Abstract: A connector for surface mounting with a solder reflow process with solder masses fused to mounting ends of contacts exposed in a mounting surface of the connector. The solder masses may be attached to edges of the mounting ends using a pin transfer method to apply flux to the edges. The edges may have a concave shape to both increase the length of the edge to which the solder masses are attached and position the solder masses with respect to the mounting ends. Solder paste may be omitted in attaching the solder balls to the contacts, reducing the capacitance of the contact and promoting uniformity of the impedance of the signal paths through the mounting interface of the connector.

Abstract: A circular power connector that can accommodate plugs of varying diameters includes a plurality of electrical terminals that include a contact beam extending from and monolithic with base, where the contact beam includes a contact portion, and a mounting portion that extends from and monolithic with a base for mounting the terminal to a substrate. The terminals are cylindrically arranged to receive a plug. Alternatively, each electrical terminal includes a frame portion, a first contact beam extending from the frame in a first direction, and a second contact beam extending from the frame in a second direction. Multiple electrical terminals are oriented so that the first and second contact beams for one terminal extend at an angle, preferably perpendicular, to the first and second contact beams of another electrical terminal, in a still further embodiment, an electrical terminal having two halves is provided.

Abstract: An end coupling for a rock bolt having a shaft having an external thread, the coupling having an axis and the coupling comprising a body having a leading end and a trailing end spaced apart along the axis, a first passage portion extending along the axis from the leading end; a second passage portion extending along the axis from the trailing end; the first passage portion including a first thread portion to threadingly engage the external thread on the shaft of the rock bolt; the second passage portion including a drive receiving portion arranged to be engaged with a drive inserted into the second passage portion via the trailing end to impart rotation to the coupling about the axis.

Abstract: An insulation displacement contact includes a monolithic electrically conductive contact body that includes mating portion and a mounting portion. A plurality of the insulation displacement contacts are configured to be delivered to a substrate by a connector housing. The mating portion defines a pair of insulation displacement slots configured to receive an electrical cable so as to place the electrical cable in electrical communication with the substrate through the insulation displacement contact.

Abstract: An electrical connector comprises a housing, a plurality of contacts arranged in the housing, an actuator mounted on the housing, capable of rotating with reference to the housing and a pair of fixing tabs positioned in the vicinity of two ends of the actuator. Each fixing tab has a lock portion for engaging with a flexible printed circuited connected to the electrical connector and a spring portion connected to the lock portion. The fixing tab is engaged with the actuator so that rotation of the actuator from an original position to a release position causes the lock portion of the fixing tab to disengage with the flexible printed circuit connected to the electrical connector and the actuator resumes from the release position to the original position under a resilient force exerted thereon by the spring portion of the fixing tab.

Abstract: A mine bolt includes an elongated body having a first end and a second end positioned opposite the first end, and an anchor comprising a tube defining a central opening and a slot extending at least a portion of the length of the tube. The anchor is secured to the elongated body. The anchor is configured to compress upon installation of the mine bolt to anchor the elongated body within a bore hole.

Abstract: Methods and apparatus are disclosed for supporting first and second electrical connectors on a substrate. For instance, the first electrical connector includes electrical contacts that are configured to be mounted to the substrate. The second electrical connector includes electrical contacts that are configured to be mounted to a complementary electrical component other than the substrate. The second electrical connector is thus configured to be attached to the first electrical connector, such that the second electrical is supported by the substrate without being mounted to the substrate.

Abstract: The present disclosure relates an automatic gain control apparatus and method for rapidly and effectively completing automatic gain control by performing a gain control procedure only three times irrespective of intensity of a received signal using peak values in an analog region and an output signal of an analog-digital converter.

Abstract: In accordance with one embodiment, an electrical connector system can include an electrical signal connector and an electrical power connector. The electrical signal connector and the electrical power connector can be mounted on opposed surfaces of a printed circuit board. The electrical power connector can be constructed as a hermaphroditic power connector that includes at least one header power contact supported by a connector housing, and at least one receptacle power contact supported by the connector housing.

Abstract: An electrical interconnection system with an adapter mounted in an opening within a connector interface of a panel of an electronic enclosure is described. A sealing member may be used to prevent passage of foreign matter, such as liquid, gas or dust particles into the enclosure and into the mating region between the adapter and a mating plug connector. The sealing member may comprise a base and a sidewall configured to wrap around an outer border of the adapter. The sealing member may be configured to form a first sealing interface with the panel, and a second sealing interface with the plug connector. The first and second sealing interfaces may be orthogonal to each other. The sealing member may be made of an elastic material.

