Embodiments of the invention include LED lighting systems and methods. For example, in some embodiments, an LED lighting system is included. The LED lighting system can include a flexible layered circuit structure that can include a top thermally conductive layer, a middle electrically insulating layer, a bottom thermally conductive layer, and a plurality of light emitting diodes mounted on the top layer. The LED lighting system can further include a housing substrate and a mounting structure. The mounting structure can be configured to suspend the layered circuit structure above the housing substrate with an air gap disposed in between the bottom thermally conductive layer of the flexible layered circuit structure and the housing substrate. The distance between the layered circuit structure and the support layer can be at least about 0.5 mm. Other embodiments are also included herein.

An electrical connector includes: an insulative housing having a base portion; a number of conductive terminals affixed to the insulative housing and arranged in two rows, each conductive terminal comprising a contacting portion, and each row of conductive terminals comprising a pair of grounding terminals and a number of internal terminals located between the pair of grounding terminals; a metal shielding plate affixed to the insulative housing and sandwiched between the two rows of conductive terminals; and a main shell enclosing the insulative housing; wherein a distance between the contacting portions of the internal terminals and the metal shielding plate is greater than a distance between the contacting portions of the grounding terminals and the metal shielding plate.

An electrical connector is disclosed that includes an insulative housing having a mating face at one end, a rear face at another end, a mating slot at the mating face for receiving a complementary connector, a first set of contacts mounted in a first set of channels incorporated at a top of the insulative housing and a second set of contacts mounted in a second set of channels incorporated at a bottom of the insulative housing, and a shielding device located between the first set of contacts and the second set of contacts.

An electrical connector used for connecting an chip module to a printed circuit board includes an insulating housing, a number of terminals and a cover. The insulating housing includes a body portion. The terminals are insert molded in the body portion. The body portion includes an upper face and a lower face. Each of the terminals includes a first soldering portion extending upwardly beyond the upper face and a second soldering portion extending downwardly beyond the lower face. The cover covers the insulating housing. The electrical connector has a simple structure and a simple manufacturing process.

An electrical connector used for connecting an chip module to a printed circuit board includes an insulating housing, a number of terminals and a cover. The insulating housing includes a body portion. The terminals are insert molded in the body portion. The body portion includes an upper face and a lower face. Each of the terminals includes a first soldering portion extending upwardly beyond the upper face and a second soldering portion extending downwardly beyond the lower face. The cover covers the insulating housing. The electrical connector has a simple structure and a simple manufacturing process.

A base strip for connection to a printed circuit board includes a first side wall that extends lengthwise along a longitudinal direction; a second side wall that extends lengthwise along the longitudinal direction and that is at a distance from the first side wall along a crosswise direction that is oriented crosswise to the longitudinal direction, so that, between the side walls, a receiving space is formed into which one or more plug-in elements can be inserted in the insertion direction; and a base that connects the first side wall and the second side wall to each other and that has a plurality of receiving openings to-receive electric contact elements. The center of gravity of the base strip corresponds to the geometric center of gravity of an imaginary cuboid that envelops the base strip.

Connector is provided that includes a plurality of first and second terminals that are arranged in parallel and include contact portions, mounting portions, and intermediate portions that connect the contact portions and the mounting portions. The contact portions are disposed along first and second columns that are mutually offset. The intermediate portion of the first terminal has an overlapping region formed along the first column so as to overlap with at least a portion of an adjacent second terminal.

The invention deals with a support for light source(s) for a light module, notably for a motor vehicle, comprising a substrate; at least one surface light source of the organic light-emitting diode type supported by the substrate, the at least one surface light source comprising, at one or more edges, at least two electrical contact zones; electrical tracks deposited on the substrate; and electrical contacts between the electrical contact zones of the light source or sources and the electrical tracks. The electrical contacts comprise elastic blades, in contact under pressure with the contact zone or zones of the surface light source or sources and with the electrical tracks on the substrate.

An electrical connector assembly is provided and includes a carrier having an upper surface and a lower surface. The lower surface is configured to face a host circuit board. The upper surface is configured to face a component circuit board of an electrical component. The carrier includes a plurality of contact openings therethrough. The electrical connector assembly includes contacts coupled to the carrier and passing through the corresponding contact openings. Each contact has a conductive polymer column extending between an upper mating interface and a lower mating interface. The conductive polymer column is compressible between the upper mating interface and the lower mating interface. The conductive polymer column includes an inner core and an outer support body. The inner core is manufactured from a first material. The outer support body is manufactured from a second material. The second material has a lower compression set than the first material. The first material has a higher electrical conductivity than the second material.

An electrical connector assembly includes a carrier having an upper surface and a lower surface. The carrier includes a plurality of contact openings therethrough. The electrical connector assembly includes contacts coupled to the carrier and passing through the corresponding contact openings. Each contact has a conductive polymer column extending between an upper mating interface and a lower mating interface. The conductive polymer column includes an inner core manufactured from a first material and an outer shell manufactured from a second material. The second material has a higher electrical conductivity than the first material. The first material has a lower compression set than the second material.