The present invention provides a flexible printed circuit board (FPCB) plug-in jig, comprising a fixture part for clamping an FPCB, wherein the fixture part comprises a first clamping element and a second clamping element which are arranged oppositely; the first clamping element and the second clamping element are configured such that an opening is formed at one end of the fixture part and a pressing portion is formed at the other end of the fixture part; a signal matching board is arranged on a surface of the first clamping element facing the second clamping element; the signal matching board is used for electrically connecting to the FPCB at one end close to the opening of the fixture part; and an additional signal port is provided at another end of the signal matching board close to the pressing portion of the fixture part.

It is aimed to avoid the abrasion of a contact portion of a terminal fitting. When a harness-side housing (4) is connected to a board-side housing (1), a contact portion (12) of a terminal fitting (3) resiliently contacts a circuit board (2), whereas a body portion (5) of the terminal fitting (3) is pressed against a ceiling wall (19) of a cavity (14). The body portion (5) is formed with a projecting edge (13). When there is a thermal expansion difference in an arrangement direction of the cavities (14) between the circuit board (2) and the harness-side housing (4), the terminal fitting (3) pivots with a resilient abutting part of the contact portion (12) and the circuit board (2) serving as a supporting point.

A connector for a flat flexible cable includes a housing portion and a plurality of terminals. The housing portion has a retention section and a crimping section. The retention section has a plurality of terminal receiving passageways. The plurality of terminals each have a contact portion held in one of the plurality of terminal receiving passageways and a crimping portion exposed in the crimping section. A plurality of conductors exposed in a window extending through an insulation material of the flat flexible cable are each crimped in the crimping portion of one of the plurality of terminals.

A connector for a flat flexible cable includes a housing portion and a plurality of terminals. The housing portion has a retention section and a crimping section. The retention section has a plurality of terminal receiving passageways. The plurality of terminals each have a contact portion held in one of the plurality of terminal receiving passageways and a crimping portion exposed in the crimping section. A plurality of conductors exposed in a window extending through an insulation material of the flat flexible cable are each crimped in the crimping portion of one of the plurality of terminals.

Embodiments of the present disclosure are directed to an interconnect cable including a edge finger connector, and associated configurations and methods. The edge finger connector may be disposed at a first end of the interconnect cable and may connect the interconnect cable to an edge finger included in or coupled to a package substrate. The package substrate may be included in a processor package assembly, and a processor may be mounted on the substrate. The interconnect cable may include one or more elongate conductors, with contacts directly coupled to respective conductors. A second connector may be disposed at a second end of the interconnect cable, and may couple the interconnect cable to a small form-factor pluggable (SFP) case that is configured to connect the interconnect cable to an SFP cable. Other embodiments may be described and claimed.

Embodiments of the present disclosure are directed to an interconnect cable including a edge finger connector, and associated configurations and methods. The edge finger connector may be disposed at a first end of the interconnect cable and may connect the interconnect cable to an edge finger included in or coupled to a package substrate. The package substrate may be included in a processor package assembly, and a processor may be mounted on the substrate. The interconnect cable may include one or more elongate conductors, with contacts directly coupled to respective conductors. A second connector may be disposed at a second end of the interconnect cable, and may couple the interconnect cable to a small form-factor pluggable (SFP) case that is configured to connect the interconnect cable to an SFP cable. Other embodiments may be described and claimed.

A transceiver assembly is provided that includes a transceiver housing having first end, having a connector and an opposite second end having a passage in communication with a printed circuit board mounted in the housing. A peripheral connector having a first end and opposite second end includes a receptacle opening at the second end. A flex circuit is disposed between the first end of the peripheral connector and the second end of the transceiver housing. The peripheral connector is capable of being displaced with respect to the transceiver housing via the flex circuit.

A transceiver assembly is provided that includes a transceiver housing having first end, having a connector and an opposite second end having a passage in communication with a printed circuit board mounted in the housing. A peripheral connector having a first end and opposite second end includes a receptacle opening at the second end. A flex circuit is disposed between the first end of the peripheral connector and the second end of the transceiver housing. The peripheral connector is capable of being displaced with respect to the transceiver housing via the flex circuit.

An image capturing apparatus includes an HDMI flexible circuit having a mounting surface, an HDMI connector mounted on the mounting surface of the HDMI flexible circuit, a plug being capable of being inserted therein and removed therefrom, a main base having a mounting portion substantially parallel to the mounting surface, and a reinforcing member that includes part covering the HDMI connector from an opposite side to the mounting portion in a direction orthogonal to the mounting surface and is fixed to the main base. The HDMI connector and the HDMI flexible circuit can move in the direction orthogonal to the mounting surface between the main base and the reinforcing member. In the direction orthogonal to the mounting surface, a minimum clearance between the reinforcing member and the HDMI connector is smaller than a minimum clearance between the reinforcing member and the HDMI flexible circuit.

An image capturing apparatus includes an HDMI flexible circuit having a mounting surface, an HDMI connector mounted on the mounting surface of the HDMI flexible circuit, a plug being capable of being inserted therein and removed therefrom, a main base having a mounting portion substantially parallel to the mounting surface, and a reinforcing member that includes part covering the HDMI connector from an opposite side to the mounting portion in a direction orthogonal to the mounting surface and is fixed to the main base. The HDMI connector and the HDMI flexible circuit can move in the direction orthogonal to the mounting surface between the main base and the reinforcing member. In the direction orthogonal to the mounting surface, a minimum clearance between the reinforcing member and the HDMI connector is smaller than a minimum clearance between the reinforcing member and the HDMI flexible circuit.