Source switched split LNA

What is claimed is: 1. An amplifier including: (a) plurality of low noise amplifiers (LNA), each including; an input transistor and an output transistor; (b) at least two control input terminals, each coupled to an output transistor of a corresponding one of the LNAs; (c) at least one source switch connecting source terminals of the input transistors of at least two of the LNAs during a first mode of operation and disconnecting the source terminals during at least a second mode of operation; and (d) a gate capacitance module, the gate capacitance module having a first and second terminal, the first terminal coupled to the gate of an associated one of the input transistors and the second terminal coupled to the source of the associated input transistor. 2. The amplifier of claim 1 , wherein signals coupled to the control input terminals turn the corresponding LNA on and off. 3. The amplifier of claim 1 , further including at least a second gate capacitance module, each additional gate capacitance module having a first and second terminal, the first terminal coupled to the gate of an associated one of the input transistors and the second terminal coupled to the source of the associated input transistor. 4. The amplifier of claim 1 , further including a control module having at least one switch control signal output, wherein each gate capacitance module has a switch control signal input to which a corresponding switch control signal output is coupled. 5. The amplifier of claim 1 , wherein each gate capacitance module includes a gate capacitor and a gate switch coupled in series between the first terminal and the second terminal of the gate capacitance module. 6. The amplifier of claim 5 , wherein the gate switch is open when the associated transistor is conducting and closed when the associated transistor is not conducting. 7. An amplifier including: (a) plurality of low noise amplifiers (LNA), each including; an input transistor and an output transistor; (b) at least two control input terminals, each coupled to an output transistor of a corresponding one of the LNAs; (c) at least one source switch connecting source terminals of the input transistors of at least two of the LNAs during a first mode of operation and disconnecting the source terminals during at least a second mode of operation; and (d) at least one gate capacitance module, each gate capacitance module having a first and second terminal, the first terminal coupled to the gate of an associated one of the input transistors and the second terminal coupled to ground. 8. The amplifier of claim 7 , further including a control module having at least one switch control signal output, wherein each gate capacitance module has a switch control signal input to which a corresponding switch control signal output is coupled. 9. The amplifier of claim 7 , wherein each gate capacitance module includes a gate capacitor and a gate switch coupled in series between the first terminal and the second terminal of the gate capacitance module. 10. The amplifier of claim 9 , wherein the gate switch is open when the associated input transistor is on and closed when the associated input transistor is off. 11. A plurality of low noise amplifiers (LNA), each including: (a) an input transistor and an output transistor; (b) at least two control input terminals, each coupled to an output transistor of a corresponding one of the LNAs; and (c) at least one source switch connecting source terminals of the input transistors of at least two of the LNAs during a first mode of operation and disconnecting the source terminals during at least a second mode of operation; (d) a degeneration component; and (e) a degeneration switch coupled in series with the degeneration component, the series combination of the degeneration component and degeneration switch coupled between the source of one of the input transistors and circuit ground, wherein the degeneration switch is open when the source switch is closed and closed when the source switch is open. 12. The amplifier of claim 11 , wherein the degeneration component is a degeneration inductor. 13. The amplifier of claim 11 , further including at least a second degeneration component and a second degeneration switch, the second degeneration component and second degeneration switch coupled in series between the source of a second input transistor and ground, and the second degeneration switch being closed when the first degeneration switch is open. 14. The amplifier of claim 11 , further including a control module having a switch control signal output, wherein the degeneration switch has a switch control signal input to which the switch control signal output is coupled. 15. The amplifier of claim 1 , further including: (a) a degeneration component; (b) a degeneration switch coupled in series with the degeneration component, the series combination of the degeneration component and degeneration switch coupled between the source of one of the input transistors ground. 16. The amplifier of claim 15 , wherein the degeneration component is an inductor. 17. The amplifier of claim 15 , wherein each gate capacitance module includes a gate capacitor and a gate switch coupled in series between the first terminal and the second terminal of the gate capacitance module, wherein the degeneration switch is open when the source switch is closed and closed when the source switch is open and wherein the gate switch is closed when the source switch is closed and open when the source switch is open. 18. The amplifier of claim 15 , further including at least a second degeneration inductor and a second degeneration switch, wherein each gate capacitance module includes a gate capacitor and a gate switch coupled in series between the first terminal and the second terminal of the gate capacitance module, wherein the degeneration switch is open when the source switch is closed and closed when the source switch is open, wherein the gate switch is closed when the source switch is closed and open when the source switch is open and wherein the second degeneration inductor and second degeneration switch are coupled in series between the source of a second input transistor and ground, and the second degeneration switch being closed when the first degeneration switch is open. 19. The amplifier of claim 15 , further including a control module having switch control signal outputs, wherein the degeneration switch has a switch control signal input to which one of the switch control signal outputs is coupled and each gate capacitance module has a switch control signal input to which one of the switch control signal outputs is coupled. 20. A method for amplifying a signal in more than one amplifier including: (a) coupling the signal to be amplified to the input of at least a first and second LNA, each LNA having an input transistor having a first terminal to which the input signal is applied, a second terminal and a third terminal; (b) turning on the first and second LNAs during a first mode; (c) opening a switch between the second terminal of the first transistor and the second terminal of the second transistor during the first mode; (d) turning off one of the first and second transistors during a second mode; and (e) closing the switch between the first and second transistor in the second mode. 21. The method of claim 20 , further including closing a gate switch to place a capacitance between the first terminal of the first transistor