Dynamic stability control in amplifier driving high Q load

The invention claimed is: 1. A dynamically stabilizable amplifier for driving an output current into a resistive, inductive, and capacitive (RLC) load, comprising: a driver stage that generates the output current on an output; a stabilizing resistor at the output of the driver stage; and a control circuit that: determines a level of the output current of the amplifier; compares the output current level with one or more thresholds; and selectively enables the stabilizing resistor based on the comparison so that the amplifier is stable across a range of the output current level; wherein the RLC load comprises a load resistance in series with a load inductance, which are in parallel with a load capacitance; wherein the stabilizing resistor is a shunt resistor; and wherein to selectively enable the stabilizing resistor based on the comparison, the control circuit controls the shunt resistor to selectively shunt the RLC load based on the comparison so that the amplifier is stable across a range of the output current level. 2. The amplifier of claim 1 , wherein the RLC load comprises a load capacitance in series with a load inductance, which are in parallel with a load resistance; wherein the stabilizing resistor is a damping resistor; and wherein to selectively enable the stabilizing resistor based on the comparison, the control circuit controls the damping resistor to selectively be in series with the RLC load based on the comparison so that the amplifier is stable across a range of the output current level. 3. The amplifier of claim 1 , wherein the stabilizing resistor that has a resistance value that stabilizes the amplifier when the stabilizing resistor is enabled. 4. The amplifier of claim 1 , wherein the control circuit: disables the stabilizing resistor when the output current level is above a highest of the one or more thresholds; and enables the stabilizing resistor when the output current level is below the highest of the one or more thresholds. 5. The amplifier of claim 4 , wherein the one or more thresholds comprise a plurality of thresholds; wherein the stabilizing resistor is controllable to have a plurality of resistance values corresponding to the plurality of thresholds; and wherein to enable the stabilizing resistor when the output current level is below the highest of the one or more thresholds, the control circuit: controls the stabilizing resistor to have one of the plurality of resistance values corresponding to a lowest one of the plurality of thresholds that the output current level is below. 6. The amplifier of claim 1 , wherein to determine the level of the output current of the amplifier, the control circuit: replicates the output current of the amplifier; and determines a level of the replicated output current; and wherein to compare the output current level with one or more thresholds, the control circuit: compares the replicated output current level with the one or more thresholds. 7. The amplifier of claim 1 , wherein an input current level received by the amplifier sets the output current level independent of the RLC load; wherein to determine the level of the output current of the amplifier, the control circuit: determines the input current level; and wherein to compare the output current level with one or more thresholds, the control circuit: compares the input current level with the one or more thresholds. 8. The amplifier of claim 7 , wherein the input current level and the one or more thresholds are digital values. 9. A method for dynamically stabilizing an amplifier driving an output current into a resistive, inductive, and capacitive (RLC) load, comprising: determining a level of the output current of the amplifier; comparing the output current level with one or more thresholds; and selectively enabling a stabilizing resistor at an output of the driver stage based on said comparing so that the amplifier is stable across a range of the output current level; wherein the RLC load comprises a load resistance in series with a load inductance, which are in parallel with a load capacitance; wherein the stabilizing resistor is a shunt resistor; and wherein said selectively enabling the stabilizing resistor at the output of the driver stage based on said comparing comprises controlling the shunt resistor to selectively shunt the RLC load based on the comparison so that the amplifier is stable across a range of the output current level. 10. The method of claim 9 , wherein the RLC load comprises a load capacitance in series with a load inductance, which are in parallel with a load resistance; wherein the stabilizing resistor is a damping resistor; and wherein said selectively enabling the stabilizing resistor at the output of the driver stage based on said comparing comprises controlling the damping resistor to selectively be in series with the RLC load based on the comparison so that the amplifier is stable across a range of the output current level. 11. The method of claim 9 , wherein the stabilizing resistor that has a resistance value that stabilizes the amplifier when the stabilizing resistor is enabled. 12. The method of claim 9 , wherein said selectively enabling the stabilizing resistor based on said comparing comprises: disabling the stabilizing resistor when the output current level is above a highest of the one or more thresholds; and enabling the stabilizing resistor when the output current level is below the highest of the one or more thresholds. 13. The method of claim 12 , wherein the one or more thresholds comprise a plurality of thresholds; wherein the stabilizing resistor is controllable to have a plurality of resistance values corresponding to the plurality of thresholds; and wherein said enabling the stabilizing resistor when the output current level is below the highest of the one or more thresholds comprises: controlling the stabilizing resistor to have one of the plurality of resistance values corresponding to a lowest one of the plurality of thresholds that the output current level is below. 14. The method of claim 9 , wherein said determining the level of the output current of the amplifier comprises: replicating the output current of the amplifier; and determining a level of the replicated output current; and wherein said comparing the output current level with one or more thresholds comprises: comparing the replicated output current level with the one or more thresholds. 15. The method of claim 9 , further comprising: receiving an input current level that sets the output current level independent of the RLC load; wherein said determining the level of the output current of the amplifier comprises: determining the input current level; and wherein said comparing the output current level with one or more thresholds comprises: comparing the input current level with the one or more thresholds. 16. The method of claim 15 , wherein the input current level and the one or more thresholds are digital values. 17. A non-transitory computer-readable medium having instructions stored thereon that are capable of causing or configuring a dynamically stabilizable amplifier for driving an output current into a resistive, inductive, and capacitive (RLC) load, comprising: a driver stage that generates the output current on an output; a stabilizing resistor at the output of the driver stage; and a control circuit that: determines a level of the output current of the amplifier; compares the output current level with one or more