Wave guide with electric power conduit

What is claimed is: 1. A wave guide assembly for a control and diagnostic system for a machine, the wave guide assembly comprising: a housing defining an exterior surface and an internal cavity extending between distal ends; an end fitting attached at each of the ends of the housing; at least one wave guide within the internal cavity defining a wave propagation passage for at least one wave form signal; and at least one conductor within the internal cavity separate from the wave guide. 2. The wave guide assembly as recited in claim 1 , including a coupling branching the wave propagation passage into two separate paths extending in different direction, the coupling including three ends with a wave propagation passage and one of an electrical power conductor and an optic fiber extending to each of the three ends. 3. The wave guide assembly as recited in claim 2 , wherein each of the three ends of the coupling includes a face and each face includes a connector corresponding with the at least one conductor. 4. The wave guide assembly as recited in claim 1 , wherein the wave propagation passage comprises a rectangular wave propagation passage in cross-section within the internal cavity. 5. The wave guide assembly as recited in claim 1 , wherein the wave propagation passage comprises a circular wave propagation passage in a cross-section within the internal cavity. 6. The wave guide assembly as recited in claim 1 , wherein the wave propagation passage is a separate part inserted into the housing. 7. The wave guide assembly as recited in claim 1 , including a dielectric within the wave propagation passage. 8. The wave guide assembly as recited in claim 1 , wherein the wave propagation passage defines a size corresponding with a desired frequency range of the wave form signal. 9. The wave guide assembly as recited in claim 1 , wherein the housing comprises a tube with a circular external cross-section and the wave propagation passage is contained within the cross-section. 10. The wave guide assembly as recited in claim 9 , wherein outer walls of the wave propagation passage cooperate with interior walls of the internal cavity to define conductor passages for at least one of an electrical conductor and an optic fiber. 11. The wave guide assembly as recited in claim 10 , where the conductor passages are defined on either side of the wave guide. 12. The wave guide assembly as recited in claim 10 , wherein the conductor comprises one of an electrical conductor and an optic fiber disposed in each of the conductor passages. 13. The wave guide assembly as recited in claim 10 , including support members supporting the wave propagation passage within the internal cavity, the support members defining cavities separated from the conductor passages. 14. A control and diagnostic system for a machine comprising: a main transceiver mounted proximate the machine, the transceiver generating and receiving radio frequency waves corresponding to information for control and monitoring of engine operation; a housing defining an exterior surface and an internal cavity extending between distal ends, a wave guide within the internal cavity defining a wave propagation passage for a wave form signal, and a conductor passage for at least one conductor extending within the internal cavity separate from the wave guide; and at least one remote transceiver attached to an end of the wave guide assembly and in communication with the main transceiver through a wave form signal communicated through the wave guide. 15. The control and diagnostic system as recited in claim 14 , including an end fitting attached to each end of the housing for coupling the housing to the main transceiver at one end and to the at least one remote transceiver at another end and a coupling branching the wave propagation passage into two separate paths extending in different directions to a corresponding one of the at least one transceivers, the coupling including three ends. 16. A gas turbine engine comprising: a control and diagnostic system including: a main transceiver mounted proximate the gas turbine engine, the main transceiver generating and receiving radio frequency waves corresponding to information for control and monitoring of engine operation; a wave guide assembly including a tubular housing defining an exterior surface and an internal cavity extending between distal ends, a wave guide within the internal cavity defines a transmission pathway for a wave form signal, and a passage for a conductor extending within the internal cavity separate from the wave guide; at least one remote transceiver attached to an end of the wave guide assembly and in communication with the main transceiver through a wave form signal communicated through the wave guide. 17. The gas turbine engine as recited in claim 16 , including an end fitting attached to each end of the housing for coupling the housing to the main transceiver, the at least one remote transceiver and to a coupling, the coupling including three ends branching the wave propagation passage into two separate paths extending in different directions. 18. The gas turbine engine as recited in claim 16 , wherein the wave guide is a separate part inserted into the tubular housing. 19. The gas turbine engine as recited in claim 16 , wherein wave guide comprises an internal cross-section that defines a size corresponding with a desired frequency range of a wave form signal.