 - Additional means for holding or locking coupling parts together after engagement
A routing assembly for an electronic device has a plurality of connectors ports and each of the connector ports contains a first connector connected to one or more cables. Cables are directly terminated, at first ends thereof, to terminals of the first connectors and the cables can be embedded in a routing substrate. The routing substrate has an opening which accommodates a chip package. Second ends of the cables are terminated to second connectors arranged in the package opening and the second connectors are in turn connected to the chip package.
G06F 30/398 - Design verification or optimisation, e.g. using design rule check [DRC], layout versus schematics [LVS] or finite element methods [FEM]
G06F 30/367 - Design verification, e.g. using simulation, simulation program with integrated circuit emphasis [SPICE], direct methods or relaxation methods
G06F 30/331 - Design verification, e.g. functional simulation or model checking using simulation with hardware acceleration, e.g. by using field programmable gate array [FPGA] or emulation
An electrical terminal includes a contact partially surrounded by a hood. In an embodiment, the contact has a deflectable contact beam and an indentation with which a male terminal engages. In an embodiment, the hood has a polarization rib having at least one flap which is configured to expand the seal. The electrical terminal is used with a connector assembly having a housing forward of a seal and a seal cover rearward thereof. A first length is defined between ends of the portion of the hood that surrounds the contact and a second length is defined between the ends of the seal. In an embodiment, the first length is a minimum of 1.1 times the second length.
A number of connectors and related methods that allow for high data rate transmissions are described. An example connector includes a housing and a wafer. The water includes signal conductors, a ground conductors, a flexible shield, and a rigid shield. The flexible shield includes terminal end portions, cantilever spring end portions, and a flexible shield body between the terminal end portions and the cantilever spring end portions. The flexible shield body covers a first portion of the ground conductors, and the rigid shield covers a second portion of the ground conductors.
Radio frequency circulators are provided. In one implementation, a radio frequency circulator includes a substrate. The substrate includes a magnetizable material. The substrate has a first surface and a second surface. The second surface opposes the first surface. The radio frequency circulator includes a patterned conductive layer disposed on the first surface of the substrate. The patterned conductive layer includes a plurality of ports coupled to a resonator structure. The resonator structure includes a plurality of peripheral extensions coupled to a microstrip junction. Each peripheral extension includes a plurality of open microstrip stubs and at least one channel connecting the plurality of open microstrip stubs. The plurality of peripheral extensions are arranged about the microstrip junction.
H01P 5/18 - Conjugate devices, i.e. devices having at least one port decoupled from one other port consisting of two coupled guides, e.g. directional couplers
20.
SYSTEM AND METHOD FOR CORROSION AND EROSION MONITORING OF PIPES AND VESSELS
This disclosure relates to the field of corrosion and erosion monitoring of pipes and vessels. More specifically, this disclosure relates to a system and method for corrosion and erosion monitoring of pipes and vessels, where the system/method combines ultrasonic thickness monitoring using longitudinal waves with ultrasonic area monitoring using one or more guided waves, whereby representative thickness measurements are complemented by an area monitoring feature to detect localized corrosion/erosion in between representative thickness measurement locations. In another embodiment, a system and method for optimized asset health monitoring that includes an analytics solution is disclosed.
G01N 29/22 - Investigating or analysing materials by the use of ultrasonic, sonic or infrasonic waves; Visualisation of the interior of objects by transmitting ultrasonic or sonic waves through the object - Details
G01N 29/11 - Analysing solids by measuring attenuation of acoustic waves
G01N 29/07 - Analysing solids by measuring propagation velocity or propagation time of acoustic waves
21.
ULTRASONIC WALL THICKNESS MEASUREMENT SYSTEM HAVING A HIGH TEMPERATURE ULTRASONIC TRANSDUCER FOR MONITORING THE CONDITION OF A STRUCTURAL ASSET
An ultrasonic transducer for high temperature application forms part of ultrasonic wall thickness measurement system. The ultrasonic transducer has a modular design. The ultrasonic transducer has a modular design which enables the selection of piezoelectric element type based on field applications without changing the manufacturing process and redesigning of other components. A temperature sensor can be provided as part of the ultrasonic transducer. Methods of assembly are also provided.
G01N 29/22 - Investigating or analysing materials by the use of ultrasonic, sonic or infrasonic waves; Visualisation of the interior of objects by transmitting ultrasonic or sonic waves through the object - Details
An electronic device is provided with a first connector module configured to mate with an external plug. The first connector module includes a first set of terminals; a first wafer supporting the first set of terminals, a first one or more of the second ends of the first set of terminals are bent to form a first set of tails, and a second one or more of the second ends of the first set of terminals terminate within the first wafer; and a tail alignment structure positioned to support the first set of tails. The electronic device further includes a cable arrangement forming a connection with the second one or more of the second ends of the first set of terminals; a host board configured to form an electrical connection with the first set of tails; and a shield assembly.
A connector assembly includes a cage having at least one inserting passageway and a heat sink frame positioned above the inserting passageway, the heat sink module is assembled to the heat sink frame, the heat sink module includes a movable plate, a heat sink, a pressure-applying spring and a supporting spring; the movable plate has a pushed portion which enters into the inserting passageway, the pressure-applying spring is provided between the movable plate and the heat sink, the supporting spring upwardly and elastically supports the heat sink; the movable plate is capable of moving relative to the heat sink frame between a first position which is in the front and a second position which is in the rear, the heat sink is capable of moving relative to the heat sink frame between a release position which is in the up and a contact position which is in the down. A pluggable module is capable of inserting into the inserting passageway of the cage along an inserting direction which is from front to rear so as to push the pushed portion of the movable plate and make the movable plate rearwardly move from the first position to the second position, in turn the movable plate brings the pressure-applying spring to move to actuate the heat sink from the release position which is in the up to move to the contact position which is in the down to contact a surface of the pluggable module
A contact interface is configured to be coupled to a pair of batteries. The contact interface includes a bracket, a conductive terminal contact plate and a biasing member provided between the bracket and the terminal contact plate. The bracket includes a base and a pair of legs extending from opposite ends thereof. Each leg has an engagement which is configured to be coupled to an engagement on each of the batteries. The terminal contact plate is configured to be in contact with terminals on the batteries. The biasing member biases the terminal contact plate into contact with the terminals.
