System and method for driving an ultrasonic handpiece with a linear amplifier

What is claimed is: 1. A control console for generating an AC drive signal applied to an ultrasonic handpiece to vibrate a tip of the ultrasonic handpiece, the control console comprising: a transformer including a primary winding having opposed ends and a center tap to which a DC voltage is applied, and including a secondary winding across which the AC drive signal is developed for vibrating the tip of the ultrasonic handpiece; and a linear amplifier configured to receive an external control signal for regulating an AC voltage developed across the primary winding to induce a target AC drive signal across the secondary winding, the external control signal having a voltage proportional to a target voltage for the AC voltage developed across the primary winding that induces the target AC drive signal across the secondary winding, the linear amplifier comprising: transistors each functioning as a variable resistor connected to a different one of the opposed ends of the primary winding; and a control circuit coupled to the transistors and the opposed ends of the primary winding and configured to: receive the external control signal; receive voltages present at the opposed ends of the primary winding; generate a feedback adjusted signal based on the external control signal and the received voltages; and drive the transistors with the feedback adjusted signal to vary resistances of the variable resistors implemented by the transistors to generate the target voltage proportional to the voltage of the external control signal across the primary winding. 2. The control console of claim 1 , wherein the control circuit is configured to: generate a feedback signal based on the received voltages; and compare the feedback signal to the external control signal to generate the feedback adjusted signal. 3. The control console of claim 1 , wherein the feedback adjusted signal includes a positive component and a negative component, and the control circuit is configured to drive the transistors with the feedback adjusted signal by being configured to: split the feedback adjusted signal into a signal corresponding to the positive component of the feedback adjusted signal and a signal corresponding to the negative component of the feedback adjusted signal; vary the resistance of the variable resistor implemented by one of the transistors using the signal corresponding to the positive component of the feedback adjusted signal; and vary the resistance of the variable resistor implemented by another one of the transistors using the signal corresponding to the negative component of the feedback adjusted signal. 4. The control console of claim 1 , further comprising a second control circuit coupled to the transistors and configured to: monitor a state of the transistors; and maintain the transistors in a saturation mode based on the monitored state. 5. The control console of claim 1 , further comprising: a sensor that measures a current of the AC drive signal; a sensor that measures a voltage of the AC drive signal; and a processor coupled to the sensors and programmed to generate the external control signal based on the measured current and the measured voltage of the AC drive signal. 6. The control console of claim 1 , wherein the external control signal has a frequency corresponding to a tracked resonant frequency of the ultrasonic handpiece. 7. The control console of claim 1 , wherein the transistors are each connected between the primary winding and a common reference point. 8. The control console of claim 1 , wherein the transistors are each connected between the primary winding and ground. 9. The control console of claim 2 , wherein the control circuit comprises: a differential amplifier coupled to the opposed ends of the primary and configured to generate the feedback signal based on the received voltages; and a summing amplifier coupled to the differential amplifier and configured to generate the feedback adjusted signal based on the feedback signal generated by the differential amplifier and the external control signal. 10. The control console of claim 3 , wherein the linear amplifier comprises: a voltage controlled current source connected to the one of the transistors and configured to generate a current that varies the resistance of the variable resistor implemented by the one of the transistors based on the signal corresponding to the positive component of the feedback adjusted signal; and a voltage controlled current source connected to the another one of the transistors and configured to generate a current that varies the resistance of the variable resistor implemented by the another one of the transistors based on the signal corresponding to the negative component of the feedback adjusted signal. 11. The control console of claim 4 , wherein the second control circuit is configured to monitor the state of the transistors by being configured to determine a value representative of a voltage across the transistors, and is configured to maintain the transistors in the saturation mode based on the monitored state by being configured to adjust the DC voltage supplied to the center tap of the primary winding based on the value representative of the voltage across the transistors. 12. The control console of claim 10 , wherein the voltage controlled current source connected to the one of the transistors and the voltage controlled current source connected to the another one of the transistors are each DC biased to produce a nonzero voltage output when the signal corresponding to the negative component of the feedback adjusted signal and the signal corresponding to the positive component of the feedback adjusted signal are zero, respectively. 13. The control console of claim 10 , wherein the voltage controlled current source connected to the one of the transistors and the voltage controlled current source connected to the another one of the transistors each includes an amplifier with an output connected to the one of the transistors and the another one of the transistors respectively, the signal corresponding to the positive component of the feedback adjusted signal is applied to the noninverting input of the amplifier of the voltage controlled current source connected to the another one of transistors, and the signal corresponding to the positive component of the feedback adjusted signal is applied to the inverting input of the amplifier of voltage controlled current source connected to the one of transistors. 14. The control console of claim 11 , wherein the second control circuit is configured to determine the value representative of the voltage across the transistors based on a lowest drain voltage and a highest source voltage of the transistors. 15. A method for generating an AC drive signal applied to an ultrasonic handpiece to vibrate a tip of the ultrasonic handpiece using a linear amplifier and a transformer, the transformer including a primary winding having opposed ends and a center tap to which a DC voltage is applied and a secondary winding across which the AC drive signal is developed for vibrating the tip of the ultrasonic handpiece, and the linear amplifier including transistors each functioning as a variable resistor connected to a different one of the opposed ends of the primary winding, the method comprising: receiving, by the linear amplifier, an external control signal for regulating an AC voltage developed across the primary winding to induce a target AC drive signal across the secondary winding, the external control signal having a voltage proportional to a target voltage for the AC voltage deve