High speed bypass cable for use with backplanes

1 . A bypass cable assembly, comprising: a first connector with a housing and a plurality of terminals positioned in the housing, the plurality of terminals positioned in a row and including signal terminals and ground terminals, the signal terminals being arranged in pairs and at least one of the ground terminals positioned between pairs of the signal terminals; a plurality of cables including a first and second cable, each of the plurality of cables including an insulative body portion with a pair of associated signal conductors extending lengthwise through the insulative body portion, the signal conductors of each pair being spaced apart, each cable of the plurality of cables including a ground shield that extends around the insulative body portion, the ground shield and signal conductors having opposing first and second free ends, wherein the first free ends are terminated to the signal and ground terminals in the first connector; and a second connector mounted to the second free end, the second connector configured to connect the signal terminals in the first connector to circuit traces adjacent a chip package, wherein the bypass cable assembly is configured to support 10 GHz signaling. 2 . The bypass cable assembly of claim 1 , wherein the row is a first row, the first connector includes a second pair of signal terminals and a second ground terminal in a second row, the signal terminals of the second pair of signal terminals each including a contact portion and a tail portion, the tail portions of the second pair of signal terminals being connected to the signal conductors of the second cable, the second ground terminal including a contact that is positioned adjacent the contacts of the second pair of signals. 3 . The bypass cable assembly of claim 2 , wherein the bypass cable assembly is configured to support 15 GHz signaling. 4 . The bypass cable assembly of claim 2 , wherein the two rows of terminals are each supported by a separate frame that is positioned in the housing. 5 . The bypass cable assembly of claim 1 , wherein the first connectors is arranged so that the pair of signal contacts have ground contacts on both sides of the pair of signal contacts and the ground shield is electrically connected to the ground contacts on both sides of the pair of signal contacts. 6 . The bypass cable assembly of claim 1 , wherein a second connector includes terminals that are connected to the signal conductors in the cables and provide an electrical connection to the circuit traces. 7 . A bypass connector, comprising: a body form of an insulative material, the body defining a connector mating area and a termination area; a plurality of terminals supported by the body, each terminal including a mating portion disposed in the mating area and a tail portion disposed in the termination area, the plurality of terminals including signal terminals and ground terminals, the plurality of terminals being supported in separate rows of terminals and configured so the signal terminals are arranged in pairs and at least one of the ground terminal is positioned between pairs of signal terminals; and a plurality of wires extending from the body toward another connector, each wire including a pair of signal conductors extending lengthwise through an insulative body and a grounding shield extending over an exterior surface of the insulative body, wherein the pair of signal conductors are spaced apart from each other a first distance and the terminals that form the signal pairs being spaced apart by a second distance that is not more than 2.5 times the first distance, wherein the bypass connector is configured to support 10 GHz signaling. 8 . The bypass connector claim 7 , wherein one of the ground terminals adjacent the pair of signal terminals is connected to the grounding shield. 9 . The bypass connector of claim 8 , wherein a grounding cradle connects the ground terminal to the grounding shield. 10 . The bypass connector of claim 7 , wherein the separate rows of terminals each form a set of terminals and each set of terminals is supported by a corresponding frame member. 11 . The bypass connector of claim 10 , wherein each terminal in the set of terminals has a contact portion extending from a first side of the frame member and a tail portion extending from a second side of the frame member, the first side opposing the second side, wherein the signal conductors are connected to the tail portions. 12 . The bypass connector of claim 11 , wherein the plurality of wires connected to the set of terminals are arranged in a row. 13 . The bypass connector claim 7 , further comprising a commoning member, the commoning member electrically connecting ground terminals in one of the rows. 14 . The bypass connector of claim 7 , wherein the bypass connector is configured to support 15 GHz signaling. 15 . A bypass cable assembly, comprising: a bypass connector as recited in claim 7 , wherein the plurality of wires each have a first end and an opposing second end, the first end positioned adjacent the body; and a second connector electrically connected to the second end of the plurality of wires. 16 . The bypass cable assembly of claim 15 , wherein the second connector includes a plurality of terminals that are each electrically connected to one of the signal conductors.