H01M 50/503 - Interconnectors for connecting terminals of adjacent batteries; Interconnectors for connecting cells outside a battery casing characterised by the shape of the interconnectors
H01M 50/514 - Methods for interconnecting adjacent batteries or cells
H01M 50/209 - Racks, modules or packs for multiple batteries or multiple cells characterised by their shape adapted for prismatic or rectangular cells
25.
IDENTIFYING AND MONITORING CONNECTIONS IN AN OPTICAL SYSTEM
Techniques are provided for identifying and monitoring connections in an optical system. A plurality of optical ports is configured to receive a plurality of optical links that couple with one or more remote optical devices. At least one light source generates identification (ID) signals. At least one optical element configured to direct the ID signals into transmission paths from the source optical device to the remote optical device/s over the plurality of optical links. The remote optical device/s include one or more optical elements that direct the ID signals through a set of WDM filters and returns the ID signals. At least one optical element directs returned ID signals to an optical channel monitor. At least one microprocessor configured to execute control instructions to generate the ID signals and process one or more outputs of the optical channel monitor in response to the returned ID signals to identify the plurality of optical links.
H04J 14/02 - Wavelength-division multiplex systems
H04B 10/077 - Arrangements for monitoring or testing transmission systems; Arrangements for fault measurement of transmission systems using an in-service signal using a supervisory or additional signal
26.
DYNAMIC GAIN EQUALIZATION CONTROL METHOD FOR USE IN EDFA MODULES
A method for gain control for an optical amplifier module is provided. The method may include receiving an input light signal at a first amplifier. The method may include dynamically adjusting a gain of the input light signal based on feedback monitoring of an output light signal. The method may include receiving the gain adjusted light signal at a second amplifier for output of the optical amplifier module.
A high-power electronics device and a method of forming same are disclosed. The high-power electronics device is formed of a plurality of layers including molding compound, a printed circuit board, electrically conductive contacts, at least one electronic component, and molding compound. In an embodiment, a layer of a dielectric carrier is also provided.
H01L 25/00 - Assemblies consisting of a plurality of individual semiconductor or other solid state devices
H01L 21/48 - Manufacture or treatment of parts, e.g. containers, prior to assembly of the devices, using processes not provided for in a single one of the groups
H01L 25/07 - Assemblies consisting of a plurality of individual semiconductor or other solid state devices all the devices being of a type provided for in the same subgroup of groups , or in a single subclass of , , e.g. assemblies of rectifier diodes the devices not having separate containers the devices being of a type provided for in group
H05K 1/18 - Printed circuits structurally associated with non-printed electric components
H05K 3/32 - Assembling printed circuits with electric components, e.g. with resistor electrically connecting electric components or wires to printed circuits
H05K 3/34 - Assembling printed circuits with electric components, e.g. with resistor electrically connecting electric components or wires to printed circuits by soldering
A connector assembly is provided. The connector assembly includes a receptacle module and a pluggable module. The receptacle module includes a cage, a receptacle connector, a biasing spring, and a locking member. The pluggable module is moved from a front end to a back end, so as to be aligned and mated with the receptacle module. The biasing spring is configured to apply a spring load toward the front end of the cage. Accordingly, the mating between the receptacle module and the pluggable module may be accomplished through alignment in the following manner: the pluggable module pushes the receptacle connector toward the back end to compress the biasing spring, so that the receptacle connector is moved toward the back end to the locking member to be mated with the pluggable module.
H01R 13/635 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure for disengagement only by mechanical pressure, e.g. spring force
H01R 13/631 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure for engagement only
A connector assembly includes a first connector and a second connector. The first connector includes a first housing and a first terminal held by the first housing, the first terminal has a first contact portion which extends in a first direction. The second connector includes a second housing and a second terminal held by the second housing, the second terminal extends in the first direction and has a second contact portion. In a mating process of the first connector and the second connector, the first connector and the second connector firstly move toward each other along the first direction, then move along a second direction perpendicular to the first direction relative to each other to make the first contact portion of the first terminal contact the second contact portion of the second terminal and make the first connector and the second connector mate with each other.
An example connector assembly includes a guide shielding cage with a cage body and an upper heat sink bracket. The cage body includes upper window. A lower wall of the upper heat sink bracket is formed with a window corresponding to the upper window. The connector assembly also includes an upper heat sink module including a heat dissipating member. The heat dissipating member is capable of moving between a releasing position which is higher and an acting position which is lower relative to the upper insertion space. The cage body further includes fixing pieces positioned at two sides of the top wall and extend upwardly. The lower wall of the upper heat sink bracket engages with the fixing pieces of the cage body, and the upper heat sink bracket further comprises a latching piece which extends from the lower wall and latches into the top wall of the cage body.
H01R 13/502 - Bases; Cases composed of different pieces
H01R 13/6591 - Specific features or arrangements of connection of shield to conductive members
H01R 13/659 - Shield structure with plural ports for distinct connectors
H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
F16B 2/18 - Clamps, i.e. with gripping action effected by positive means other than the inherent resistance to deformation of the material of the fastening using cams, levers, eccentrics, or toggles
H01L 23/40 - Mountings or securing means for detachable cooling or heating arrangements
31.
ANTENNAS FOR MILLIMETER WAVE CONTACTLESS COMMUNICATIONS
Methods, systems, and apparatus for using antennas for millimeter wave contactless communication. One of the apparatuses is a communication device that includes a transducer configured to convert electrical signals into extremely high frequency (EHF) electromagnetic signals, the EHF electromagnetic signals substantially emitted from a first surface of the communication device, wherein the transducer is positioned on a substrate of the communication device, and an integrated circuit coupled to the substrate, wherein the transducer includes multiple parallel resonant antenna elements in an array.
A twinax cable assembly comprises a cable lacing section between the assembly end sections. The cable assembly includes twinax cable sets of twinax cables. Each cable includes a pair of conductors spaced apart in a lateral direction. Each of the cable sets has connector ends where each of the cables in the cable sets connects to a terminal component. A tie bar is mounted on one end and another tie bar is mounted on the other end between the lacing section and the ends of the cables. The cables in each cable set lace through the other cable sets with the pair of conductors in each of the twinax cables substantially aligned in the lateral direction such that when the cable assembly bends substantially around a bend axis in the lateral direction the pairs of conductors in each of the twinax cables remain substantially aligned in the lateral direction.
