An electrical connector for connecting to flat-wire conductors of a flexible circuit (FC) is described. The electrical connector includes an elongated body, a split-blade terminal, and a spring terminal. The elongated body has a longitudinal axis. The split-blade terminal has two prongs separated by a distance and is configured to interface with an electrical terminal of an electrical device. The spring terminal is configured to mate with one or more of the flat-wire conductors within a connection area of the FC. The spring terminal and the split-blade terminal are positioned on the longitudinal axis at opposing ends of the electrical connector.

A connector includes a connector body, a first elastic member, and a second elastic member. The connector body has an insertion hole that allows a connection member to be inserted thereinto. The connection member has a plate shape or a sheet shape. Each of the first and second elastic members is a conductive member that includes a base fixed to the connector body. The first and second elastic members are elongated in a thickness direction of the connection member and butted against each other so as to partially block the insertion hole. The thickness direction intersects an insertion direction of the connection member.

A battery module includes a cell stack formed by stacking a plurality of battery cells; a bus bar frame assembly; and an outer terminal. The bus bar frame assembly includes a bus bar frame and a plurality of bus bars fixed on the bus bar frame and electrically connected to the battery cells, the bus bar frame being configured to cover first and second opposing longitudinal ends of the cell stack, and the outer terminal is connected to the plurality of bus bars. A pair of electrode leads of each of the battery cells are formed at locations offset downwardly from a center of the cell stack in a height direction, and the outer terminal is disposed in the space formed above the electrode leads due to the offsetting of the electrode leads.

A connector includes a pushing member having a projection, and a contact made of a conductive material and having a projection accommodating portion of recess shape into which the projection is to be inserted, the projection having a protruding portion that is situated in a lateral surface of the projection with protruding from the lateral surface of the projection and approaches an inner surface of the projection accommodating portion when the projection is inserted into the projection accommodating portion, and a gap forming portion that is situated in the lateral surface of the projection around the protruding portion and forms a predetermined gap between the gap forming portion and the inner surface of the projection accommodating portion when the projection is inserted into the projection accommodating portion, the predetermined gap being wider than a distance between the protruding portion and the inner surface of the projection accommodating portion.

A plug as a connector includes a first wiring board, a second wiring board, a plate-shaped ground plate which is provided between the first and the second wiring boards and which includes a first contact point to be brought into contact with first and second ground conductors of the first and the second wiring boards, and a first insulator for holding the first and the second wiring boards, and the ground plate. The first insulator covers at least a part of each of five portions including distal end portions, both side end portions, and two main surface portions, which face outward, of a whole of the first wiring board, the second wiring board, and the ground plate, and holds the ground plate under a pressing state. A portion of at least one side end portion of the ground plate is exposed to the outside of the first insulator.

Various embodiments disclosed in this document relate to an electronic device and, more specifically, to an electronic device comprising a connector capable of electrically connecting at least two components. According to various embodiments disclosed herein, there may be provided an electronic device comprising: a housing; a first electronic component inside the housing; a second electronic component arranged inside the housing and spaced apart from the first electronic component; a female connector electrically connected to the second electronic component, the female connector comprising multiple conductive pins; a male connector electrically connected to the first electronic component and configured to contact at least some of the multiple conductive pins of the female connector, the male connector comprising a base film, a conductive layer formed on one surface of the base film, and an adhesive layer formed on the back surface of the base film, thereby forming a lamination structure; and multiple reinforcement members provided on at least one of one surface of the base film and the back surface thereof so as to form a peripheral portion of the lamination structure.

A connector includes a pushing member having a projection, and a contact made of a conductive material and having a projection accommodating portion of recess shape into which the projection is to be inserted, the projection having a protruding portion that is situated in a lateral surface of the projection with protruding from the lateral surface of the projection and approaches an inner surface of the projection accommodating portion when the projection is inserted into the projection accommodating portion, and a gap forming portion that is situated in the lateral surface of the projection around the protruding portion and forms a predetermined gap between the gap forming portion and the inner surface of the projection accommodating portion when the projection is inserted into the projection accommodating portion, the predetermined gap being wider than a distance between the protruding portion and the inner surface of the projection accommodating portion.

Disclosed herein is a compact connector for transmitting super-high-frequency signals, which is adapted to connect a printed circuit board (PCB) to a single or multiple high-frequency signal lines transmitting super-high frequency signals therethrough. The compact connector includes: a male connector connected to the single or multiple super-high frequency signal lines and comprising a male connector housing receiving, securing, and protecting terminals of the single or multiple super-high frequency signal lines; and a connector socket mounted on the PCB and receiving the male connector housing fastened to the male connector, wherein the super high-frequency signal line terminals in the male connector are brought into direct contact with and connected to signal line terminal pads formed on the printed circuit board, respectively.

Disclosed is a coaxial cable male connector for transmitting super-high frequency signals, which is used in a coaxial cable connector for transmitting super-high frequency signals and is received in a connector socket mounted on a printed circuit board (PCB) to connect multiple coaxial cables to the PCB. The coaxial cable male connector includes: a single or multiple coaxial cables each including an inner conductor, an outer conductor, a dielectric, and a sheath, wherein the outer conductor, the dielectric, and the sheath are partially stripped to expose the inner conductor over a predetermined length, and a terminal of the exposed inner conductor is brought into electrical connect with a signal line terminal pad formed on the PCB; and a shielding can receiving the exposed inner conductors of the single or multiple coaxial cables, securing and protecting ends of the exposed inner conductors, and blocking electromagnetic waves generated from the inner conductors.

Disclosed is a compact coaxial cable connector for transmitting super-high frequency signals, which is adapted to connect a PCB to a single or multiple super-high frequency coaxial cable signal lines transmitting super-high frequency signals therethrough. The compact coaxial cable connector includes: a single or multiple coaxial cables each including an inner conductor, an outer conductor, a dielectric, and a sheath, wherein the outer conductor, the dielectric, and the sheath are stripped to expose the inner conductor over a predetermined length and a terminal of the exposed inner conductor is brought into electrical contact with a circuit signal line terminal pad formed on the PCB; and a male connector including a shielding can receiving the exposed inner conductors of the single or multiple coaxial cables, securing and protecting ends of the exposed inner conductors, and blocking electromagnetic waves generated from the inner conductors of the single or multiple coaxial cables.