Described herein are devices, systems and methods for accessing devices, such as modules or printed circuit boards (PCBs), for electrical communications. Various connectors described herein utilize a side-edge surface of a device, such as a PCB, for connectivity in order to maximize the surface area on the PCB upon which electronic components can be mounted. Such connectors can be used to temporarily connect to devices (e.g., PCBs) for the purposes of debugging, testing and/or configuring circuitry, firmware and/or software. Each such connector utilizes the side-edge surface of a device along its thickness to provide connectivity, which is useful in many situations, including when the device (e.g., a PCB) is to be soldered as a part onto a larger board at a later point in time, or where multiple PCBs are stacked.

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.

An electrical connector includes an insulating body having multiple receiving slots, and multiple first terminals and multiple second terminals respectively received in the receiving slots. Each first terminal has a first connecting portion, a first elastic arm bending and upward extending from the first connecting portion, and a first conducting arm bending and extending from the first connecting portion. Each second terminal has a second connecting portion, a second elastic arm bending and extending upward from the second connecting portion, and a second conducting arm bending and extending from the second connecting portion. A bent position between each of the first connecting portions and a corresponding one of the first elastic arms is higher than a bent position between each of the second connecting portions and a corresponding one of the second elastic arms.

Embodiments disclosed herein include sockets and electronic packages with socket architectures. In an embodiment, a socket comprises a housing with a first surface and a second surface. In an embodiment, a plurality of interconnect pins pass through the housing. In an embodiment, an alignment hole is provided through the housing. In an embodiment, an alignment post extending out from the first surface of the housing is also provided.

An electrical connector is used to electrically connect a chip module to a circuit board, and includes a body for upward supporting the chip module. The body is provided with multiple accommodating holes arranged in multiple rows. Each two adjacent rows of the accommodating holes are staggeredly arranged in a front-rear direction. Multiple terminals are respectively accommodated in the accommodating holes correspondingly. Each two adjacent rows of the terminals intersect to form at least one intersection area. Each terminal includes a base, an upper elastic arm formed by extending upward from the base for upward abutting the chip module, and a lower elastic arm formed by extending downward from the base for being downward conductively connected with the circuit board. When the chip module presses the upper elastic arm downward, the upper and lower elastic arms abut each other, the abutting position is located above or below the intersection area.

An electrical connector for electrically connecting a chip module to a circuit board includes: a body, configured to upward support the chip module, where the body is provided with a plurality of accommodating holes; and multiple terminals, respectively accommodated in the accommodating holes correspondingly. Each of the terminals includes a flat plate portion along a vertical direction and a connecting portion connected to the flat plate portion. An elastic arm is formed by bending and extending from at least one end of the connecting portion so as to abut the chip module or the circuit board. When the chip module presses the terminal downward, a side edge of the elastic arm abuts the flat plate portion. The structure of an elastic arm can be simplified to reduce the processing difficulty thereof.

An electrical contact for use in an integrated circuit testing apparatus with a very short conducting contact pin. The shortness of the contact pin is made possible due to the unique design and coupling of the contact pin with an elastomer, and both supported by a housing in such a way that the contact pin test height is brought down to 0.5 mm, while providing a deflection of 0.1 mm with is sufficient in order to provide adequate penetration to matte tin plated devices. The contact pin of this invention looks almost like the letter F, rotated 90 to the left, so that it lies on its left side. The rectangular shaped elastomer is placed between the prongs of the F. The bottom part of the F is curved upwards so that it is almost parallel to the prongs.

The invention provides a connector (16) for functionally coupling a module (8) in a modular electronic device, in particular a portable device, more in particular a handheld device (1), comprising a first connector end, wherein said first connector end comprises a series of contacts (34) and an electromagnetic shielding (81) surrounding said contacts (34). Said connector (16) is in particular suited for a modular electronic device (1), for electronically coupling its modules (8) to a chassis (9).

An electrical connector includes an insulating body, which has at least two body units. Each two body unit accommodates and is fixed with multiple terminals, and the at least two body units are spliced to each other. Each body unit has at least two edge portions, and the insulating body is provided with at least four fixing portions such that each of the edge portions is provided with at least one fixing portions. At least four metal members are correspondingly and fixedly provided on the at least four fixing portions respectively. At least two metal sheets are provided outside the at least two body units. Each metal sheet is soldered and fixed to at least one metal member provided on each body unit. By soldering and fixing the metal members and the metal sheets together, the overall structure of the electrical connector is firmer, and flatness is higher.

An electrical connector for electrically connecting a chip module to a circuit board includes an insulating body with receiving holes running through the insulating body, terminals correspondingly received in the receiving holes, and metal members not in contact with the chip module. Each metal member and the terminal corresponding to the metal member are received in the same receiving hole. Each metal member has a connecting portion disposed at a side of a soldering portion of a terminal, and a clamping portion extending and bending from the connecting portion to bypass the soldering portion and extend along a direction from the side to another opposite side of the soldering portion, so that the clamping and soldering portions jointly clamp a solder ball with a reduced distance between the terminals on a strip and without the terminals being inserted into the same row of receiving holes at intervals for multiple times.