System and methods for controlling patient leakage current in a surgical system

The invention claimed is: 1. A control console for supplying a drive signal to a surgical tool, the control console comprising: a transformer comprising a primary winding and a secondary winding, the primary winding being configured to receive an input signal from a power source and to induce the drive signal in the secondary winding to supply the drive signal to the surgical tool; a first current source comprising a leakage control winding coupled to a path of the drive signal, wherein the primary winding is configured to induce a first cancellation current in the leakage control winding to inject into the path of the drive signal to cancel a first portion of leakage current of the drive signal; a sensor coupled to the path of the drive signal, wherein the sensor is configured to output a sensed signal to provide feedback related to the leakage current; and a second current source coupled to the path of the drive signal and to the sensor, the second current source being configured to receive the sensed signal and to determine a second cancellation current to inject into the path of the drive signal to cancel a residual portion of the leakage current based on the sensed signal. 2. The control console as claimed in claim 1 , wherein the primary winding, the leakage control winding, and the secondary winding are configured to collectively generate a capacitance between the leakage control winding and the secondary winding. 3. The control console as claimed in claim 1 , wherein the second current source is also energized by the power source. 4. The control console as claimed in claim 1 , wherein the second current source is configured to receive a target value as inputs and to determine the second cancellation current to inject into the path of the drive signal to cancel the residual portion of the leakage current based on the sensed signal and the target value. 5. The control console as claimed in claim 4 , wherein the second current source comprises a gain device coupled to the sensor, and the gain device is configured to determine a difference between the sensed signal and the target value and to determine the second cancellation current based on the difference. 6. The control console as claimed in claim 5 , wherein the second current source further comprises a capacitor coupled to the gain device, the capacitor isbeing configured to block the DC component of the second cancellation current. 7. The control console as claimed in claim 4 , wherein the sensor is configured to sense a common-mode current of the drive signal and to output the common-mode current of the drive signal as the sensed signal received by the second current source, the common-mode current being related to the leakage current of the drive signal, and the target value received by the second current source defines a target current. 8. The control console as claimed in claim 7 , wherein the path of the drive signal comprises a high voltage conductor and a low voltage conductor, the sensor is defined as a transformer winding disposed around both the high and low voltage conductors, and the transformer winding is configured to output the common-mode current of the drive signal. 9. The control console as claimed in claim 4 , wherein the path of the drive signal comprises a high voltage conductor and a low voltage conductor, the sensor is coupled to the low voltage conductor and is configured to sense a voltage from the low voltage conductor and to output the voltage as the sensed signal received by the second current source, and the target value received by the second current source defines a target voltage. 10. The control console as claimed in claim 9 , wherein the sensor is a capacitor. 11. The control console as claimed in claim 9 , wherein the second current source is configured to inject the second cancellation current into the low voltage conductor. 12. The control console as claimed in claim 1 , wherein the sensor is configured to sense a current of the drive signal and to output the current of the drive signal as the sensed signal. 13. The control console as claimed in claim 1 , further comprising: a fault detection stage coupled to the sensor and being configured to receive the sensed signal and to generate a fault detection signal responsive to detection of a fault condition related to the leakage current and a controller coupled to the fault detection stage and configured to receive the fault detection signal from the fault detection stage, determine the fault condition based on the fault detection signal received from the fault detection stage, and decrease or terminate power to the surgical tool in response to determination of the fault condition. 14. A control console for supplying a drive signal to a surgical tool, the control console comprising: a transformer comprising a primary winding and a secondary winding and with the primary winding configured to receive an input signal from a power source and to induce the drive signal in the secondary winding to supply the drive signal to the surgical tool; a first current source comprising a leakage control winding coupled to a path of the drive signal and with the primary winding configured to induce a first cancellation current in the leakage control winding to inject into the path of the drive signal to cancel leakage current of the drive signal; a sensor configured to sense a characteristic of the input signal and to output a sensed signal related to the characteristic of the input signal; a second current source coupled to the path of the drive signal; a variable gain device coupled to the sensor and to the second current source; and a selection interface coupled to the second current source and to the variable gain device and being configured to enable selection of one of a plurality of leakage current adjustment settings and to provide the selected leakage current adjustment setting to the variable gain device; wherein the variable gain device is configured to receive the sensed signal and to modify the sensed signal based on the selected leakage current adjustment setting; and wherein the second current source is configured to generate a second cancellation current based on the modified sensed signal from the variable gain device and to inject the second cancellation current into the path of the drive signal to cancel leakage current of the drive signal. 15. The control console as claimed in claim 14 , wherein the sensor is a transformer winding. 16. The control console as claimed in claim 14 , wherein the selection interface is a potentiometer. 17. A control console for supplying a drive signal to a surgical tool, the control console comprising: a variable power source; a transformer comprising a primary winding and a secondary winding, with the primary winding coupled to the variable power source and configured to receive an input signal from the variable power source and to induce a drive signal in the secondary winding to supply the drive signal to the surgical tool; a sensor coupled to a path of the drive signal and configured to output a sensed signal related to leakage current of the drive signal; and a current source coupled to the path of the drive signal, the sensor and the variable power source, wherein the variable power source is configured to energize the current source, and the current source is configured to receive the sensed signal and a target value as inputs, determine a difference between the sensed signal and the target value, and generate a cancellation current to inject into the path of the drive signal to cancel t