In some embodiments, an irrigation control device is provided that includes adjacent terminal connector rows having a ridge portion between the rows, where the ridge portion is configured to support and guide wires to electrical connection pads of one row, and to support these wires above wires retained in another row of electrical connection pads. In some embodiments, the ridge portion offsets the wires from the different rows in the horizontal plane.

A testing apparatus for a semiconductor package includes a circuit board, testing patterns and a socket. The circuit board has a testing region and includes a plurality of testing contacts and a plurality of signal contacts distributed in the testing region. The testing patterns are embedded in the circuit board and electrically connected to the testing contacts, where each of the testing patterns includes a first conductive line and a second conductive line including a main portion and a branch portion connected to main portion. The first conductive line is connected to the main portion. The socket is located on the circuit board and comprising connectors electrically connected to the circuit board, wherein the connectors are configured to transmit electric signals for testing the semiconductor package from the testing apparatus.

An anisotropic conductive sheet according to the present invention comprises an insulating layer and a plurality of conductive layers. The insulating layer is elastic, and has a first surface that is positioned on one side in the thickness direction, a second surface that is positioned on the other side in the thickness direction, and a plurality of through holes that penetrate the layer from the first surface to the second surface. The conductive layers are respectively arranged on the inner wall surfaces of the plurality of through holes. The insulating layer comprises an elastic layer that is formed of a crosslinked product of an elastomer composition, and a heat-resistant resin layer that is formed of a heat-resistant resin composition that has a higher glass transition temperature than the crosslinked product of an elastomer composition.

The present utility model discloses a MFi-certified digital data cable comprising a wire rod which is equipped with an input connector at one end and an output connector at the other end; the output connector comprises a MFi-certified connector, a circuit board, a Nixie tube and a rubber base; a connecting piece is fixed at the position adjoining the tail-end of the MFi-certified connector; a plurality of conductive terminals are fixed inside the connecting piece, two ends of each conductive terminal pass through two ends of the connecting piece and then are connected with the MFi-certified connector and the circuit board respectively so the circuit board is assembled and fixed via the connecting piece.

A power delivery system for a hardware processor includes a motherboard (MB), a voltage regulator (VR), an elastomer computer socket, and a plurality of power delivery paths within the socket. The socket connects the MB to the processor and comprises a first set of power pins that is connected to the processor by surface mount elements, and a second set of power pins that is not connected to the processor by surface mount elements. The plurality of electrical power delivery paths deliver VR power from the second set of C power pins to the first set of power pins for power delivery to the processor. The alignment frame aligns the processor, the plurality of power pins, and the MB. The plurality of power paths alone may meet the power demands of the processor. If not, a power plane from the MB provides additional power.

A method of making an electrical connector includes steps of providing an insulative housing with a plurality of passageways; providing a plurality of contacts associated with corresponding carriers unitarily formed thereon, respectively; providing an external fixture discrete from the carriers; retaining the carriers on the external fixture; downwardly moving the external fixture to insert the contacts into the corresponding passageways to reach their final positions in the vertical direction, simultaneously; and removing the carriers from the corresponding contacts, respectively.

An electrical connector including a substrate, a pitch transformation routing assembly formed on the substrate and including pitch transformation routing members, a first set of contact members, each contact member extends away from a first end of a corresponding pitch transformation routing member, and a second set of contact members, each contact member extends away from a second end of a corresponding pitch transformation routing member. A first subset of the pitch transformation routing members each includes a first routing section extending in a first direction and a second routing section extending in a second direction. A pitch of the first set of contact members associated with the first subset of the pitch transformation routing members is different from a pitch of the second set of contact members associated with the first subset of the pitch transformation routing members.

A connector is mounted on an input-output board. The connector is interposed between the input-output board and a CPU board, and thereby a plurality of pads of the input-output board and a plurality of pads of the CPU board are respectively electrically connected. The connector includes a rectangular flat-plate housing having a first positioning hole and a second positioning hole, and at least one contact row held on the housing. The first positioning hole is formed at a first housing corner part of the housing. The second positioning hole is formed at a fourth housing corner part, which is at a diagonal position with respect to the first housing corner part, of the housing.

A connector assembly includes an insulative housing, first and second conductive ground wafers (see e.g., 661 and 663) and a plurality of grounding links. The insulative housing has a plurality of conductive signal terminals disposed therein (see e.g., 662). The insulative housing has opposite side surfaces and a plurality of openings therein extending between the side surfaces. The second ground wafer is spaced from and parallel to the first ground wafer. The grounding links are electrically connected to one of the ground wafers and extend towards another of the ground wafers and extend through the openings in the housing.

An electrical connector is used to be electrically connected to a mating component. The electrical connector includes one or more shielding members, forming multiple receiving holes; and multiple terminals, including at least one signal terminal and at least one ground terminal correspondingly accommodated in the receiving holes. The ground terminal has a mating portion upward abutting the mating component, an elastic portion pressed vertically to elastically deform, and a positioning portion having a cross-section in a circular shape. The positioning portion and the shielding members are conductively connected to each other by at least three conductive portions, and the three conductive portions are provided to form a triangle. An insulating block is between the signal terminal and a corresponding shielding member to be accommodated in a corresponding receiving hole. The positioning portion with a circular cross-section has a larger area when the volume of the receiving hole remains unchanged.