Parallel use of serial controls in improved wireless devices and power amplifier modules

What is claimed is: 1. A power amplifier module comprising: one or more switches; a coupler module; a plurality of input signal pins configured to receive a plurality of input signals including at least a voltage input/output (VIO) signal, a clock input signal, and a data input signal; and a controller having at least first and second output terminals and configured, when the power amplifier module is in a first operating mode, to set a mode of the one or more switches using a synchronous communication protocol in which the controller outputs a synchronous clock signal on the first output terminal and a data signal on the second output terminal, the controller further configured, when the power amplifier module is in a second operating mode, to set a mode of the coupler module using an asynchronous communication protocol in which the controller outputs a first asynchronous control signal on the first output terminal and a second asynchronous control signal on the second output terminal. 2. The power amplifier module of claim 1 wherein the controller is further configured to determine whether the power amplifier module is in the first operating mode or in the second operating mode based at least in part on the data input signal. 3. The power amplifier module of claim 1 wherein the controller further includes a third output terminal and the controller is further configured to assert an enable signal during communication using the synchronous communication protocol. 4. The power amplifier module of claim 3 wherein the controller is further configured to de-assert the enable signal during communication using the asynchronous communication protocol. 5. The power amplifier module of claim 1 wherein the synchronous clock signal has a constant frequency. 6. The power amplifier module of claim 1 wherein the first and second asynchronous control signals are provided to the coupler module while the power amplifier module is transmitting data via one or more antennas connected to the power amplifier module. 7. The power amplifier module of claim 1 wherein the controller is further configured to determine logic levels of the first and second asynchronous control signals provided in the second operating mode based at least in part on the data input signal. 8. The power amplifier module of claim 7 wherein the controller further includes one or more latches configured to store and maintain the logic levels of the first and second asynchronous control signals from a first time period when the power amplifier module switches from the second operating mode to the first operating mode until a second time period when the power amplifier module switches from the first operating mode to the second operating mode. 9. A method for controlling one or more components of a power amplifier module in a wireless device, the method comprising: receiving a plurality of input signals via a serial interface of the power amplifier module; determining, based on the plurality of input signals, whether the power amplifier module is in a first operating mode or a second operating mode; in response to determining that the power amplifier module is in the first operating mode, setting a mode of one or more switches using a synchronous communication protocol at least by outputting a synchronous clock signal and a data signal; and in response to determining that the power amplifier module is in the second operating mode, setting a mode of a coupler module using an asynchronous communication protocol at least by outputting a first asynchronous control signal and a second asynchronous control signal. 10. The method of claim 9 further comprising determining whether the power amplifier module is in the first operating mode or in the second operating mode based at least in part on the plurality of input signals received via the serial interface. 11. The method of claim 9 further comprising asserting an enable signal during communication using the synchronous communication protocol. 12. The method of claim 11 further comprising de-asserting the enable signal during communication using the asynchronous communication protocol wherein the first and second asynchronous control signals are provided to the coupler module in an asynchronous manner. 13. The method of claim 11 further comprising storing and maintaining, in one or more latches, logic levels of the first and second asynchronous control signals from a first time period when the enable signal is asserted until a second time period when the asserted enable signal is de-asserted. 14. The method of claim 9 wherein the synchronous clock signal has a constant frequency. 15. The method of claim 9 wherein the first and second asynchronous control signals are provided to the coupler module while the power amplifier module is transmitting data via one or more antennas connected to the power amplifier module. 16. The method of claim 9 further comprising determining logic levels of the first and second asynchronous control signals based at least in part on the plurality of input signals received via the serial interface. 17. The method of claim 16 further comprising storing and maintaining, in one or more latches, the logic levels of the first and second asynchronous control signals from a first time period when the power amplifier module switches from the second operating mode to the first operating mode until a second time period when the power amplifier module switches from the first operating mode to the second operating mode. 18. A wireless communication device comprising: a transceiver configured to output a plurality of transmission paths; an antenna configured to output a signal corresponding to at least one of the transmission paths; and a power amplifier module in communication with the transceiver and the antenna and having one or more switches, a coupler module, a plurality of input signal pins configured to receive a plurality of input signals, and a controller having at least first and second output terminals and configured, when the power amplifier module is in a first operating mode, to set a mode of the one or more switches using a synchronous communication protocol in which the controller outputs a synchronous clock signal on the first output terminal and a data signal on the second output terminal, the controller further configured, when the power amplifier module is in a second operating mode, to set a mode of the coupler module using an asynchronous communication protocol in which the controller outputs a first asynchronous control signal on the first output terminal and a second asynchronous control signal on the second output terminal. 19. The wireless communication device of claim 18 wherein the power amplifier module is further configured to refrain from providing the synchronous clock signal to the one or more switches when the wireless communication device is transmitting data via the antenna. 20. The wireless communication device of claim 18 wherein the controller is further configured to change the mode of the coupler module only when the power amplifier module is in the second operating mode.