Surface wave transmission device with RF housing and methods for use therewith

What is claimed is: 1. A transmission device comprising: a coupler configured to convert a transmit signal to transmitted first guided electromagnetic waves that propagate along a surface of a transmission medium without requiring an electrical return path, the coupler further configured to convert to a receive signal, received first guided electromagnetic waves from a remote device that propagate along the surface of the transmission medium without requiring an electrical return path; a housing configured to provide environmental protection to the coupler, the housing including: an aperture section configured to pass the transmitted first guided electromagnetic waves from the coupler through an aperture side of the housing, the aperture section further configured to pass the received first guided electromagnetic waves to the coupler through the aperture side of the housing; a non-aperture section configured to absorb radio frequency (RF) signals in a frequency range of the transmit signal and a frequency range of the receive signal, wherein the aperture section and the non-aperture section of the housing are integrally constructed of a radio-frequency transparent material and wherein the non-aperture section is layered with a radio-frequency absorbing material; and an isolator configured to suppress transmissions, by the coupler, of transmitted second guided electromagnetic waves on a non-aperture side of the housing and further configured to suppress reception, by the coupler, of received second guided electromagnetic waves on the non-aperture side of the housing, the isolator including one or more first absorbing elements configured to suppress the transmitted second guided electromagnetic waves and the received second guided electromagnetic waves, the coupler including one or more conductive isolators configured to reflect the received second guided electromagnetic waves on the non-aperture side of the housing. 2. The transmission device of claim 1 , wherein the aperture section comprises an RF-transparent material and the non-aperture section comprises an RF absorbing material. 3. The transmission device of claim 1 , wherein the aperture section and the non-aperture section are integrally constructed of an RF-transparent material and wherein the RF-transparent material of the non-aperture section is coated with an RF absorbing material. 4. The transmission device of claim 1 , wherein the isolator includes one or more first conductive isolators configured to reflect the transmitted second guided electromagnetic waves away from the non-aperture side of the housing. 5. The transmission device of claim 4 , wherein the one or more first conductive isolators are further configured to reflect the received second guided electromagnetic waves on the non-aperture side of the housing away from the coupler. 6. The transmission device of claim 5 , wherein the coupler includes one or more second conductive isolators configured to reflect the transmitted second guided electromagnetic waves away from the non-aperture side of the housing. 7. The transmission device of claim 1 , wherein the one or more first absorbing elements including absorbing discs that substantially surround, and are aligned perpendicular to, the transmission medium. 8. The transmission device of claim 7 , wherein the coupler includes a horn launcher and wherein the coupler further includes one or more first absorbing elements comprising absorbing discs aligned perpendicular to the transmission medium. 9. The transmission device of claim 1 , wherein the one or more first absorbing elements are further configured to suppress the received second guided electromagnetic waves. 10. The transmission device of claim 9 , wherein the coupler includes one or more second absorbing elements configured to suppress the transmitted second guided electromagnetic waves. 11. The transmission device of claim 4 , wherein the coupler includes a planar launcher and wherein the one or more first conductive isolators are planar conductors aligned in a plane with the planar launcher. 12. The transmission device of claim 4 , wherein the coupler includes a horn launcher and wherein the one or more first conductive isolators are reflective discs aligned perpendicular to the transmission medium. 13. The transmission device of claim 1 , further comprising: a transceiver configured to generate the transmit signal and to receive the receive signal; wherein the housing is further configured to provide environmental protection to the transceiver. 14. The transmission device of claim 13 , further comprising: a signal interface coupled to the transceiver; wherein the housing is further configured to provide environmental protection to the signal interface. 15. The transmission device of claim 1 , wherein the housing has a prolate ellipsoid shape with an axis of rotation collinearly aligned with a longitudinal axis of the transmission medium. 16. A method comprising: converting, via a coupler, a transmit signal to transmitted first guided electromagnetic waves that propagate along a surface of a transmission medium without requiring an electrical return path; converting to a receive signal, via the coupler, received first guided electromagnetic waves from a remote device that propagate along the surface of the transmission medium without requiring an electrical return path; passing, via an aperture section of a housing, the transmitted first guided electromagnetic waves from the coupler through an aperture side of the housing; passing, via the aperture section of the housing, the received first guided electromagnetic waves to the coupler through the aperture side of the housing; absorbing, via a non-aperture section of the housing, radio frequency (RF) signals in a frequency range of the transmit signal and a frequency range of the receive signal; suppressing, via one or more first absorbing elements, transmissions, by the coupler, of transmitted second guided electromagnetic waves on a non-aperture side of the housing, and suppressing reception, by the coupler, of received second guided transmission waves on the non-aperture side of the housing; and reflecting, via one or more conductive isolators of the coupler, the received second guided transmission waves on the non-aperture side of the housing. 17. The method of claim 16 , wherein the aperture section comprises an RF-transparent material and the non-aperture section comprises an RF absorbing material. 18. The method of claim 16 , further comprising: suppressing, via an isolator, transmissions, by the coupler, of transmitted second guided electromagnetic waves on a non-aperture side of the housing; and suppressing, via the isolator, reception, by the coupler, of received second guided electromagnetic waves on the non-aperture side of the housing, wherein the isolator comprises one or more absorbing discs that substantially surround, and are aligned perpendicular to, the transmission medium. 19. A device comprising: coupler means for converting a transmit signal to transmitted guided electromagnetic waves that propagate along a surface of a transmission medium without requiring an electrical return path, wherein the coupler means for converting is further operable to convert to a receive signal, received guided electromagnetic waves from a remote device that propagate along the surface of the transmission medium without requiring an electrical return path, wherein the coupler means for converting further includes one or more first absorbing planar