High speed bypass cable assembly

What is claimed is: 1. A cable bypass assembly, the cable bypass assembly comprising: a first connector , the first connector being configured for mounting to a circuit board, the first connector including a connector body , the connector body supporting a plurality of conductive terminals, the conductive terminals including contact portions and tail portions, the contact portions being held within the connector body for contacting a mating blade of an opposing, mating connector, the tail portions extending out from the connector body; an elongated cable, the elongated cable including: a pair of signal conductors, the signal conductors being disposed within an insulative body portion of the elongated cable, the signal conductors extending, in a spaced-apart relationship, lengthwise through a body portion of the elongated cable, a conductive shield, the conductive shield extending over an exterior of the elongated cable body portion, an insulative outer covering, the insulative outer covering extending over the conductive shield, and opposing first and second free ends, the first free end terminating directly to selected terminal tails of the first connector in a manner so that the signal conductors are in electrical communication with a pair of signal terminal tails; a shield extension member, the shield extension member being configured to engage a first length of the conductive shield exposed at the first free end and extending therefrom over the signal conductors attached to the pair of signal terminal tails, the shield extension member including at least two spaced apart mounting feet; and a second connector, the second connector including: an insulative body, the insulative body supporting at least a pair of conductive signal terminals in a spaced-apart relationship, each conductive signal terminal including contact and tail portions, and a shielding collar, the shielding collar enclosing a body portion of the second connector, the shielding collar includes an extension portion, the extension portion engaging and receiving the conductive shield exposed at the second free end. 2. The cable bypass assembly of claim 1 , further including a second cable, the second cable including a pair of signal conductors, the second cable signal conductors disposed lengthwise therethrough in a spaced-apart relationship, the second cable signal conductors being attached to corresponding signal terminal tails of the first connector alongside the elongated cable. 3. The cable bypass assembly of claim 1 , wherein the shield extension member further includes a cup portion, the cup portion being configured to receive the first free end therein. 4. The cable bypass assembly of claim 2 , wherein the shield extension member further includes a pair of cup portions, each cup portion receivings ends of the two cables therein. 5. The cable bypass assembly of claim 4 , wherein the shield extension member includes at least three mounting feet, two of the mounting feet being disposed on opposing side edges of the shield extension member and a third of the three mounting feet being disposed between the cup portions. 6. The cable bypass assembly of claim 5 , wherein the mounting feet and the two cable signal conductors are aligned with each other. 7. The cable bypass assembly of claim 1 , wherein the tail and contact portions extend uninterruptedly lengthwise in a general horizontal plane through the first connector body. 8. The cable bypass assembly of claim 1 , wherein the elongated cable includes a preselected length of flexible circuitry. 9. The cable bypass assembly of claim 1 , wherein the shielding collar further includes at least one through-hole terminal, the through-hole terminal extending from the shielding collar and engaging a through-hole of the circuit board. 10. The cable bypass assembly of claim 1 , wherein the shielding collar further includes a cap portion, the cap portion having a cup portion formed therein, the cup portion being configured to receive an exposed second end of the cable therein and contact a length of exposed cable shielding. 11. The cable bypass assembly of claim 1 , wherein the second connector is configured to connect directly to a chip member. 12. A cable bypass assembly with low loss performance at high data frequencies, the cable bypass assembly comprising: a first connector, the first connector being configured for mounting to a circuit board, the first connector including a connector body, the connector body supporting a plurality of conductive terminals, the conductive terminals including contact portions and tail portions, the contact portions being held within the connector body for contacting a mating blade of an opposing, mating connector, the tail portions extending out from the connector body; an elongated cable having, the elongated cable including: first and second opposing ends, a pair of signal conductors, the signal conductors being disposed within the elongated cable in a spaced-apart relationship and extending lengthwise through the elongated cable, and at least one conductive shield, each conductive shield extending lengthwise through the elongated cable and substantially enclosing the signal conductors, the signal conductors, at the first end, being terminated directly to selected terminal tails of the first connector in a manner so that the signal conductors are in electrical communication with a pair of signal terminal tails along a horizontal extent thereof; a shield, the shield extending over the signal conductors attached to the signal terminal tails, the shield including a pair of ground shields; and a second connector, the second connector including an insulative body, the insulative body supporting at least a pair of conductive signal terminals in a spaced-apart relationship, each conductive signal terminal including contact and tail portions, the cable signal conductors at the second end thereof being terminated to the contact portions, and the cable conductive shield being terminated to selected terminals of the second connector designated for ground purposes. 13. The cable bypass assembly of claim 12 , wherein the cable is an extent of flexible circuitry, the signal conductors including two signal conductors. 14. The cable bypass assembly of claim 13 , wherein the ground shields are disposed on opposite sides of the signal conductors. 15. A cable bypass assembly, comprising: a cage that defines a port; a first connector positioned in the cage, the first connector including a first body with a card-slot, the first body supporting a plurality of terminals, each terminal of the plurality of terminals including a contact portion positioned in the card slot and a tail, wherein two terminals of the plurality of terminals are adjacent each other and form a first terminal pair and another terminal of the plurality of terminals is a first ground terminal, the first ground terminal positioned adjacent the first terminal pair; a cable with a first end and a second end that defines a length, the cable including a pair of signal conductors disposed within an insulative body portion of the cable, the signal conductors extending in a spaced-apart relationship through the insulative body portion along the length, the cable further including a conductive shield extending over an exterior of the insulative body portion and an insulative outer covering extending over the conductive shield, the first end being terminated directly to the tails of the first terminal pair so that the pair of signal conductors are in electrical communication with the first terminal pair, and wherein the c