Systems and methods related to switchable output stages in power amplifiers

What is claimed is: 1. A front-end architecture for a wireless device, comprising: a transmit circuit having a power amplifier configured to amplify a signal for transmission, the power amplifier including a driver stage and a plurality of output stages, the transmit circuit further including a switch configured to route a partially amplified signal from the driver stage to a selected one of the plurality of output stages, such that the selected output stage further amplifies the partially amplified signal, the switch including an input pole coupled to the driver stage, a first throw coupled to a first output stage and a second throw coupled to a second output stage; a plurality of antennas including a selected antenna coupled to the selected output stage through a switching network to facilitate transmission of the amplified signal through the selected antenna, the switching network including a first transmit switch between the first output stage and a first antenna, a second transmit switch between the second output stage and a second antenna; and a low-noise amplifier configured to amplify a received signal from an antenna among the plurality of antennas, the switching network further configured to route the received signal from the antenna to the low-noise amplifier, the switching network further including a first receive switch between the first antenna and the low-noise amplifier, and a second receive switch between the second antenna and the low-noise amplifier, the front-end architecture configured to operate in a time-division duplexing mode such that each of the first receive switch and the second receive switch is in an OFF state during a transmit portion of the time-division duplexing operation, and a selected one of the first transmit switch and the second transmit switch is in an ON state and the other transmit switch is in an OFF state during the transmit portion, the selected transmit switch corresponding to the selected output stage. 2. The front-end architecture of claim 1 wherein each of the first transmit switch and the second transmit switch is in an OFF state during a receive portion of the time-division duplexing operation. 3. The front-end architecture of claim 2 wherein a selected one of the first receive switch and the second receive switch is in an ON state and the other receive switch is in an OFF state during the receive portion, the selected receive switch corresponding to the antenna providing the received signal to the low-noise amplifier. 4. The front-end architecture of claim 1 wherein each of the first transmit switch, the second transmit switch, the first receive switch, and the second receive switch includes one or more field-effect transistors connected in series. 5. The front-end architecture of claim 4 wherein the number of field-effect transistors in each of the first receive switch and the second receive switch is greater than the number of field-effect transistor(s) in each of the first transmit switch and the second transmit switch. 6. The front-end architecture of claim 1 wherein the switching network further includes a first switchable shunt path between the first antenna and a ground, and a second switchable shunt path between the second antenna and the ground. 7. The front-end architecture of claim 6 wherein each of the first switchable shunt path and the second switchable shunt path includes a quarter-wave transmission line.