Electrosurgical generators and sensors

What is claimed is: 1. An electrosurgical generator, comprising: a radio frequency output stage configured to output at least one radio frequency waveform, the radio frequency output stage including at least one active lead and at least one return lead, each of the at least one active lead and at least one return lead includes common-mode current and differential-mode current; a sensor for sensing current, the sensor including: a current sensor coil defining an opening therethrough and including: an outer coil including an opening therethrough; a pair of first and second terminals coupled to the outer coil at a first end of the current sensor coil; and an inner coil coupled to and disposed within the outer coil; and wherein the at least one active lead and the at least one return lead pass through the opening of the current sensor coil such that the common-mode currents are canceled and the differential-mode currents are added, the at least one active lead including: a top portion extending parallel with and over a top surface of the current sensor coil at a first non-zero acute angle relative to an axis that extends through the first end of the current sensor coil and a center of the opening of the current sensor coil; and a bottom portion extending parallel with and over a bottom surface of the current sensor coil at a second non-zero acute angle relative to the axis, the first and second angles being symmetrical relative to each other about the axis. 2. The electrosurgical generator according to claim 1 , wherein the current sensor coil is configured to output a signal indicative of the differential-mode currents. 3. The electrosurgical generator according to claim 1 , wherein the current sensor coil is disposed within a printed circuit board. 4. The electrosurgical generator according to claim 3 , wherein the sensor further includes at least one shielding member disposed over the outer coil. 5. The electrosurgical generator according to claim 4 , wherein the printed circuit board includes: a plurality of outer conductive traces each being coupled to the at least one active lead, the plurality of outer conductive traces being interconnected by at least one via through the printed circuit board. 6. The electrosurgical generator according to claim 5 , wherein the printed circuit board includes: a top dielectric layer; a first dielectric intermediate layer; a bottom dielectric layer; and a second dielectric intermediate layer, and wherein the outer coil includes: a plurality of top conductive traces disposed between the top dielectric layer and the first dielectric intermediate layer of the printed circuit board; a plurality of bottom conductive traces disposed between the bottom dielectric layer and the second dielectric intermediate layer of the printed circuit board, wherein the plurality of outer conductive traces are disposed over outer surfaces of the bottom and top dielectric layers; and a plurality of inner and outer vias interconnecting the pluralities of top and bottom conductive traces. 7. The electrosurgical generator according to claim 6 , wherein the at least one shielding member is disposed over an outer dielectric layer disposed over the outer surface of at least one of the top dielectric layer or the bottom dielectric layer. 8. The electrosurgical generator according to claim 6 , wherein the inner coil includes: at least one conductive trace disposed within the outer coil and between the first and second dielectric intermediate layers of the printed circuit board. 9. The electrosurgical generator according to claim 2 , wherein the current sensor coil has a second end disposed on an opposite side of the opening of the current sensor coil as the first end, each of the outer coil and the inner coil includes first and second portions, the first and second portions being separated at the second end of the current sensor coil. 10. The electrosurgical generator according to claim 9 , wherein the sensor further includes: a fully-differential conditioning circuit configured to at least one of integrate, amplify, or filter the signal to output a processed signal indicative of the differential-mode currents. 11. The electrosurgical generator according to claim 10 , wherein the conditioning circuit is coupled to the first and second terminals, which are coupled to the respective first and second portions of the outer coil at the first end of the current sensor coil, and the first and second portions of the inner coil are coupled to a third terminal at the first end of the current sensor coil. 12. The electrosurgical generator according to claim 11 , wherein the first portions of the outer coil and the inner coil are coupled to each other at the second end and the second portions of the outer coil and the inner coil are coupled to each other at the second end. 13. An electrosurgical generator, comprising: a radio frequency output stage configured to output at least one radio frequency waveform, the radio frequency output stage including at least one active lead and at least one return lead, each of the at least one active lead and at least one return lead includes common-mode current and differential-mode current; a sensor for sensing current, the sensor including: a current sensor coil defining an opening therethrough and diametrically opposed first and second ends, the current sensor coil including: an outer coil including a first semi-circular portion and a second semi-circular portion; and an inner coil disposed within the outer coil and including a first semi-circular portion and a second semi-circular portion, wherein the first semi-circular portions and the second semi-circular portions of the inner and outer coils are separated at the second end; and wherein the at least one active lead and at least one return lead pass through the current sensor coil opening such that the common-mode currents are canceled and the differential-mode currents are added and the current sensor coil is configured to output a differential signal indicative of the differential-mode currents, the at least one active lead including: a top portion extending along a plane defined by a top surface of the first semi-circular portion of the outer coil at a first non-zero acute angle relative to an axis that extends through the first end of the current sensor coil and a center of the opening of the current sensor coil; and a bottom portion extending along a plane defined by a bottom surface of the second semi-circular portion of the outer coil at a second non-zero acute angle relative to the axis, the first and second angles being symmetrical relative to each other about the axis. 14. The electrosurgical generator according to claim 13 , wherein the current sensor coil further includes at least one shielding member disposed over the outer coil and defining a second opening therethrough in alignment with the opening of the current sensor coil. 15. The electrosurgical generator according to claim 13 , wherein the sensor further includes: a conditioning circuit coupled to the inner and outer coils at the first end of the current sensor coil and configured to at least one of integrate, amplify, or filter the differential signal to output a processed signal indicative of the current. 16. The electrosurgical generator according to claim 13 , wherein the at least one return lead includes: a top portion extending along the plane defined by the top surface of the first semi-circular portion of the outer coil; and a bottom portion extending along the plane defined by the bottom surf