Electrical connector having a connector shroud

What is claimed is: 1. An electrical connector comprising: a module assembly including a contact module, the contact module having a module body and signal conductors held by the module body, the module assembly having a shroud-engaging face, wherein the signal conductors have respective signal members disposed along the shroud-engaging face; and a connector shroud coupled to the module assembly, the connector shroud having a mating side and an opposite loading side with a mating axis extending therebetween, the connector shroud including contact passages extending therethrough between the mating and loading sides, the loading side interfacing with the shroud-engaging face when the connector shroud is coupled to the module assembly, wherein the connector shroud couples to the module assembly in a first rotational position or in a second rotational position with respect to the mating axis, the contact passages aligning with the signal members for each of the first and second rotational positions. 2. The electrical connector of claim 1 , wherein the contact passages form a passage array having a rotational symmetry in which the passage array has an effectively identical configuration for the first and second rotational positions. 3. The electrical connector of claim 1 , wherein the module assembly includes a plurality of the contact modules stacked side-by-side, each of the contact modules having a mating edge, the mating edges collectively forming the shroud-engaging face. 4. The electrical connector of claim 1 , wherein the contact module includes ground members disposed along the shroud-engaging face. 5. The electrical connector of claim 4 , wherein the contact passages include signal passages and ground passages, the signal passages aligning with at least one of the signal members and the ground passages aligning with at least one of the ground members. 6. The electrical connector of claim 4 , wherein the signal members and the ground members form a communication array including a plurality of member sub-arrays, each of the member sub-arrays including a differential pair of the signal members and a plurality of the ground members that are distributed around the pair of signal members. 7. The electrical connector of claim 1 , wherein the contact module includes shroud-securing features and the connector shroud include module-securing features, the shroud-securing features and the module-securing features engaging each other to couple the connector shroud to the contact module. 8. An electrical connector comprising: a module assembly including a plurality of signal members and ground members, the signal members being electrically coupled to signal conductors, the module assembly having a shroud-engaging face, wherein the ground members and the signal members are disposed along the shroud-engaging face and collectively form a communication array; and a connector shroud coupled to the module assembly, the connector shroud having a mating side and an opposite loading side with a mating axis extending therebetween, the connector shroud including contact passages extending therethrough between the mating and loading sides, the loading side interfacing with the shroud-engaging face when the connector shroud is coupled to the module assembly, wherein the connector shroud couples to the module assembly in a first rotational position or in a second rotational position with respect to the mating axis, the contact passages aligning with the signal members and the ground members of the communication array for each of the first and second rotational positions. 9. The electrical connector of claim 8 , wherein the contact passages form a passage array having a rotational symmetry in which the passage array has an effectively identical configuration for the first and second rotational positions. 10. The electrical connector of claim 8 , wherein the module assembly includes a plurality of the contact modules stacked side-by-side, each of the contact modules having a mating edge and including corresponding signal members and ground members that are disposed along the mating edge, the mating edges collectively forming the shroud-engaging face. 11. The electrical connector of claim 8 , wherein the module assembly includes shroud-securing features and the connector shroud include module-securing features, the shroud-securing features and the module-securing features engaging each other to couple the connector shroud to the module assembly. 12. The electrical connector of claim 11 , wherein the shroud-securing features include projections and the module-securing features include openings that are sized to receive the projections. 13. The electrical connector of claim 8 , wherein the signal members are arranged to form signal pairs, each of the signal pairs being surrounded by a plurality of the ground members. 14. The electrical connector of claim 8 , wherein the signal members and the ground members include contact beams that are disposed along the shroud-engaging face and are configured to be deflected between different positions. 15. The electrical connector of claim 8 , wherein the communication array includes a plurality of member sub-arrays, each of the member sub-arrays including a pair of the signal members configured for differential signaling and a plurality of the ground members that are located around the pair of signal members. 16. An electrical connector comprising: a connector shroud having a mating side and an opposite loading side with a mating axis extending therebetween; and a contact module comprising a module body and signal conductors held by the module body, the module body having a mating edge that interfaces with the loading side of the connector shroud and a mounting edge that is configured to engage a circuit board, the mating and mounting edges facing in substantially perpendicular directions, the signal conductors having respective signal members that are disposed along the mating edge; wherein the contact module includes a plurality of shroud-securing features and the connector shroud includes a plurality of module-securing features that directly engage corresponding shroud-securing features, the shroud-securing features having a rotational symmetry such that an operative configuration of the shroud-securing features is substantially identical before and after the connector shroud is rotated 180° about the mating axis. 17. The electrical connector of claim 16 , further comprising a plurality of the contact modules stacked side-by-side to form a module assembly, the mating edges of the contact modules collectively forming a shroud-engaging face that interfaces with the loading side of the connector shroud. 18. The electrical connector of claim 17 , wherein the contact modules include ground members disposed along the mating edges, the signal members and the ground members of the contact modules forming a communication array. 19. The electrical connector of claim 18 , wherein the communication array includes a plurality of member sub-arrays, each of the member sub-arrays including a pair of the signal members configured for differential signaling and a plurality of the ground members that are located around the pair of signal members. 20. The electrical connector of claim 16 , wherein the shroud-securing features include projections and the module-securing features include openings that are sized to receive the projections.