H01R 9/03 - Connectors arranged to contact a plurality of the conductors of a multiconductor cable
H01R 9/053 - Connectors arranged to contact a plurality of the conductors of a multiconductor cable for coaxial cables using contact members penetrating insulation
H01R 13/6591 - Specific features or arrangements of connection of shield to conductive members
33.
ANTENNAS FOR MILLIMETER WAVE CONTACTLESS COMMUNICATIONS
Methods, systems, and apparatus for using antennas for millimeter wave contactless communication. One of the apparatuses is a communication device that includes a transducer configured to convert electrical signals into extremely high frequency (EHF) electromagnetic signals, the EHF electromagnetic signals substantially emitted from a first surface of the communication device, wherein the transducer is positioned on a substrate of the communication device, and an integrated circuit coupled to the substrate, wherein the transducer includes multiple parallel resonant antenna elements in an array.
A connector assembly may be formed to include a cage, with a connector positioned inside the cage, and an air scooping structure on a side wall of the cage. The air scooping structure is configured to divert a portion of the air flowing along the outside of the cage and re-direct it inward to as to pass by a surface of an inserted module and direct generated thermal energy away from the module. A separate air scooping structure may be formed on each side wall and may include a plurality of individual air scoops disposed in a defined pattern and located in close proximity to any thermal energy-generating areas of the inserted module. A side wall offset may be included along each cage side wall in the area of the included connector to form a wider gap between the connector housing and the cage side wall.
High-speed, hermaphroditic electrical connectors may be connected to form a hermaphroditic connector assembly that uses less space than existing connector assemblies. A housing can provide a first and second engagement feature that are intended to engage each other so that when two such connectors are rotated 180 degrees the engagement features allow two such connectors to mate together. Cables can be connected directly to the terminals so as to provide for improved electrical performance.
H01R 13/64 - Means for preventing, inhibiting or avoiding incorrect coupling
H01R 13/28 - Contacts for sliding co-operation with identically-shaped contact, e.g. for hermaphroditic coupling devices
H01R 13/631 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure for engagement only
H01R 13/6592 - Specific features or arrangements of connection of shield to conductive members the conductive member being a shielded cable
A connector including:
A connector including:
a connector main body;
A connector including:
a connector main body;
a terminal attached to the connector main body; and
A connector including:
a connector main body;
a terminal attached to the connector main body; and
a reinforcement fitting attached to the connector main body; wherein
A connector including:
a connector main body;
a terminal attached to the connector main body; and
a reinforcement fitting attached to the connector main body; wherein
the connector main body is able to mate with a counterpart connector that is the counterpart connector main body of a counterpart connector and includes an islet,
A connector including:
a connector main body;
a terminal attached to the connector main body; and
a reinforcement fitting attached to the connector main body; wherein
the connector main body is able to mate with a counterpart connector that is the counterpart connector main body of a counterpart connector and includes an islet,
the reinforcement fitting includes an upper surface part, an end surface part connected to the upper surface via a rear curved part, and a side surface part connected to the end surface part via a side curved part, and
A connector including:
a connector main body;
a terminal attached to the connector main body; and
a reinforcement fitting attached to the connector main body; wherein
the connector main body is able to mate with a counterpart connector that is the counterpart connector main body of a counterpart connector and includes an islet,
the reinforcement fitting includes an upper surface part, an end surface part connected to the upper surface via a rear curved part, and a side surface part connected to the end surface part via a side curved part, and
the rear curved part covers the corner between the upper surface and end surface of the connector main body and the side curved part covers the corner of the end surface and the side surface of the connector main body.
An I/O connector includes a body comprising a first surface, a second surface, side surfaces extending between the first surface and the second surface, and a cable entrance port at a rear end of the body extending toward a front end of the body. The I/O connector includes a printed circuit board (PCB) positioned between the first surface and the second surface of the body. The PCB includes a first set of one or more electrical components mounted on a first side of the PCB. A first heatsink is disposed on the first surface. The I/O connector includes first heatpipe thermally coupled with the first heatsink and the first set of one or more electrical components, positioned between the first surface and the first side of the PCB.
A cage includes a cage housing forming an inner area with internal walls that define an upper port and a lower port. Each of the ports include a cap that forms a keyway. The cap in an upper bay can extend from the upper bay in a direction that is opposite a direction the cap in the lower port extends. The cage may include a plurality of spring fingers therein which engage with a conductive bezel. The cage provides EMI shielding for the plug connector.
H01R 13/6582 - Shield structure with resilient means for engaging mating connector
H01R 12/71 - Coupling devices for rigid printing circuits or like structures
H01R 13/502 - Bases; Cases composed of different pieces
H01R 13/514 - Bases; Cases formed as a modular block or assembly, i.e. composed of co-operating parts provided with contact members or holding contact members between them
H01R 13/6594 - Specific features or arrangements of connection of shield to conductive members the shield being mounted on a PCB and connected to conductive members
40.
CONNECTOR HOLDER FOR BYPASS CONNECTION APPLICATIONS
A connector holder includes a housing (configured to be secured within an aperture in a substrate), a first connector disposed within the housing and configured to provide a mating interface that extends above the support member and a cable that is connected to the connector and extends below the support member. The first connector is used to provide electrical connection with an associated electrical component and can provide for blind mating.
A power connector includes first and second board mounted connectors which are configured to transmit power. The boards to which the connectors are mounted have an increased trace size. Each connector includes a dielectric housing having an assembly mounted within a passageway of the housing. The assembly includes a pair of terminals and a heat sink mounted between the terminals. One of the housings include openings which are in fluid communication with passageways in the heat sinks for allowing cooling air to flow therethrough.
