Abstract: An improved broadside coupled, open pin field connector. The connector incorporates lossy material to selectively dampen resonance within pairs of conductive members connected to ground when the connector is mounted to a printed circuit board. The material may also decrease crosstalk and mode conversion. The lossy material is selectively positioned to substantially dampen resonances along pairs that may be connected to ground without unacceptably attenuating signals carried by other pairs. The lossy material may be selectively positioned near mating contact portions of the conductive members. Multiple techniques are described for selectively positioning the lossy material, including molding, inserting lossy members into a housing or coating surfaces of the connector housing. By using material of relatively low loss, loss when the conductive members are used to carry signals is relatively low, but an appreciable attenuation of resonances is provided on pairs connected to ground.

Abstract: A cable reel that has first and second opposing flanges. The first flange has a first hub portion and the second flange has a second hub portion. The first and second hub portions are axial aligned and configured to mate with one another to support cable. The first hub portion includes an elongated wall extends from the first flange. The elongated wall is sized to support cable. The elongated wall defines an inner area that is configured to accept the second hub portion. The elongated wall includes a plurality of flexible segments. The second hub portion includes a truncated wall that is receivable in the inner area of the first hub portion. The truncated wall includes a tapered outer surface for engaging and expanding the plurality of flexible segments.

Abstract: A modular electrical connector with separately shielded signal conductor pairs. In some embodiments, the connector is assembled from modules, each containing a pair of signal conductors with surrounding partially or fully conductive material. In some embodiments, the modules have projecting portions, of conductive and/or dielectric material, that are shaped and positioned to reduce changes in impedance along the signal paths as a function of separation of conductive elements, when the connectors are separated by less than the functional mating range.

Abstract: A connector coupling that has a body, an inner sleeve receiving the body, at least one self-locking pawl pivotably coupled to the inner sleeve that is configured to toggle between first and second positions in engagement with ratchet teeth of the body, and an outer sleeve surrounding the inner sleeve. The inner and outer sleeves are rotatable together in opposite mating and unmating directions. At least one spring member is attached to the outer sleeve and is configured to bias the pawl. When the pawl is in the first position engaging the ratchet teeth, the inner and outer sleeves are rotatable together in the mating direction only and prevented from rotating in the unmating direction and when the pawl is in the second position engaging the ratchet teeth, the inner and outer sleeves are rotatable together in the unmating direction only and prevented from rotating in the mating direction.

Abstract: An electrical connector with reduced cross talk and controlled impedance. The connector comprises hybrid shields with lossy portions and conductive portions. The synergistic effect of the lossy portions and the conductive portions allows the hybrid shields to be relatively thin such that they can be incorporated into the mating interface regions or other mechanically constrained regions of the connector to provide adequate crosstalk suppression without undesirably impacting impedance. The conductive portions may be shaped to preferentially position the conductive regions adjacent signal conductors susceptible to cross talk to further contribute to the synergy. The conductive regions may include holes to contribute to desired electrical properties for the connector.

Abstract: An electrical connector designed for high speed signals. The connector includes one or more features that, when used alone or in combination, extend performance to higher speeds. These features may include compensation for tie bars that are used to hold conductive members in place for molding a housing around the conductive members. Removal of the tie bars during manufacture of the connector may leave artifacts in the conductive members and/or housing, which may degrade electrical performance. However, that degradation may be avoided by features that compensate for the artifacts. The conductive members, for example, may include regions, adjacent tie bar locations, that compensate for portions of the tie bar that are not fully removed.

Abstract: A float adapter for an electrical connector that includes a conductive shell and an insulator received in the conductive shell. The insulator includes an engagement end, an interface end that is opposite the engagement end, and a reduced diameter middle portion therebetween. The insulator includes an inner bore that extends through the engagement end, the interface end, and the reduced diameter middle portion. The interface end has a lead-in tip portion that extends outside of the first end of the conductive shell. The lead-in tip portion has a tapered outer surface that terminates in an end face surface and a shoulder remote from the end face surface that defines an outer diameter that is larger than the inner diameter of the conductive shell. An inner contact is received in the inner bore of the insulator. The inner contact has socket openings at either end.

