Electrosurgical forceps

What is claimed is: 1. A forceps, comprising: an instrument housing; an elongated shaft assembly extending distally from the instrument housing and defining a longitudinal axis; and a rotation knob assembly supported in the instrument housing and including a rotation knob and an inner housing disposed within the rotation knob, the rotation knob coupled to the shaft assembly and positioned to rotate about the inner housing to rotate the elongated shaft assembly relative to the instrument housing, the inner housing coupled to the instrument housing and supporting electrical contacts configured to transmit electrical energy through the rotation knob assembly, the rotation knob assembly including an inner contact ring and an outer contact ring that are longitudinally offset from one another relative to the longitudinal axis, the inner contact ring disposed in contact with a first contact spring, the outer contact ring disposed in contact with a second contact spring, the first and second contact springs being vertically offset from one another; wherein the inner contact ring and the outer contact ring are electrically isolated from one another; and wherein the inner contact ring has a diameter and the outer ring contact has a diameter, the diameter of the inner contact ring different from the diameter of the outer contact ring. 2. The forceps of claim 1 , wherein the rotation knob defines an outer ring recess positioned to receive the outer contact ring and an inner ring recess positioned to receive the inner contact ring. 3. The forceps of claim 2 , wherein the inner and outer ring recesses are separated by an isolation ring. 4. The forceps of claim 1 , wherein the first and second contact springs are supported by the inner housing and electrically isolated from one another. 5. The forceps of claim 4 , wherein the first contact spring is coupled to a first electrical wire and the second contact spring is coupled to a second electrical wire. 6. The forceps of claim 5 , wherein the first and second electrical wires extend through the inner housing and are positioned to enable continuous rotation of the elongated shaft assembly about the longitudinal axis in response to rotation of the rotation knob about the inner housing and about the first and second electrical wires. 7. The forceps of claim 1 , wherein the rotation knob includes a shaft mount defining a passageway for receiving the elongated shaft assembly therein. 8. The forceps of claim 1 , wherein the first contact spring is radially closer to the longitudinal axis than the second contact spring. 9. An electrosurgical system, comprising: an energy source; and a forceps electrically coupled to the energy source, the forceps including: an instrument housing; an elongated shaft assembly extending distally from the instrument housing to an end effector, the elongated shaft assembly defining a longitudinal axis; a rotation knob assembly supported in the instrument housing and including a rotation knob and an inner housing disposed within the rotation knob, the rotation knob coupled to the shaft assembly and positioned to rotate about the inner housing to rotate the elongated shaft assembly relative to the instrument housing, the inner housing coupled to the instrument housing and supporting electrical contacts configured to transmit electrical energy from the energy source through the rotation knob assembly to the end effector, the rotation knob assembly including an inner contact ring and an outer contact ring that are longitudinally offset from one another relative to the longitudinal axis, the inner contact ring disposed in contact with a first contact spring, the outer contact ring disposed in contact with a second contact spring, the first and second contact springs being vertically offset from one another; wherein the inner contact ring and the outer contact ring are electrically isolated from one another; and wherein the inner contact ring has a diameter and the outer contact ring has a diameter, the diameter of the inner contact ring different from the diameter of the outer contact ring. 10. The electrosurgical system of claimer 9 , wherein the rotation knob defines an outer ring recess positioned to receive the outer contact ring and an inner ring recess positioned to receive the inner contact ring. 11. The electrosurgical system of claim 10 , wherein the inner and outer ring recesses are separated by an isolation ring. 12. The electrosurgical system of claim 9 , wherein the first and second contact springs are supported by the inner housing and electrically isolated from one another by the inner housing. 13. The electrosurgical system of claim 9 , wherein the rotation knob includes a shaft mount defining a passageway for receiving the elongated shaft assembly therein. 14. The electrosurgical system of claim 9 , wherein the first contact spring is radially closer to the longitudinal axis than the second contact spring. 15. The electrosurgical system of claim 9 , wherein the first contact spring is coupled to a first electrical wire and the second contact spring is coupled to a second electrical wire, the first and second electrical wires connected to the energy source, the first and second contact springs disposed in electrical communication with the end effector to enable the first and second wires to transmit electrical energy from the energy source to the end effector. 16. The electrosurgical system of claim 15 , wherein the first and second electrical wires extend through the inner housing and are positioned to enable continuous rotation of the elongated shaft assembly about the longitudinal axis in response to rotation of the rotation knob about the inner housing and about the first and second electrical wires.