H01R 12/73 - Coupling devices for rigid printing circuits or like structures coupling with the edge of the rigid printed circuits or like structures connecting to other rigid printed circuits or like structures
Exemplary embodiments are disclosed of vehicular adaptive distributed antenna systems (V-ADAS) or distributed antenna farms. In exemplary embodiments, the system may include antennas that are sharable with one or more software defined radio (SDR) instances. In exemplary embodiments, the system may be configured to be operable for dynamic selection of the best antenna(s) for the specific situation, e.g., for high reliability communication and/or power and performance optimization, rural versus urban, shadowing effects of the vehicle itself and/or nearby obstructions, etc. In exemplary embodiments, the system may be configured to power down one or more of the remote active antennas that are not needed.
H04B 7/06 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station
The present disclosure relates to a battery connection module and a battery device. The battery connection module includes a carrying tray, a plurality of busbars and a flexible circuit board. The plurality of busbars are provided to the carrying tray. The flexible circuit board is provided to the carrying tray and includes a main board body and a plurality of connecting board bodies integrally connected to the main board body in a floatable manner and respectively electrically connected to the plurality of busbars, each connecting board body is provided to a side edge of the main board body, extends in a longitudinal direction and faces the corresponding busbar in a transverse direction, each connecting board body has a central portion and two cantilevered portions respectively extending from two opposite sides of the central portion in the longitudinal direction, each cantilevered portion has a proximal segment connected to the central portion, a distal segment opposite to the proximal segment and a curved segment positioned between the proximal segment and the distal segment, the curved segment extends along at least the longitudinal direction and the transverse direction, each connecting board body is connected to the main board body only by the distal segments of the two cantilevered portions, a gap is formed between the connecting board body and the main board body.
H01M 50/519 - Interconnectors for connecting terminals of adjacent batteries; Interconnectors for connecting cells outside a battery casing comprising printed circuit boards [PCB]
H01M 50/507 - Interconnectors for connecting terminals of adjacent batteries; Interconnectors for connecting cells outside a battery casing comprising an arrangement of two or more busbars within a container structure, e.g. busbar modules
A connector assembly includes a shielding cage, a light guiding pipe and a base. The shielding cage has a plurality of walls and an accommodating space defined by the plurality of walls. The light guiding pipe is assembled to the shielding cage, the light guiding pipe has a light outputting end, a light inputting end and a first assembling portion at a location of the light guiding pipe adjacent to the light inputting end. The base has a light guiding pipe accommodating hole and a second assembling portion provided to the light guiding pipe accommodating hole. The light guiding pipe is assembled in the light guiding pipe accommodating hole, and the first assembling portion of the light guiding pipe is assembled to the second assembling portion of the light guiding pipe accommodating hole, after the first assembling portion of the light guiding pipe is assembled to the second assembling portion of the light guiding pipe accommodating hole from up to down relative to the base, the light guiding pipe is rotated along a rotating direction so that the first assembling portion is fixed to the second assembling portion at the light guiding pipe accommodating hole.
A female receptacle terminal (10) for an electrical connector is disclosed. The female receptacle terminal includes a receptacle having an opening (20) to receive a male blade terminal (300) in an insertion direction (M). A resilient contact beam (100) extends from a top part of the receptacle towards an opposed bottom part. At least one contact surface (103, 113) is provided on at least one of the resilient contact beam and the bottom part and has a contact bump (105, 115) curved in the insertion direction and a width direction to engage the male blade terminal at a linear contact interface, and a guide portion (101, 111) being linear in the width direction and parallel to the bottom part in a plane perpendicular to the width direction to engage the male blade terminal at a point contact interface. Also disclosed is a male blade terminal, an electrical connector and a method of forming an electrical connection.
An electrical connector assembly may include a plurality of horizontal wafers used in combination with a plurality of vertical wafers. The vertical wafers may include terminals that interconnect with a set of non-high-speed terminals located in the horizontal wafers. The vertical wafers may be positioned side-by-side and placed to engage with the rear edges of the horizontal wafers.
H01R 13/514 - Bases; Cases formed as a modular block or assembly, i.e. composed of co-operating parts provided with contact members or holding contact members between them
H01R 13/518 - Means for holding or embracing insulating body, e.g. casing for holding or embracing several coupling parts, e.g. frames
H01R 13/6586 - Shielding material individually surrounding or interposed between mutually spaced contacts for separating multiple connector modules
H01R 13/6471 - Means for preventing cross-talk by special arrangement of ground and signal conductors, e.g. GSGS [Ground-Signal-Ground-Signal]
A connector, comprising:
a housing;
a plurality of elastic members combined with the housing; and
a plurality of terminals mounted in the housing, wherein
the housing can be inserted into an opening formed in a wall member,
the elastic members include a mating exposed surface exposed on a mating surface of the housing and a side wall exposed surface exposed on a side wall surface of the housing and constitute at least one left and right symmetric pair positioned respectively on both left and right sides in the width direction of the housing, and
the side wall exposed surface includes a rib extending in the mating direction that is able to come into contact with an inner surface of the opening.
H01R 12/77 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures
H01R 24/76 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure with sockets, clips or analogous contacts and secured to apparatus or structure, e.g. to a wall
H01R 12/78 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures connecting to other flexible printed circuits, flat or ribbon cables or like structures
An antenna device is provided to include an antenna radiating assembly, the antenna radiating assembly includes: a first metal plate; at least two antennas including a first mobile communication antenna and a second mobile communication antenna, the first mobile communication antenna and the second mobile communication antenna are respectively perpendicularly provided to a surface of the first metal plate, and the first mobile communication antenna and the second mobile communication antenna are perpendicular to each other; a second metal plate extending from a side of the first metal plate toward the first mobile communication antenna and the second mobile communication antenna. So a small dimension antenna device is provided to consider an antenna dimension and antenna performance at the same time, employ a three-dimensional antenna structure to reduce the dimension, at the same time assure isolation degree between two mobile communication antennas and promote antenna performance.
An example connector assembly includes a cage, a first liquid cooling tray, a second liquid cooling tray, and a pressuring spring. The cage includes a frame and partitioning walls. The frame and the partitioning walls define an insertion space. The first liquid cooling tray is provided to a top of the cage, with a lower surface of the first liquid cooling tray constituting an upper wall surface of the insertion space. The second liquid cooling tray is provided to a bottom of the cage, with an upper surface of the second liquid cooling tray constituting a lower wall surface of the insertion space. The pressuring spring is positioned within the insertion space.