Abstract: An electrical connector designed for high speed signals. The connector includes one or more features that, when used alone or in combination, extend performance to higher speeds. These features may include compensation for tie bars that are used to hold conductive members in place for molding a housing around the conductive members. Removal of the tie bars during manufacture of the connector may leave artifacts in the conductive members and/or housing, which may be addressed by the features. The conductive members, for example, may include regions, adjacent tie bar locations, that compensate for portions of the tie bar that are riot fully removed. Alternatively or additionally, a housing may include openings around tie bar locations such that a punch may be used to sever the tie bars. These openings may be filled to avoid performance-affecting artifacts.

Abstract: An electrical assembly has a lead frame with a plurality of elongated conductor sets and an insulative housing. Each conductor set has two differential signal pair conductors between a first ground conductor and a second ground conductor. A slot extends through the insulative housing and at least partially exposes the first ground conductor of a first conductor set and the second ground conductor of a second conductor set. A first ground shield has a first tab bent inward that extends into the slot from a first side of the lead frame. A second ground shield has second tab bent inward that extends into the slot from a second side of the lead frame. A conductive medium is provided in the slot to electrically connect the first tab, the second tab, the first ground conductor and the second ground conductor.

Abstract: A direct-connect orthogonal electrical connection system with improved high frequency performance is provided. A conductive member is provided between first and second components, each having signal and ground conductors. The conductive member is electrically coupled to ground conductors of both the first and second components and may also have openings through which signal conductors of the first and second components may connect. As such, signal conductors may be positioned relative to the conductive member such that a uniform impedance is maintained along a signal path throughout the interconnection, reducing noise and reflections. The signal conductors may be formed with multiple beams of different lengths to create multiple points of contact distributed along an elongated dimension. For example, a third beam may be fused to a mating portion to allow a tolerance for deviations in alignment between two directly connected connectors.

Abstract: An RF connector module and associated printed circuit board providing high isolation and controlled impedance at RF frequencies. The connector module may be manufactured using conventional manufacturing techniques, such as stamping, insert molding, multi-shot molding and interference fit between components, to provide low cost. A connector module constructed with these techniques may implement a co-planar waveguide structure, with conductive shields for isolation and lossy material to enforce co-planar propagation modes. The printed circuit board may similarly be manufactured using conventional manufacturing techniques, including drilling to form vias. As a result, an interconnection system may be manufactured with low cost. These techniques may be applied to provide performance, including in the form of isolation between RF signals, comparable to that provided by more expensive components.

Abstract: An electrical connector assembly that includes a first connector component that has a housing supporting at least one first exposed contact at an interface surface thereof and has a body portion for terminating a first cable. A second connector component is adapted to slidably receive the first component such that the components are mated and unmated in the same direction. The second component includes a housing supporting at least one second exposed contact at an interface surface thereof and has a body portion for terminating a second cable. When the first component is received in the second component, the components are mated such that the first exposed contact engages the second exposed contact, thereby forming a first electrical connection therebetween and a longitudinal axis of the first cable is spaced from and substantially parallel to a longitudinal axis of the second cable.

Abstract: A modular electrical connector with separately shielded signal conductor pairs. The connector may be assembled from modules, each containing a pair of signal conductors with surrounding partially or fully conductive material. Modules of different sizes may be assembled into wafers, which are then assembled into a connector. Wafers may include lossy material. In some embodiments, shielding members of two mating connectors may each have compliant members along their distal portions, such that, the shielding members engage at points of contact at multiple locations, some of which are adjacent the mating edge of each of the mating shielding members.

