Front end architecture with intermittent signaling mode

What is claimed is: 1. An electronically-implemented method of providing radio frequency signals to an antenna, the electronically-implemented method comprising: providing a radio frequency signal to the antenna, the radio frequency signal being generated by a first signal path that includes a first band pass filter, and the radio frequency signal being within a specified frequency band; receiving a signal associated with an intermittent emissions specification; and responsive to said receiving, changing a state of a switch to cause a different radio frequency signal in accordance with the intermittent emissions specification to be provided to the antenna, the different radio frequency signal being generated by a second signal path that includes a second band pass filter having a higher out of band attenuation than the first band pass filter, and the different radio frequency signal being within the specified frequency band. 2. The electronically-implemented method of claim 1 further comprising generating the different radio frequency signal such that the different radio frequency signal is associated with a higher linearity than the radio frequency signal. 3. The electronically-implemented method of claim 1 wherein the first signal path has a lower insertion loss than the second signal path. 4. The electronically-implemented method of claim 1 wherein the method is performed by a cellular phone. 5. The electronically-implemented method of claim 1 wherein said receiving includes receiving the signal associated with the intermittent emissions specification using the antenna. 6. The electronically-implemented method of claim 1 wherein the first band pass filter is an acoustic wave filter. 7. The electronically-implemented method of claim 1 wherein the intermittent emissions specification is a network signaling case defined by a wireless communication standard. 8. The electronically-implemented method of claim 1 wherein the intermittent emissions specification is an NS_07 specification. 9. The electronically-implemented method of claim 1 wherein the intermittent emissions specification is associated with interference from an environment around a mobile device that includes the antenna. 10. The electronically-implemented method of claim 1 wherein the intermittent emissions specification is associated with interference within a mobile device that includes the antenna. 11. A mobile device comprising: a first transmit path including a first band pass filter, the first transmit path configured to provide a first radio frequency signal, the first radio frequency signal being within a specified frequency band; a second transmit path including a second band pass filter that has a higher out of band attenuation than the first band pass filter, the second transmit path configured to provide a second radio frequency signal, the second radio frequency signal being within the specified frequency band; an antenna; and a switch element configured to electrically couple the antenna to the first transmit path in a first state and to electrically couple the antenna to the second transmit path in a second state, the switch element being further configured to toggle from the first state to the second state in response to the mobile device receiving a signal associated with an intermittent signaling mode. 12. The mobile device of claim 11 wherein the first transmit path has a lower insertion loss than the second transmit path. 13. The mobile device of claim 11 wherein the higher out of band attenuation is at frequencies that are below a pass band of the second band pass filter. 14. The mobile device of claim 11 wherein the intermittent signaling mode is a network signaling case defined by a wireless communication standard. 15. A front end comprising: a first transmit path including a first acoustic wave filter, the first transmit path configured to provide a first radio frequency signal, the first radio frequency signal being within a specified frequency band; a second transmit path including a second acoustic wave filter that has a higher out of band attenuation than the first acoustic wave filter, the second transmit path configured to provide a second radio frequency signal, the second radio frequency signal being within the specified frequency band; and a switch element configured to electrically couple an antenna port to the first transmit path in a first state and to electrically couple the antenna port to the second transmit path in a second state, the switch element being further configured to toggle from the first state to the second state in response to a signal associated with an intermittent emissions specification. 16. The front end of claim 15 wherein the first transmit path has a lower insertion loss than the second transmit path. 17. The front end of claim 15 wherein the second transmit path includes a notch filter arranged to filter a harmonic of the second radio frequency signal. 18. The front end of claim 15 wherein the second acoustic wave filter has a frequency response that is asymmetric about a pass band of the second acoustic wave filter. 19. The front end of claim 15 wherein the intermittent emissions specification is a network signaling case defined by a wireless communication standard. 20. The front end of claim 15 wherein the intermittent emissions specification is associated with interference from within the front end.