A connector is provided with a first connector 10 and a second connector 11 connectable to each other. The first connector 10 includes a UTP module 15. The UTP module 15 includes UTP inner conductors 65 to be connected to wires of a UTP cable 12. The second connector 11 includes an electrically conductive shield member 21 for covering outer peripheries of the UTP inner conductors 65 with the first and second connectors 10, 11 connected.

A connector is provided with a first connector 10 and a second connector 11 connectable to each other. The first connector 10 includes a UTP module 15. The UTP module 15 includes UTP inner conductors 65 to be connected to wires of a UTP cable 12. The second connector 11 includes an electrically conductive shield member 21 for covering outer peripheries of the UTP inner conductors 65 with the first and second connectors 10, 11 connected.

A connector 10 is provided with an inner conductor 13 to be connected to a wire 18, a dielectric 14 for accommodating the inner conductor 13, and an electrically conductive impedance adjusting member 12 to be mounted on the wire. The inner conductor 13 includes a base portion 33 and an insulation barrel piece 35 rising from the base portion 33 and to be crimped to a coating 23 of the wire 18. The insulation barrel piece 35 includes an inclined portion 39 inclined toward the impedance adjusting member 12 with distance from the base portion 33 on an end edge on a side facing the impedance adjusting member 12.

A connector 10 is provided with an inner conductor 13 to be connected to a wire 18, a dielectric 14 for accommodating the inner conductor 13, and an electrically conductive impedance adjusting member 12 to be mounted on the wire. The inner conductor 13 includes a base portion 33 and an insulation barrel piece 35 rising from the base portion 33 and to be crimped to a coating 23 of the wire 18. The insulation barrel piece 35 includes an inclined portion 39 inclined toward the impedance adjusting member 12 with distance from the base portion 33 on an end edge on a side facing the impedance adjusting member 12.

A connection module includes a first assembly and a second assembly. The first assembly has a rest portion for resting thereon an exposed portion of a covered electrical wire for differential signal transmission. A cable accommodates the covered electrical wire in a jacket. The exposed portion is not covered with the jacket, exposing a covering of the covered electrical wire. The second assembly has a presser portion pressing the exposed portion rested on the rest portion against the rest portion. A position of the exposed portion is determined by combining the first assembly with the second assembly.

A connection module includes a first assembly and a second assembly. The first assembly has a rest portion for resting thereon an exposed portion of a covered electrical wire for differential signal transmission. A cable accommodates the covered electrical wire in a jacket. The exposed portion is not covered with the jacket, exposing a covering of the covered electrical wire. The second assembly has a presser portion pressing the exposed portion rested on the rest portion against the rest portion. A position of the exposed portion is determined by combining the first assembly with the second assembly.

The present invention relates to a connector for preventing a characteristic impedance mismatch, the connector including a stationary module fixed, by soldering, to any one (hereinafter, referred to as a ‘first panel’) of two panels disposed in parallel with each other, the stationary module having therein an impedance matching space (hereinafter, referred to as a ‘matching space’), a moving module disposed to move to the inside or outside of the matching space of the stationary module and provided to be in contact with the other (hereinafter, referred to as a ‘second panel’) of the two panels, and an elastic member disposed in the matching space of the stationary module and configured to elastically support the moving module on the second panel, in which the elastic member, together with an external conductor part of the moving module, performs a function of blocking static electricity, which makes it possible to manufacture a product with a reduced size and prevent a characteristic impedance mismatch.

The present invention relates to a connector for preventing a characteristic impedance mismatch, the connector including a stationary module fixed, by soldering, to any one (hereinafter, referred to as a ‘first panel’) of two panels disposed in parallel with each other, the stationary module having therein an impedance matching space (hereinafter, referred to as a ‘matching space’), a moving module disposed to move to the inside or outside of the matching space of the stationary module and provided to be in contact with the other (hereinafter, referred to as a ‘second panel’) of the two panels, and an elastic member disposed in the matching space of the stationary module and configured to elastically support the moving module on the second panel, in which the elastic member, together with an external conductor part of the moving module, performs a function of blocking static electricity, which makes it possible to manufacture a product with a reduced size and prevent a characteristic impedance mismatch.

An electrical connector for high speed signals. The connector has multiple conductive elements that may serve as signal or ground conductors. A member formed with lossy material and conductive compliant members may be inserted in the connector. The conductive compliant members may be aligned with conductive elements of the connector configured as ground conductors. For a connector configured to carry differential signals, the ground conductors may separate pairs of signal conductors. The member may further include a conductive web, embedded within the lossy material, that interconnects the conductive compliant members. For a receptacle connector, the conductive elements may have mating contact portions aligned along opposing surfaces of a cavity. The conductive elements may have contact tails for attachment to a printed circuit board and intermediate portions connecting the mating contact portions and the contact tails. The conductive compliant members may press against the intermediate portions.

An electrical connector for high speed signals. The connector has multiple conductive elements that may serve as signal or ground conductors. A member formed with lossy material and conductive compliant members may be inserted in the connector. The conductive compliant members may be aligned with conductive elements of the connector configured as ground conductors. For a connector configured to carry differential signals, the ground conductors may separate pairs of signal conductors. The member may further include a conductive web, embedded within the lossy material, that interconnects the conductive compliant members. For a receptacle connector, the conductive elements may have mating contact portions aligned along opposing surfaces of a cavity. The conductive elements may have contact tails for attachment to a printed circuit board and intermediate portions connecting the mating contact portions and the contact tails. The conductive compliant members may press against the intermediate portions.