A circuit includes a connector having first and second mateable portions. Each portion includes at least two terminals configured to mechanically engage at least two terminals of the other portion. The two terminals within the first and second portions are arranged so that as the first and second portions are mated, a first terminal of the first portion and a first terminal of the second portions come into contact before respective second terminals of the first and second portions. The circuit also includes a polymeric positive temperature coefficient (PPTC) device with a first terminal in electrical communication with the first terminal of the first portion and a second terminal in electrical communication with the second terminal of the first portion. A power terminal is in electrical communication with the second terminal of the first portion and is configured to be connected to a power source. A load terminal is in electrical communication with the first and second terminals of the second portion and is configured to be connected to a load.

The present invention is an RFID-enabled electrical connector with connector position assurance (“CPA”) features. The RFID tag is only readable after the CPA features have been fully deployed. The electrical connector is comprised of at least two parts, a socket and a plug. In the illustrated embodiment, a connector housing is positioned between the socket and plug, with both the socket and plug connecting to the connector housing. Until the CPA feature has been fully deployed, the RFID tag is covered by an electrically conductive material, preferably an electrically conductive plastic. The RFID tag can only be properly read after the CPA feature has been fully deployed. To prevent signal leakage, the RFID tag can alternately be placed inside a five-sided box fabricated from electrically conductive material, preferably electrically conductive plastic.

A connection includes a widened reinforcement harness which comprises a reinforced harness, a non-deformable ferrule and a reinforcement portion which has a greater diameter than the reinforcement of the harness, the non-deformable ferrule being arranged around the harness with the reinforcement of the harness folded on the outer side of the non-deformable ferrule, a first end of the reinforcement portion being attached around the folded portion of the reinforcement of the harness, the connection further comprising an integrated coupling connector, a second end of the reinforcement portion of the widened reinforcement harness being attached to a section of the integrated coupling connector. This connection is particularly advantageous for the small harness, wherein the reinforcement of the harness has a diameter which is too small to surround the section of an integrated coupling connector.

An electronic-element mounting package includes a wiring substrate having a first surface and a wiring pattern thereon; a base having a second surface and a through hole whose opening is on the second surface; a signal line penetrating the through hole and having a first end exposed from an opening of the through hole; and an insulating member between an inner surface of the through hole and the signal line and has an end portion and a main portion. The end portion has an end surface on a side of the opening of the through hole, and the main portion is farther from the opening of the through hole than the end portion. The electronic-element mounting package also has a conductive joining material with which the wiring pattern and the first end are joined. Permittivity of the end portion is larger than permittivity of the main portion.

A connector including a contact element arranged in an interior of the connector and contacting an electrical connection element and an impedance improving element located at a side of the electrical connection element. The impedance improving element has a reception channel through which the contact element extends and a deformation section adapted to be deformed at least one of radially and axially.

An electrical connector for a multi-wire electrical cable includes at least two cable-side electrical contact elements, including associated terminals to each of which is to be connected a wire of the electrical cable, and at least two output-side electrical contact elements, from each of which projects an electrical connector element by which an electrical connection is establishable to a mating connector. A carrier body is disposed between the cable-side electrical contact elements and the output-side electrical contact elements. The cable-side electrical contact elements, the output-side electrical contact elements and the carrier body are disposed in a spaced-apart relationship to each other, and the cable-side and output-side contact elements are electrically connected to each other via an electrical device disposed on the carrier body.

An electronic component unit includes: a circuit board to mount an electronic component on the circuit board; a connector to receive and retain a terminal to be electrically connected to the circuit board; and a cover assembled to the connector and housing the circuit board. The circuit board is retained with the cover by using a beard retaining portion integrated with or separate from the cover. The connector has a cover retaining portion including a pair of protrusion portions. The cover retaining portion retains the cover assembled to the connector by holding a part of the cover between the pair of the protrusion portions.

A connection includes a widened reinforcement harness which comprises a reinforced harness, a non-deformable ferrule and a reinforcement portion which has a greater diameter than the reinforcement of the harness, the non-deformable ferrule being arranged around the harness with the reinforcement of the harness folded on the outer side of the non-deformable ferrule, a first end of the reinforcement portion being attached around the folded portion of the reinforcement of the harness, the connection further comprising an integrated coupling connector, a second end of the reinforcement portion of the widened reinforcement harness being attached to a section of the integrated coupling connector. This connection is particularly advantageous for the small harness, wherein the reinforcement of the harness has a diameter which is too small to surround the section of an integrated coupling connector.

Improved Micro USB Charging Port Manufactures Version replicate the default Micro USB female Android type charging and data ports by using a microchip and Android type two Micro USB female connectors to provide two separate ports such as one port exclusively for charging and separate port exclusively for data transfer on a popup flap and pop up flap is sunk in to the device chassis from the back of the android device.

There is provided a coaxial connector device that enables a reduction in deterioration in signal quality and transmission characteristics at high frequencies. A coaxial connector device 1 includes a main connector 10 and a board connector 20. A main connector body 11 has a first fitting part R1 for a coaxial cable connector at one end and a second fitting part R2 at the other end. Inside the main connector body 11, a center contact 13 and a card edge substrate 17 electrically connected to the center contact 13 are included. In a board connector body 21 a slot 23 is formed. When the second fitting part R2 of the main connector 10 is fitted to the board connector 20, the end portion of the card edge substrate 17 is coupled to the slot 23 of the board connector body 21, a plurality of substrate contacts included in the card edge substrate 17 electrically contacts a plurality of inner contacts 25 of the board connector body 21, and the second fitting part R2 of the main connector body 11 electrically contacts an outer conductor contact 27.