In a contact terminal, a first touch portion and a second touch portion of a movable piece and a first touch portion and a second touch portion of a movable piece bite into and thus pinch a spherical surface of a bump of a semiconductor device. In this state, when an electrode surface of the semiconductor device is warped upward during a test and the bump is about to be moved up, an inclined surface of a fixing portion of the movable piece and an inclined surface of a fixing portion of the movable piece fix the spherical surface of the bump.

A contact pin to electrically connect a first electrical component to a second electrical component and contact with the first and second electrical components at a sufficiently large contact pressure. The contact pin includes a first plunger with a first contact portion and a second plunger with a second contact portion. An expandable meander portion is formed on the second plunger. A contact piece to conduct electricity between the first and second plungers is provided to guide the expanding and shrinking operation of the meander portion. The first and second plungers are conducted via the contact piece when the first electrical component is electrically connected to the second electrical component, and the meander portion is shrunk to bring the first contact portion of the first plunger and the second contact portion of the second plunger into contact with the first and second electrical components at a sufficiently large contact pressure.

An electrical connector for connection between the CPU and the PCB includes an insulative housing, an insulative plate below the housing and a plurality of contacts retained to the housing and the plate. The housing forms a receiving cavity for receiving the CPU, and the plate forms a mounting face confronting the PCB. Each contact includes an upper part and a lower part discrete and independent from each other. The upper part includes an upward resilient arm extending into the receiving cavity for mechanically and electrically connecting to the CPU, and a bottom connecting section. The lower part includes a downward resilient arm extending toward the PCB for mechanically and electrically connecting to the PCB, and a top connecting section. The bottom connecting section and the top connecting section are mechanically and electrically connected to each other.

An integrated circuit burn-in socket with a spring-loaded contact pin built into the socket base and an electrical receptacle built into the socket lid wherein the electrical receptacle is configured to mate with the spring-loaded contact pin when the burn-in socket is closed. In one implementation, the socket lid is separate from the socket base and with a spring-loaded contact pin built into the socket base and with an electrical receptacle built into the socket lid wherein the electrical receptacle is configured to mate with the spring-loaded contact pin when the socket lid is clamped to the socket base.

A connector receptacle for connecting with a corresponding connector plug coupled with electrodes being used for performing EMG procedure on a patient is provided. The receptacle includes a first ball bearing pressing against a first end of a housing of the plug and, preferably, a second ball bearing pressing against a first end of the housing of the plug when the plug is connected to the receptacle for exerting a retention force against the plug. The first and the second ball bearings are pressed against the first and the second ends respectively by using a spring force generated, for example, by a retention band.

A contact pin, a spring contact including the same, and a socket device are proposed, in which the contact pin has a minimum length suitable for testing a semiconductor IC for a high speed signal and allows the spring contact to secure a maximum compression distance. The contact pin (100) includes: a plate-shaped body part (110) having a width and a thickness; a head part (120) configured to be integrated with an upper end of the body part (110); and a leg part (130) formed by extending from a lower end of the body part (110) to be integrated therewith, wherein the head part (120) is a plate-shaped strip (122) provided on the upper end of the body part (110).

An electrical connector includes a connector body, including a cavity and a contact aperture providing an opening to the cavity through a connector surface. An electrical contact is situated in the cavity, which includes a magnetic ball, and a retainer that includes a planar spiral spring portion and a ring portion.

Provided are terminal-free connectors for flexible interconnect circuits. A connector comprises a housing chamber defined by at least a first side wall and a second side wall oppositely positioned about the base. An edge support is positioned at each of the first side wall and the second side wall. The edge supports allow for precise placement of the flexible interconnect circuit inside the housing chamber. A cover piece is coupled to the base via a first hinge, and is configured to move between a released position and a clamped position. The cover piece includes a clamp portion securing the flexible interconnect circuit against the edge supports in the clamped position. A slider may be configured to move between an extended position and an inserted position within the housing chamber, and may include a convex upper surface configured to urge the flexible interconnect circuit upwards in the inserted position.

A securing system for securing an electric bicycle to a bicycle docking frame includes a female connecting assembly mountable on the bicycle docking frame and a male connecting assembly mountable on the electric bicycle and sized to be received within a tapered recess of the female connecting assembly. When so received, first current coupling elements of the female assembly electrically interface with second current coupling elements of the male assembly, which can allow current flow therebetween to charge a battery of the electric bicycle. A bicycle rack system includes electric bicycles, bicycle docks, a charging module operable to receive electrical power from an external power source and a charging controller for adjusting the level of electrical power provided to dock-side charging modules that charge battery modules of electric bicycles docked thereto. A method for managing charging and an electric bike are also disclosed.

A connector receptacle for connecting with a corresponding connector plug coupled with electrodes being used for performing EMG procedure on a patient is provided. The receptacle includes a first ball bearing pressing against a first end of a housing of the plug and, preferably, a second ball bearing pressing against a first end of the housing of the plug when the plug is connected to the receptacle for exerting a retention force against the plug. The first and the second ball bearings are pressed against the first and the second ends respectively by using a spring force generated, for example, by a retention band.