A plug housing comprises at least one leaf spring element in a cable duct, which has a central part and a respective first and second lateral part which are bent in relation to said central part. The first lateral part is elastically bent via a first bending edge and the second lateral part is elastically bent via an opposing second bending edge on the central part. The central part extends substantially parallel to the cable duct. In relation to the central part, the first and the second lateral part adopt a respective variable acute angle and a variable respective height. The first and second lateral part narrow the cable duct such that, in an assembled state, a respective end section of the first and second lateral part press against the cable with a respective elastic force and thereby bring about the strain- and pressure-resistant securing of the cable.

A plug housing comprises at least one leaf spring element in a cable duct, which has a central part and a respective first and second lateral part which are bent in relation to said central part. The first lateral part is elastically bent via a first bending edge and the second lateral part is elastically bent via an opposing second bending edge on the central part. The central part extends substantially parallel to the cable duct. In relation to the central part, the first and the second lateral part adopt a respective variable acute angle and a variable respective height. The first and second lateral part narrow the cable duct such that, in an assembled state, a respective end section of the first and second lateral part press against the cable with a respective elastic force and thereby bring about the strain- and pressure-resistant securing of the cable.

A wire holding member is a wire holding member for holding a wire in which an outer circumference of a core wire is covered by an insulating covering, the wire holding member including: a front wall that includes an insertion hole having an inner diameter larger than an outer diameter of the core wire so as to allow the core wire to be passed therethrough; an upper extending piece and a lower extending piece that extend rearward from a plurality of different end edges of the front wall, and that are to be disposed around the insulating covering; and an upper holding portion and a lower holding portion that protrude from rear end portions of the upper extending piece and the lower extending piece toward the insulating covering, and that clamp an outer surface of the insulating covering, wherein at least the upper and lower extending pieces and the upper and lower holding portions are made of a metal.

A coaxial cable connector includes an outer barrel having a front end and a rear end. The connector includes an inner sleeve within the outer barrel defining a bore, the inner sleeve moving between uncompressed and compressed conditions and including a finger which is formed in the inner sleeve for resilient movement between a neutral position in which the finger is out of the bore, and a deformed position in which the finger is deformed into the bore. The finger includes a base formed to the inner sleeve and a free end. Axial movement of the inner sleeve with respect to the outer barrel from a compressed condition to an uncompressed condition imparts movement to the finger from the neutral position to the deformed position.

A coaxial cable connector system, comprising a coaxial connector, a coaxial cable, and a universal coaxial cable fixing sleeve is provided. The universal coaxial cable fixing sleeve comprises a first gripping component, a second gripping component, and a third gripping component. When the coaxial cable is assembled to the universal coaxial cable fixing sleeve, the first gripping component grips a conductive shield of the cable, and the second and third gripping components grip a protective outer jacket of the cable, respectively. When the universal coaxial cable fixing sleeve is engaged to a first connector, a first housing outer surface thereof corresponds to and fixedly engages with a sleeve receiving inner surface of the first connector, and when disengaged and engaged to a second connector different in type from the first connector, no re-preparation of the cable is required for corresponding fixed engagement.

A plug housing comprises at least one leaf spring element in a cable duct, which has a central part and a respective first and second lateral part which are bent in relation to said central part. The first lateral part is elastically bent via a first bending edge and the second lateral part is elastically bent via an opposing second bending edge on the central part. The central part extends substantially parallel to the cable duct. In relation to the central part, the first and the second lateral part adopt a respective variable acute angle and a variable respective height. The first and second lateral part narrow the cable duct such that, in an assembled state, a respective end section of the first and second lateral part press against the cable with a respective elastic force and thereby bring about the strain- and pressure-resistant securing of the cable.

A plug housing comprises at least one leaf spring element in a cable duct, which has a central part and a respective first and second lateral part which are bent in relation to said central part. The first lateral part is elastically bent via a first bending edge and the second lateral part is elastically bent via an opposing second bending edge on the central part. The central part extends substantially parallel to the cable duct. In relation to the central part, the first and the second lateral part adopt a respective variable acute angle and a variable respective height. The first and second lateral part narrow the cable duct such that, in an assembled state, a respective end section of the first and second lateral part press against the cable with a respective elastic force and thereby bring about the strain- and pressure-resistant securing of the cable.

In one embodiment, an apparatus is provided. The apparatus includes a printed circuit board (PCB) that includes a set of vias through the PCB. The apparatus also includes a first small format pluggable (SFP) module coupled to a first surface of the PCB. The first SFP module includes a first set of pins configured to interface with a first subset of the set of vias. The first set of pins has a first pin layout. The apparatus further includes a second SFP module coupled to a second surface of the PCB. The second SFP module includes a second set of pins configured to interface with a second subset of the set of vias. The second set of pins has a second pin layout. A first pin of the first set of pins interfaces with a first via. A second pin of the second set of pins interfaces with the first via. The first subset and the second subset include the first via.

A connector is configured to terminate an end of a coaxial cable. The connector includes a body, a nut, an outer conductor engager, and a grounding member. The body has a cable receiving end configured to receive the end of the coaxial cable, and the nut is configured to be coupled with and to rotate relative to the body. The outer conductor engager is configured to receive a conductive layer of end of the coaxial cable, and the grounding member is configured to couple the body, the nut, and the outer conductor engager in an assembled configuration. A first end of the grounding member is configured to extend grounding of the coaxial cable from the outer conductor engager to the nut, and a second end of the grounding member is configured to grip an outer protective jacket of the coaxial cable to prevent removal of the coaxial cable from the connector.

A modular high speed, high density electrical connector configurable for use in multiple configurations, including a direct attach orthogonal configuration. The connector is assembled with modules that include shielded pairs of signal conductors with mating ends that are rotated approximately 45 degrees with respect to intermediate portions of the signal conductors. The connector may have a mating interface with receptacles in one connector and pins in the mating connector. The pins may be small diameter and may be implemented with superelastic wires so as to resist damage despite having very small effective diameter. A compact mating interface resulting from small diameter mating contact portions may enable other portions of the connector, including the shielding surrounding the signal conductors to be smaller, which may raise the resonant frequency of the connector and extend its bandwidth.