Apparatus and methods for biasing of power amplifiers

What is claimed is: 1 . A front end system including a power amplifier configured to receive a radio frequency input signal with a plurality of power amplifier transistors that are connected in parallel with one another, and a bias network that biases at least one of the plurality of power amplifier transistors with at least one shunt impedance electrically connected between a base of at least one of the plurality of power amplifier transistors and a reference voltage, the at least one shunt impedance includes at least one resistor connected in series with at least one capacitor. 2 . The front end system of claim 1 wherein the bias network maintains a substantially flat phase response and a substantially flat amplitude response over a range of power levels. 3 . The front end system of claim 1 wherein the bias network further includes capacitor in series with the at least one shunt impedance. 4 . The front end system of claim 1 wherein the bias network includes a plurality of shunt impedances, each of the plurality of shunt impedances connected to a base of each of the plurality of power amplifier transistors. 5 . The front end system of claim 1 further including a first inductor that is electrically connected between a first supply voltage and a collector of an input stage power amplifier transistor, the collector of the input stage power amplifier transistor further connected to the at least one shunt impedance. 6 . The front end system of claim 5 wherein the collector of an input stage power amplifier transistor is electrically connected to bases of the plurality of power amplifier transistors. 7 . The front end system of claim 5 wherein the collector of an input stage power amplifier transistor is electrically connected to at least one capacitor that is serially connected to bases of the plurality of power amplifier transistors. 8 . The front end system of claim 5 further including a second inductor that is electrically connected between a second supply voltage and the collector of at least one of the plurality of power amplifier transistors. 9 . The front end system of claim 5 further including a second inductor that is electrically connected between a second supply voltage and collectors of the plurality of power amplifier transistors. 10 . The front end system of claim 1 further comprising a ballast resistor connected between a DC bias voltage and the base of at least one of the plurality of power amplifier transistors. 11 . A power amplifier system comprising: a bias control circuit configured to generate a DC bias voltage; and a power amplifier configured to receive a radio frequency input signal with a plurality of power amplifier transistors that are connected in parallel with one another, and a bias network biases the plurality of power amplifier transistors with at least one shunt impedance electrically connected between a base of at least one of the plurality of power amplifier transistors and a reference voltage, the shunt impedance includes at least one resistor connected in series with at least one capacitor. 12 . The power amplifier system of claim 11 wherein the bias network maintains a substantially flat phase response and a substantially flat amplitude response over a range of power levels. 13 . The power amplifier system of claim 11 wherein the bias network further includes capacitor in series with the at least one shunt impedance. 14 . The power amplifier system of claim 11 wherein the bias network includes a plurality of shunt impedances, each of the plurality of shunt impedances connected to a base of each of the plurality of power amplifier transistors. 15 . The power amplifier system of claim 11 further including a first inductor that is electrically connected between a first supply voltage and a collector of an input stage power amplifier transistor, the collector of the input stage power amplifier transistor further connected to the at least one shunt impedance. 16 . The power amplifier system of claim 15 wherein the collector of an input stage power amplifier transistor is electrically connected to bases of the plurality of power amplifier transistors. 17 . The power amplifier system of claim 15 wherein the collector of an input stage power amplifier transistor is electrically connected to at least one capacitor that is serially connected to bases of the plurality of power amplifier transistors. 18 . The power amplifier system of claim 4 further including a second inductor that is electrically connected between a second supply voltage and the collector of at least one of the plurality of power amplifier transistors. 19 . The power amplifier system of claim 15 further including a second inductor that is electrically connected between a second supply voltage and collectors of the plurality of power amplifier transistors. 20 . The power amplifier system of claim 11 further comprising a ballast resistor connected between a DC bias voltage and the base of at least one of the plurality of power amplifier transistors.