Voltage-to-current converter

What is claimed is: 1. A voltage-to-current converter comprising: an operational amplifier having a first input and a second input, the first input being connectable to a reference voltage, and the second input being coupled to a voltage feedback node; transconductor, coupled to an output of the operational amplifier, and having an output coupled to an input of the converter; at least one current mirror for replicating a current flow of the output of the transconductor, a current flow of the current mirror being an output of the converter; and a FET, coupled between the voltage feedback node and the input of the converter, and having: a gate coupled to the input of the converter; and a source coupled to the voltage feedback node. 2. The converter of claim 1 , wherein the second input of the operational amplifier is maintained at a substantially same voltage as the first input of the operational amplifier, and the second input of the operational amplifier is coupled through a feedback loop to the voltage feedback node, and the converter further comprises: a current feedback node connectable to a first node of a resistor, wherein: the input of the converter is connectable to a second node of the resistor; a bias voltage of the current feedback node is set by a voltage of the voltage feedback node; and the current mirror is coupled to replicate the current flow of the output of the transconductor by mirroring a current input to the current feedback node. 3. The converter of claim 2 , wherein the feedback loop is a unity gain feedback loop. 4. The converter of claim 2 , wherein the current mirror includes two current mirrors whose current flows are a differential current output. 5. The converter of claim 2 , wherein the current feedback node is coupled to operate at a voltage potential that is different than the voltage of the voltage feedback node. 6. The converter of claim 2 , wherein the first input of the operational amplifier is a non-inverting input of the operational amplifier and the second input of the operational amplifier is an inverting input of the operational amplifier. 7. The converter of claim 2 , further comprising a class AB loop coupled between: the current feedback node; and the first and second inputs of the operational amplifier. 8. The converter of claim 2 , wherein the current feedback node is a virtual ground. 9. The converter of claim 1 , further comprising at least one level translator coupled between the output of the operational amplifier and the transconductor, the level translator for conditioning the output of the operational amplifier. 10. The converter of claim 1 , wherein the transconductor serves as a virtual ground for devices coupled to the output of the transconductor. 11. A voltage-to-current converter comprising: an operational amplifier having a first input and a second input, the first input being connectable to a reference voltage, and the second input being coupled to a voltage feedback node; a first transconductor, coupled to an output of the operational amplifier, and having an output coupled to an input of the converter; a first current mirror for replicating a current flow of the output of the first transconductor, a current flow of the first current mirror being a first output of the converter; a second transconductor, coupled to the output of the operational amplifier, and having an output coupled to the input of the converter; and a second current mirror for replicating a current flow of the output of the second transconductor, a current flow of the second current mirror being a second output of the converter. 12. The converter of claim 11 , wherein the voltage feedback node is coupled to the input of the converter. 13. The converter of claim 11 , further comprising a transistor coupled between the voltage feedback node and the input of the converter. 14. The converter of claim 11 , wherein the first and second outputs of the converter are a differential output of the converter.