A connector assembly includes a metal shielding cage and a grounding member. The metal shielding cage has an insertion space and a top wall, a bottom wall and two side walls which define the insertion space, the insertion space has a front end opening. The a grounding member is provided at the front end opening of the metal shielding cage, the grounding member has a plurality of inner side elastic fingers which are positioned to an inner side of the metal shielding cage. The metal shielding cage is constructed with a protecting protrusion which is formed on an inner side surface of at least one of the top wall, the bottom wall and the two side walls, the protecting protrusion is adjacent to the corresponding inner side elastic finger and is positioned behind the corresponding inner side elastic finger, and protrudes toward the insertion space. The protecting protrusion can avoid the pluggable module which inserts into the corresponding insertion space hooking and pulling the tip of the corresponding inner side elastic finger in a process that the pluggable module is pulled out from the corresponding insertion space.
A thermal compensator, for use in connection with arrayed waveguide grating (AWG) modules which are, in turn, utilized in conjunction with wavelength multiplexing and de-multiplexing within optical networks, is disclosed. The thermal compensator comprises a bow-shaped frame member and a central bar member. The bow-shaped frame member is characterized by a higher coefficient of thermal expansion than that of the central bar member such that the bow-shaped frame member can expand and contract at variable rates compared to that of the central bar member under certain temperature conditions. The bow-shaped frame member is adapted to be attached to a movable section of an athermal arrayed waveguide grating (AAWG) module such that the expansion and contraction movements of the bow-shaped member influence the movement of a movable section of the AAWG module in order to maintain the proper focus of the AAWG module across disparate temperature conditions.
G02B 6/12 - Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings of the optical waveguide type of the integrated circuit kind
G02B 6/13 - Integrated optical circuits characterised by the manufacturing method
A sensor is provided for detecting small concentrations of volatile organic compounds in ambient air. The sensor has a lamp assembly and a gas sampling chamber assembly which are operatively associated. The gas sampling chamber assembly has an ionization chamber and an electrode assembly. The electrode assembly has sensing, counter and auxiliary electrodes and circuitry. The electrodes are positioned within the ionization chamber and are separated from one another. The circuitry is configured to apply a voltage difference to the sensing and counter electrodes, control an electrical potential of the auxiliary electrode to be substantially equal to an electrical potential of the counter electrode, measure/estimate a current at the sensing electrode and at the auxiliary electrode, determine a difference between the current at the sensing electrode and the current at the auxiliary electrode, and correct the current at the sensing electrode by using the difference.
G01N 27/66 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating electric discharges, e.g. emission of cathode using wave or particle radiation to ionise a gas, e.g. in an ionisation chamber and measuring current or voltage
G01N 33/00 - Investigating or analysing materials by specific methods not covered by groups
An antenna device includes: a dielectric substrate; a first grounding face, a second grounding face and a third grounding face which are provided on a first face of the dielectric substrate and are isolated from each other; a first primary antenna and a first auxiliary antenna which are provided on the first face, cooperatively act with the first grounding face to operate at a first frequency range and are isolated from each other; a second primary antenna and a second auxiliary antenna which cooperatively act with the first grounding face to operate at a second frequency range and are isolated from each other; a third primary antenna which cooperatively acts with the second grounding face to operate at a third frequency range; and a third auxiliary antenna which cooperatively acts with the third grounding face to operate at the third frequency range.
H01Q 5/20 - Arrangements for simultaneous operation of antennas on two or more different wavebands, e.g. dual-band or multi-band arrangements characterised by the operating wavebands
An electrical connector includes: an insulative housing, an interior of the insulative housing is provided with a plurality of terminal receiving cavities which penetrate along a front-rear direction, two sides of each terminal receiving cavity each are provided with a fixing slot; a plurality of conductive terminals respectively correspondingly mounted in the plurality of terminal receiving cavities; each conductive terminal includes a fixing portion, a mating portion which extends forwardly from the fixing portion and a crimping connection portion and a crimping wire portion which extend rearwardly from the fixing portion; two sides of the fixing portion each are provided with a vertical extending piece which extends upwardly, a fixing wing horizontally bends outwardly from an upper end of each vertical extending piece, the fixing wing is correspondingly fixed in the fixing slot. The electrical connector may promote stability of the conductive terminal, reliability of the electrical connector is promoted when the electrical connector mates with the mating connector.
To exhibit high strength, achieve a high shielding effect, and increase reliability with a compact and low profile. A first connector that mates with a second connector, containing: a first connector main body; a first terminal attached to the first connector main body; a first high-frequency terminal attached to the first connector main body; and a first shield surrounding an entire circumference of the first connector main body; and further containing, a first inner side shield attached to the first connector main body and extending in a width direction of the first connector between the first terminal and the first high-frequency terminal; where a substrate connecting part of the first terminal is visible from a mating surface side of the first connector, and a substrate connecting part of the first inner side shield is not visible from the mating surface side.
H01R 13/6594 - Specific features or arrangements of connection of shield to conductive members the shield being mounted on a PCB and connected to conductive members
H01R 12/71 - Coupling devices for rigid printing circuits or like structures
H01R 13/6582 - Shield structure with resilient means for engaging mating connector
H01R 13/20 - Pins, blades, or sockets shaped, or provided with separate member, to retain co-operating parts together
60.
SHIELDED CONNECTOR ASSEMBLIES WITH TEMPERATURE AND ALIGNMENT CONTROLS
High-speed connectors and connector assemblies that can utilize a variety of connector side plate designs and that can include structures for improved thermal performance.
H01R 13/6471 - Means for preventing cross-talk by special arrangement of ground and signal conductors, e.g. GSGS [Ground-Signal-Ground-Signal]
H01R 13/6583 - Shield structure with resilient means for engaging mating connector with separate conductive resilient members between mating shield members
H01R 13/629 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure
H01R 43/24 - Assembling by moulding on contact members
H01R 13/502 - Bases; Cases composed of different pieces
H01R 12/71 - Coupling devices for rigid printing circuits or like structures
H01R 13/6587 - Shielding material individually surrounding or interposed between mutually spaced contacts for separating multiple connector modules for mounting on PCBs
61.
