Provided are terminal-free connectors for flexible interconnect circuits. A connector comprises a housing chamber defined by at least a first side wall and a second side wall oppositely positioned about the base. An edge support is positioned at each of the first side wall and the second side wall. The edge supports allow for precise placement of the flexible interconnect circuit inside the housing chamber. A cover piece is coupled to the base via a first hinge, and is configured to move between a released position and a clamped position. The cover piece includes a clamp portion securing the flexible interconnect circuit against the edge supports in the clamped position. A slider may be configured to move between an extended position and an inserted position within the housing chamber, and may include a convex upper surface configured to urge the flexible interconnect circuit upwards in the inserted position.

The invention relates to a mounting support intended to make it easier to connect at least one free connector to a complementary connector, the free connector being mounted at one end of an electric cable, the complementary connector being able to be mounted on an electronic board, the mounting support comprising a base and, for each free connector, a first impression and a second impression formed in a face of the base, the first impression being designed to receive a head of the free connector and comprising first holding means designed to keep the head of the free connector in the first impression, the second impression being designed to accommodate a connecting portion of the free connector and of the electric cable, and comprising second holding means designed to keep the connecting portion in the second impression.

The clamping connector includes a first shell member and a second shell member. The first shell member and the second shell member each include a tab extending from a first side, which defines a tab aperture and a protrusion extending from the first side. The first shell member and the second shell member each also include a hinge aperture, which is oriented along a first axis on a second side. The protrusion of the first shell member extends into the tab aperture of the tab of the second shell member and when the first shell member is secured to the second shell member the protrusion of the second shell member extends into the tab aperture of the tab of the first shell member. The clamping connector further includes a hinge pin, which is received by the hinge apertures of the first and second shell members to rotatably couple the first shell member and the second shell members.

A cable termination assembly configured for mounting to an interior portion of a printed circuit board. The cable termination assembly has a frame shaped to receive a paddle card to which a plurality of cables are terminated. A lid, when closed, may force the paddle card into contact with an interposer, which in turn may be pressed into a printed circuit board on which the cable termination assembly is mounted. Electrical signals may pass between the cables and traces in the printed circuit board via the paddle card and interposer. The termination assembly may be mounted near a processor or other high speed component on the printed circuit board, enabling high speed signals to be coupled with low loss between a periphery of the printed circuit board, or even a location off the printed circuit board, and the high speed component.

A protector includes a plurality of lead-out openings through which electric cables are configured to be led out, and an electric cable attachment part which is provided in a projecting manner at an opening edge part of the lead-out opening and to which the electric cables are configured to be attached through a hinge part with flexibility. The electric cable attachment part is bent toward the lead-out opening by the hinge part, and a bent state thereof is configured to be held by a holding part.

A connector includes a terminal connected to a front end portion of an electric wire and a housing in which the terminal is arranged. The housing includes a base portion and cover members. The electric wire extending rearward from a portion of the housing that has the terminal therein is disposed on the base portion. The cover members that are movable between a position in which the cover members cover the base portion and a position in which the cover members are away from the base portion. The cover members include a wire pressing portion that presses the electric wire disposed on the base portion toward the base portion when the cover members are in the position in which the cover members cover the base portion.

A connection device electrically connects a textile to an electrical contact of a connector. The connection device is received in an insertion direction in the connector. The connection device includes a body and an attachment device. The body has a first end and a second end opposite the first end in the insertion direction. The body has a first surface extending between the first end and the second end and a second surface opposite to the first surface. The body has a portion at the first end extending essentially transversely from the first surface, the portion having an aperture into which the textile is inserted. The attachment device for the textile is connected to the second surface at the first end.

Disclosed herein are systems and methods for coupling electrodes to electrical components that may be utilized in a variety of applications to collect data from the electrodes. In one embodiment, an electrode connection system to couple an electrode to an electrical component. The electrode connection system includes the electrical connector body comprising a PCB assembly cavity and an electrode channel. An electrode clamp coupled to the electrical connector body may include an engaging mechanism and at least one electrode clamp pad protrusion to couple an at least one electrode pad to an at least one connector pad. The PCB assembly may include at least one connector pad. The electrode may comprise at least one electrically active electrode pad. The electrical component may collect data from the electrode or stimulate tissue utilizing the electrode.

An electrical terminal having a base section, a first contact leg and a second contact leg. The contact legs extend from the base section. The first contact leg has a first generally planar portion. A first curved resilient contact portion extends from a first side of the first planar portion, and a first positioning wall extending from a second side of the first planar portion. The first side of the first planar portion is opposed to the second side of the first planar portion. The second contact leg has a second generally planar portion. A second curved resilient contact portion extends from a first side of the second planar portion, and a second positioning wall extends from a second side of the second planar portion. The first side of the second planar portion is opposed to the second side of the second planar portion.

A cap for an electrical connector comprises a first cap body defining a first portion of a first circular opening, and a second cap body defining a second portion of a first circular opening. The second cap body is hingedly connected to the first cap body and movable between an open position and a closed position. In the closed position, first and second portions of the first cap body and the second cap body define a circular opening sized to receive a conductive cable therethrough.