Articulatable surgical instruments with conductive pathways for signal communication

What is claimed is: 1. A surgical instrument, comprising: an elongate shaft assembly including at least one electrical shaft conductor therein; and an articulation joint comprising: a proximal joint portion coupled to the elongate shaft assembly; a distal joint portion movably coupled to the proximal joint portion for selective articulation relative thereto; a coupler assembly rotatably coupled to the distal joint portion for selective rotation relative thereto, the coupler assembly configured to be detachably coupled to a surgical end effector and form an electrically conductive coupler pathway from an end effector conductor in the end effector to the articulation joint; and an articulation joint conductor contacting the electrically conductive coupler pathway and traversing the articulation joint to contact the corresponding shaft conductor to form an electrically-conductive path therebetween, wherein the coupler assembly further comprises a locking assembly configured to releasably lock the end effector thereto, the locking assembly forming the electrically conductive coupler pathway from the end effector conductor to the articulation joint conductor. 2. The surgical instrument of claim 1 wherein the articulation joint conductor comprises: a non electrically-conductive hollow body including an open distal end and an open proximal end and a joint-receiving passage extending therebetween for receiving the articulation joint therein, the hollow body being configured to permit portions of the articulation joint to be selectively articulated relative to each other. 3. A surgical instrument, comprising: an elongate shaft assembly including at least one electrical shaft conductor therein; and an articulation joint comprising: a proximal joint portion coupled to the elongate shaft assembly; a distal joint portion movably coupled to the proximal joint portion for selective articulation relative thereto; a coupler assembly rotatably coupled to the distal joint portion for selective rotation relative thereto, the coupler assembly configured to be detachably coupled to a surgical end effector and form an electrically conductive coupler pathway from an end effector conductor in the end effector to the articulation joint; and an articulation joint conductor contacting the electrically conductive coupler pathway and traversing the articulation joint to contact the corresponding shaft conductor to form an electrically-conductive path therebetween, wherein the coupler assembly further comprises a movable locking pin assembly configured to releasably lock the end effector thereto, the locking pin assembly forming the electrically conductive coupler pathway from the end effector conductor to the articulation joint conductor. 4. The surgical instrument of claim 3 further comprising an annular electrical conductor on the distal joint portion and communicating with the articulation joint conductor and the locking pin assembly such that when the coupler assembly rotates relative to the distal joint portion, the locking pin assembly remains in contact with the annular electrical conductor. 5. The surgical instrument of claim 4 wherein the locking pin assembly is biased into a locking position by a locking spring housed within the coupler assembly and forming an electrically conductive pathway between the locking pin assembly and the annular electrical conductor. 6. The surgical instrument of claim 5 wherein the articulation joint conductor comprises: a distal electrical joint conductor extending through the distal joint portion; and a proximal electrical joint conductor extending through the proximal joint portion and configured for continuous electrical contact with the distal electrical joint conductor as the distal joint portion is articulated relative to the proximal joint portion, the proximal electrical joint conductor in electrical contact with the corresponding electrical shaft conductor. 7. The surgical instrument of claim 6 wherein the distal joint portion comprises a distal clevis that includes a pair of distal clevis arms and wherein the proximal joint portion comprises a proximal clevis that includes a pair of proximal clevis arms that are pivotally pinned to the distal clevis arms by a pivot pin and wherein the surgical instrument further comprises: a distal annular conductor on one of the distal clevis arms and in electrical contact with the distal electrical joint conductor; and a proximal annular conductor on a corresponding one of the proximal clevis arms and configured for continuous electrical contact with the distal annular conductor as the distal clevis pivots relative to the proximal clevis, the proximal annular conductor in electrical contact with the proximal electrical joint conductor. 8. The surgical instrument of claim 7 wherein at least one of the proximal annular conductor and the distal annular conductor comprises a spring washer fabricated from an electrically conductive material. 9. A surgical instrument, comprising: a control system containing at least one electrical control component; an elongate shaft assembly including an electrical shaft conductor operably communicating with at least one of the electrical control components; an articulation joint comprising: a proximal clevis coupled to the elongate shaft assembly; and a distal clevis pivotally coupled to the proximal clevis for selective pivotal travel relative thereto; a coupler assembly coupled to the distal clevis; a surgical end effector releasably coupled to the coupler assembly, the surgical end effector including an end effector conductor arranged for electrical contact with an electrically conductive coupler pathway formed in the coupler assembly when the surgical end effector has been coupled to the coupler assembly, wherein the coupler assembly comprises a locking assembly configured to releasably lock the end effector thereto; and an articulation joint conductor traversing the articulation joint and in electrical contact with the electrically conductive coupler pathway through the coupler assembly and the electrical shaft conductor, wherein the locking assembly forms the electrically conductive coupler pathway from the end effector conductor to the articulation joint conductor. 10. A surgical instrument, comprising: a control system containing at least one electrical control component; an elongate shaft assembly including an electrical shaft conductor operably communicating with at least one of the electrical control components; an articulation joint comprising: a proximal clevis coupled to the elongate shaft assembly; and a distal clevis pivotally coupled to the proximal clevis for selective pivotal travel relative thereto; a coupler assembly coupled to the distal clevis; a surgical end effector releasably coupled to the coupler assembly, the surgical end effector including an end effector conductor arranged for electrical contact with an electrically conductive coupler pathway formed in the coupler assembly when the surgical end effector has been coupled to the coupler assembly; and an articulation joint conductor traversing the articulation joint and in electrical contact with the electrically conductive coupler pathway through the coupler assembly and the electrical shaft conductor, wherein the coupler assembly further comprises a movable locking pin assembly configured to releasably lock the end effector thereto, the locking pin assembly forming the electrically conductive coupler pathway from the end effector conductor to the articulation joint conductor. 11. The surgical instrument of claim 10 wherein the end effector conductor has a flexible hook formed on a prox