Rotation features for ultrasonic surgical instrument

We claim: 1. An apparatus for operating on tissue, comprising: (a) a shaft assembly including an acoustic waveguide configured to transmit ultrasonic vibrations; (b) an ultrasonic blade extending distally from the acoustic waveguide, wherein the ultrasonic blade is in acoustic communication with the acoustic waveguide; and (c) a clamp assembly, including: (i) a clamp arm pivotable toward and away from the ultrasonic blade about a pivot axis such that the clamp arm is configured to clamp tissue between the clamp arm and the ultrasonic blade, and (ii) a plurality of electrodes disposed along a length of the clamp arm in a spaced-apart relationship and configured to measure electrical impedance between the plurality of electrodes, wherein the plurality of electrodes includes a distal pair of electrodes and a proximal pair of electrodes, wherein the distal pair of electrodes are distally positioned along the length of the clamp arm relative to the proximal electrodes, wherein the distal pair of electrodes are configured to measure a distal electrical impedance across the clamp arm, and wherein the proximal pair of electrodes are configured to measure a proximal electrical impedance across the clamp arm different than the distal electrical impedance. 2. The apparatus of claim 1 , wherein each of the distal and proximal pairs of electrodes includes a first electrode positioned across a width of the clamp arm from a second electrode in a spaced-apart relationship, wherein each of the distal and proximal pairs of electrodes are configured to measure electrical impedance across the first and second electrodes. 3. The apparatus of claim 1 , wherein the distal pair of electrodes and the proximal pair of electrodes are configured to simultaneously measure the distal and proximal electrical impedances. 4. The apparatus of claim 1 , wherein the distal pair of electrodes and the proximal pair of electrodes are configured to measure the distal and proximal electrical impedances in a sequence such that one of the distal and proximal electrical impedances is taken sequentially after the other of the distal and proximal electrical impedances. 5. The apparatus of claim 4 , wherein the plurality of electrodes are configured to measure the electrical impedance between the plurality of electrodes from a distal end portion of the clamp arm to a proximal end portion of the clamp arm. 6. The apparatus of claim 1 , wherein the plurality of electrodes are configured to measure the electrical impedance above a predetermined threshold to indicate that no tissue is positioned between the plurality of electrodes. 7. The apparatus of claim 1 , wherein the plurality of electrodes are configured to measure the electrical impendence below a predetermined threshold to indicate that tissue is positioned between the plurality of electrodes. 8. The apparatus of claim 1 , wherein the plurality of electrodes are configured to collectively measure a distribution of tissue positioned along the length of the clamp arm. 9. The apparatus of claim 1 , wherein the plurality of electrodes are positioned on a clamp pad of the clamp arm. 10. The apparatus of claim 1 further comprising a control module in communication with the plurality of electrodes, wherein the control module is configured to operate at least one of the clamp arm or the ultrasonic blade based on the electrical impedance measured by the plurality of electrodes. 11. The apparatus of claim 10 , wherein the control module is configured to rotate one or both of the clamp arm and the ultrasonic blade relative to each other. 12. The apparatus of claim 10 , wherein the plurality of electrodes are configured to determine a presence of tissue clamped between the ultrasonic blade and the clamp arm at a sensed location along the length of the clamp arm based on the electrical impedance measured by the plurality of electrodes, wherein the control module is configured to rotate one or both of the clamp arm and the ultrasonic blade relative to each other to provide increased pressure between the ultrasonic blade and the clamp arm at the sensed location. 13. The apparatus of claim 10 , wherein the control module is configured to provide one or both of audible and visual feedback to indicate that tissue is positioned between the clamp arm and the ultrasonic blade based on the electrical impedance measured by the plurality of electrodes. 14. The apparatus of claim 10 , wherein the control module is configured to monitor the electrical impedance measured by the plurality of electrodes as one or both of the clamp arm and the ultrasonic blade are rotated relative to each other. 15. The apparatus of claim 14 , wherein the control module is configured to continue to rotate one or both of the clamp arm and the ultrasonic blade are relative to each other until the measured electrical impedance by the plurality of electrodes is above a predetermined threshold. 16. The apparatus of claim 10 , wherein the control module is configured to adjust a speed of the rotation of one or both of the clamp arm and the ultrasonic blade based on the electrical impedance measured by the plurality of electrodes. 17. The apparatus of claim 1 , wherein the plurality of electrodes includes an intermediate pair of electrodes positioned longitudinally between the distal and proximal pairs of electrodes, wherein the intermediate pair of electrodes are configured to measure an intermediate electrical impedance different than the distal and proximal electrical impedances and longitudinally between the distal and proximal pairs of electrodes. 18. The apparatus of claim 17 , wherein the distal pair of electrodes, intermediate pair of electrodes, and the proximal pair of electrodes are configured to measure the distal, intermediate, and proximal electrical impedances in a sequence such that the distal electrical impedance is sensed and sequentially followed by the intermediate electrical impedance being sensed and further sequentially followed by the proximal electrical impedance being sensed. 19. An apparatus for operating on tissue, comprising: (a) a shaft assembly including an acoustic waveguide configured to transmit ultrasonic vibrations; (b) an ultrasonic blade extending distally from the acoustic waveguide, wherein the ultrasonic blade is in acoustic communication with the acoustic waveguide; and (c) a clamp assembly, including: (i) a clamp arm pivotable toward and away from the ultrasonic blade about a pivot axis such that the clamp arm is configured to clamp tissue between the clamp arm and the ultrasonic blade, wherein the clamp arm includes a clamp pad, and (ii) a plurality of electrodes disposed along a length of the clamp pad in a spaced-apart relationship and configured to measure electrical impedance between the plurality of electrodes, wherein the plurality of electrodes includes at least one pair of electrodes, wherein the at least one pair of electrodes includes a first electrode positioned across a width of the clamp pad from a second electrode in a spaced-apart relationship, wherein the at least one pair of electrodes is configured to measure electrical impedance across the first and second electrodes. 20. An apparatus for operating on tissue, comprising: (a) a shaft assembly including an acoustic waveguide configured to transmit ultrasonic vibrations; (b) an ultrasonic blade extending distally from the acoustic waveguide, wherein the ultrasonic blade is in acoustic communication with the acoustic waveguide; and (c) a clamp assemb