Smart digital computer platform to display fugitive emissions of a facility
A smart digital computer platform is disclosed that collects, analyzes, and/or renders appropriate information about fugitive emissions identified by a sensor network-based emissions monitoring system in a facility. More specifically to the methods used by the smart digital computer platform to analyze, filter, and transform the collected monitoring data into a visual output that is capable of being rendered on a graphical user interface (GUI) on a screen display with, in some embodiments, a restricted form factor. For example, smart analytics may be used to cull, filter, and transform the data displayed in a pop-up dialog box on a GUI. In another example, the transformed data may be translated into a visual, graphical element that conveys an abundance of appropriate, tailored information to a particular type of user viewing the GUI.
G06F 3/0481 - Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance
The present disclosure provides a connector assembly comprising a shielding cage and a liquid cooling cabin. The shielding cage has an insertion space and a window in communication with the insertion space. The liquid cooling cabin is configured to allow a cooling liquid to circulate and flow inside, the liquid cooling cabin comprises a shell having an opening, a thermal coupling cover provided at the opening of the shell, and an elastic sealing unit sealing a gap between the thermal coupling cover and the shell, the thermal coupling cover having a thermal coupling plate entering into the insertion space via the window of the shielding cage, the thermal coupling plate being capable of elastically moving in a direction close to the shell and elastically restoring in a direction away from the shell by a function of the elastic sealing unit.
H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
H01R 13/6584 - Shield structure with resilient means for engaging mating connector with separate conductive resilient members between mating shield members formed by conductive elastomeric members, e.g. flat gaskets or O-rings
H01R 13/533 - Bases or cases made for use in extreme conditions, e.g. high temperature, radiation, vibration, corrosive environment, pressure
Disclosed in the present invention is a connector assembly, including a guide shielding cover; a side cover plate; and a light guide piece. The guide shielding cover has a top wall and a side wall, and the side wall has an opening. The side cover plate is assembled on the side wall and shields the opening, and the side cover plate has a first mounting portion. The light guide piece has a second mounting portion matched with and assembled on the first mounting portion. The connector assembly in the present invention, through the side cover plate assembled on the side wall of the guide shielding cover, not only shields the opening on the side wall to generate an action of electromagnetic interference shield (EMI shielding), but also provides an additional construction for assembling the light guide piece through the side cover plate.
A connector includes: half body parts each including a connector body, and a plurality of terminals attached to the body; end parts formed on both ends of the body formed by allowing the bodies to abut each other; and reinforcing brackets attached to the respective end parts. Each of the bodies is a member integrated with the terminals by primary insert molding, and includes a protrusion extending in the longitudinal direction and holding the terminals, and an embedded part connected to both ends in the longitudinal direction of the protrusion. The end part includes a covering part covering at least the embedded part of each of the bodies, and the covering part is a member integrated with the embedded part and the bracket by secondary insert molding. The connector allows for the spacing between protrusions to be narrowed, simplifying manufacturing, reducing size, and improving reliability.
H01R 13/631 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure for engagement only
H01R 13/639 - Additional means for holding or locking coupling parts together after engagement
65.
PLUG ASSEMBLY AND RECEPTACLE ASSEMBLY WITH TWO ROWS
A connector system for a pluggable IO connector is disclosed that includes a plug with two rows of pads on two sides of a mating blade and a receptacle with two connection regions that is configured to engage the two rows of pads. In an embodiment the connector system can support double the data bandwidth of a typical connector, such as a QSFP connector, while allowing for backward compatibility with convention plug assemblies that have a single row of pads on each side the mating blade.
H01R 25/00 - Coupling parts adapted for simultaneous co-operation with two or more identical counterparts, e.g. for distributing energy to two or more circuits
H01R 12/72 - Coupling devices for rigid printing circuits or like structures coupling with the edge of the rigid printed circuits or like structures
A backplane connector includes a shielded design that has wafers with signal terminals supported as edge-coupled terminal pairs for differential signaling. A ground shield is mounted on each wafer and provides a U-channel that partially shields each terminal pair. An insert can be provided to help connect the ground shield to a U-shield to provide U-shaped shielding structure substantially the entire way from a tail to a contact.
H01R 13/6587 - Shielding material individually surrounding or interposed between mutually spaced contacts for separating multiple connector modules for mounting on PCBs
H01R 12/72 - Coupling devices for rigid printing circuits or like structures coupling with the edge of the rigid printed circuits or like structures
H01R 12/73 - Coupling devices for rigid printing circuits or like structures coupling with the edge of the rigid printed circuits or like structures connecting to other rigid printed circuits or like structures
H01R 13/518 - Means for holding or embracing insulating body, e.g. casing for holding or embracing several coupling parts, e.g. frames
A connector assembly includes a guiding shield cage, a receptacle connector, a partitioning bracket and a movable heat sink. The receptacle connector is provided to a rear segment of an interior of the guiding shield cage, the receptacle connector has an upper receptacle and a lower receptacle. The partitioning bracket is provided in the guiding shield cage, the partitioning bracket and the guiding shield cage together define an upper receiving space which corresponds to the upper receptacle and a lower receiving space which corresponds to the lower receptacle. The movable heat sink is assembled to the partitioning bracket, the movable heat sink is capable of moving relative to the partitioning bracket between a front position where the movable heat sink is positioned in front of a front end of the upper receptacle a front end of the lower receptacle and a rearward position where the movable heat sink at least partially enters into between the upper receptacle and the lower receptacle.
H01R 13/6583 - Shield structure with resilient means for engaging mating connector with separate conductive resilient members between mating shield members
H01R 13/508 - Bases; Cases composed of different pieces assembled by clip or spring
H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
Provided in the present invention are an electrical connector and an electrical connector combination. The electrical connector combination includes a circuit board and the electrical connector. The electrical connector includes: a first insulating housing, having a front end provided with a first coupling cavity and a receiving cavity; a plurality of first conductive terminals, respectively provided on upper and lower sides of the first coupling cavity, each first conductive terminal including a first contact portion extending forwards and a wiring portion extending backwards; a plurality of conducting wires, respectively connected to the wiring portions of the plurality of first conductive terminals; a second insulating housing, inserted into the receiving cavity; and a plurality of second conductive terminals, fixed on the second insulating housing, the second conductive terminal including a second contact portion extending forwards and a pin extending backwards, where the pin of the second conductive terminal is used to be electrically connected to the circuit board. The present invention facilitates space conservation and assembly.
