Low noise amplifier with parasitic capacitance neutralization

What is claimed is: 1. A low-noise amplifier system comprising: a main amplifier having a main input coupled to a RF input and a main output connected to an RF output; an impedance amplifier having an impedance input coupled to the RF input and an impedance output coupled to the RF output, wherein the impedance amplifier is configured to provide input impedance matching to the main amplifier and provide a first noise path that passes through the impedance amplifier such that the noise generated by the impedance amplifier is substantially out of phase with the noise that passes through a second noise path that passes through the main amplifier; a neutralization amplifier configured to reduce parasitic capacitive loading within the first noise path; a feedback resistor coupled between the impedance input and the impedance output, wherein the feedback resistor has a controllable variable resistance; and a gain matching controller configured to control the controllable variable resistance such that a first gain of the noise in the first noise path matches a second gain of the noise in the second noise path. 2. The low-noise amplifier of system of claim 1 further comprising a high-pass output matching network coupled to the main output of the main amplifier. 3. The low-noise amplifier system of claim 1 wherein the main amplifier is configured to have a controllable variable gain. 4. The low-noise amplifier system of claim 3 wherein the controllable variable gain of the main amplifier is settable by an external processor by way of a digital interface. 5. The low-noise amplifier system of claim 3 wherein the main amplifier is a segmented amplifier configured to have the controllable variable gain through digital activation and digital deactivation of selectable amplifier segments. 6. The low-noise amplifier system of claim 5 wherein the selectable amplifier segments are binary weighted. 7. The low-noise amplifier system of claim 5 wherein the selectable amplifier segments are linearly weighted. 8. The low-noise amplifier system of claim 5 wherein each selectable amplifier segment comprises: an upper transistor having a body terminal; a lower transistor coupled to the upper transistor in a cascode configuration between a voltage source and a fixed voltage node; a body contact transistor coupled between the body terminal and the fixed voltage node; and a driver configured to drive the body contact transistor to an off-state in which current substantially flows through the upper transistor and the lower transistor and configured to drive the body contact transistor to an on-state in which upper transistor is driven to an off-state that substantially limits leakage current through the upper transistor and the lower transistor. 9. The low-noise amplifier system of claim 8 further comprising a body contact resistor coupled from the body terminal to a node between the upper transistor and the lower transistor. 10. The low-noise amplifier system of claim 8 wherein the fixed voltage node is ground. 11. The low-noise amplifier system of claim 1 further comprising an isolation amplifier having an isolation input coupled to the impedance output and an isolation output coupled to the RF output. 12. The low-noise amplifier of claim 11 wherein the neutralization amplifier has a first neutralization input coupled to the isolation input that is on one side of a first parasitic capacitance and a first neutralization output coupled to an opposed side the first parasitic capacitance. 13. The low-noise amplifier of claim 11 further comprising a second neutralization amplifier that has a second neutralization input coupled to the isolation input that is on one side of a second parasitic capacitance and a second neutralization output coupled to an opposed side of the second parasitic capacitance. 14. The low-noise amplifier of claim 13 further comprising a current source coupled between the second neutralization output and the fixed voltage node. 15. The low-noise amplifier of claim 11 further comprising a second neutralization amplifier that has a second neutralization input coupled to the main input and a second neutralization output coupled to one side of a second parasitic capacitance that has an opposed side coupled to the isolation input. 16. The low-noise amplifier of claim 15 further comprising a current source coupled between the second neutralization output and the fixed voltage node. 17. The low-noise amplifier of claim 11 wherein the isolation amplifier is a common source amplifier. 18. The low-noise amplifier of claim 17 wherein the isolation amplifier is self-biased. 19. The low-noise amplifier system of claim 1 further comprising a bandpass output matching network coupled to the main output of the main amplifier.