Abstract: A complementary metal oxide silicon transceiver having an integrated power amplifier is provided. The complementary metal oxide silicon transceiver having the integrated power amplifier is capable of controlling an output power according to a communication environment to solve the following problem that with the increment of an output level of a power amplifier, performance is decreased when noises flow into other blocks of a transceiver with power and thus are inputted to the power amplifier.

Abstract: A substrate configured to be mated with an electrical connector having improved performance data is achieved by reducing the length of the electrical signal contact pads of the substrate with respect to the length of electrical signal contact pads of conventional substrates that are configured to be mated with the electrical connector.

Abstract: An electrical power connector can include an electrically insulative connector housing, a first plurality of electrical contacts supported by the connector housing, and a second plurality of electrical contacts supported by the connector housing. The first plurality of electrical contacts can be of a first type, and the second plurality of electrical contacts are of a second type and positioned adjacent to the first plurality of electrical contacts. The arrangement of the electrical contact can provide creepage protection for the electrical connector. Further, the electrical contacts can include mating portions that are touch proof.

Abstract: A pin receiving terminal contact and a connector comprising one or more of such terminal contacts. The terminal contacts (1) comprise a base (13) comprising a folded strip and at least a first contact beam (3, 5) having a root end extending from said base (13) and a contact face (11, 12) bent sideward under an angle with said root end.

Abstract: A connector, such as a cable connector, with terminal contacts including two parallel resilient contact beams and a third resilient beam. Tips of the two parallel resilient beams are forced apart by the third resilient beam. The third beam can also be a resilient contact beam, e.g., extending into a direction opposite to the direction of the other two contact beams.

Abstract: An electrical connector is disclosed having a multi-piece connector housing. The housing pieces may be configured to fit together with separation between interior surfaces of the separately manufactured housing pieces. This separation selectively introduces pockets of air adjacent portions of the mating contacts within the connector. The packets of air may be preferentially positioned to provide a more uniform impedance along the length of a mating contact. The separation may be introduced near the mating interface of a receptacle connector, for example, to counter the effects of changes in contact geometry at the mating interface.

Abstract: The present disclosure discloses a wireless communication device and method with low power modes. According to an aspect of the present embodiment, an object is to provide a wireless communication device and method, which may set an accurate timing advance by synchronizing a clock signal provided to a timer with a clock signal provided to a near-field wireless communication circuit.

Abstract: A card edge connector with an improved manner of creating a preload force on conductive elements held by a housing. The housing may include a member and an opening at a mating end. Each conductive element may have a contact portion curving inwardly relative to the opening and a tip extending from the contact portion towards the mating end. Each contact portion may form an electrical connection with an edge pad of a card to be inserted into the opening. The conductive elements may be configured to have a rest state in order to create a proper force to be exerted on the edge pads. The member may preload the conductive elements by contacting the conductive elements from a location farther from the mating end than the contact portion, which may avoid damage upon insertion of a card into the connector without the need for long tips of the conductive elements. As a result, the connector may operate at high frequencies.

Abstract: A circuit board connector comprises a housing, at least one signal contact disposed in the housing, and a pair of locking arms attached to the housing. The housing has a slot formed therein, for receiving a circuit board. Each locking arm has a latch movably disposed in the slot. The pair of locking arms are resiliently deformable relative to the housing between a lock position at which the latch is positioned to block the slot, to lock a circuit board to the connector, and an unlock position at which the latch is positioned to form a clearance in the slot, to allow disconnection of the circuit board from the connector.

Abstract: An electrical connector configured for differential pairs with low in-pair skew. The connector may comprise lead frame assemblies, such as insert molded lead frame assemblies, with adjacent conductors configured for reduced skew by distributing skew correction throughout the transmission path through the lead frame assembly. Elongated air gaps are formed in a side of the housing, exposing the longer conductor of each pair. The elongated air gap may span the entire length of the arc of a longer conductor of each pair. The width of this air gap may be different for different pairs in the lead frame assembly and may be selected to cancel or prevent in-pair skew from arising. The width for each pair may be selected to tune the effective dielectric constant of the longer conductor such that its electrical length matches that of the shorter conductor.