H01R 12/73 - Coupling devices for rigid printing circuits or like structures coupling with the edge of the rigid printed circuits or like structures connecting to other rigid printed circuits or like structures
H01R 13/502 - Bases; Cases composed of different pieces
An electrode stack assembly includes an electrically insulative substrate having a cavity therethrough extending, a first counter electrode on a top surface thereof and extending through the substrate, a second sensing electrode on a bottom surface thereof and extending through the substrate, and a third electrode having a top body portion on a top of the substrate, a bottom body portion on a bottom of the substrate, and a coupling pin passing through the substrate and electrically coupling the top and bottom body portions. The third electrode electrically separates the pin of the sensing electrode from the counter electrode.
G01N 27/66 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating electric discharges, e.g. emission of cathode using wave or particle radiation to ionise a gas, e.g. in an ionisation chamber and measuring current or voltage
G01N 33/00 - Investigating or analysing materials by specific methods not covered by groups
To reduce the height of a connector having a retainer in which a positioning post is formed. A cable terminal 20, having an inclined part 22 which is formed between a front upper plate part 21a and a rear upper plate part 23a and which is inclined to approach a center line C1 toward the rear side. The retainer 40 has the positioning post 41 that is positioned to the rear of the inclined part 22 and restricts movement of the cable terminal 20 in the rearward direction of the cable terminal 20.
A connector assembly includes a shielding cover and a socket connector. The shielding cover includes a cover body, a compartment frame disposed at the cover body, and two insertion channels jointly defined by the cover body and the compartment frame and separated by the compartment frame in an up-down direction. The socket connector is disposed at a rear segment of the shielding cover, and includes two socket housings arranged in the up-down direction and respectively disposed at the two insertion channels, and a plurality of socket terminals. The compartment frame has a support structure located at a rear segment and providing support between the two socket housings. The support structure includes an upper support plate, a lower support plate, and a support block disposed between the upper support plate and the lower support plate.
A biased connector assembly is disclosed that includes a receptacle configured to mount to a substrate and form an electrical connection therewith, and a plug connector. The receptacle includes a cage that defines a port having a connector positioned therein. The connector may include a slot that is aligned with the port. The port includes one or more biasing members positioned therein. The plug connector includes a pluggable transceiver module to be inserted into the port and a card with at least one contact pad configured to engage with a terminal of the connector. The one or more biasing members may bias the plug module away from the connector such that a stub length of the contact pad is within a predetermined range.
A cage includes a cage housing forming an inner area with internal walls that define an upper port and a lower port. Each of the ports include a cap that forms a keyway. The cap in an upper bay can extend from the upper bay in a direction that is opposite a direction the cap in the lower port extends. The cage may include a plurality of spring fingers therein which engage with a conductive bezel. The cage provides EMI shielding for the plug connector.
H01R 13/6582 - Shield structure with resilient means for engaging mating connector
H01R 12/71 - Coupling devices for rigid printing circuits or like structures
H01R 13/502 - Bases; Cases composed of different pieces
H01R 13/514 - Bases; Cases formed as a modular block or assembly, i.e. composed of co-operating parts provided with contact members or holding contact members between them
H01R 13/6594 - Specific features or arrangements of connection of shield to conductive members the shield being mounted on a PCB and connected to conductive members
To provide a connector capable of appropriately attaching a retainer to a housing while reliably arranging a cable terminal at an appropriate position even when a clearance between members is reduced in order to reduce the size of the connector. A cable terminal 20 has a first stopped part 24a. A retainer 40 has a positioning post 41 positioned in a rearward direction from the first stopped part 24a of the cable terminal 20 and restricting movement of the cable terminal 20 in a rearward direction. The positioning post 41 is elastically deformable to move in a forward-rearward direction.
A server rack with a plurality of compute nodes is positioned in a facility that includes a spine and the server rack includes a middle of rack ((OR) switch located near the middle of the server rack, vertically speaking. The MOR switch includes a plurality of ports that are connected via passive cables to the compute nodes provided in the server rack. In an embodiment the passive cables are configured to function at 56 Gbps using non-return to zero (NRZ) encoding and each cable may he about of less than 1.5 meters long. An electrical to optical panel (EOP) can be positioned adjacent a top of the server rack and the EOP includes connections to the MOR switch and to the spine, thus the EOP helps connect the MOR switch to the spine. Connections between adjacent server racks can provide for additional compute bandwidth when needed.
H01L 23/467 - Arrangements for cooling, heating, ventilating or temperature compensation involving the transfer of heat by flowing fluids by flowing gases, e.g. air
H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
A connector assembly includes a shielding cover, a socket connector, and a rear cover. The shielding cover includes a plug connection channel having a rear end opening, and a top wall, two side walls and a bottom wall. Each of the side walls has a stop block protruding towards the plug connection channel. The stop block has a three-dimensional protruding structure and has an upper stop edge and a rear stop edge. The bottom wall has an insertion plate located in a rear portion and extending backwards. The socket connector is arranged in a rear section of the plug connection channel of the shielding cover by means of insertion from the rear end opening. The socket connector includes a socket housing. The socket housing has a stop block accommodation recess formed on a side surface thereof, and an insertion slot integrally formed in a bottom portion thereof. The stop block accommodation recess is used to accommodate the stop blocks on the two side walls, and the insertion plate of the shielding cover is inserted into the slot backwards. The rear cover is connected to the rear end opening of the shielding cover.
A socket connector includes a base formed of a conductive upper base part and a conductive lower base part which are affixed together, a conductive barrel seated within a passageway and a pocket formed by the base, at least one conductive biasing member engaging the base and the barrel, a conductive contact seated within the barrel, and an insulative housing in which the base is positioned. The housing is coupled to the base. At least one of the upper and lower base parts has a plurality of pins depending from the respective wall which seat within plated through holes of a printed circuit board. A coupling pin is mounted in the socket connector and is further coupled to an electrical component.
