Cascode amplifier bias circuits

What is claimed is: 1. A method for biasing the final stages of a cascode amplifier, including: (a) providing a cascode amplifier having at least two serially connected field effect transistor (FET) stages, each FET stage having a gate, a drain, and a source, the bottom FET stage having an input configured to be coupled to an RF input signal to be amplified, and the top FET stage of the cascode amplifier having an output for providing an amplified RF input signal; (b) providing a cascode reference circuit having at least two serially connected FET stages, each FET having a gate, a drain, and a source, the gates of the bottom two FET stages of the cascode reference circuit being coupled to the corresponding gates of the bottom two FET stages of the cascode amplifier, for biasing the cascode amplifier to output a final current approximately equal to a multiple of a mirror current in the cascode reference circuit; and (c) providing an op-amp having a first and a second input and an output, the first input being coupled between a voltage source through a first resistor and a reference current source, the second input being coupled between the voltage source through a second resistor and the drain of the top FET stage of the cascode reference circuit, the output being coupled to the respective gates of the bottom FET stages of the cascode reference circuit and the cascode amplifier, wherein the op-amp is responsive to differences between its first and second inputs and outputs an adjustment gate bias voltage applied to the respective gates of the bottom FET stage of the cascode amplifier and of the cascode reference circuit that forces the mirror current in the cascode reference circuit to be approximately equal to a selected current value. 2. The method of claim 1 , wherein the corresponding drain voltages of the bottom FET stage of the cascode amplifier and the cascode reference circuit are approximately the same. 3. The method of claim 1 , wherein the cascode reference circuit is a split cascode reference circuit. 4. The method of claim 1 , further including providing an input impedance matching network coupled to the input of the bottom FET stage and configured to be coupled to the RF input signal to be amplified. 5. The method of claim 1 , further including providing an output impedance matching network coupled to the output. 6. The method of claim 1 , further including providing a respective decoupling network coupled between corresponding gates of each of the bottom two FET stages of the cascode amplifier. 7. The method of claim 6 , wherein at least one decoupling network includes a programmable resistance element for varying bias levels to the coupled gates. 8. The method of claim 1 , further including: (a) coupling a degeneration inductor between the source of the bottom FET stage of the cascode amplifier and RF ground, the degeneration inductor having a first resistance; and (b) coupling a compensation resistor between the source of the bottom FET stage of the cascode reference circuit and RF ground, the compensation resistor having a second resistance such that the voltage at the source of the bottom FET stage of the cascode reference circuit closely approximates the voltage at the source of the bottom FET stage of the cascode amplifier. 9. The method of claim 1 , wherein the input to the bottom FET stage is coupled to the gate of the bottom FET stage. 10. The method of claim 1 , wherein the input to the bottom FET stage is coupled to the source of the bottom FET stage. 11. A method for biasing the final stages of a cascode amplifier, including: (a) providing a cascode amplifier having at least two serially connected field effect transistor (FET) stages, each FET stage having a gate, a drain, and a source, the bottom FET stage having an input configured to be coupled to an RF input signal to be amplified, and the top FET stage of the cascode amplifier having an output for providing an amplified RF input signal; (b) providing a cascode reference circuit having at least two serially connected FET stages, each FET having a gate, a drain, and a source, the gates of the bottom two FET stages of the cascode reference circuit being coupled to the corresponding gates of the bottom two FET stages of the cascode amplifier, for biasing the cascode amplifier to output a final current approximately equal to a multiple of a mirror current in the cascode reference circuit; and (c) providing an op-amp having a first and a second input and an output, the first input being coupled between a reference current source and a resistor coupled to circuit ground, the second input being coupled between a mirror current source and the drain of the top FET stage of the cascode reference circuit, the output being coupled to the respective gates of the bottom FET stages of the cascode reference circuit and the cascode amplifier, wherein the op-amp is responsive to differences between its first and second inputs and outputs an adjustment gate bias voltage applied to the respective gates of the bottom FET stage of the cascode amplifier and of the cascode reference circuit that forces the mirror current in the cascode reference circuit to be approximately equal to a selected current value. 12. The method of claim 11 , wherein the corresponding drain voltages of the bottom FET stage of the cascode amplifier and the cascode reference circuit are approximately the same. 13. The method of claim 11 , wherein the cascode reference circuit is a split cascode reference circuit. 14. The method of claim 11 , further including providing an input impedance matching network coupled to the input of the bottom FET stage and configured to be coupled to the RF input signal to be amplified. 15. The method of claim 11 , further including providing an output impedance matching network coupled to the output. 16. The method of claim 11 , further including providing a respective decoupling network coupled between corresponding gates of each of the bottom two FET stages of the cascode amplifier. 17. The method of claim 16 , wherein at least one decoupling network includes a programmable resistance element for varying bias levels to the coupled gates. 18. The method of claim 11 , further including: (a) coupling a degeneration inductor between the source of the bottom FET stage of the cascode amplifier and RF ground, the degeneration inductor having a first resistance; and (b) coupling a compensation resistor between the source of the bottom FET stage of the cascode reference circuit and RF ground, the compensation resistor having a second resistance such that the voltage at the source of the bottom FET stage of the cascode reference circuit closely approximates the voltage at the source of the bottom FET stage of the cascode amplifier. 19. The method of claim 11 , wherein the input to the bottom FET stage is coupled to the gate of the bottom FET stage. 20. The method of claim 11 , wherein the input to the bottom FET stage is coupled to the source of the bottom FET stage.