Active shunt ammeter apparatus and method

What is claimed is: 1. An active shunt ammeter for measuring current flowing through a device under test (DUT), the active shunt ammeter comprising: an input configured to receive an input signal having a frequency within a frequency band and representing the current flowing through the DUT; an output configured to generate an output voltage representing the current flowing through the DUT; and a gain circuit having an amplifier with a gain characteristic that varies respect to frequency within the frequency band and a parallel RC feedback element having an impedance coupled from an output of the gain circuit to a negative input of the gain circuit, the feedback element impedance being configured to change with frequency to correlate with the amplifier gain characteristic, the amplifier being characterized by a roll-off frequency, and, at the roll-off frequency of the amplifier, an impedance of a resistive element in the parallel RC feedback element is substantially the same as an impedance of a capacitive element in the parallel RC feedback element. 2. The active shunt ammeter of claim 1 , wherein the amplifier is a differential amplifier with the parallel RC feedback element coupled between a negative-input terminal and an output terminal. 3. The active shunt ammeter of claim 1 , wherein the gain circuit has an input impedance that remains generally constant across the entire bandwidth of the amplifier based on the gain characteristic and the feedback element impedance. 4. The active shunt ammeter of claim 1 , wherein the amplifier has a controlled negative gain across the feedback element. 5. The active shunt ammeter of claim 1 , wherein the amplifier has an inverting stage having a gain set by a resistor ratio. 6. The active shunt ammeter of claim 1 , wherein the amplifier has a gain that is split between two operational amplifiers (op-amps). 7. The active shunt ammeter of claim 1 , wherein a voltage across the feedback element is buffered and attenuated by a resistor ratio. 8. The active shunt ammeter of claim 1 , wherein the amplifier has an input op-amp with a gain placed in its feedback path. 9. A method of measuring current flowing through a device under test (DUT), the method comprising: receiving an input signal having a frequency within a frequency band and representing the current flowing through the DUT; generating an output voltage representing the current flowing through the DUT; and providing a gain circuit having an amplifier with a gain characteristic that varies respect to frequency within the frequency band and a parallel RC feedback element having an impedance coupled from an output of the gain circuit to a negative input of the gain circuit, the feedback element impedance being configured to change with frequency to correlate with the amplifier gain characteristic, the amplifier being characterized by a roll-off frequency, and, at the roll-off frequency of the amplifier, an impedance of a resistive element in the parallel RC feedback element is substantially the same as an impedance of a capacitive element in the parallel RC feedback element. 10. The method of claim 9 , wherein the amplifier is a differential amplifier with a parallel RC feedback element coupled between a negative-input terminal and an output terminal. 11. The method of claim 9 , wherein the gain circuit has an input impedance that remains generally constant across the entire bandwidth of the amplifier based on the gain characteristic and the feedback element impedance. 12. The method of claim 9 , wherein the amplifier has a controlled negative gain across the parallel RC feedback element. 13. The method of claim 9 , wherein the amplifier has an inverting stage having a gain set by a resistor ratio. 14. The method of claim 9 , wherein the amplifier has a gain that is split between two operational amplifiers (op-amps). 15. The method of claim 9 , wherein a voltage across the feedback element is buffered and attenuated by a resistor ratio. 16. The method of claim 9 , wherein the amplifier has an input op-amp with a gain placed in its feedback path.