A charging system includes first and second ports supported by a single power supply, which is configured to support Universal Serial Bus (USB) Power Delivery (PD) power levels. A controller is configured to provide a negotiated PD power level from the single power supply to the first port when, in operation, only a single first device is connected to the charging system via the first port. The controller is further configured to reduce the power available to the first and second ports to a preset level from the single power supply when, in operation, a second device is connected to the charging system via the second port such that the first and second devices are both connected to the charging system.
A battery connection module is used to connect a plurality of batteries, includes a plurality of busbars, a connector, a single layer wiring flexible circuit board and a strengthening back board. The plurality of busbars are used to connect the plurality of batteries, the connector includes a plurality of conductive terminals, the single layer wiring flexible circuit board includes a plurality of terminal connecting points which are used to connect the plurality of conductive terminals and multiple traces which are connected with respective terminal connecting points, the strengthening back board corresponds to the connector in position and is provided on the single layer wiring flexible circuit board; the strengthening back board is provided with an adapting trace thereon; the multiple traces include at least one first trace; the first trace is adapted to the adapting trace on the strengthening back board, and then is adapted back to one of the plurality of terminal connecting points of the single layer wiring flexible circuit board via the adapting trace.
H01M 50/519 - Interconnectors for connecting terminals of adjacent batteries; Interconnectors for connecting cells outside a battery casing comprising printed circuit boards [PCB]
H01M 50/507 - Interconnectors for connecting terminals of adjacent batteries; Interconnectors for connecting cells outside a battery casing comprising an arrangement of two or more busbars within a container structure, e.g. busbar modules
H01M 50/503 - Interconnectors for connecting terminals of adjacent batteries; Interconnectors for connecting cells outside a battery casing characterised by the shape of the interconnectors
90.
SIGNAL TRANSMISSION SYSTEM AND DIELECTRIC WAVEGUIDE
A signal transmission system 1a is mounted on circuit boards 10A and 10B and on circuit boards 10A and 10B and includes semiconductor packages 12A and 12B containing an RF circuit as well as a dielectric waveguide 21E. The semiconductor packages 12A and 12B include the package surface 12f and the antenna 12e formed on the package surface 12f. The dielectric waveguide 21E includes a waveguide end surface 21a facing antenna 12e. An air gap G is ensured between the waveguide end surface 21a and the antenna 12e.
The present disclosure provides a connector assembly. The connector assembly includes a wire-end connector. The wire-end connector includes a wafer, a shield plate and a twin-ax cable. The wafer includes a frame and a terminal group. The terminal group is supported by the frame. The terminal group includes a signal terminal pair and a ground plate. The ground plate includes a ground terminal on both sides of the signal terminal pair. The shield plate is electrically connected to the ground plate. The shield plate includes an opening that penetrates the shield plate. The twin-ax cable includes a pair of conductors and a ground portion. The pair of conductors extend into the opening of the shield plate and are electrically connected to the signal terminal pair. The ground portion electrically connects at least one of the shield plate and the ground plate.
A number of user interface devices are described. In one example, a user interface device includes a lens having a graphic visible through the lens, a transparent circuit film comprising a top surface and a bottom surface, a reflector film bonded to the bottom surface of the transparent circuit film, the reflector film including an embossed area which defines a pocket between the reflector film and the bottom surface of the transparent circuit film, a light emitting diode (LED) bonded to the bottom surface of the transparent circuit film and positioned within the pocket between the reflector film and the bottom surface of the transparent circuit film, and a layer of transparent pressure-sensitive adhesive interposed between the bottom surface of the lens and the top surface of the transparent circuit film.
A first connector, that is a first connector that mates with a second connector, containing: a first connector main body; a first terminal attached to the first connector main body; a first high-frequency terminal attached to the first connector main body; and a first shield surrounding an entire circumference of the first connector main body; wherein the first shield contains an oblique part that extends obliquely downward, formed on an inner edge at the upper end, and also contains a plurality of linear parts and a plurality of curved parts; the first connector main body being integrally connected at the curved parts, and the first connector main body being separated at the linear parts.
H01R 13/6582 - Shield structure with resilient means for engaging mating connector
H01R 13/62 - Means for facilitating engagement or disengagement of coupling parts or for holding them in engagement
H01R 13/646 - ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS - Details of coupling devices of the kinds covered by groups or specially adapted for high-frequency, e.g. structures providing an impedance match or phase match
A socket connector is configured to mount to a component, such as a printed circuit board. The socket connector includes a base having a passageway and a channel extending outwardly from the passageway, a barrel including a wall having a flange extending outwardly therefrom, at least one biasing member engaging the flange and surrounding the wall, and a contact seated within the barrel. The wall is seated within the passageway and the flange is seated within the channel. The barrel is configured for movement within the base to align a centerline of a pin inserted into the socket connector with a centerline of the hole of the component.
H01R 12/91 - Coupling devices allowing relative movement between coupling parts e.g. floating or self aligning
H01R 13/187 - Pins, blades or sockets having separate spring member for producing or increasing contact pressure the spring member being in the socket
H01R 13/631 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure for engagement only
H01R 25/16 - Rails or bus-bars provided with a plurality of discrete connecting locations for counterparts
An electrical connector assembly can include a plug connector mountable to a planar substrate and a receptacle connector configured to receive a plurality of cables and that can mate with the plug connector. The plug connector may include a first inline terminal row and a second inline terminal row exposed on a mounting face to conductively contact the planar substrate. The receptacle connector can include a plurality of terminals having termination ends aligned in common wafer plane that can be conductively terminated with the plurality of cables. The plug connector and the electrical connector are configured to establish electrical channels from the termination ends coplanar with the common wafer plan to the first and second inline terminal rows.
H01R 13/648 - Protective earth or shield arrangements on coupling devices
H01R 13/6587 - Shielding material individually surrounding or interposed between mutually spaced contacts for separating multiple connector modules for mounting on PCBs
H01R 13/40 - Securing contact members in or to a base or case; Insulating of contact members
A stacked patch antenna is disclosed that provides desirable performance in a cost effective and space efficient manner. A frame system is used to support a first patch and a second patch and a director plate that can be positioned between the first patch and the second patch. The design of the system allows for the first patch and the second patch to have a lower effective dielectric constant.