Abstract: Electrical connectors for interconnecting circuit boards. One such connector includes an integral flange for mounting a guidance pin in any of multiple orientations. A corresponding keying block may have a polarization component that can be mounted in a corresponding number of positions. The connector can accept conductive elements with different shapes for signals and grounds, but the housing may be adapted to receive either type of contact in any contact location. Protection of contact elements from excessive yield is provided within the insulative housing of the backplane connector. On the daughter card connector, height difference between ground and signal contacts in wafer assemblies protects components from electrostatic discharge.

Abstract: A coupling device for an electrical connector that includes a connector shell that has a ratchet engagement and an inner coupling member that has actuating end through which the shell extends. An outer surface of the inner member at the actuating end includes a first locking guide. A spring ratchet member is received in a cavity of the inner member and is configured to engage the ratchet engagement of the shell. An outer sleeve is disposed over the inner member and has an inner surface that has a second locking guide that cooperates with the first locking guide and has a decoupling member. Rotating the outer sleeve in a mating direction rotates the inner member in the mating direction, thereby allowing the ratchet member to engage the ratchet engagement of the shell in a one-way ratchet and preventing the inner member from rotating in an unmating direction.

Abstract: An electrical connector for connecting a conductor of a daughter card connector wafer with a blade in the housing of a backplane connector. The daughter card conductor has a body with two elongated beams extending outward from the body. The two elongated beams each have an outer edge and an inner edge, whereby an opening is defined between the inner edges. The backplane conductor has a body with a narrowed tab portion extending outward from said second conductor body. The narrowed tab portion having outer opposite edges and is sized so that the narrowed tab portion fits between at least a portion of the outer edges of the two elongated beams, and in some cases between at least a portion of the inner edges of the two elongated beams.

Abstract: A housing for an electrical contact that includes a unitary one-piece body that has an internal bore that extends between a front end and an opposite rear end of the unitary one-piece body and is adapted to receive the electrical contact. A front holding member extends into the internal bore from an inner surface of the internal bore, and the front holding member is located at the front end of the one-piece body. A rear holding member extends into the internal bore, and is disposed on the inner surface of the internal bore at the rear end of the one-piece body. A contact retaining member receiving area is defined in the internal bore between the front holding member and the rear holding member for capturing a contact retaining member therebetween.

Abstract: A modular electrical connector with modular components suitable for assembly into a right angle connector may also be used in forming an orthogonal connector or connector in other desired configurations. The connector modules may be configured through the user of extender modules. Those connector modules may be held together as a right angle connector with a front housing portion, which, in some embodiments, may be shaped differently depending on whether the connector modules are used to form a right angle connector or an orthogonal connector. When designed to form an orthogonal connector, the extender modules may interlock into subarrays, which may be held to other connector components through the use of an extender shell. The mating contact portions on the extender modules may be such that a right angle connector, similarly made with connector modules, may directly mate with the orthogonal connector.

Abstract: An electrical connector designed for high speed signals. The connector includes one or more features that, when used alone or in combination, extend performance to higher speeds. These features may include compensation for tie bars that are used to hold conductive members in place for molding a housing around the conductive members. Removal of the tie bars during manufacture of the connector may leave artifacts in the conductive members and/or housing, which may be addressed by the features. The conductive members, for example, may include regions, adjacent tie bar locations, that compensate for portions of the tie bar that are not fully removed. Alternatively or additionally, a housing may include openings around tie bar locations such that a punch may be used to sever the tie bars. These openings may be filled to avoid performance-affecting artifacts.

Abstract: A modular electrical connector with separately shielded signal conductor pairs. The connector may be assembled from modules, each containing a pair of signal conductors with surrounding partially or fully conductive material. Modules of different sizes may be assembled into wafers, which are then assembled into a connector. Wafers may include lossy material. In some embodiments, shielding members of two mating connectors may each have compliant members along their distal portions, such that, the shielding members engage at points of contact at multiple locations, some of which are adjacent the mating edge of each of the mating shielding members.