EMI filter using active damping with frequency dependant impedance

The invention claimed is: 1. A circuit for providing damping in an electromagnetic interference (EMI) filter that includes an inductor-capacitor (LC) circuit, the circuit comprising: at least one capacitor connected to receive a common-mode current from the LC circuit; a current sensor configured to sense the common-mode current; a voltage sensor configured to sense a common-mode voltage from the LC circuit; a first linear amplifier configured to output a first amplified voltage indicative of the sensed common-mode current; a second linear amplifier configured to output a second amplified voltage indicative of the sensed common-mode voltage; an adder circuit configured to sum the first and second amplified voltages and output a summed voltage; and a power amplifier configured to receive the summed voltage and output a voltage which creates a damping impedance for frequencies of the common-mode current less than a threshold frequency and absorbs the common-mode current for frequencies greater than the threshold frequency. 2. The circuit of claim 1 , wherein the current sensor comprises a shunt resistor. 3. The circuit of claim 1 , wherein the power amplifier comprises a diode biasing push-pull voltage follower. 4. The circuit of claim 1 , wherein the LC circuit has a resonant frequency, and the current sensor, linear amplifier, and power amplifier form a closed loop circuit with a low-pass characteristic, having a corner frequency greater than the resonant frequency of the LC circuit. 5. The circuit of claim 4 , wherein the threshold frequency is equal to the corner frequency of the closed loop circuit. 6. A system for filtering electromagnetic interference (EMI) between a power source and a load, the system comprising: a low-pass filter comprising at least one inductor and at least one capacitor that filters EMI generated by the power source; an active damping circuit connected to receive common-mode current from the at least one inductor, wherein the active damping circuit provides a damping impedance for frequencies of the common-mode current less than a threshold frequency, and provides an impedance less than the damping impedance for frequencies of the common-mode current greater than the threshold frequency; and a voltage feedback circuit connected to receive common-mode voltage from the at least one inductor, wherein the voltage feedback circuit provides a sensed voltage to the active damping circuit to further reduce the damping impedance for frequencies of the common-mode current greater than the threshold frequency, wherein the voltage feedback circuit comprises: a voltage sensor that includes at least one sense capacitor and a sense resistor; and a first linear amplifier that amplifies the voltage across the sense resistor; wherein the active damping circuit comprises: at least one damping capacitor; a current sensor that senses the common-mode current; a second linear amplifier that amplifies a sensed current from the current sensor; an adder circuit that sums a voltage from the first linear amplifier circuit with a voltage from the second linear amplifier circuit; and a power amplifier that outputs a voltage to control an impedance of the active damping circuit. 7. The system of claim 6 , wherein the current sensor comprises a shunt resistor. 8. The system of claim 6 , wherein the power amplifier comprises a diode biasing push-pull voltage follower. 9. The system of claim 6 , wherein the low-pass filter has a resonant frequency, and the current sensor, linear amplifier, and power amplifier form a closed loop circuit with a low-pass characteristic, having a corner frequency greater than the resonant frequency of the low-pass filter. 10. The system of claim 9 , wherein the threshold frequency is equal to the corner frequency of the closed loop circuit. 11. A method for filtering electromagnetic interference (EMI) between a power source and a load, the method comprising: filtering EMI from the power source using a low-pass filter comprising at least one inductor and at least one capacitor; sensing a common-mode current from the one or more inductors using a current sensor; sensing a common-mode voltage from the one or more inductors using a voltage sensor; outputting a first amplified voltage indicative of the common-mode current using a first linear amplifier circuit; outputting a second amplified voltage indicative of the common-mode voltage using a second linear amplifier circuit; outputting a summed voltage indicative of a sum of the first and second amplified voltages; providing the summed voltage to a power amplifier circuit; outputting a damping voltage using the power amplifier circuit that provides a damping impedance based on the damping voltage and the common-mode current; and providing an impedance less than the damping impedance for frequencies of the common-mode current higher than the frequency threshold to absorb EMI noise from the at least one inductor using the active damping circuit. 12. The method of claim 11 , wherein the current sensor comprises a shunt resistor. 13. The method of claim 11 , further comprising: filtering frequencies of the common-mode current above a corner frequency of a low-pass characteristic. 14. The method of claim 11 , wherein providing an impedance less than the damping impedance for frequencies of the common-mode current higher than the frequency threshold comprises: filtering frequencies of the common-mode current above a corner frequency of a low-pass characteristic; and outputting a negligible voltage using the power amplifier circuit to absorb the common-mode current above the corner frequency.