The present invention relates to a cavity filter including: an RF signal connecting portion spaced apart, by a predetermined distance, from an outer member having an electrode pad provided on a surface thereof; and a terminal portion configured to electrically connect the electrode pad of the outer member and the RF signal connecting portion so as to absorb assembly tolerance existing at the predetermined distance and to prevent disconnection of the electric flow between the electrode pad and the RF signal connecting portion, wherein a part of the terminal portion, positioned between the electrode pad and the RF signal connecting portion, is elastically deformed to absorb assembly tolerance existing in a terminal insertion port. Therefore, the cavity filter can efficiently absorb assembly tolerance which occurs through assembly design, and prevent disconnection of an electric flow, thereby preventing degradation in performance of an antenna device.

An axially resilient press-in contact pin includes a metal body and an electrically conductive, elastic element. The metal body includes a pin-shaped section and a press-in spring. The press-in spring is on a first end of the pin-shaped section. The elastic element surrounds at least portions of the pin-shaped section and extends beyond a second end (i.e., free end region) of the pin-shaped section.

A connector is provided with a housing, a circuit board to be arranged along a width direction in a board insertion portion of the housing, and a connecting member to be arranged in the housing and including a contact point portion to be connected to a conductive portion of the circuit board. The connecting member is configured to be swingable in the width direction.

An electrical connector includes multiple conductive terminals respectively retained in multiple accommodating slots of an insulating body. Each conductive terminal includes a base portion, a connecting portion extending from one side of the base portion, a first elastic arm and a second elastic arm extending from the connecting portion toward a direction away from the same one side of the base portion, and at least one fixing portion extending from another side of the base portion. A width of the connecting portion is less than a width of the base portion and less than a width of a location of the first elastic arm near the connecting portion as well as a width of a location of the second elastic arm near the connecting portion. The fixing portion and the first elastic arm are respectively located at different sides of the base portion, thus achieving good elasticity and thinness.

An electrical connector, for being mounted on a circuit board, includes a metal shell and a terminal module. The metal shell includes a mounting surface to be matched with the circuit board. The terminal module includes a number of conductive terminals, an insulating block, a ground shielding piece and a number of cables. The conductive terminals include a number of pairs of differential signal terminals, a number of first ground terminals, and a number of second ground terminals. The ground shielding piece connects the first ground terminals and the second ground terminals in series. Each conductive terminal includes a mating elastic arm extending beyond the mounting surface. The mating elastic arm includes a contact portion for pressing against a conductive pad of the circuit board, thereby improving the installation convenience of the electrical connector.

A shield for a cable attachment system for attaching a cable to a component having a ball grid array (BGA). The shield may comprise an outer conductive surface, a first end configured to be coupled to a surface of the component, a second end that receives the cable, and an inner non-conductive material received within the shield adjacent the first end and encasing the connection of the cable to the BGA of the component. The cable may be configured to be coupled to the BGA of the component.

Methods and apparatus for GDDR (Graphics Double Date Rate) memory expander using compression mount technology (CMT) connectors. A CMT connector with a dedicated pinout for GDDR-based memory is provided that enables end users and manufacturers to change the amount of GDDR memory provided with a GPU card, accelerator card, or apparatus having other form factors. Memory could also be replaced in the event of a failure. In addition, embodiments are disclosed that support a split channel concept where there could be multiple devices (e.g., GDDR modules) with dedicated signals routed to each module.

The present disclosure proposes a board-to-board connector terminal and a connector. The board-to-board connector terminal comprises: a male connector terminal including a first part; and a female connector terminal including a second part, wherein in the case of the male connector terminal and the female connector terminal adaptively installed, the male connector terminal is in contact with the female connector terminal; when the male connector terminal is detached from the female connector terminal, the second part abuts against the first part to prevent the male connector terminal being detached from the female connector terminal; in the case of the male connector terminal forcibly detached from the female connector terminal, the first part pushes the second part to cause the second part to be peeled off, such that the female connector terminal is damaged and does not work properly. With the above-mentioned technical solution, the first part cooperates with the second part to enable the female connector to be damaged after the male connector is detached from the female connector, thereby preventing multiple times of plugging of the connector.

A contact element system has a plurality of pin-type or needle-type and electrically conductive contact elements of equal length, which each have two end regions for electrically contacting contact positions and each have an intermediate region under longitudinal loading, overcoming their bending rigidity, and are designed with lamellar sections in the intermediate region such that they have at least two strips which are substantially parallel to each other and run at a distance from one another. At least two of the contact elements have different cross sectional surfaces and differently formed strips in the intermediate region, wherein the forms of the strips are chosen such that the contact elements have the same or approximately the same bending rigidity.

An elastic arm structure is arranged on one end of the terminal body, and includes a support part and a contact part. The support part is a bending structure formed by sequentially connecting multiple extension sections, a first end of the support part is an operation end and a second end of the support part is a connection end, from the connection end to the operation end, an included angle between each of extension directions of the multiple extension sections and a first direction is gradually reduced, and the first direction is parallel to a length direction of the terminal body. The contact part is arranged at the operation end and is bent towards an inner side of the bending structure.