The disclosure provides an electric connector, which includes a base, a cover, and an elastic member. The cover covers the base and is formed with a chamber. The cover is disposed with a key and a trough. The elastic member is disposed in the chamber and includes a lower plate, an upper plate, and a flexible arm. The lower plate is fixed on the base. The upper plate is formed above the lower plate. The flexible arm is connected between the lower plate and the upper plate. The upper plate is extended with a hook. The hook movably enters or leaves each trough. The upper plate is disposed with a pressed portion corresponding to the key in position. The pressed portion drives each hook to move out from each trough through pressing of the key so as to implement unlatching of the electric connector.

A connector has a conductive member attaching portion to which an end portion of a conductive member is to be attached, and a holder portion provided with an insertion hole into which the conductive member is inserted, and a fitting hole into which the conductive member attaching portion is fitted, the fitting hole being in communication with the insertion hole, the holder portion being configured to hold the conductive member attaching portion. The holder portion is provided with engaged portions with which engaging portions, which are provided at respective ends of the conductive member in the width direction, engage. The conductive member attaching portion is provided with a closing portion configured to close a part of the insertion hole. When the conductive member attaching portion has been fitted into the holder portion, the closing portion closes a part of the insertion hole with the engaging portions engaged with the engaged portions.

A terminal placement region of the cartridge is divided into an upper region and a lower region, and the cartridge includes a plurality of terminals placed in the upper region, a plurality of terminals placed in the lower region, and a plurality of long terminals across the upper region and the lower region. The long terminals are a ground terminal, a chip-enable terminal, a power supply terminal, or a reset terminal. A strobe terminal and a clock terminal are arranged one above the other. Two data input/output terminals are arranged one above the other, and four sets of data input/output terminals arranged one above the other are present. A long terminal is near the strobe terminal and the clock terminal arranged one above the other, and a long terminal is near the two data input/output terminals arranged one above the other.

An electrical connector is disclosed that includes an insulative housing having a mating face at one end, a rear face at another end, a mating slot at the mating face for receiving a complementary connector, a first set of contacts mounted in a first set of channels incorporated at a top of the insulative housing and a second set of contacts mounted in a second set of channels incorporated at a bottom of the insulative housing, and a shielding device located between the first set of contacts and the second set of contacts.

An electrical socket connector includes: an insulation body, first terminals, second terminals, and a metal casing. The insulation body includes a basal part and a tongue plate connected to the basal part. The first terminals each include a first contact part and the second terminals each include a second contact part. Each first contact part comprises a first front contact part and a first rear contact part. Each second contact part comprises a second front contact part and a second rear contact part. The tongue plate defines first and second recesses. Each first recess is positioned between two adjacent first front contact parts. Each second recess is positioned between two adjacent second rear contact parts.

A method of manufacturing an electronic component having a housing with terminals insert-molded thereon. Each of the terminals includes a tapered portion having a tapered width and an extension extending from the tapered portion. A mold defining a cavity includes an upper die and sliding dies. After positioning the extension in one of grooves formed in one surface of each of the sliding dies, sliding the sliding dies relative to the extension to make tip edges of opposite side surfaces of the groove facing the cavity abut against opposite side surfaces of the tapered portion; and performing molding while keeping the upper die in close contact with the one surface, and keeping part of the tapered portion and the extension ying in the groove held between a bottom surface of the groove and the upper die with a remaining portion of the tapered portion lying in the cavity.

A plurality of signal terminals are disposed in parallel and comprise an embedded part embedded and held in a base member of insulating material and a protruding part that protrudes from the base member, the protruding part forms a connecting part that is electrically connected by contacting or solder-connecting to a mating connecting body, the base member comprises a main body holding part that covers the entire circumference of the circumferential surface of the signal terminals and holds the signal terminals, and a semi-exposed holding part that exposes a portion of the circumferential surface of the signal terminals while covering and holding the remaining portion, with the protruding part of the signal terminals protruding from the semi-exposed holding part with regard to the main body holding part.

An electrical connector including an insulating body, a plurality of terminals disposed in the insulating body, a first metallic shell enclosing the insulating body to form an interface for being plugged by another electrical connector, and a second metallic shell is provided. The first metallic shell has a first soldering leg close to the interface, and the second metallic shell encloses the first metallic shell, wherein the first soldering leg extends away from the insulating body, penetrates the second metallic shell and protrudes out of the second metallic shell.

A socket connector terminal is disclosed having a terminal body, two contacts, and at least two welding portions. The two contacts are formed at opposite ends of the terminal body, each contact having a positioning portion that prevents movement in the socket connector along a plug connector insertion direction. The two welding portions are formed between the opposite ends of the terminal body, and are constructed to be welded to a circuit board.

Configurable central processing unit (CPU) package substrates are disclosed. A package substrate is described that includes a processing device interface. The package substrate also includes a memory device electrical interface disposed on the package substrate. The package substrate also includes a removable memory mechanical interface disposed proximately to the memory device electrical interface. The removable memory mechanical interface is to allow a memory device to be easily removed from the package substrate after attachment of the memory device to the package substrate.