Switchable feedback circuit for radio-frequency power amplifiers

What is claimed is: 1. A radio-frequency power amplifier circuit comprising: a transistor having a base, a collector, and an emitter, the transistor configured to amplify radio-frequency signal; a switchable feedback circuit implemented between the collector and the base, the switchable feedback circuit including a capacitance, a switchable resistance, and a fixed resistance arranged in series and configured to provide a plurality of resistance values between the collector and the base; and a switchable base feed circuit implemented between a bias circuit and the base, the switchable base feed circuit configured to provide a plurality of different resistance values for a base bias signal between the bias circuit and the base. 2. The radio-frequency power amplifier circuit of claim 1 wherein the transistor is a heterojunction bipolar transistor. 3. The radio-frequency power amplifier circuit of claim 1 wherein the switchable resistance includes an assembly having a parallel arrangement of a switch and a resistive element, the assembly implemented such that when the switch is ON, the resistive element is bypassed and when the switch is OFF, an overall resistance of the switchable feedback circuit includes the resistive element. 4. The radio-frequency power amplifier circuit of claim 3 wherein the overall resistance of the switchable feedback circuit is approximately the sum of resistance values of the resistive element of the switchable resistance and the fixed resistance. 5. The radio-frequency power amplifier circuit of claim 4 wherein the resistance value of the fixed resistance is selected to provide or accommodate a first gain of the transistor. 6. The radio-frequency power amplifier circuit of claim 5 wherein the resistance value of the resistive element of the switchable resistance is selected so that the overall resistance of the switchable feedback circuit provides or accommodates a second gain of the transistor. 7. The radio-frequency power amplifier circuit of claim 3 wherein each of the resistive element of the switchable resistance and the fixed resistance includes a resistor. 8. The radio-frequency power amplifier circuit of claim 7 wherein the resistor includes a TaN thin film resistor. 9. The radio-frequency power amplifier circuit of claim 3 wherein the capacitance includes a DC block capacitance configured as a capacitor to inhibit or reduce passage of a supply voltage from the collector to the base. 10. The radio-frequency power amplifier circuit of claim 3 wherein the switchable feedback circuit further includes one or more additional assemblies in series with the switchable resistance, each additional assembly having a parallel arrangement of a switch and a resistive element. 11. The radio-frequency power amplifier circuit of claim 1 wherein the transistor is part of a stage of an amplification path having a plurality of amplifier stages. 12. The radio-frequency power amplifier circuit of claim 11 wherein each of the plurality of amplifier stages includes the switchable feedback circuit. 13. A method for operating a radio-frequency power amplifier, the method comprising: providing a transistor having a base, a collector, and an emitter, the transistor configured to amplify a radio-frequency signal; selecting a resistance value from a plurality of resistance values provided by a switchable feedback circuit between the collector and the base, the switchable feedback circuit including a capacitance, a switchable resistance, and a fixed resistance arranged in series and configured to provide the plurality of resistance values between the collector and the base; and selecting a resistance value from a plurality of resistance values provided by a switchable base feed circuit implemented between a bias circuit and the base, the switchable base feed circuit configured to provide the plurality of resistance values for a base bias signal between the bias circuit and the base. 14. The method of claim 13 wherein the selecting of the resistance value from the plurality of resistance values provided by the switchable feedback circuit includes performing a switching operation with the switchable resistance. 15. The method of claim 13 wherein the selecting of the resistance value from the plurality of resistance values provided by the switchable base feed circuit includes performing a switching operation with the switchable base feed circuit. 16. A power amplifier module comprising: a packaging substrate configured to receive a plurality of components; a power amplifier circuit implemented on a die and including a transistor having a base, a collector, and an emitter, the transistor configured to amplify a radio-frequency signal; a switchable feedback circuit implemented between the collector and the base, the switchable feedback circuit including a capacitance, a switchable resistance, and a fixed resistance arranged in series and configured to provide a plurality of resistance values between the collector and the base; a switchable base feed circuit implemented between a bias circuit and the base, the switchable base feed circuit configured to provide a plurality of different resistance values for a base bias signal between the bias circuit and the base; and a plurality of connectors configured to provide electrical connections associated with the power amplifier circuit, the switchable feedback circuit, and the switchable base feed circuit. 17. The power amplifier module of claim 16 wherein at least a portion of the switchable feedback circuit is implemented in the same die as the power amplifier circuit. 18. The power amplifier module of claim 16 wherein at least a portion of the switchable feedback circuit is implemented in a die separate from the die associated with the power amplifier circuit. 19. The power amplifier module of claim 16 wherein at least a portion of the switchable base feed circuit is implemented in the same die as the power amplifier circuit. 20. The power amplifier module of claim 16 wherein the die is a semiconductor die configured to facilitate the transistor being implemented as a heterojunction bipolar transistor.