A two-piece high voltage (HV) terminal frame having a terminal frame and a contact spring. The terminal frame includes at least a top portion, a bottom portion, and a middle portion forming an opening for receiving a first bus bar and a second bus bar. The contact spring is configured to engage the top portion of the terminal frame, wherein the contact spring includes a spring portion that extends into the opening of the terminal frame.

An electrical connector comprising a plug arranged and designed to connect to a receptacle. The plug includes an electrically-insulating body, a conductor ring, and a conductive member connected to the plug conductor ring. The receptacle includes an electrically-insulating body, a conductor ring having an axial inner bore and an annular groove facing radially inward, a conductive member connected to the receptacle conductor ring, and an electrically-conductive contact having a generally annular profile, at least a portion of the electrically-conductive contact received in and contacting the annular groove and at least a portion of the electrically-conductive contact not received in the annular groove. Upon insertion of the plug into the receptacle and substantially radially aligning the plug and receptacle conductor rings, the electrically-conductive contact is elastically deformed and provides electrical contact between the plug conductor ring and the receptacle conductor ring.

An evaluation jig comprises a pair of female terminals connectable to a pair of male terminals of a charging connector, and an adjustment member that can adjust contact resistance of the female terminal and the male terminal. The female terminal is reducible in diameter. The adjustment member can apply an external force to the female terminal to reduce the female terminal in diameter.

An electrical contact element for electrically contacting a mating contact element includes: a plurality of contact lamellae which are arranged around a plug opening into which a mating contact element is pluggable along a plug direction and which together form a groove that encircles the contact lamellae around the plug direction; and a spring element that is arranged on the groove and engages the contact lamellae to provide an elastic clamping force on the contact lamellae. The contact lamellae each have an inner surface which faces the plug opening and is straight in cross section transversely to the plug direction.

A connector includes a sheet terminal and an insulating base. The sheet terminal includes a bend section, a mating section, and an insertion section. The insertion section includes a shoulder extending outward along an insertion axis, and the top of the shoulder corresponds to the mating section. The insulating base includes a base and a mating portion. The base includes two opposite base sidewalls, an accommodation space, and a stop portion. The insertion section is located in the accommodation space. The stop portion corresponds to the shoulder. The mating portion is connected to the base. The mating portion includes two opposite mating sidewalls and a mating space. The mating space is in communication with the accommodation space, and the mating section is located in the mating space.

A connector includes a sheet terminal and an insulating base. The sheet terminal includes a bend section, a mating section, and an insertion section. The insertion section includes a shoulder extending outward along an insertion axis, and the top of the shoulder corresponds to the mating section. The insulating base includes a base and a mating portion. The base includes two opposite base sidewalls, an accommodation space, and a stop portion. The insertion section is located in the accommodation space. The stop portion corresponds to the shoulder. The mating portion is connected to the base. The mating portion includes two opposite mating sidewalls and a mating space. The mating space is in communication with the accommodation space, and the mating section is located in the mating space.

An electrical connector includes an elongate insulative housing defining a central slot extending along a longitudinal direction, and two rows of contacts disposed by two sides of the central slot. The housing forms a front receiving cavity to receive the corresponding mating tongue of the complementary connector, and a rear receiving cavity to receive the corresponding insulators wherein each insulator is integrally formed with each row of contacts via insert-molding for completing the whole contact module. Each grounding contact is equipped with the corresponding EMI absorber before being insert-molded within the insulator so as to have the corresponding EMI absorber also integrally formed with the insulator.

The present invention discloses a charging socket. The charging socket has a housing; a charging terminal installed in the housing; an electric adapter installed in the housing; and a temperature sensor for detecting the temperature of the charging terminal. The electric adapter has a body and a connection terminal provided in the body, and the connection terminal has an input end and an output end. The temperature sensor has a flexible lead, which is electrically connected to the input end of the connection terminal, so as to transmit the sensing signal of the temperature sensor to the output end of the connection terminal. In the present invention, the flexible lead of the temperature sensor is electrically connected to the connection terminal of the electric adapter in the charging socket without passing through the rear cover of the charging socket. Therefore, the installation of the temperature sensor and the structure of the charging socket are simplified, the assembly efficiency is improved, and the production cost is reduced.

The present invention discloses a charging socket. The charging socket has a housing; a charging terminal installed in the housing; an electric adapter installed in the housing; and a temperature sensor for detecting the temperature of the charging terminal. The electric adapter has a body and a connection terminal provided in the body, and the connection terminal has an input end and an output end. The temperature sensor has a flexible lead, which is electrically connected to the input end of the connection terminal, so as to transmit the sensing signal of the temperature sensor to the output end of the connection terminal. In the present invention, the flexible lead of the temperature sensor is electrically connected to the connection terminal of the electric adapter in the charging socket without passing through the rear cover of the charging socket. Therefore, the installation of the temperature sensor and the structure of the charging socket are simplified, the assembly efficiency is improved, and the production cost is reduced.

Proposed is a terminal coupling structure of an electric actuator in which a press rib is installed on the end of a contact plate such that a contact protrusion and a motor assembly terminal are more securely in contact with each other.