Amplifier devices with input line termination circuits

The invention claimed is: 1. An amplifier device comprising: a first amplifier, the first amplifier including a first amplifier input and a first amplifier output; a second amplifier, the second amplifier including a second amplifier input and a second amplifier output; a first input phase shifter of specific characteristic impedance coupled between the first amplifier input and the second amplifier input; a first output phase shifter of specific characteristic impedance coupled between the first amplifier output and the second amplifier output; and an input termination circuit coupled to the second amplifier input, the input termination circuit configured to reflect a frequency dependent portion of an input signal back toward the first amplifier input, wherein the input termination circuit comprises a non-linear impedance component implemented with one or more components selected from a transistor configured to operate in a non-linear VI region, one or more diodes, a varactor, a varistor, a Hall sensor, and a metal oxide semiconductor capacitor. 2. The amplifier device of claim 1 , wherein the non-linear impedance component is variable dependent upon at least one of a voltage or current applied to the non-linear impedance component. 3. An amplifier device comprising: a first amplifier, the first amplifier including a first amplifier input and a first amplifier output; a second amplifier, the second amplifier including a second amplifier input and a second amplifier output; a first input phase shifter of specific characteristic impedance coupled between the first amplifier input and the second amplifier input; a first output phase shifter of specific characteristic impedance coupled between the first amplifier output and the second amplifier output; and an input termination circuit coupled to the second amplifier input, the input termination circuit configured to reflect a frequency dependent portion of an input signal back toward the first amplifier input, wherein the input termination circuit comprises a controllable impedance component coupled to the second amplifier input, where the controllable impedance component is adapted to be variable responsive to a characteristic selected from an input voltage applied to the amplifier device, an input current applied to the amplifier device, and a frequency of an input signal applied to the amplifier device. 4. The amplifier device of claim 3 , wherein the controllable impedance component is implemented with a controllable voltage limiter coupled to the second amplifier input. 5. The amplifier device of claim 3 , wherein the input termination circuit is controllable via a microcontroller. 6. The amplifier device of claim 1 , wherein the first input phase shifter is selected from a transmission line and a lumped element circuit configured to provide a transmission line equivalence. 7. An amplifier device comprising: a first amplifier, the first amplifier including a first amplifier input and a first amplifier output; a second amplifier, the second amplifier including a second amplifier input and a second amplifier output; a first input phase shifter of specific characteristic impedance coupled between the first amplifier input and the second amplifier input; a first output phase shifter of specific characteristic impedance coupled between the first amplifier output and the second amplifier output; an input termination circuit coupled to the second amplifier input, the input termination circuit configured to reflect a frequency dependent portion of an input signal back toward the first amplifier input; a carrier amplifier, the carrier amplifier including a carrier amplifier input and a carrier amplifier output; a second input phase shifter of specific characteristic impedance coupled between the carrier amplifier input and the first amplifier input; and a second output phase shifter of specific characteristic impedance coupled between the carrier amplifier output and the first amplifier output. 8. The amplifier device of claim 7 , further comprising: an asymmetrical input splitter, the asymmetrical input splitter having an input, a first output, and a second output, the input coupled to an RF signal source, the first output coupled to the carrier amplifier input, and the second output coupled to the second input phase shifter. 9. The amplifier device of claim 8 , further comprising at least one of a resistive element, inductance and capacitance coupled between the first output and the second output. 10. The amplifier device of claim 8 , wherein the asymmetrical input splitter comprises a Wilkinson power splitter.