Multi-mode power amplifier module

What is claimed is: 1. A power amplifier module comprising: a first power amplifier configured to process frequencies associated with a first communication band; and a bypass switch in communication with the first power amplifier and configured to provide a supply voltage to the first power amplifier, the supply voltage selected from a plurality of supply voltages based at least in part on a selected communication network, at least one of the supply voltages from the plurality of supply voltages enabling the first power amplifier to process frequencies associated with a second communication band. 2. The power amplifier module of claim 1 wherein the plurality of supply voltages includes a battery supply voltage and a buck-converter supply voltage. 3. The power amplifier module of claim 1 wherein the bypass switch includes a p-channel field effect transistor in communication with a battery supply voltage. 4. The power amplifier module of claim 1 wherein the bypass switch includes a p-channel field effect transistor and an n-channel field effect transistor in communication with a buck-converter supply voltage. 5. The power amplifier module of claim 1 further comprising a second power amplifier in communication with a battery supply voltage without being in communication with the bypass switch. 6. The power amplifier module of claim 5 wherein the second power amplifier is configured to process frequencies associated with 2G communication of a different frequency band than the frequencies processed by the first power amplifier. 7. The power amplifier module of claim 1 wherein the first communication band is a 2G communication band and the second communication band is a non-2G communication band. 8. A front-end module comprising: a power amplifier module including a first power amplifier and a bypass switch in communication with the first power amplifier, the first power amplifier configured to process a frequency associated with a first communication band, and the bypass switch configured to provide a supply voltage to the first power amplifier, the supply voltage selected from a plurality of supply voltages based at least in part on a selected communication network, at least one of the supply voltages from the plurality of supply voltages enabling the power amplifier to process a frequency associated with a second communication band; and a direct current-direct current converter in communication with the power amplifier module and configured to provide at least one supply voltage from the plurality of supply voltages to the bypass switch. 9. The front-end module of claim 8 wherein the direct current-direct current converter includes a buck converter. 10. The front-end module of claim 8 further comprising an inductor-capacitor circuit between the direct current-direct current converter and the bypass switch. 11. The front-end module of claim 8 wherein the plurality of supply voltages includes a battery supply voltage and a buck-converter supply voltage. 12. The front-end module of claim 8 wherein the bypass switch includes a p-channel field effect transistor in communication with a battery supply voltage. 13. The front-end module of claim 8 wherein the bypass switch includes a p-channel field effect transistor and an n-channel field effect transistor in communication with a buck-converter supply voltage. 14. The front-end module of claim 8 wherein the power amplifier module further includes a second power amplifier in direct communication with a battery supply voltage. 15. The front-end module of claim 14 wherein the second power amplifier is configured to process a different frequency associated with 2G communication than the frequency processed by the first power amplifier. 16. A wireless device comprising: an antenna configured to transmit a signal from a front-end module; and the front-end module including a power amplifier module and a direct current-direct current converter in communication with the power amplifier module, the power amplifier module including a first power amplifier and a bypass switch in communication with the first power amplifier via a first communication path, the power amplifier configured to process a frequency associated with a first communication network, and the bypass switch configured to provide a supply voltage to the first power amplifier, the supply voltage selected from a plurality of supply voltages based at least in part on a selected communication network from a plurality of communication networks, at least one of the supply voltages from the plurality of supply voltages enabling the first power amplifier to process a frequency associated with a second communication network, and the direct current-direct current converter configured to provide at least one supply voltage from the plurality of supply voltages to the bypass switch. 17. The wireless device of claim 16 wherein the bypass switch includes a single transistor in communication with a battery supply voltage. 18. The wireless device of claim 16 wherein the bypass switch includes a pair of transistors in communication with a direct current-direct current converter supply voltage. 19. The wireless device of claim 16 wherein a first transistor of the pair of transistors is a p-channel transistor and the second transistor of the pair of transistors is an n-channel transistor. 20. The wireless device of claim 16 wherein the power amplifier module further includes a second power amplifier in communication with a battery supply voltage via a second communication path. 21. The wireless device of claim 20 wherein the second power amplifier is configured to process a different frequency associated with the first communication network than the frequency processed by the first power amplifier.